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3900 Series & 5900 Series Base Station
V100R015C10
Node Performance Counter
Reference
Issue
Draft C
Date
2019-04-10
HUAWEI TECHNOLOGIES CO., LTD.
Copyright © Huawei Technologies Co., Ltd. 2019. All rights reserved.
No part of this document may be reproduced or transmitted in any form or by any means without prior written
consent of Huawei Technologies Co., Ltd.
Trademarks and Permissions
and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd.
All other trademarks and trade names mentioned in this document are the property of their respective
holders.
Notice
The purchased products, services and features are stipulated by the contract made between Huawei and the
customer. All or part of the products, services and features described in this document may not be within the
purchase scope or the usage scope. Unless otherwise specified in the contract, all statements, information,
and recommendations in this document are provided "AS IS" without warranties, guarantees or
representations of any kind, either express or implied.
The information in this document is subject to change without notice. Every effort has been made in the
preparation of this document to ensure accuracy of the contents, but all statements, information, and
recommendations in this document do not constitute a warranty of any kind, express or implied.
Huawei Technologies Co., Ltd.
Address:
Huawei Industrial Base
Bantian, Longgang
Shenzhen 518129
People's Republic of China
Website:
http://www.huawei.com
Email:
support@huawei.com
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
About This Document
About This Document
This section describes performance counters for 3900 and 5900 series base stations.
Document Structure
Figure 1 shows the document structure.
Figure 1 Document structure
Table 1 explains the terms shown in Figure 1.
Table 1 Terms
Term
Explanation
Object type
One object type contains one or more function subsets.
Function Subset
One function subset contains one or more counters but
belongs to only one object type.
Counter
Counters are the basic elements of performance
measurement. One counter can belong to only one function
subset.
Counter Item Description
Table 2 lists the description of each counter item.
Issue Draft C (2019-04-10)
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Node Performance Counter Reference
About This Document
Table 2 Description of each counter item
Item
Description
Object
type
Overview
Definition and function of a object type.
Function SubSets
Function subsets contained in a object type.
Functio
n Set
FunctionSet
Name
Name of the function set.
Functio
n
Subset
Overview
Definition of a function subset and the flowchart for
measuring related counters.
Counters
Counters contained in a function subset.
Counter
Relationship
A table that lists parent counters and their child counters in
a table. Note that the child counters listed in the table cover
only typical scenarios. That is, some scenarios are not
covered by any counter. Therefore, the value of a parent
counter is larger than or equal to the sum of the values of its
child counters. Some counters may not be involved in any
counter relationship.
One function set contains one or more function subsets.
NOTE
If the value of the parent counter exceeds the sum of the values of
the child counters, the value difference is the items that are not
counted.
Counter
Issue Draft C (2019-04-10)
Counter ID
A string of digits that uniquely identifies a counter.
Counter Name
Name of a counter. It is composed of a string of uppercase
letters, lowercase letters, and dots.
Counter
Description
A phrase that provides a simple description about a counter.
Description
Detailed description about a counter.
Measurement
Point
Condition for triggering counter measurement.
Formula
Relationship among counters.
Unit
Unit of a counter.
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Node Performance Counter Reference
Item
About This Document
Description
Related Features
Features related to a counter are listed in feature ID and
feature name. A counter is used to estimate related features.
Related features are listed as follows in different scenarios:
l If a counter has no related features, no features are
listed.
l A counter has related features,
– If this counter applies only to GSM, UMTS, LTE, or
SingleRAN, the features are related to such RAT.
– If this counter applies to multiple RATs in GSM,
UMTS, LTE, and SingleRAN, the features are a set
of features related to all associated RATs. Only the
feature IDs and feature names of the features for
related RATs are listed.
Issue Draft C (2019-04-10)
Original Release
The version for which the counter was first available.
Network Element
NE Type of a product displayed on the Network
Management. For a 3900 series base station (which is a
DBS3900, DBS3900 LampSite, BTS3900, BTS3900A,
BTS3900L, BTS3900AL, or BTS3900C), the value can be
BTS3900, BTS3900 WCDMA, BTS3900 LTE, and
BTS3900 5G. For a 5900 series base station (which is a
DBS5900, DBS5900 LampSite, BTS5900, BTS5900A,
BTS5900L or BTS5900AL), the value can be BTS5900,
BTS5900 WCDMA, BTS5900 LTE, and BTS5900 5G.
Among these values, BTS3900 or BTS5900 indicates a coMPT base station; BTS3900 WCDMA or BTS5900
WCDMA indicates a UMTS base station; BTS3900 LTE or
BTS5900 LTE indicates an LTE base station; BTS3900 5G
or BTS5900 5G indicates an 5G base station.
Copyright © Huawei Technologies Co., Ltd.
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Contents
Contents
About This Document.....................................................................................................................ii
1 Node Performance Counter Measurement............................................................................... 1
1.1 Equipment-related Measurement....................................................................................................................................1
1.1.1 Measurement of Node Performance (NODE)............................................................................................................. 1
1.1.1.1 Node Equipment Measurement (Equipment.Node)................................................................................................. 2
1.1.1.1.1 PSU shutdown total time....................................................................................................................................... 4
1.1.1.1.2 The sum of power consumption of all boards in UMTS....................................................................................... 5
1.1.1.1.3 Power consumption measured by the power system of UMTS.............................................................................6
1.1.1.1.4 The sum of power consumption of all boards in the LTE..................................................................................... 8
1.1.1.1.5 Power consumption measured by the power system of the LTE...........................................................................9
1.1.1.1.6 The sum of power consumption of all boards in the GSM..................................................................................10
1.1.1.1.7 Power consumption measured by the power system of the GSM....................................................................... 11
1.1.1.1.8 The sum of power consumption of all boards in the RFA...................................................................................13
1.1.1.1.9 Power consumption measured by the power system of the RFA........................................................................ 14
1.1.1.1.10 The sum of power consumption of all boards in NR.........................................................................................15
1.1.1.1.11 Power consumption measured by the power system of NR.............................................................................. 16
1.1.1.2 Base Station Clock DA Measurement (ClockDA.Node)....................................................................................... 17
1.1.1.2.1 Maximum Current DA Value of the Base Station Clock.....................................................................................18
1.1.1.2.2 Minimum Current DA Value of the Base Station Clock..................................................................................... 19
1.1.1.2.3 Center DA Value of the Base Station Clock........................................................................................................20
1.1.1.3 Clock Source Measurement (ClockSource.Node)..................................................................................................21
1.1.1.3.1 VS.Node.ClockSource.Grade1............................................................................................................................ 22
1.1.1.3.2 VS.Node.ClockSource.Grade2............................................................................................................................ 23
1.1.2 Measurement of BBU Board Performance (BBUBoard).......................................................................................... 24
1.1.2.1 BBU Board Load Measurement (Load.BBUBoard).............................................................................................. 24
1.1.2.1.1 The number of times of CPU Use Rate Overload............................................................................................... 28
1.1.2.1.2 Maximum and Average Board CPU Usage......................................................................................................... 29
1.1.2.1.3 Board CPU Usage Exceeding the Threshold (%)................................................................................................31
1.1.2.1.4 Maximum and Average Board Main Core Load................................................................................................. 32
1.1.2.1.5 Percentage of Board Main Core Overload...........................................................................................................34
1.1.2.1.6 Number of Times of Board Main Core Overload................................................................................................35
1.1.3 Measurement of GNSS Performance (GNSS)...........................................................................................................36
1.1.3.1 Traced GNSS Satellites Measurement (SatellitesTraced.GNSS)........................................................................... 36
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1.1.3.1.1 Number of times that the number of traced GNSS satellites falls in level 0....................................................... 39
1.1.3.1.2 Number of times that the number of traced GNSS satellites falls in level 1....................................................... 40
1.1.3.1.3 Number of times that the number of traced GNSS satellites falls in level 2....................................................... 41
1.1.3.1.4 Number of times that the number of traced GNSS satellites falls in level 3....................................................... 42
1.1.3.1.5 Number of times that the number of traced GNSS satellites falls in level 4....................................................... 43
1.1.3.1.6 Average number of traced GNSS satellites......................................................................................................... 44
1.1.4 Measurement of RF Module Performance (RADIOEQM)....................................................................................... 45
1.1.4.1 CPRI Physical Layer Performance Measurement (RADIOEQM.CPRI)............................................................... 45
1.1.4.1.1 VS.RADIOEQM.CPRI0.DES............................................................................................................................. 50
1.1.4.1.2 VS.RADIOEQM.CPRI0.DSES........................................................................................................................... 51
1.1.4.1.3 VS.RADIOEQM.CPRI0.DUAS..........................................................................................................................52
1.1.4.1.4 VS.RADIOEQM.CPRI0.DIVS........................................................................................................................... 53
1.1.4.1.5 VS.RADIOEQM.CPRI0.DERR.......................................................................................................................... 54
1.1.4.1.6 VS.RADIOEQM.CPRI0.UES............................................................................................................................. 55
1.1.4.1.7 VS.RADIOEQM.CPRI0.USES........................................................................................................................... 56
1.1.4.1.8 VS.RADIOEQM.CPRI0.UUAS..........................................................................................................................57
1.1.4.1.9 VS.RADIOEQM.CPRI0.UIVS........................................................................................................................... 58
1.1.4.1.10 VS.RADIOEQM.CPRI0.UERR........................................................................................................................ 59
1.1.4.1.11 VS.RADIOEQM.CPRI1.DES........................................................................................................................... 60
1.1.4.1.12 VS.RADIOEQM.CPRI1.DSES......................................................................................................................... 61
1.1.4.1.13 VS.RADIOEQM.CPRI1.DUAS........................................................................................................................62
1.1.4.1.14 VS.RADIOEQM.CPRI1.DIVS......................................................................................................................... 63
1.1.4.1.15 VS.RADIOEQM.CPRI1.DERR........................................................................................................................ 64
1.1.4.1.16 VS.RADIOEQM.CPRI1.UES........................................................................................................................... 65
1.1.4.1.17 VS.RADIOEQM.CPRI1.USES......................................................................................................................... 66
1.1.4.1.18 VS.RADIOEQM.CPRI1.UUAS........................................................................................................................67
1.1.4.1.19 VS.RADIOEQM.CPRI1.UIVS......................................................................................................................... 68
1.1.4.1.20 VS.RADIOEQM.CPRI1.UERR........................................................................................................................ 69
1.1.4.2 RF Unit Power Measurement (RADIOEQM.Power).............................................................................................70
1.1.4.2.1 RF Unit TX Power...............................................................................................................................................71
1.1.4.3 Measurement of RF Unit Availability Duration (RADIOEQM.Avail).................................................................. 72
1.1.4.3.1 VS.RADIOEQM.Avail.Dur.................................................................................................................................73
1.1.5 Measurement of CXU Performance (CXU).............................................................................................................. 73
1.1.5.1 CPRI Physical Layer Performance Measurement for the CXU (CXU.CPRI)....................................................... 74
1.1.5.1.1 VS.CXU.XCI0.DES............................................................................................................................................ 86
1.1.5.1.2 VS.CXU.XCI0.DSES.......................................................................................................................................... 87
1.1.5.1.3 VS.CXU.XCI0.DUAS......................................................................................................................................... 88
1.1.5.1.4 VS.CXU.XCI0.DIVS.......................................................................................................................................... 89
1.1.5.1.5 VS.CXU.XCI0.DERR......................................................................................................................................... 90
1.1.5.1.6 VS.CXU.XCI0.UES............................................................................................................................................ 91
1.1.5.1.7 VS.CXU.XCI0.USES.......................................................................................................................................... 92
1.1.5.1.8 VS.CXU.XCI0.UUAS......................................................................................................................................... 93
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1.1.5.1.9 VS.CXU.XCI0.UIVS.......................................................................................................................................... 94
1.1.5.1.10 VS.CXU.XCI0.UERR....................................................................................................................................... 95
1.1.5.1.11 VS.CXU.XCI1.DES.......................................................................................................................................... 96
1.1.5.1.12 VS.CXU.XCI1.DSES........................................................................................................................................ 97
1.1.5.1.13 VS.CXU.XCI1.DUAS....................................................................................................................................... 98
1.1.5.1.14 VS.CXU.XCI1.DIVS........................................................................................................................................ 99
1.1.5.1.15 VS.CXU.XCI1.DERR..................................................................................................................................... 100
1.1.5.1.16 VS.CXU.XCI1.UES........................................................................................................................................ 101
1.1.5.1.17 VS.CXU.XCI1.USES...................................................................................................................................... 102
1.1.5.1.18 VS.CXU.XCI1.UUAS..................................................................................................................................... 103
1.1.5.1.19 VS.CXU.XCI1.UIVS...................................................................................................................................... 104
1.1.5.1.20 VS.CXU.XCI1.UERR..................................................................................................................................... 105
1.1.5.1.21 VS.CXU.XCI0.SUBPORT0.DES................................................................................................................... 106
1.1.5.1.22 VS.CXU.XCI0.SUBPORT0.DSES................................................................................................................. 107
1.1.5.1.23 VS.CXU.XCI0.SUBPORT0.DUAS................................................................................................................ 108
1.1.5.1.24 VS.CXU.XCI0.SUBPORT0.DIVS..................................................................................................................109
1.1.5.1.25 VS.CXU.XCI0.SUBPORT0.DERR.................................................................................................................110
1.1.5.1.26 VS.CXU.XCI0.SUBPORT0.UES....................................................................................................................111
1.1.5.1.27 VS.CXU.XCI0.SUBPORT0.USES................................................................................................................. 112
1.1.5.1.28 VS.CXU.XCI0.SUBPORT0.UUAS................................................................................................................ 113
1.1.5.1.29 VS.CXU.XCI0.SUBPORT0.UIVS..................................................................................................................114
1.1.5.1.30 VS.CXU.XCI0.SUBPORT0.UERR.................................................................................................................115
1.1.5.1.31 VS.CXU.XCI0.SUBPORT1.DES....................................................................................................................116
1.1.5.1.32 VS.CXU.XCI0.SUBPORT1.DSES................................................................................................................. 117
1.1.5.1.33 VS.CXU.XCI0.SUBPORT1.DUAS................................................................................................................ 118
1.1.5.1.34 VS.CXU.XCI0.SUBPORT1.DIVS..................................................................................................................119
1.1.5.1.35 VS.CXU.XCI0.SUBPORT1.DERR................................................................................................................ 120
1.1.5.1.36 VS.CXU.XCI0.SUBPORT1.UES................................................................................................................... 121
1.1.5.1.37 VS.CXU.XCI0.SUBPORT1.USES................................................................................................................. 122
1.1.5.1.38 VS.CXU.XCI0.SUBPORT1.UUAS................................................................................................................ 123
1.1.5.1.39 VS.CXU.XCI0.SUBPORT1.UIVS..................................................................................................................124
1.1.5.1.40 VS.CXU.XCI0.SUBPORT1.UERR................................................................................................................ 125
1.1.5.1.41 VS.CXU.XCI1.SUBPORT0.DES................................................................................................................... 126
1.1.5.1.42 VS.CXU.XCI1.SUBPORT0.DSES................................................................................................................. 127
1.1.5.1.43 VS.CXU.XCI1.SUBPORT0.DUAS................................................................................................................ 128
1.1.5.1.44 VS.CXU.XCI1.SUBPORT0.DIVS..................................................................................................................129
1.1.5.1.45 VS.CXU.XCI1.SUBPORT0.DERR................................................................................................................ 130
1.1.5.1.46 VS.CXU.XCI1.SUBPORT0.UES................................................................................................................... 131
1.1.5.1.47 VS.CXU.XCI1.SUBPORT0.USES................................................................................................................. 132
1.1.5.1.48 VS.CXU.XCI1.SUBPORT0.UUAS................................................................................................................ 133
1.1.5.1.49 VS.CXU.XCI1.SUBPORT0.UIVS..................................................................................................................134
1.1.5.1.50 VS.CXU.XCI1.SUBPORT0.UERR................................................................................................................ 135
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1.1.5.1.51 VS.CXU.XCI1.SUBPORT1.DES................................................................................................................... 136
1.1.5.1.52 VS.CXU.XCI1.SUBPORT1.DSES................................................................................................................. 137
1.1.5.1.53 VS.CXU.XCI1.SUBPORT1.DUAS................................................................................................................ 138
1.1.5.1.54 VS.CXU.XCI1.SUBPORT1.DIVS..................................................................................................................139
1.1.5.1.55 VS.CXU.XCI1.SUBPORT1.DERR................................................................................................................ 140
1.1.5.1.56 VS.CXU.XCI1.SUBPORT1.UES................................................................................................................... 141
1.1.5.1.57 VS.CXU.XCI1.SUBPORT1.USES................................................................................................................. 142
1.1.5.1.58 VS.CXU.XCI1.SUBPORT1.UUAS................................................................................................................ 143
1.1.5.1.59 VS.CXU.XCI1.SUBPORT1.UIVS..................................................................................................................144
1.1.5.1.60 VS.CXU.XCI1.SUBPORT1.UERR................................................................................................................ 145
1.1.5.1.61 VS.CXU.CPRI0.DES...................................................................................................................................... 146
1.1.5.1.62 VS.CXU.CPRI0.DSES.................................................................................................................................... 147
1.1.5.1.63 VS.CXU.CPRI0.DUAS................................................................................................................................... 148
1.1.5.1.64 VS.CXU.CPRI0.DIVS.................................................................................................................................... 149
1.1.5.1.65 VS.CXU.CPRI0.DERR................................................................................................................................... 150
1.1.5.1.66 VS.CXU.CPRI0.UES...................................................................................................................................... 151
1.1.5.1.67 VS.CXU.CPRI0.USES.................................................................................................................................... 152
1.1.5.1.68 VS.CXU.CPRI0.UUAS................................................................................................................................... 153
1.1.5.1.69 VS.CXU.CPRI0.UIVS.................................................................................................................................... 154
1.1.5.1.70 VS.CXU.CPRI0.UERR................................................................................................................................... 155
1.1.5.1.71 VS.CXU.CPRI1.DES...................................................................................................................................... 156
1.1.5.1.72 VS.CXU.CPRI1.DSES.................................................................................................................................... 157
1.1.5.1.73 VS.CXU.CPRI1.DUAS................................................................................................................................... 158
1.1.5.1.74 VS.CXU.CPRI1.DIVS.................................................................................................................................... 159
1.1.5.1.75 VS.CXU.CPRI1.DERR................................................................................................................................... 160
1.1.5.1.76 VS.CXU.CPRI1.UES...................................................................................................................................... 161
1.1.5.1.77 VS.CXU.CPRI1.USES.................................................................................................................................... 162
1.1.5.1.78 VS.CXU.CPRI1.UUAS................................................................................................................................... 163
1.1.5.1.79 VS.CXU.CPRI1.UIVS.................................................................................................................................... 164
1.1.5.1.80 VS.CXU.CPRI1.UERR................................................................................................................................... 165
1.1.5.1.81 VS.CXU.CPRI9.DES...................................................................................................................................... 166
1.1.5.1.82 VS.CXU.CPRI9.DSES.................................................................................................................................... 167
1.1.5.1.83 VS.CXU.CPRI9.DUAS................................................................................................................................... 168
1.1.5.1.84 VS.CXU.CPRI9.DIVS.................................................................................................................................... 169
1.1.5.1.85 VS.CXU.CPRI9.DERR................................................................................................................................... 170
1.1.5.1.86 VS.CXU.CPRI9.UES...................................................................................................................................... 171
1.1.5.1.87 VS.CXU.CPRI9.USES.................................................................................................................................... 172
1.1.5.1.88 VS.CXU.CPRI9.UUAS................................................................................................................................... 173
1.1.5.1.89 VS.CXU.CPRI9.UIVS.................................................................................................................................... 174
1.1.5.1.90 VS.CXU.CPRI9.UERR................................................................................................................................... 175
1.1.5.1.91 VS.CXU.CPRI10.DES.................................................................................................................................... 176
1.1.5.1.92 VS.CXU.CPRI10.DSES.................................................................................................................................. 177
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1.1.5.1.93 VS.CXU.CPRI10.DUAS................................................................................................................................. 178
1.1.5.1.94 VS.CXU.CPRI10.DIVS.................................................................................................................................. 179
1.1.5.1.95 VS.CXU.CPRI10.DERR................................................................................................................................. 180
1.1.5.1.96 VS.CXU.CPRI10.UES.................................................................................................................................... 181
1.1.5.1.97 VS.CXU.CPRI10.USES.................................................................................................................................. 182
1.1.5.1.98 VS.CXU.CPRI10.UUAS................................................................................................................................. 183
1.1.5.1.99 VS.CXU.CPRI10.UIVS.................................................................................................................................. 184
1.1.5.1.100 VS.CXU.CPRI10.UERR............................................................................................................................... 185
1.1.5.1.101 VS.CXU.CPRI11.DES.................................................................................................................................. 186
1.1.5.1.102 VS.CXU.CPRI11.DSES................................................................................................................................ 187
1.1.5.1.103 VS.CXU.CPRI11.DUAS............................................................................................................................... 188
1.1.5.1.104 VS.CXU.CPRI11.DIVS.................................................................................................................................189
1.1.5.1.105 VS.CXU.CPRI11.DERR............................................................................................................................... 190
1.1.5.1.106 VS.CXU.CPRI11.UES.................................................................................................................................. 191
1.1.5.1.107 VS.CXU.CPRI11.USES................................................................................................................................ 192
1.1.5.1.108 VS.CXU.CPRI11.UUAS............................................................................................................................... 193
1.1.5.1.109 VS.CXU.CPRI11.UIVS.................................................................................................................................194
1.1.5.1.110 VS.CXU.CPRI11.UERR............................................................................................................................... 195
1.1.5.2 Measurement of CXU Availability Duration (CXU.Avail).................................................................................. 195
1.1.5.2.1 VS.CXU.Avail.Dur............................................................................................................................................196
1.1.6 Measurement of eCPRI Port Performance (ECPRIPORT)..................................................................................... 197
1.1.6.1 Measurement of eCPRI Port Performance (Physical.ECPRI)..............................................................................197
1.1.6.1.1 Number of Bytes Transmitted from an eCPRI Port...........................................................................................200
1.1.6.1.2 Number of Bytes Received by an eCPRI Port...................................................................................................201
1.1.6.1.3 Number of Packets Transmitted from an eCPRI Port........................................................................................202
1.1.6.1.4 Number of Packets Received by an eCPRI Port................................................................................................203
1.1.6.1.5 Maximum Transmit Rate of an eCPRI Port.......................................................................................................204
1.1.6.1.6 Minimum Transmit Rate of an eCPRI Port....................................................................................................... 205
1.1.6.1.7 Average Transmit Rate of an eCPRI Port.......................................................................................................... 206
1.1.6.1.8 Maximum Receive Rate of an eCPRI Port........................................................................................................ 207
1.1.6.1.9 Minimum Receive Rate of an eCPRI Port.........................................................................................................208
1.1.6.1.10 Average Receive Rate of an eCPRI Port......................................................................................................... 209
1.1.6.1.11 Total Transmit Bandwidth of an eCPRI Port................................................................................................... 210
1.1.6.1.12 Total Receive Bandwidth of an eCPRI Port.................................................................................................... 211
1.1.6.1.13 Number of Error Packets Received by an eCPRI Port.................................................................................... 212
1.1.7 Measurement of BU Performance (BU).................................................................................................................. 212
1.1.7.1 Measurement of BU Equipment Performance (Equipment.BU)..........................................................................213
1.1.7.1.1 Power consumption of baseband unit................................................................................................................ 214
1.1.8 Measurement of BTS Board Performance (BTSBoard)..........................................................................................215
1.1.8.1 Measurement of BTS Board Equipment Performance (Equipment.BTSBoard)..................................................215
1.1.8.1.1 Power consumption of board............................................................................................................................. 216
1.1.9 Measurement of NodeB Board Performance (BOARD)......................................................................................... 217
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1.1.9.1 NodeB Board Service Measurement (TRAFFIC.BOARD)................................................................................. 218
1.1.9.1.1 The Number of Downlink CEs Configured on a Baseband Board....................................................................221
1.1.9.1.2 The Number of Uplink CEs Configured on a Baseband Board........................................................................ 222
1.1.9.1.3 Number of Downlink CEs Consumed by a Baseband Board............................................................................ 223
1.1.9.1.4 Number of Uplink CEs Consumed by a Baseband Board.................................................................................224
1.1.9.1.5 Ratio of HSDPA users on a board..................................................................................................................... 227
1.1.9.1.6 Ratio of HSUPA users on a board..................................................................................................................... 230
1.1.9.1.7 Number of UL CEs Consumed by UL Coordinating Links on the Baseband Board........................................ 233
1.1.10 Measurement of UL Resource Group Performance (ULGROUP)........................................................................236
1.1.10.1 Uplink Resource Group Measurement (TRAFFIC.ULGROUP)....................................................................... 237
1.1.10.1.1 The Number of CEs Configured on All Available Boards in an Uplink Resource Group.............................. 238
1.1.10.1.2 Number of Uplink CEs Consumed by All Cells in an Uplink Resource Group............................................. 239
1.1.10.1.3 Number of UL CEs in a UL Resource Group Consumed by Coordinating Links for All Cells..................... 242
1.1.11 Measurement of NodeB RF Module Performance (NODEBRRU).......................................................................245
1.1.11.1 Energy Saving Measurement (ENERGYSAVING.NODEBRRU).....................................................................246
1.1.11.1.1 Duration with RF Units Enabled with VAM Power Saving for NodeB.......................................................... 246
1.1.12 Measurement of Service Board Service Performance (ServiceBoard.Service).....................................................247
1.1.12.1 eNodeB Service Board User Quantity Measurement (Traffic.eNodeBServiceBoard).......................................248
1.1.12.1.1 Maximum Number of UL-Sync UEs Served by a BBP in an eNodeB........................................................... 249
1.1.12.1.2 Maximum Number of UEs Served by a BBP in an eNodeB...........................................................................250
1.1.12.1.3 Maximum Number of Scheduled UEs per TTI in the Downlink Served by a Baseband Board in an eNodeB
.......................................................................................................................................................................................... 251
1.1.12.1.4 Maximum Total Number of Scheduled UEs per TTI in the Uplink and Downlink Served by a Baseband
Board in an eNodeB......................................................................................................................................................... 252
1.1.12.1.5 Maximum Number of Scheduled UEs per TTI in the Uplink Served by a Baseband Board in an eNodeB... 253
1.1.12.2 eNodeB Service Board Call Processing Measurement (Call Attempt.eNodeBServiceBoard).......................... 254
1.1.12.2.1 Number of Call Processing Times in a Board in an eNodeB.......................................................................... 255
1.1.12.3 Board Service User-Plane CPU Usage Measurement (UserPlane.CPU.eNodeBServiceBoard)....................... 258
1.1.12.3.1 Average User-Plane CPU Usage of a Board....................................................................................................258
1.1.12.3.2 Maximum User-Plane CPU Usage of a Board................................................................................................ 259
1.1.12.3.3 Number of Times the User-Plane CPU Usage of a Board Is Greater Than the Preset Threshold...................260
1.1.13 Measurement of gNodeB Board Performance (NRBoard)....................................................................................260
1.1.13.1 gNodeB Board User-Plane CPU Measurement (UserPlane.CPU.NRBoard).....................................................261
1.1.13.1.1 Average user-plane CPU usage of a board in a gNodeB................................................................................. 262
1.1.13.1.2 Number of times that the user-plane CPU usage of a board in a gNodeB is greater than a preset threshold. 263
1.1.13.2 gNodeB Board User Count Measurement (Traffic.NRBoard)........................................................................... 263
1.1.13.2.1 Maximum Number of UEs Supported by a Baseband Processing Board....................................................... 264
1.2 Transport-related Measurement..................................................................................................................................265
1.2.1 Measurement of Ethernet Port Performance (ETHPORT)...................................................................................... 265
1.2.1.1 Ethernet Port Measurement (Physical.FEGE)...................................................................................................... 265
1.2.1.1.1 Number of Bytes on the Ethernet Port...............................................................................................................272
1.2.1.1.2 Number of Packets on the Ethernet Port........................................................................................................... 274
1.2.1.1.3 Rate on the Ethernet Port...................................................................................................................................277
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1.2.1.1.4 Available Bandwidth on the Ethernet Port........................................................................................................ 281
1.2.2 Measurement of E1/T1 Port Performance (E1T1)...................................................................................................283
1.2.2.1 E1/T1 Port Measurement (Physical.E1T1)...........................................................................................................283
1.2.2.1.1 Number of Code Type Errors on the E1/T1 Electrical Port...............................................................................288
1.2.2.1.2 Number of Base Frame Alignment Errors on the E1/T1 Electrical Port...........................................................289
1.2.2.1.3 Number of CRC Errors on the E1/T1 Electrical Port........................................................................................ 290
1.2.2.1.4 Number of Ebit Errors on the E1/T1 Port..........................................................................................................291
1.2.2.1.5 Number of Sa6 Errors on the E1/T1 Port.......................................................................................................... 293
1.2.2.1.6 Number of multiframe cycles at the E1/T1 port................................................................................................294
1.2.2.1.7 Number of Times that Frames Are Not Aligned............................................................................................... 295
1.2.2.1.8 Total Errored Seconds in the TX Direction....................................................................................................... 296
1.2.2.1.9 Total Severely Errored Seconds in the TX Direction........................................................................................ 297
1.2.2.1.10 Total Unavailable Seconds in the TX Direction.............................................................................................. 298
1.2.2.1.11 Total Errored Seconds in the RX Direction..................................................................................................... 299
1.2.2.1.12 Total Severely Errored Seconds in the RX Direction......................................................................................300
1.2.2.1.13 Total Unavailable Seconds in the RX Direction..............................................................................................301
1.2.3 Measurement of PPP Link Performance (PPP)....................................................................................................... 302
1.2.3.1 PPP Link Measurement (DataLink.PPP)..............................................................................................................303
1.2.3.1.1 Number of Packets on the PPP Link................................................................................................................. 308
1.2.3.1.2 Number of Bytes on the PPP Link.....................................................................................................................312
1.2.3.1.3 Rate on the PPP Link.........................................................................................................................................313
1.2.3.1.4 Total bandwidth of the PPP link........................................................................................................................ 317
1.2.4 Measurement of MP Group Performance (MPGRP).............................................................................................. 318
1.2.4.1 MP Group Measurement (DataLink.MPGRP)..................................................................................................... 319
1.2.4.1.1 Number of Packets on the MP Group................................................................................................................324
1.2.4.1.2 Number of Bytes on the MP Group...................................................................................................................328
1.2.4.1.3 Rate on the MP Group....................................................................................................................................... 329
1.2.4.1.4 Available Bandwidth on the MP Group.............................................................................................................333
1.2.5 Measurement of IP Layer Performance (IP)............................................................................................................334
1.2.5.1 IP Measurement (Network.IP)..............................................................................................................................334
1.2.5.1.1 Number of IP Packets........................................................................................................................................ 339
1.2.5.1.2 Number of Bytes in the IP Packets.................................................................................................................... 343
1.2.6 Measurement of IPPath Performance (IPPath)........................................................................................................347
1.2.6.1 IPPath Measurement (Transport.IPPath).............................................................................................................. 347
1.2.6.1.1 Number of real-time service packets on the IP path..........................................................................................352
1.2.6.1.2 Number of bytes of real-time service on the IP Path.........................................................................................353
1.2.6.1.3 Number of non-real-time service packets on the IP path.................................................................................. 355
1.2.6.1.4 Number of bytes of non-real-time services on the IP path................................................................................ 356
1.2.6.1.5 Number of Bytes on the IP Path........................................................................................................................ 357
1.2.6.1.6 Number of Packets on the IP Path..................................................................................................................... 359
1.2.6.1.7 Rate on the IP Path............................................................................................................................................ 361
1.2.7 Measurement of Resource Group Performance (RscGroup)...................................................................................363
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1.2.7.1 Resource Group Measurement (Transport.RscGroup)......................................................................................... 364
1.2.7.1.1 Number of Bytes in the Packets Transmitted by the Resource Group.............................................................. 369
1.2.7.1.2 Number of Packets Transmitted by the Resource Group.................................................................................. 371
1.2.7.1.3 Rates of the Resource Group............................................................................................................................. 373
1.2.7.1.4 Congestion Duration of Data Transmission in the Resource Group................................................................. 375
1.2.7.2 Flow Control Measurement (Transport.FLOWCTROL)......................................................................................376
1.2.7.2.1 Maximum UL Available Bandwidth of the Resource Group............................................................................ 382
1.2.7.2.2 Minimum UL Available Bandwidth of the Resource Group.............................................................................383
1.2.7.2.3 Average UL Available Bandwidth of the Resource Group................................................................................384
1.2.7.2.4 Maximum DL Available Bandwidth of the Resource Group............................................................................ 385
1.2.7.2.5 Minimum DL Available Bandwidth of the Resource Group.............................................................................387
1.2.7.2.6 Average DL Available Bandwidth of the Resource Group................................................................................389
1.2.7.2.7 UL Available Bandwidth Increase Times of the Resource Group.....................................................................390
1.2.7.2.8 DL Available Bandwidth Increase Times of the Resource Group Based On the Delay....................................391
1.2.7.2.9 DL Available Bandwidth Increase Times of the Resource Group Based On the Packet Loss..........................392
1.2.7.2.10 UL Available Bandwidth Decrease Times of the Resource Group Based On the Delay................................ 393
1.2.7.2.11 DL Available Bandwidth Decrease Times of the Resource Group Based On the Delay................................ 394
1.2.7.2.12 UL Available Bandwidth Decrease Times of the Resource Group Based On the Packet Loss.......................395
1.2.7.2.13 DL Available Bandwidth Decrease Times of the Resource Group Based On the Packet Loss.......................396
1.2.7.2.14 Number of Successfully Sent UL Frames in the Resource Group.................................................................. 397
1.2.7.2.15 Number of Received DL Frames in the Resource Group................................................................................398
1.2.7.2.16 Number of Lost UL Frames in the Resource Group....................................................................................... 399
1.2.7.2.17 Number of Lost DL Frames in the Resource Group....................................................................................... 400
1.2.7.2.18 Maximum UL Delay Jitter of the Resource Group......................................................................................... 401
1.2.7.2.19 Minimum UL Delay Jitter of the Resource Group.......................................................................................... 402
1.2.7.2.20 Average UL Delay Jitter of the Resource Group.............................................................................................403
1.2.7.2.21 Maximum DL Delay Jitter of the Resource Group......................................................................................... 404
1.2.7.2.22 Minimum DL Delay Jitter of the Resource Group.......................................................................................... 405
1.2.7.2.23 Average DL Delay Jitter of the Resource Group.............................................................................................406
1.2.7.2.24 UL Congestion Duration of the Resource Group............................................................................................ 407
1.2.7.2.25 DL Congestion Duration of the Resource Group............................................................................................ 408
1.2.7.3 Allocated Band Measurement (Transport.AllocatedBW).................................................................................... 409
1.2.7.3.1 Measurement of Bandwidth Allocated to the Resource Group......................................................................... 411
1.2.7.3.2 Measurement of Allocated Bandwidth Ratio in the Resource Group............................................................... 413
1.2.8 Measurement of IPPM Performance (IPPM).......................................................................................................... 414
1.2.8.1 IPPM Measurement (Transport.IPPM).................................................................................................................414
1.2.8.1.1 Byte Rate Measurements on the IP PM ............................................................................................................427
1.2.8.1.2 Packet Rate Measurements on the IP PM .........................................................................................................431
1.2.8.1.3 Forward Packet Loss Rate Measurements on the IP PM...................................................................................434
1.2.8.1.4 Jitter Measurements on the IP PM.....................................................................................................................436
1.2.8.1.5 RTT Measurements on the IP PM..................................................................................................................... 438
1.2.8.1.6 Number of Packets on the IP PM...................................................................................................................... 440
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1.2.8.1.7 High-Precision Delay Measurement on the IP PM........................................................................................... 442
1.2.8.1.8 One-Way Delay Measurement on the IP PM.................................................................................................... 444
1.2.9 Measurement of IPv6 Performance (IPv6).............................................................................................................. 446
1.2.9.1 IPv6 Measurement (Network.IPv6)......................................................................................................................447
1.2.9.1.1 Number of IPv6 Packets.................................................................................................................................... 450
1.2.9.1.2 Number of Bytes in the IPv6 Packets................................................................................................................ 454
1.2.10 Measurement of OM Channel Performance (OMCH).......................................................................................... 459
1.2.10.1 OMCH Measurement (Transport.OMCH)......................................................................................................... 459
1.2.10.1.1 Total Number of Packets Received by an OM Channel.................................................................................. 470
1.2.10.1.2 Number of In-Order Packets Received by an OM Channel............................................................................ 471
1.2.10.1.3 Number of Window Probe Packets Received by an OM Channel.................................................................. 472
1.2.10.1.4 Number of Window Size Update Packets Received by an OM Channel........................................................ 473
1.2.10.1.5 Number of Fully Duplicate Packets Received by an OM Channel................................................................. 475
1.2.10.1.6 Number of Partially Duplicate Packets Received by an OM Channel............................................................ 476
1.2.10.1.7 Number of Out-of-Order Packets Received by an OM Channel.....................................................................477
1.2.10.1.8 Number of Packets Beyond the Receive Window of an OM Channel............................................................478
1.2.10.1.9 Number of Packets Received by an OM Channel After the Connection Is Released..................................... 480
1.2.10.1.10 Number of ACK Packets Received by an OM Channel................................................................................481
1.2.10.1.11 Number of Duplicate ACK Packets Received by an OM Channel............................................................... 482
1.2.10.1.12 Number of Received ACK Packets for Non-Transmitted Data by an OM Channel..................................... 483
1.2.10.1.13 Total Number of Packets Transmitted by an OM Channel............................................................................485
1.2.10.1.14 Number of Urgent Data Packets Transmitted by an OM Channel................................................................ 486
1.2.10.1.15 Number of Control Packets Transmitted by an OM Channel........................................................................487
1.2.10.1.16 Number of Window Probe Packets Transmitted by an OM Channel............................................................ 488
1.2.10.1.17 Number of Window Size Update Packets Transmitted by an OM Channel..................................................490
1.2.10.1.18 Number of Data Packets Transmitted by an OM Channel............................................................................ 491
1.2.10.1.19 Number of Packets Retransmitted by an OM Channel..................................................................................492
1.2.10.1.20 Number of ACK Packets Transmitted by an OM Channel........................................................................... 493
1.2.11 Measurement of Tunnel Performance (TUNNEL)................................................................................................ 494
1.2.11.1 Tunnel Measurement (Network.Tunnel).............................................................................................................495
1.2.11.1.1 Number of Bytes on the TUNNEL.................................................................................................................. 501
1.2.11.1.2 Number of Packets on the TUNNEL...............................................................................................................503
1.2.11.1.3 Rate on the TUNNEL...................................................................................................................................... 506
1.2.12 Measurement of AAL2Path Performance (AAL2PATH)...................................................................................... 511
1.2.12.1 AAL2Path Measurement (Transport.AAL2PATH)............................................................................................ 511
1.2.12.1.1 Number of Packets on the AAL2 Path............................................................................................................ 513
1.2.13 Measurement of SAAL Performance (SAAL)...................................................................................................... 514
1.2.13.1 SAAL Measurement (Transport.SAAL).............................................................................................................515
1.2.13.1.1 Number of Packets on the SAAL AAL5 link..................................................................................................518
1.2.13.1.2 Number of Cells on the SAAL AAL5 link......................................................................................................520
1.2.13.1.3 Number of packets successfully received to the AAL5 layer on the SAAL link............................................ 521
1.2.13.1.4 Number of discarded packets received to the AAL5 layer on the SAAL link................................................ 522
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1.2.13.1.5 Number of packets successfully received from the AAL5 layer on the SAAL link....................................... 523
1.2.13.1.6 Number of discarded packets received from the AAL5 layer on the SAAL link............................................524
1.2.13.1.7 Number of packets received from the user layer on the SAAL link............................................................... 525
1.2.13.1.8 Number of packets successfully transmitted to the user layer on the SAAL link........................................... 526
1.2.13.1.9 Number of packets failed to be transmitted to the user layer on the SAAL link.............................................527
1.2.14 Measurement of IMAGRP Performance (IMAGRP)............................................................................................ 528
1.2.14.1 IMAGRP Measurement (DataLink.IMAGRP)...................................................................................................528
1.2.14.1.1 Number of Cells on the IMAGRP................................................................................................................... 529
1.2.15 Measurement of IPoA Performance (IPOAAAL5)............................................................................................... 532
1.2.15.1 IPoA Measurement (Transport.IPOAAAL5)..................................................................................................... 532
1.2.15.1.1 Number of Packets on the IPOA AAL5 link................................................................................................... 534
1.2.15.1.2 Number of Cells on the IPOA AAL5 link....................................................................................................... 536
1.2.16 Measurement of Trunk Performance (TRUNK)....................................................................................................537
1.2.16.1 Trunk Measurement (Datalink.TRUNK)............................................................................................................537
1.2.16.1.1 Number of Packets on the TRUNK................................................................................................................. 542
1.2.16.1.2 Available Bandwidth on the TRUNK..............................................................................................................545
1.2.16.1.3 Rate on the TRUNK........................................................................................................................................ 547
1.2.17 Measurement of Integrated Firewall Performance (Firewall)............................................................................... 549
1.2.17.1 Integrated Firewall Measurement (Transport.Firewall)......................................................................................550
1.2.17.1.1 Number of discarded packets due to L2 ACL filter based on port..................................................................551
1.2.17.1.2 Number of discarded packets due to advanced ACL filter based on port....................................................... 553
1.2.18 Measurement of IKE Performance (IKE)..............................................................................................................554
1.2.18.1 IKE Measurement (Transport.IKE).................................................................................................................... 554
1.2.18.1.1 Number of IKE packets received.....................................................................................................................563
1.2.18.1.2 Number of IKE packets transmitted................................................................................................................ 564
1.2.18.1.3 Number of Re-keys Performed by IKE Child SA........................................................................................... 565
1.2.18.1.4 Number of Failed DPD Sessions..................................................................................................................... 566
1.2.18.1.5 Number of Failed Initiations of Re-key Negotiations for IKE Child SA........................................................ 568
1.2.18.1.6 Number of Failed Responses to Re-key Negotiations for IKE Child SA....................................................... 569
1.2.18.1.7 Number of Successful Initiations of Re-key Negotiations for IKE Child SA.................................................570
1.2.18.1.8 Number of Successful Responses to Re-key Negotiations for IKE Child SA................................................ 571
1.2.18.1.9 Number of Successful Initiations of Re-key Negotiations for IKE SA...........................................................572
1.2.18.1.10 Number of Successful Responses to Re-key Negotiations for IKE SA........................................................ 574
1.2.18.1.11 Number of Failed Initiations of Re-key Negotiations for IKE SA................................................................ 575
1.2.18.1.12 Number of Failed Responses to Re-key Negotiations for IKE SA............................................................... 576
1.2.18.1.13 Number of Successful Initiations of IKEv2 Re-authentications....................................................................577
1.2.18.1.14 Number of Successful Responses to IKEv2 Re-authentications................................................................... 578
1.2.18.1.15 Number of Failed Initiations of IKEv2 Re-authentications...........................................................................580
1.2.18.1.16 Number of Failed Responses to IKEv2 Re-authentications.......................................................................... 581
1.2.18.1.17 Number of Received IP or ESP Packets with SPI That Does Not Match an Existing SA............................ 582
1.2.19 Measurement of IPSec Performance (IPSec)........................................................................................................ 583
1.2.19.1 IPSec Measurement (Transport.IPSec)...............................................................................................................583
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1.2.19.1.1 Number of discarded packets received due to replay checking fail................................................................ 589
1.2.19.1.2 Number of discarded packets received due to AH checking fail.....................................................................590
1.2.19.1.3 Number of discarded packets received due to ESP fail...................................................................................592
1.2.19.1.4 Number of discarded packets received due to decrypt ACL fail.....................................................................593
1.2.19.1.5 Number of decrypt success packets received.................................................................................................. 594
1.2.19.1.6 Number of discarded packets transmitted due to outbound SA miss.............................................................. 595
1.2.19.1.7 Number of discarded packets transmitted due to sequence number overflow................................................ 596
1.2.19.1.8 Number of encrypt success packets transmitted..............................................................................................597
1.2.19.1.9 Number of IPsec SA Establishments...............................................................................................................598
1.2.19.1.10 Number of IPsec SA Deletions......................................................................................................................599
1.2.20 Measurement of SCTP Link Performance (SCTPLNK)....................................................................................... 600
1.2.20.1 SCTP Link Measurement (Transport.SCTPLNK)..............................................................................................601
1.2.20.1.1 Number of Bytes in the IP Packets on the SCTP link..................................................................................... 612
1.2.20.1.2 Number of IP Packets on the SCTP link......................................................................................................... 614
1.2.20.1.3 IP Packet Rate Measurements on the SCTP link.............................................................................................617
1.2.20.1.4 Number of packets on the SCTP link from the application layer....................................................................621
1.2.20.1.5 Number of chunks retransmitted from the SCTP link..................................................................................... 622
1.2.20.1.6 Congestion Duration of an SCTP Link............................................................................................................623
1.2.20.1.7 Number of Congestions on an SCTP Link...................................................................................................... 625
1.2.20.1.8 Duration of SCTP Link Unavailable............................................................................................................... 626
1.2.20.1.9 Number of Times SCTP Link Unavailable......................................................................................................627
1.2.20.1.10 Data Chunk Flow Measurement on an SCTP Link....................................................................................... 628
1.2.21 Measurement of UserPlaneHostIP Performance (UserPlaneHostIP).................................................................... 630
1.2.21.1 UserPlaneHostIP IP Layer Measurement (Transport.UserPlaneHostIP)........................................................... 630
1.2.21.1.1 Number of IP Packets on the User-Plane Local IP Address............................................................................636
1.2.21.1.2 Number of Bytes in the IP Packets on the User-Plane Local IP Address........................................................638
1.2.21.1.3 Rate of IP Packets on the User-Plane Local IP Address................................................................................. 640
1.2.21.1.4 Number of Disordered GTP-U Packets Received on the User-Plane Local IP Address.................................643
1.2.21.1.5 Number of Discontinuous GTP-U Packet Sequence Numbers Received on the User-Plane Local IP Address
.......................................................................................................................................................................................... 644
1.2.22 Measurement of GTP-U Performance (GTP-U)....................................................................................................645
1.2.22.1 GTP-U Measurement (Transport.GTPU)........................................................................................................... 646
1.2.22.1.1 Number of Bytes in the Packets on the GTP-U Link...................................................................................... 648
1.2.22.1.2 Number of Packets on the GTP-U Link.......................................................................................................... 650
1.2.23 Measurement of BS TWAMP Performance (BSTWAMP)................................................................................... 651
1.2.23.1 TWAMP Transport Link Measurement (Transport.BSTWAMP).......................................................................651
1.2.23.1.1 Packet Loss Rate Measurements on the BSTWAMP...................................................................................... 660
1.2.23.1.2 RTT Measurements on the BSTWAMP.......................................................................................................... 663
1.2.23.1.3 Jitter Measurements on the BSTWAMP..........................................................................................................666
1.2.23.1.4 Packet Traffic Measurement on the BSTWAMP.............................................................................................672
1.2.24 Measurement of GPM Performance (GPM)..........................................................................................................674
1.2.24.1 GPM Measurement (Transport.GPM)................................................................................................................ 674
1.2.24.1.1 GPM Congestion Duration Measurement....................................................................................................... 675
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1.2.25 Measurement of ETHDM Performance (ETHDM)...............................................................................................676
1.2.25.1 Ethernet Delay Measurement (DataLink.ETHDM)........................................................................................... 677
1.2.25.1.1 Ethernet Delay Measurement.......................................................................................................................... 681
1.2.25.1.2 Ethernet Jitter Measurement............................................................................................................................ 683
1.2.26 Measurement of ETHLM Performance (ETHLM)................................................................................................686
1.2.26.1 Ethernet Loss Measurement (DataLink.ETHLM)..............................................................................................686
1.2.26.1.1 Ethernet Loss Measurement............................................................................................................................ 690
1.2.27 Measurement of SRIO Port Performance (SRIOPORT)....................................................................................... 694
1.2.27.1 SRIO Port Measurement (Physical.SRIOPORT)............................................................................................... 694
1.2.27.1.1 Measurement of Bandwidth Allocated to an SRIO Port................................................................................. 697
1.2.27.1.2 Measurement of Allocated Bandwidth Ratio on an SRIO Port.......................................................................698
1.2.28 Measurement of IKEPEER Performance (IKEPEER).......................................................................................... 699
1.2.28.1 IKEPEER Measurement (Transport.IKEPEER).................................................................................................699
1.2.28.1.1 Number of IKE Packets Received by an IKE Peer..........................................................................................713
1.2.28.1.2 Number of IKE Packets Transmitted by an IKE Peer..................................................................................... 714
1.2.28.1.3 Number of Re-key Negotiations Initiated for IKE Peer Child SA.................................................................. 715
1.2.28.1.4 Number of IKE Disconnections Caused by DPD Sessions of an IKE Peer.................................................... 716
1.2.28.1.5 Number of IKE Authentication Requests Received by an IKE Peer...............................................................718
1.2.28.1.6 Number of Responses Received by an IKE Peer to IKE Authentication Requests.........................................719
1.2.28.1.7 Number of IKE Create Child SA Requests Received by an IKE Peer............................................................720
1.2.28.1.8 Number of Responses to IKE Create Child SA Requests Received by an IKE Peer......................................721
1.2.28.1.9 Number of IKE Error Type Notify Messages Received by an IKE Peer........................................................ 722
1.2.28.1.10 Number of IKE State Type Notify Messages Received by an IKE Peer.......................................................723
1.2.28.1.11 Number of IKE Delete SA Requests Received by an IKE Peer....................................................................724
1.2.28.1.12 Number of Responses Received by an IKE Peer to IKE Delete SA Requests..............................................725
1.2.28.1.13 Number of Responses Received by an IKE Peer to IKE Configuration Payload Requests.......................... 727
1.2.28.1.14 Number of IKE Initialization Requests Received by an IKE Peer................................................................728
1.2.28.1.15 Number of Responses Received by an IKE Peer to IKE Initialization Requests..........................................729
1.2.28.1.16 Number of Invalid IKE Packets Received by an IKE Peer........................................................................... 730
1.2.28.1.17 Number of IKE Authentication Requests Sent by an IKE Peer.................................................................... 731
1.2.28.1.18 Number of Responses Sent by an IKE Peer to IKE Authentication Requests.............................................. 732
1.2.28.1.19 Number of IKE Create Child SA Requests Sent by an IKE Peer..................................................................733
1.2.28.1.20 Number of Responses Sent by an IKE Peer to IKE Create Child SA Requests............................................734
1.2.28.1.21 Number of IKE Error Type Notify Messages Sent by an IKE Peer.............................................................. 735
1.2.28.1.22 Number of IKE State Type Notify Messages Sent by an IKE Peer...............................................................737
1.2.28.1.23 Number of Responses Sent by an IKE Peer to IKE Delete SA Requests......................................................738
1.2.28.1.24 Number of IKE Delete SA Requests Sent by an IKE Peer............................................................................739
1.2.28.1.25 Number of IKE Configuration Payload Requests Sent by an IKE Peer........................................................740
1.2.28.1.26 Number of IKE Initialization Requests Sent by an IKE Peer........................................................................741
1.2.28.1.27 Number of Responses Sent by an IKE Peer to IKE Initialization Requests..................................................742
1.2.29 Measurement of DFUML Performance (DFUMLCLIENT).................................................................................743
1.2.29.1 DFUML Measurement (Transport.DFUML)..................................................................................................... 743
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1.2.29.1.1 Total Number of Packets Received by a DFU Management Link.................................................................. 748
1.2.29.1.2 Number of In-Order Packets Received by a DFU Management Link.............................................................749
1.2.29.1.3 Number of Window Probe Packets Received by a DFU Management Link...................................................750
1.2.29.1.4 Number of Window Size Update Packets Received by a DFU Management Link........................................ 751
1.2.29.1.5 Number of Fully Duplicate Packets Received by a DFU Management Link..................................................752
1.2.29.1.6 Number of Partially Duplicate Packets Received by a DFU Management Link............................................ 753
1.2.29.1.7 Number of Out-of-Order Packets Received by a DFU Management Link..................................................... 754
1.2.29.1.8 Number of Packets Beyond the Receive Window of a DFU Management Link............................................ 755
1.2.29.1.9 Number of Packets Received by a DFU Management Link After the Connection Is Released..................... 756
1.2.29.1.10 Number of ACK Packets Received by a DFU Management Link................................................................ 757
1.2.29.1.11 Number of Duplicate ACK Packets Received by a DFU Management Link................................................758
1.2.29.1.12 Number of Received ACK Packets for Non-Transmitted Data by a DFU Management Link..................... 759
1.2.29.1.13 Total Number of Packets Transmitted by a DFU Management Link............................................................ 760
1.2.29.1.14 Number of Urgent Data Packets Transmitted by a DFU Management Link.................................................761
1.2.29.1.15 Number of Control Packets Transmitted by a DFU Management Link........................................................ 762
1.2.29.1.16 Number of Window Probe Packets Transmitted by a DFU Management Link............................................ 763
1.2.29.1.17 Number of Window Size Update Packets Transmitted by a DFU Management Link.................................. 764
1.2.29.1.18 Number of Data Packets Transmitted by a DFU Management Link.............................................................765
1.2.29.1.19 Number of Packets Retransmitted by a DFU Management Link.................................................................. 766
1.2.29.1.20 Number of ACK Packets Transmitted by a DFU Management Link............................................................767
1.2.30 Measurement of IP Resource Group Performance (IPRscGroup).........................................................................767
1.2.30.1 IP Resource Group Measurement (IPTransport.RscGroup)............................................................................... 768
1.2.30.1.1 Number of Bytes in the Packets Transmitted by the IP Resource Group........................................................773
1.2.30.1.2 Number of Packets Transmitted by the IP Resource Group............................................................................775
1.2.30.1.3 Rates of the IP Resource Group...................................................................................................................... 777
1.2.30.1.4 Congestion Duration of Data Transmission in the IP Resource Group...........................................................779
1.2.30.2 IP Allocated Band Measurement (IPTransport.AllocatedBW).......................................................................... 780
1.2.30.2.1 Measurement of Bandwidth Allocated to the IP Resource Group.................................................................. 782
1.2.30.2.2 Measurement of Allocated Bandwidth Ratio in the IP Resource Group.........................................................784
1.2.30.3 IP Flow Control Measurement (IPTransport.FLOWCTROL)........................................................................... 785
1.2.30.3.1 Maximum UL Available Bandwidth of the IP Resource Group......................................................................791
1.2.30.3.2 Minimum UL Available Bandwidth of the IP Resource Group...................................................................... 792
1.2.30.3.3 Average UL Available Bandwidth of the IP Resource Group......................................................................... 793
1.2.30.3.4 Maximum DL Available Bandwidth of the IP Resource Group......................................................................794
1.2.30.3.5 Minimum DL Available Bandwidth of the IP Resource Group...................................................................... 796
1.2.30.3.6 Average DL Available Bandwidth of the IP Resource Group......................................................................... 798
1.2.30.3.7 UL Available Bandwidth Increase Times of the IP Resource Group.............................................................. 799
1.2.30.3.8 DL Available Bandwidth Increase Times of the IP Resource Group Based On the Delay............................. 800
1.2.30.3.9 DL Available Bandwidth Increase Times of the IP Resource Group Based On the Packet Loss................... 801
1.2.30.3.10 UL Available Bandwidth Decrease Times of the IP Resource Group Based On the Delay..........................802
1.2.30.3.11 DL Available Bandwidth Decrease Times of the IP Resource Group Based On the Delay..........................803
1.2.30.3.12 UL Available Bandwidth Decrease Times of the IP Resource Group Based On the Packet Loss................ 804
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1.2.30.3.13 DL Available Bandwidth Decrease Times of the IP Resource Group Based On the Packet Loss................ 805
1.2.30.3.14 Number of Successfully Sent UL Frames in the IP Resource Group............................................................806
1.2.30.3.15 Number of Received DL Frames in the IP Resource Group......................................................................... 807
1.2.30.3.16 Number of Lost UL Frames in the IP Resource Group................................................................................. 808
1.2.30.3.17 Number of Lost DL Frames in the IP Resource Group................................................................................. 809
1.2.30.3.18 Maximum UL Delay Jitter of the IP Resource Group...................................................................................810
1.2.30.3.19 Minimum UL Delay Jitter of the IP Resource Group....................................................................................811
1.2.30.3.20 Average UL Delay Jitter of the IP Resource Group...................................................................................... 812
1.2.30.3.21 Maximum DL Delay Jitter of the IP Resource Group...................................................................................813
1.2.30.3.22 Minimum DL Delay Jitter of the IP Resource Group................................................................................... 814
1.2.30.3.23 Average DL Delay Jitter of the IP Resource Group...................................................................................... 815
1.2.30.3.24 UL Congestion Duration of the IP Resource Group......................................................................................816
1.2.30.3.25 DL Congestion Duration of the IP Resource Group......................................................................................817
1.2.31 Measurement of IP GPM Performance (IPGPM)..................................................................................................818
1.2.31.1 IP GPM Measurement (IPTransport.IPGPM).................................................................................................... 818
1.2.31.1.1 IPGPM Congestion Duration Measurement....................................................................................................819
1.2.32 Measurement of Packet Filtering Performance (PacketFilter).............................................................................. 820
1.2.32.1 Packet Filtering Measurement (PacketFilter.Discardedpackets)........................................................................ 820
1.2.32.1.1 Number of discarded packets due to L2 ACL filter based on port..................................................................822
1.2.32.1.2 Number of Discarded Packets Due To Interface-based IPv4 Advanced ACL Packet Filtering......................823
1.2.32.2 IPv6 Packet Filtering Measurement (PacketFilter.IPv6Discardedpackets)........................................................ 824
1.2.32.2.1 Number of Discarded Packets Due To Interface-based IPv6 Advanced ACL Packet Filtering......................825
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1 Node Performance Counter Measurement
Node Performance Counter Measurement
About This Chapter
This section describes Node performance counters, including counters measuring equipment
resources and counters measuring transmission resources.
1.1 Equipment-related Measurement
1.2 Transport-related Measurement
1.1 Equipment-related Measurement
1.1.1 Measurement of Node Performance (NODE)
Overview
The Measurement of Node Performance object contains the node-related function subsets.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Equipment.Node
Node Equipment Measurement
ClockDA.Node
Base Station Clock DA Measurement
ClockSource.Node
Clock Source Measurement
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1.1.1.1 Node Equipment Measurement (Equipment.Node)
Overview
The Node Equipment Performance Measurement function subset measures the node
equipment performance.
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835620
VS.PSU.Shutdown
Time
PSU shutdown total
time
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1593835628
VS.EnergyCons.BT
S.Adding.UMTS
The sum of power
consumption of all
boards in UMTS
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1593835629
VS.EnergyCons.BT
S.Measuring.UMT
S
Power consumption
measured by the
power system of
UMTS
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835637
VS.EnergyCons.BT
S.Adding.LTE
The sum of power
consumption of all
boards in the LTE
BTS3900:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1593835638
VS.EnergyCons.BT
S.Measuring.LTE
Power consumption
measured by the
power system of the
LTE
BTS3900:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1593835639
VS.EnergyCons.BT
S.Adding.GSM
The sum of power
consumption of all
boards in the GSM
BTS3900:
V100R008C00
BTS5900:
V100R013C00
1593835640
VS.EnergyCons.BT
S.Measuring.GSM
Power consumption
measured by the
power system of the
GSM
BTS3900:
V100R008C00
BTS5900:
V100R013C00
1593835801
VS.EnergyCons.BT
S.Adding.RFA
The sum of power
consumption of all
boards in the RFA
BTS3900:
V100R012C10
BTS5900:
V100R012C10
1593835802
VS.EnergyCons.BT
S.Measuring.RFA
Power consumption
measured by the
power system of the
RFA
BTS3900:
V100R012C10
BTS5900:
V100R012C10
1593835804
VS.EnergyCons.BT
S.Adding.NR
The sum of power
consumption of all
boards in NR
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C10
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835805
VS.EnergyCons.BT
S.Measuring.NR
Power consumption
measured by the
power system of NR
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C10
BTS5900 5G:
V100R013C10
Counter Relationship
None
1.1.1.1.1 PSU shutdown total time
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835620
VS.PSU.Shutdo
wnTime
PSU shutdown
total time
BTS3900,
BTS3900
WCDMA,
G,U,L,R
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter measures the shutdown duration of all power supplying units (PSUs) in the base
station within the measurement period.
Measurement Points
In a measurement period, the intelligent shutdown status of each PSU is sampled every
second. When one or more PSUs are intelligently shut down, this counter is added by one.
Formula
None
Unit
s
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Related Features
Counter Name
Feature ID
VS.PSU.ShutdownTime
Multi-mode: None
Feature Name
GSM: GBFD-111608
PSU Smart Control
UMTS: WRFD-020121
Intelligent Power
Management
LTE: LOFD-001056
PSU Intelligent Sleep Mode
TDLOFD-001056
PSU Intelligent Sleep Mode
NR: None
1.1.1.1.2 The sum of power consumption of all boards in UMTS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835628
VS.EnergyCons
.BTS.Adding.U
MTS
The sum of
power
consumption of
all boards in
UMTS
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter provides the power consumption of the UMTS mode within the measurement
period, which equals the sum of the power consumption of modules working in UMTS mode.
In a single-mode base station, the value of this counter equals the base station power
consumption. In a multimode base station, the power consumption is measured based on the
basis of the whole base station and the value of this counter is a part of the base station power
consumption.
Measurement Points
The system samples the power consumption of each module every 5 minutes. The power
consumption of the UMTS mode is calculated using the following formula: ([Power
consumption of a single module]/[Number of main control boards that manage this module])/
[Number of local modes that use this module]. At the end of a measurement period, the sum
of these calculated results of all involved modules equals to the UMTS power consumption
and is used as the value of the counter. For example, for the WBBP board, the total power
consumption of this board is used for calculating this counter. For a UCIU board in a
separate-MPT GSM/UMTS dual-mode base station, half of the power consumption of this
board is used for calculating this counter.
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Note: If a dual-mode BBU is powered by a digital power board (UPEUc or UPEUd), the
power consumption of the local mode in this BBU is half of the BBU power consumption.
Formula
None
Unit
kWh
Related Features
Counter Name
Feature ID
Feature Name
VS.EnergyCons.BTS.Addin
g.UMTS
Multi-mode: MRFD-151214
Cell Switch-off Based on
Automatic Co-Coverage
Identification
GSM: None
UMTS: WRFD-020406
WRFD-190205
Intelligent Power
Measurement
WRFD-191205
LTE: None
VAM Power Saving
NR: None
RRU Intelligent Dormancy
1.1.1.1.3 Power consumption measured by the power system of UMTS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835629
VS.EnergyCons
.BTS.Measurin
g.UMTS
Power
consumption
measured by
the power
system of
UMTS
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter provides the power consumption of the UMTS mode within the measurement
period. The value of this counter is calculated by using the power consumption measured by
the power system. In a single-mode base station, the value of this counter equals the base
station power consumption. In a multimode base station, the power system measures the
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power consumption of the whole base station and the value of this counter is a part of the base
station power consumption.
Measurement Points
The system samples the power consumption measured by the power system every 5 minutes.
The power consumption of the UMTS mode is calculated using the following formula:
([Power consumption measured by a single power system]/[Number of main control boards
that manage the power system])/[Number of local modes]. At the end of a measurement
period, the sum of these calculated results equals to the UMTS power consumption and is
used as the value of the counter.
Note: If the power consumption measured by a power system cannot be obtained, this part of
power consumption is not included in the value of this counter. For example, when RRUs are
powered by a third-party power system, the power consumption of these RRUs is not
included in the value of this counter.
Formula
None
Unit
kWh
Related Features
Counter Name
Feature ID
Feature Name
VS.EnergyCons.BTS.Measu
ring.UMTS
Multi-mode: MRFD-151214
Cell Switch-off Based on
Automatic Co-Coverage
Identification
GSM: None
UMTS: WRFD-020406
WRFD-190205
WRFD-191205
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Intelligent Power
Measurement
LTE: None
VAM Power Saving
NR: None
RRU Intelligent Dormancy
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1.1.1.1.4 The sum of power consumption of all boards in the LTE
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835637
VS.EnergyCons
.BTS.Adding.L
TE
The sum of
power
consumption of
all boards in the
LTE
BTS3900,
BTS3900 LTE,
L
BTS5900,
BTS5900 LTE
Description
This counter provides the power consumption of the LTE mode within the measurement
period, which equals the sum of the power consumption of modules working in LTE mode. In
a single-mode base station, the value of this counter equals the base station power
consumption. In a multimode base station, the power consumption is measured based on the
basis of the whole base station and the value of this counter is a part of the base station power
consumption.
Measurement Points
The system samples the power consumption of each module every 5 minutes. The power
consumption of the LTE mode is calculated using the following formula: ([Power
consumption of a single module]/[Number of main control boards that manage this module])/
[Number of local modes that use this module]. At the end of a measurement period, the sum
of these calculated results of all involved modules equals to the LTE power consumption and
is used as the value of the counter. For example, for the LBBP board, the total power
consumption of this board is used for calculating this counter. For a UCIU board in a
separate-MPT GSM/LTE dual-mode base station, half of the power consumption of this board
is used for calculating this counter.
Note: If a dual-mode BBU is powered by a digital power board (UPEUc or UPEUd), the
power consumption of the local mode in this BBU is half of the BBU power consumption.
Formula
None
Unit
kWh
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Related Features
Counter Name
Feature ID
VS.EnergyCons.BTS.Addin
g.LTE
Multi-mode: None
Feature Name
GSM: None
UMTS: None
LTE: LBFD-001041
Power Consumption
Monitoring
TDLBFD-001041
Power Consumption
Monitoring
MLBFD-12000420
NR: None
Power Consumption
Monitoring
1.1.1.1.5 Power consumption measured by the power system of the LTE
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835638
VS.EnergyCons
.BTS.Measurin
g.LTE
Power
consumption
measured by
the power
system of the
LTE
BTS3900,
BTS3900 LTE,
L
BTS5900,
BTS5900 LTE
Description
This counter provides the power consumption of the LTE mode within the measurement
period. The value of this counter is calculated by using the power consumption measured by
the power system. In a single-mode base station, the value of this counter equals the base
station power consumption. In a multimode base station, the power system measures the
power consumption of the whole base station and the value of this counter is a part of the base
station power consumption.
Measurement Points
The system samples the power consumption measured by the power system every 5 minutes.
The power consumption of the LTE mode is calculated using the following formula: ([Power
consumption measured by a single power system]/[Number of main control boards that
manage the power system])/[Number of local modes]. At the end of a measurement period,
the sum of these calculated results equals to the LTE power consumption and is used as the
value of the counter.
Note: If the power consumption measured by a power system cannot be obtained, this part of
power consumption is not included in the value of this counter. For example, when RRUs are
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powered by a third-party power system, the power consumption of these RRUs is not
included in the value of this counter.
Formula
None
Unit
kWh
Related Features
Counter Name
Feature ID
VS.EnergyCons.BTS.Measu
ring.LTE
Multi-mode: None
Feature Name
GSM: None
UMTS: None
LTE: LBFD-001041
Power Consumption
Monitoring
TDLBFD-001041
Power Consumption
Monitoring
MLBFD-12000420
NR: None
Power Consumption
Monitoring
1.1.1.1.6 The sum of power consumption of all boards in the GSM
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835639
VS.EnergyCons
.BTS.Adding.G
SM
The sum of
power
consumption of
all boards in the
GSM
BTS3900,
BTS5900
G
Description
This counter provides the power consumption of the GSM mode within the measurement
period, which equals the sum of the power consumption of modules working in GSM mode.
In a single-mode base station, the value of this counter equals the base station power
consumption. In a multimode base station, the power consumption is measured based on the
basis of the whole base station and the value of this counter is a part of the base station power
consumption.
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Measurement Points
The system samples the power consumption of each module every 5 minutes. The power
consumption of the GSM mode is calculated using the following formula: ([Power
consumption of a single module]/[Number of main control boards that manage this module])/
[Number of local modes that use this module]. At the end of a measurement period, the sum
of these calculated results of all involved modules equals to the GSM power consumption and
is used as the value of the counter. For example, for the UBRI board, the total power
consumption of this board is used for calculating this counter. For a UCIU board in a
separate-MPT GSM/UMTS dual-mode base station, half of the power consumption of this
board is used for calculating this counter.
Note: If a dual-mode BBU is powered by a digital power board (UPEUc or UPEUd), the
power consumption of the local mode in this BBU is half of the BBU power consumption.
Formula
None
Unit
kWh
Related Features
Counter Name
Feature ID
VS.EnergyCons.BTS.Addin
g.GSM
Multi-mode: None
Feature Name
GSM: GBFD-111202
O&M of BTS
UMTS: None
LTE: None
NR: None
1.1.1.1.7 Power consumption measured by the power system of the GSM
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835640
VS.EnergyCons
.BTS.Measurin
g.GSM
Power
consumption
measured by
the power
system of the
GSM
BTS3900,
BTS5900
G
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Description
This counter provides the power consumption of the GSM mode within the measurement
period. The value of this counter is calculated by using the power consumption measured by
the power system. In a single-mode base station, the value of this counter equals the base
station power consumption. In a multimode base station, the power system measures the
power consumption of the whole base station and the value of this counter is a part of the base
station power consumption.
Measurement Points
The system samples the power consumption measured by the power system every 5 minutes.
The power consumption of the GSM mode is calculated using the following formula: ([Power
consumption measured by a single power system]/[Number of main control boards that
manage the power system])/[Number of local modes]. At the end of a measurement period,
the sum of these calculated results equals to the GSM power consumption and is used as the
value of the counter.
Note: If the power consumption measured by a power system cannot be obtained, this part of
power consumption is not included in the value of this counter. For example, when RRUs are
powered by a third-party power system, the power consumption of these RRUs is not
included in the value of this counter.
Formula
None
Unit
kWh
Related Features
Counter Name
Feature ID
VS.EnergyCons.BTS.Measu
ring.GSM
Multi-mode: None
GSM: GBFD-111202
Feature Name
O&M of BTS
UMTS: None
LTE: None
NR: None
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1.1.1.1.8 The sum of power consumption of all boards in the RFA
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835801
VS.EnergyCons
.BTS.Adding.R
FA
The sum of
power
consumption of
all boards in the
RFA
BTS3900,
BTS5900
R
Description
This counter provides the power consumption of the RFA mode within the measurement
period, which equals the sum of the power consumption of modules working in RFA mode. In
a single-mode base station, the value of this counter equals the base station power
consumption. In a multimode base station, the power consumption is measured based on the
basis of the whole base station and the value of this counter is a part of the base station power
consumption.
Measurement Points
The system samples the power consumption of each module every 5 minutes. The power
consumption of the RFA mode is calculated using the following formula: ([Power
consumption of a single module]/[Number of main control boards that manage this module])/
[Number of local modes that use this module]. At the end of a measurement period, the sum
of these calculated results of all involved modules equals to the RFA power consumption and
is used as the value of the counter. For example, for a single-mode MERC, the total power
consumption of this board is used for calculating this counter. For a UCIU board configured
on both the LTE and RF access applications, half of the power consumption of this board is
used for calculating this counter.
Note: If a dual-mode BBU is powered by a digital power board (UPEUc or UPEUd), the
power consumption of the local mode in this BBU is half of the BBU power consumption.
Formula
None
Unit
kWh
Related Features
None
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1.1.1.1.9 Power consumption measured by the power system of the RFA
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835802
VS.EnergyCons
.BTS.Measurin
g.RFA
Power
consumption
measured by
the power
system of the
RFA
BTS3900,
BTS5900
R
Description
This counter provides the power consumption of the RFA mode within the measurement
period. The value of this counter is calculated by using the power consumption measured by
the power system. In a single-mode base station, the value of this counter equals the base
station power consumption. In a multimode base station, the power system measures the
power consumption of the whole base station and the value of this counter is a part of the base
station power consumption.
Measurement Points
The system samples the power consumption measured by the power system every 5 minutes.
The power consumption of the RFA mode is calculated using the following formula: ([Power
consumption measured by a single power system]/[Number of main control boards that
manage the power system])/[Number of local modes]. At the end of a measurement period,
the sum of these calculated results equals to the RFA power consumption and is used as the
value of the counter.
Note: If the power consumption measured by a power system cannot be obtained, this part of
power consumption is not included in the value of this counter. For example, when RRUs are
powered by a third-party power system, the power consumption of these RRUs is not
included in the value of this counter.
Formula
None
Unit
kWh
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.1.1.10 The sum of power consumption of all boards in NR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835804
VS.EnergyCons
.BTS.Adding.N
R
The sum of
power
consumption of
all boards in
NR
BTS3900 5G,
BTS5900,
N
BTS5900 5G
Description
This counter provides the power consumption of the NR mode within the measurement
period, which equals the sum of the power consumption of modules working in NR mode. In
a single-mode base station, the value of this counter equals the base station power
consumption. In a multimode base station, the power consumption is measured based on the
basis of the whole base station and the value of this counter is a part of the base station power
consumption.
Measurement Points
The system samples the power consumption of each module every 5 minutes. The power
consumption of the NR mode is calculated using the following formula: ([Power consumption
of a single module]/[Number of main control boards that manage this module])/[Number of
local modes that use this module]. At the end of a measurement period, the sum of these
calculated results of all involved modules equals to the NR power consumption and is used as
the value of the counter. For example, for a single-mode module, this counter measures the
total power consumption of this board. For a multimode module used in an NL separate-MPT
scenario, this counter measures half of the board power consumption.
Note: If a multimode BBU is powered by a digital power board, the power consumption of
the local mode in this BBU equals the BBU power consumption divided by the number of
modes.
Formula
None
Unit
kWh
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.1.1.11 Power consumption measured by the power system of NR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835805
VS.EnergyCons
.BTS.Measurin
g.NR
Power
consumption
measured by
the power
system of NR
BTS3900 5G,
BTS5900,
N
BTS5900 5G
Description
This counter provides the power consumption of the NR mode within the measurement
period. The value of this counter is calculated by using the power consumption measured by
the power system. In a single-mode base station, the value of this counter equals the base
station power consumption. In a multimode base station, the power system measures the
power consumption of the whole base station and the value of this counter is a part of the base
station power consumption.
Measurement Points
The system samples the power consumption measured by the power system every 5 minutes.
The power consumption of the NR mode is calculated using the following formula: ([Power
consumption measured by a single power system]/[Number of main control boards that
manage the power system])/[Number of local modes]. At the end of a measurement period,
the sum of these calculated results equals to the NR power consumption and is used as the
value of the counter.
Note: If the power consumption measured by a power system cannot be obtained, this part of
power consumption is not included in the value of this counter. For example, when RRUs are
powered by a third-party power system, the power consumption of these RRUs is not
included in the value of this counter.
Formula
None
Unit
kWh
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.1.2 Base Station Clock DA Measurement (ClockDA.Node)
Overview
This measurement unit measures the frequency offset of the external clock source.
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835647
VS.Node.ClockDA.
CurrentDA.Max
Maximum Current
DA Value of the
Base Station Clock
BTS3900:
V100R011C10
BTS3900 WCDMA:
V200R018C10
BTS3900 LTE:
V100R011C10
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1593835648
VS.Node.ClockDA.
CurrentDA.Min
Minimum Current
DA Value of the
Base Station Clock
BTS3900:
V100R011C10
BTS3900 WCDMA:
V200R018C10
BTS3900 LTE:
V100R011C10
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835649
VS.Node.ClockDA.
CenterDA
Center DA Value of
the Base Station
Clock
BTS3900:
V100R011C10
BTS3900 WCDMA:
V200R018C10
BTS3900 LTE:
V100R011C10
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
1.1.1.2.1 Maximum Current DA Value of the Base Station Clock
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835647
VS.Node.Clock
DA.CurrentDA.
Max
Maximum
Current DA
Value of the
Base Station
Clock
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides the maximum current DA value of the base station clock.
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1 Node Performance Counter Measurement
Measurement Points
The maximum current DA value of the base station clock is sampled every 5 minutes and the
maximum sampled value is used as the value of this counter at the end of the measurement
period. For example, if the sampled values in a measurement period are X1, X2, X3 ..., and
Xn, the value of this counter is calculated using the following formula:
VS.Node.ClockDA.Max = MAX(Xi).
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
Feature Name
VS.Node.ClockDA.Current
DA.Max
Multi-mode: MRFD-210501
BTS/NodeB Clock
GSM: None
UMTS: None
LTE: None
NR: None
1.1.1.2.2 Minimum Current DA Value of the Base Station Clock
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835648
VS.Node.Clock
DA.CurrentDA.
Min
Minimum
Current DA
Value of the
Base Station
Clock
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides the minimum current DA value of the base station clock.
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1 Node Performance Counter Measurement
Measurement Points
The minimum current DA value of the base station clock is sampled every 5 minutes and the
minimum sampled value is used as the value of this counter at the end of the measurement
period. For example, if the sampled values in a measurement period are X1, X2, X3 ..., and
Xn, the value of this counter is calculated using the following formula:
VS.Node.ClockDA.Min = MIN(Xi).
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
Feature Name
VS.Node.ClockDA.Current
DA.Min
Multi-mode: MRFD-210501
BTS/NodeB Clock
GSM: None
UMTS: None
LTE: None
NR: None
1.1.1.2.3 Center DA Value of the Base Station Clock
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835649
VS.Node.Clock
DA.CenterDA
Center DA
Value of the
Base Station
Clock
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides the real-time center DA value of the base station clock.
Issue Draft C (2019-04-10)
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1 Node Performance Counter Measurement
Measurement Points
The center DA value of the base station clock is sampled at the end of a measurement period.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
Feature Name
VS.Node.ClockDA.CenterD
A
Multi-mode: MRFD-210501
BTS/NodeB Clock
GSM: None
UMTS: None
LTE: None
NR: None
1.1.1.3 Clock Source Measurement (ClockSource.Node)
Overview
The Clock Source Measurement unit reflects whether the air interface soft synchronization
feature is suitable for the reference clock source.
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835650
VS.Node.ClockSou
rce.Grade1
Number of Times
Clock Source
Quality Level Is 1
BTS3900:
V100R010C10
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
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1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835651
VS.Node.ClockSou
rce.Grade2
Number of Times
Clock Source
Quality Level Is 2
BTS3900:
V100R010C10
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
1.1.1.3.1 VS.Node.ClockSource.Grade1
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835650
VS.Node.Clock
Source.Grade1
Number of
Times Clock
Source Quality
Level Is 1
BTS3900,
BTS3900 5G,
G,N
BTS5900,
BTS5900 5G
Description
This counter provides the number of times that the quality of the base station reference clock
falls in level 1. When the quality of the base station reference clock falls in level 1, the airinterface soft synchronization function can be enabled.
This counter is measured only when the air-interface soft synchronization switch is set to on.
This counter is invalid if the GSM Soft-Synchronized Network enhancement function is
enabled.
Measurement Points
The quality of the base station reference clock is sampled every 5 minutes. When the quality
of the base station reference clock falls in level 1, the value of this counter is incremented by
1.
Formula
None
Issue Draft C (2019-04-10)
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Node Performance Counter Reference
1 Node Performance Counter Measurement
Unit
None
Related Features
Counter Name
Feature ID
VS.Node.ClockSource.Grad
e1
Multi-mode: None
Feature Name
GSM: GBFD-118201
Soft-synchronized network
UMTS: None
LTE: None
NR: None
1.1.1.3.2 VS.Node.ClockSource.Grade2
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835651
VS.Node.Clock
Source.Grade2
Number of
Times Clock
Source Quality
Level Is 2
BTS3900,
BTS3900 5G,
G,N
BTS5900,
BTS5900 5G
Description
This counter provides the number of times that the quality of the base station reference clock
falls in level 2. When the quality of the base station reference clock falls in level 2, the airinterface soft synchronization function cannot be enabled.
This counter is measured only when the air-interface soft synchronization switch is set to on.
This counter is invalid if the GSM Soft-Synchronized Network enhancement function is
enabled.
Measurement Points
The quality of the base station reference clock is sampled every 5 minutes. When the quality
of the base station reference clock falls in level 2, the value of this counter is incremented by
1.
Formula
None
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Copyright © Huawei Technologies Co., Ltd.
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Node Performance Counter Reference
1 Node Performance Counter Measurement
Unit
None
Related Features
Counter Name
Feature ID
Feature Name
VS.Node.ClockSource.Grad
e2
Multi-mode: None
GSM: GBFD-118201
Soft-synchronized network
UMTS: None
LTE: None
NR: None
1.1.2 Measurement of BBU Board Performance (BBUBoard)
Overview
The Measurement of BBU Board Performance object contains the function subsets related to
the BBU board.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Load.BBUBoard
BBU Board Load Measurement
1.1.2.1 BBU Board Load Measurement (Load.BBUBoard)
Overview
The BBU Board Load Performance Measurement function subset measures the load on a
BBU board.
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1 Node Performance Counter Measurement
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835630
VS.BBUBoard.CP
ULoad.Cumulative
HighloadCount
The number of times
of CPU Use Rate
Overload
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1593835632
VS.BBUBoard.CP
ULoad.Max
Maximum Board
CPU Usage
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
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1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835633
VS.BBUBoard.CP
ULoad.Mean
Average Board CPU
Usage
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1593835634
VS.BBUBoard.CP
ULoad.Over
Board CPU Usage
Exceeding the
Threshold (%)
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1593835679
VS.BBUBoard.MC
Load.Max
Maximum Main
Core Usage
BTS3900:
V100R011C10
BTS3900 LTE:
V100R011C10
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
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1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835680
VS.BBUBoard.MC
Load.Mean
Average Main Core
Usage
BTS3900:
V100R011C10
BTS3900 LTE:
V100R011C10
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1593835681
VS.BBUBoard.MC
Load.Over
Percentage of Main
Core Usage
Exceeding the
Threshold (%)
BTS3900:
V100R011C10
BTS3900 LTE:
V100R011C10
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1593835682
VS.BBUBoard.MC
Load.HighLoadCo
unt
Number of Times of
Main Core Usage
Exceeding the
Threshold
BTS3900:
V100R011C10
BTS3900 LTE:
V100R011C10
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
Counter Relationship
None
Issue Draft C (2019-04-10)
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1 Node Performance Counter Measurement
1.1.2.1.1 The number of times of CPU Use Rate Overload
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835630
VS.BBUBoard.
CPULoad.Cum
ulativeHighload
Count
The number of
times of CPU
Use Rate
Overload
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides the number of times of CPU use rate overload.
Measurement Points
The CPU usage is sampled every second, and the average CPU usage of each 5s is used as the
sampling result. At the end of a measurement period, the number of times that the average
CPU usage exceeds the preconfigured threshold is used as the value of the counter. The
preconfigured threshold is 85%. For example, if the number of times that the average CPU
usage exceeds the preconfigured threshold in the measurement period is X1, X2, X3, ..., and
Xn, the value of the VS.BBUBoard.CPULoad.CumulativeHighloadCount counter is the sum
of X1, X2, X3, ..., and Xn.
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
Feature Name
VS.BBUBoard.CPULoad.C
umulativeHighloadCount
Multi-mode: MRFD-210302
Performance Management
GSM: GBFD-111202
O&M of BTS
UMTS: None
LTE: LBFD-004009
Real-time Monitoring of
System Running
Information
TDLBFD-004009
NR: None
Real-time Monitoring of
System Running
Information
1.1.2.1.2 Maximum and Average Board CPU Usage
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835632
VS.BBUBoard.
CPULoad.Max
Maximum
Board CPU
Usage
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1593835633
VS.BBUBoard.
CPULoad.Mean
Average Board
CPU Usage
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
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1 Node Performance Counter Measurement
Description
These counters provide the maximum and average CPU usage of a board in a specified
measurement period. The value type of these counters is integer and the results are in round
numbers. For example, if the result is 0%, the actual value ranges from 0.00% to 0.99%.
Measurement Points
The CPU usage is sampled every second, and the average CPU usage of each 5s is used as the
sampling result. The maximum or the average of the final sampling results is used as the
value of this counter. For example, sampling values X1, X2, X3, ..., and Xn are obtained
every 5s in the measurement period. Then, the values of the VS.BBUBoard.CPUload.Max
and VS.BBUBoard.CPUload.Mean counters are calculated using the following formula:
VS.BBUBoard.CPUload.Max = MAX(Xi)
VS.BBUBoard.CPUload.Mean = (X1 + X2 + ... + Xn)/n
Formula
None
Unit
%
Related Features
Counter Name
Feature ID
Feature Name
VS.BBUBoard.CPULoad.M
ax
Multi-mode: MRFD-210302
Performance Management
GSM: GBFD-111202
O&M of BTS
UMTS: None
LTE: LBFD-004009
TDLBFD-004009
NR: None
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Real-time Monitoring of
System Running
Information
Real-time Monitoring of
System Running
Information
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1 Node Performance Counter Measurement
Counter Name
Feature ID
Feature Name
VS.BBUBoard.CPULoad.M
ean
Multi-mode: MRFD-210302
Performance Management
GSM: GBFD-111202
O&M of BTS
UMTS: None
LTE: LBFD-004009
Real-time Monitoring of
System Running
Information
TDLBFD-004009
NR: None
Real-time Monitoring of
System Running
Information
1.1.2.1.3 Board CPU Usage Exceeding the Threshold (%)
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835634
VS.BBUBoard.
CPULoad.Over
Board CPU
Usage
Exceeding the
Threshold (%)
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides the percentage of the period during which the CPU usage of a board
exceeds the threshold to the entire measurement period.
Measurement Points
The CPU usage is sampled every second, and the average CPU usage of each 5s is used as the
sampling result. The percentage of the period during which the CPU usage of a board exceeds
the preconfigured threshold to the entire measurement period is used as the value of this
counter. The preconfigured threshold is 85%.
Formula
None
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1 Node Performance Counter Measurement
Unit
%
Related Features
Counter Name
Feature ID
Feature Name
VS.BBUBoard.CPULoad.O
ver
Multi-mode: MRFD-210302
Performance Management
GSM: GBFD-111202
O&M of BTS
UMTS: None
LTE: LBFD-004009
Real-time Monitoring of
System Running
Information
TDLBFD-004009
NR: None
Real-time Monitoring of
System Running
Information
1.1.2.1.4 Maximum and Average Board Main Core Load
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835679
VS.BBUBoard.
MCLoad.Max
Maximum Main
Core Usage
BTS3900,
BTS3900 LTE,
L
BTS5900,
BTS5900 LTE
1593835680
VS.BBUBoard.
MCLoad.Mean
Average Main
Core Usage
BTS3900,
BTS3900 LTE,
L
BTS5900,
BTS5900 LTE
Description
These counters provide the maximum and average Main Core usage of a board in a specified
measurement period. The value type of these counters is integer and the results are in round
numbers. For example, if the result is 0%, the actual value ranges from 0.00% to 0.99%. This
counter is valid only for LMPT boards.
Measurement Points
The Main Core (MC) usage is sampled every second, and the average MC usage of each 5s is
used as the sampling result. The maximum or the average of the final sampling results is used
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1 Node Performance Counter Measurement
as the value of this counter. For example, sampling values X1, X2, X3, ..., and Xn are
obtained every 5s in the measurement period. Then, the values of the
VS.BBUBoard.MCLoad.Max and VS.BBUBoard.MCLoad.Mean counters are calculated
using the following formula:
VS.BBUBoard.MCLoad.Max = MAX(Xi)
VS.BBUBoard.MCLoad.Mean = (X1+X2+...+Xn)/n
Formula
None
Unit
%
Related Features
Counter Name
Feature ID
VS.BBUBoard.MCLoad.Ma
x
Multi-mode: None
Feature Name
GSM: None
UMTS: None
LTE: LBFD-004009
TDLBFD-004009
NR: None
VS.BBUBoard.MCLoad.Me
an
Real-time Monitoring of
System Running
Information
Real-time Monitoring of
System Running
Information
Multi-mode: None
GSM: None
UMTS: None
LTE: LBFD-004009
TDLBFD-004009
NR: None
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System Running
Information
Real-time Monitoring of
System Running
Information
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1.1.2.1.5 Percentage of Board Main Core Overload
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835681
VS.BBUBoard.
MCLoad.Over
Percentage of
Main Core
Usage
Exceeding the
Threshold (%)
BTS3900,
BTS3900 LTE,
L
BTS5900,
BTS5900 LTE
Description
This counter provides the percentage of the period during which the Main Core usage of a
board exceeds the threshold to the entire measurement period. This counter is valid only for
LMPT boards.
Measurement Points
The Main Core (MC) is sampled every second, and the average MC usage of each 5s is used
as the sampling result. The percentage of the period during which the MC usage of a board
exceeds the preconfigured threshold to the entire measurement period is used as the value of
this counter. The preconfigured threshold is 85%.
Formula
None
Unit
%
Related Features
Counter Name
Feature ID
VS.BBUBoard.MCLoad.Ov
er
Multi-mode: None
Feature Name
GSM: None
UMTS: None
LTE: LBFD-004009
TDLBFD-004009
NR: None
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Information
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System Running
Information
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1.1.2.1.6 Number of Times of Board Main Core Overload
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835682
VS.BBUBoard.
MCLoad.HighL
oadCount
Number of
Times of Main
Core Usage
Exceeding the
Threshold
BTS3900,
BTS3900 LTE,
L
BTS5900,
BTS5900 LTE
Description
This counter provides the number of times of Main Core use rate overload. This counter is
valid only for LMPT boards.
Measurement Points
The Main Core (MC) usage is sampled every second, and the average MC usage of each 5s is
used as the sampling result. At the end of a measurement period, the number of times that the
average MC usage exceeds the preconfigured threshold is used as the value of the counter.
The preconfigured threshold is 85%. For example, if the number of times that the average MC
usage exceeds the preconfigured threshold in the measurement period is X1, X2, X3, ..., and
Xn, the value of the VS.BBUBoard.MCLoad.HighLoadCount counter is the sum of X1, X2,
X3, ..., and Xn.
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
Feature Name
VS.BBUBoard.MCLoad.Hi
ghLoadCount
Multi-mode: None
GSM: None
UMTS: None
LTE: LBFD-004009
TDLBFD-004009
NR: None
Real-time Monitoring of
System Running
Information
Real-time Monitoring of
System Running
Information
1.1.3 Measurement of GNSS Performance (GNSS)
Overview
The Measurement of GNSS Performance object contains the function subsets related to the
GNSS.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
SatellitesTraced.GNSS
Traced GNSS Satellites Measurement
1.1.3.1 Traced GNSS Satellites Measurement (SatellitesTraced.GNSS)
Overview
This counter provides the number of GNSS satellites that can be traced. It helps users identify
GNSS cards that can trace few satellites.
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Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835641
VS.GNSS.Satellites
Traced.0
Number of times no
GNSS satellites are
traced
BTS3900:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1593835642
VS.GNSS.Satellites
Traced.1
Number of times
one to three GNSS
satellites are traced
BTS3900:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1593835643
VS.GNSS.Satellites
Traced.2
Number of times
four GNSS satellites
are traced
BTS3900:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835644
VS.GNSS.Satellites
Traced.3
Number of times
five GNSS satellites
are traced
BTS3900:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1593835645
VS.GNSS.Satellites
Traced.4
Number of times
more than five
GNSS satellites are
traced
BTS3900:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1593835646
VS.GNSS.Satellites
Traced.Mean
Average number of
traced GNSS
satellites
BTS3900:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
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1.1.3.1.1 Number of times that the number of traced GNSS satellites falls in level 0
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835641
VS.GNSS.Satel
litesTraced.0
Number of
times no GNSS
satellites are
traced
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of times no satellites are traced by this satellite card.
Measurement Points
The number of times that no satellites are traced by the satellite card is sampled every 3s. At
the end of a measurement period, the sum of these sampling results is used as the value of this
counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.GNSS.SatellitesTraced.0
Multi-mode: None
Feature Name
GSM: None
UMTS: None
LTE: LBFD-00300503
TDLBFD-00300503
Synchronization with GPS
Synchronization with GPS
NR: None
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1.1.3.1.2 Number of times that the number of traced GNSS satellites falls in level 1
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835642
VS.GNSS.Satel
litesTraced.1
Number of
times one to
three GNSS
satellites are
traced
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of times one to three satellites are traced by this satellite
card.
Measurement Points
The number of times that one to three satellites are traced by the satellite card is sampled
every 3s. At the end of a measurement period, the sum of these sampling results is used as the
value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.GNSS.SatellitesTraced.1
Multi-mode: None
Feature Name
GSM: None
UMTS: None
LTE: LBFD-00300503
TDLBFD-00300503
Synchronization with GPS
Synchronization with GPS
NR: None
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1.1.3.1.3 Number of times that the number of traced GNSS satellites falls in level 2
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835643
VS.GNSS.Satel
litesTraced.2
Number of
times four
GNSS satellites
are traced
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of times four satellites are traced by this satellite card.
Measurement Points
The number of times that four satellites are traced by the satellite card is sampled every 3s. At
the end of a measurement period, the sum of these sampling results is used as the value of this
counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.GNSS.SatellitesTraced.2
Multi-mode: None
Feature Name
GSM: None
UMTS: None
LTE: LBFD-00300503
TDLBFD-00300503
Synchronization with GPS
Synchronization with GPS
NR: None
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1.1.3.1.4 Number of times that the number of traced GNSS satellites falls in level 3
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835644
VS.GNSS.Satel
litesTraced.3
Number of
times five
GNSS satellites
are traced
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of times five satellites are traced by this satellite card.
Measurement Points
The number of times that five satellites are traced by the satellite card is sampled every 3s. At
the end of a measurement period, the sum of these sampling results is used as the value of this
counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.GNSS.SatellitesTraced.3
Multi-mode: None
Feature Name
GSM: None
UMTS: None
LTE: LBFD-00300503
TDLBFD-00300503
Synchronization with GPS
Synchronization with GPS
NR: None
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1.1.3.1.5 Number of times that the number of traced GNSS satellites falls in level 4
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835645
VS.GNSS.Satel
litesTraced.4
Number of
times more than
five GNSS
satellites are
traced
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of times more than five satellites are traced by this satellite
card.
Measurement Points
The number of times that more than five satellites are traced by the satellite card is sampled
every 3s. At the end of a measurement period, the sum of these sampling results is used as the
value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.GNSS.SatellitesTraced.4
Multi-mode: None
Feature Name
GSM: None
UMTS: None
LTE: LBFD-00300503
TDLBFD-00300503
Synchronization with GPS
Synchronization with GPS
NR: None
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1.1.3.1.6 Average number of traced GNSS satellites
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835646
VS.GNSS.Satel
litesTraced.Mea
n
Average
number of
traced GNSS
satellites
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the average number of satellites traced by this satellite card.
Measurement Points
The number of satellites traced by the satellite card is sampled every 3s. At the end of a
measurement period, the average of these sampling results is used as the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.GNSS.SatellitesTraced.
Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: None
LTE: LBFD-00300503
TDLBFD-00300503
Synchronization with GPS
Synchronization with GPS
NR: None
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1.1.4 Measurement of RF Module Performance (RADIOEQM)
Overview
The Measurement of RF Module Performance object contains the function subsets related to
the RF module.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
RADIOEQM.CPRI
CPRI Physical Layer Performance
Measurement
RADIOEQM.Power
RF Unit Power Measurement
RADIOEQM.Avail
Measurement of RF Unit Availability
Duration
1.1.4.1 CPRI Physical Layer Performance Measurement (RADIOEQM.CPRI)
Overview
1. The CPRI Physical Layer Performance Measurement function monitors the bit error
performance on the physical layer of the CPRI link between neighboring devices in the uplink
and downlink, including the errored second (ES), severely errored second (SES), unavailable
second (UAS), and number of bit errors. 2. The CPRI physical layer performance
measurement is performed to measure the performance of RF modules. Each RF module has
two ports (CPRI0 port and CPRI1 port). Each CPRI port has one set of counters. The
performance of both sending and receiving of the uplink port on the RF module is measured
by default. In a chain topology, an RF module has one uplink CPRI port and one downlink
CPRI port; the measurement results of the uplink port are reported as the measurement results
of this RF module; the measurement results of the downlink port are reported as the
measurement results of the lower-level RF module. In a load sharing topology, an RF module
has two uplink CPRI ports (CPRI0 port and CPRI1 port), each with a set of counters; both the
sets of measurement results are reported as the measurement results of this RF module. 3. The
measurement results of this function serve as reference for maintenance, and this function
applies only to scenarios with a low bit error rate. If the RF module maintenance link becomes
faulty, the downlink measurement results of the CPRI link are invalid. If bit errors exist in the
downlink for a long period of time, the RF module clock will become abnormal, affecting
uplink measurement results. 4. In separate-MPT scenarios using CPRI MUX, if the converged
party queries uplink measurement results of the first-level RF module on the converging party
side, the obtained results are invalid. 5. If the RF module maintenance link becomes faulty but
the physical CPRI link is running properly, CPRI0 port is used by default to report uplink
measurement results on the measured RF module. After the maintenance link recovers, the
connected CPRI port reports uplink measurement results. 6. This function supports RF
modules only in the star, chain, load sharing, or dual-star topology. This function does not
support RHUB, or RF modules in the branch chain or ring topology. 7. In the chain topology,
if a CPRI port is blocked or a breakpoint is set on a module, the measurement results of the
lower-level RF module of the module are useless. In the load sharing topology, if a CPRI port
is blocked or a breakpoint is set at the ring head or tail, the measurement results of the CPRI
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port connecting the ring head or tail on the lower-level RF module are useless; if a CPRI port
is blocked or a breakpoint is set at both the ring head and tail, the measurement results of the
lower-level RF module are useless.
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835652
VS.RADIOEQM.C
PRI0.DES
Downlink ES over
the CPRI0 port
BTS3900:
V100R011C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
1593835653
VS.RADIOEQM.C
PRI0.DSES
Downlink SES over
the CPRI0 port
BTS3900:
V100R011C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
1593835654
VS.RADIOEQM.C
PRI0.DUAS
Downlink UAS over
the CPRI0 port
BTS3900:
V100R011C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
1593835655
VS.RADIOEQM.C
PRI0.DIVS
Second when
downlink
measurement results
of the CPRI0 port
are invalid
BTS3900:
V100R011C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835656
VS.RADIOEQM.C
PRI0.DERR
Number of downlink
bit errors over the
CPRI0 port
BTS3900:
V100R011C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
1593835657
VS.RADIOEQM.C
PRI0.UES
Uplink ES over the
CPRI0 port
BTS3900:
V100R011C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
1593835658
VS.RADIOEQM.C
PRI0.USES
Uplink SES over the
CPRI0 port
BTS3900:
V100R011C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
1593835659
VS.RADIOEQM.C
PRI0.UUAS
Uplink UAS over
the CPRI0 port
BTS3900:
V100R011C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
1593835660
VS.RADIOEQM.C
PRI0.UIVS
Second when uplink
measurement results
of the CPRI0 port
are invalid
BTS3900:
V100R011C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835661
VS.RADIOEQM.C
PRI0.UERR
Number of uplink
bit errors over the
CPRI0 port
BTS3900:
V100R011C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
1593835662
VS.RADIOEQM.C
PRI1.DES
Downlink ES over
the CPRI1 port
BTS3900:
V100R011C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
1593835663
VS.RADIOEQM.C
PRI1.DSES
Downlink SES over
the CPRI1 port
BTS3900:
V100R011C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
1593835664
VS.RADIOEQM.C
PRI1.DUAS
Downlink UAS over
the CPRI1 port
BTS3900:
V100R011C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
1593835665
VS.RADIOEQM.C
PRI1.DIVS
Second when
downlink
measurement results
of the CPRI1 port
are invalid
BTS3900:
V100R011C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835666
VS.RADIOEQM.C
PRI1.DERR
Number of downlink
bit errors over the
CPRI1 port
BTS3900:
V100R011C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
1593835667
VS.RADIOEQM.C
PRI1.UES
Uplink ES over the
CPRI1 port
BTS3900:
V100R011C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
1593835668
VS.RADIOEQM.C
PRI1.USES
Uplink SES over the
CPRI1 port
BTS3900:
V100R011C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
1593835669
VS.RADIOEQM.C
PRI1.UUAS
Uplink UAS over
the CPRI1 port
BTS3900:
V100R011C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
1593835670
VS.RADIOEQM.C
PRI1.UIVS
Second when uplink
measurement results
of the CPRI1 port
are invalid
BTS3900:
V100R011C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835671
VS.RADIOEQM.C
PRI1.UERR
Number of uplink
bit errors over the
CPRI1 port
BTS3900:
V100R011C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
1.1.4.1.1 VS.RADIOEQM.CPRI0.DES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835652
VS.RADIOEQ
M.CPRI0.DES
Downlink ES
over the CPRI0
port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides downlink ESs over the CPRI0 port. If bit errors occur or the CPRI0
port fails to properly receive or transmit data within a second, this second is a downlink ES.
This counter cannot be measured for the following modules: RRU3702, RRU3008,
RRU3004, RRU3801C, RRU3801E, RRU3804, RRU3805, RRU3821E, RRU3806,
RRU3808, RRU3203, RRU3201, RRU3222, RRU3220, RRU3908, RRU3201, RRU3920,
RRU3926, RRU3606, DRFU, GRFU V1, GRFU V2, GRFU V2A, GRFU V2B, GRFU V0,
GRFU V2e, WRFU, LRFU, MRFU V2A, MRFU V0, MRFU V1, MRFU V2, MRFU V2e,
CRFU, RHUB and pRRU.
Issue Draft C (2019-04-10)
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50
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
Downlink bit errors over the CPRI0 port are sampled every 1s. If an ES occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
1.1.4.1.2 VS.RADIOEQM.CPRI0.DSES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835653
VS.RADIOEQ
M.CPRI0.DSE
S
Downlink SES
over the CPRI0
port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides downlink SESs over the CPRI0 port. If the bit error rate is greater than
the value of Severely Errored Second Threshold or the CPRI0 port fails to properly receive or
transmit data within a second, this second is a downlink SES. The value of Severely Errored
Second Threshold is set to 1E-6 by default and can be modified by running an MML
command. This counter cannot be measured for the following modules: RRU3702, RRU3008,
RRU3004, RRU3801C, RRU3801E, RRU3804, RRU3805, RRU3821E, RRU3806,
RRU3808, RRU3203, RRU3201, RRU3222, RRU3220, RRU3908, RRU3201, RRU3920,
RRU3926, RRU3606, DRFU, GRFU V1, GRFU V2, GRFU V2A, GRFU V2B, GRFU V0,
GRFU V2e, WRFU, LRFU, MRFU V2A, MRFU V0, MRFU V1, MRFU V2, MRFU V2e,
CRFU, RHUB and pRRU.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
51
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
Downlink bit errors over the CPRI0 port are sampled every 1s. If an SES occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
1.1.4.1.3 VS.RADIOEQM.CPRI0.DUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835654
VS.RADIOEQ
M.CPRI0.DUA
S
Downlink UAS
over the CPRI0
port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides downlink UASs over the CPRI0 port. If 10 consecutive downlink SESs
occur over the CPRI0 port, downlink UASs start from the first SES. If 10 consecutive
downlink non-SESs occur over the CPRI0 port, downlink UASs stop at the first non-SES.
UASs do not mean that services are unavailable. This counter cannot be measured for the
following modules: RRU3702, RRU3008, RRU3004, RRU3801C, RRU3801E, RRU3804,
RRU3805, RRU3821E, RRU3806, RRU3808, RRU3203, RRU3201, RRU3222, RRU3220,
RRU3908, RRU3201, RRU3920, RRU3926, RRU3606, DRFU, GRFU V1, GRFU V2,
GRFU V2A, GRFU V2B, GRFU V0, GRFU V2e, WRFU, LRFU, MRFU V2A, MRFU V0,
MRFU V1, MRFU V2, MRFU V2e, CRFU, RHUB and pRRU.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
52
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
Downlink bit errors over the CPRI0 port are sampled every 1s. If a UAS occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
1.1.4.1.4 VS.RADIOEQM.CPRI0.DIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835655
VS.RADIOEQ
M.CPRI0.DIVS
Second when
downlink
measurement
results of the
CPRI0 port are
invalid
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides seconds within which the BBU cannot obtain downlink measurement
results over the CPRI0 port when the RF module maintenance link is interrupted. This counter
cannot be measured for the following modules: RRU3702, RRU3008, RRU3004, RRU3801C,
RRU3801E, RRU3804, RRU3805, RRU3821E, RRU3806, RRU3808, RRU3203, RRU3201,
RRU3222, RRU3220, RRU3908, RRU3201, RRU3920, RRU3926, RRU3606, DRFU, GRFU
V1, GRFU V2, GRFU V2A, GRFU V2B, GRFU V0, GRFU V2e, WRFU, LRFU, MRFU
V2A, MRFU V0, MRFU V1, MRFU V2, MRFU V2e, CRFU, RHUB and pRRU.
Measurement Points
Downlink bit errors over the CPRI0 port are sampled every 1s. If no measurement results are
reported within a second, the value of this counter is incremented by 1.
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Formula
None
Unit
s
Related Features
None
1.1.4.1.5 VS.RADIOEQM.CPRI0.DERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835656
VS.RADIOEQ
M.CPRI0.DER
R
Number of
downlink bit
errors over the
CPRI0 port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides the number of bit errors on the downlink physical layer of the CPRI0
port. This counter cannot be measured for the following modules: RRU3702, RRU3008,
RRU3004, RRU3801C, RRU3801E, RRU3804, RRU3805, RRU3821E, RRU3806,
RRU3808, RRU3203, RRU3201, RRU3222, RRU3220, RRU3908, RRU3201, RRU3920,
RRU3926, RRU3606, DRFU, GRFU V1, GRFU V2, GRFU V2A, GRFU V2B, GRFU V0,
GRFU V2e, WRFU, LRFU, MRFU V2A, MRFU V0, MRFU V1, MRFU V2, MRFU V2e,
CRFU, RHUB and pRRU.
Measurement Points
Downlink bit errors over the CPRI0 port are sampled every 1s. If bit errors occur within a
second, the value of this counter is incremented by the number of bit errors within this
second.
Formula
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
54
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Unit
None
Related Features
None
1.1.4.1.6 VS.RADIOEQM.CPRI0.UES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835657
VS.RADIOEQ
M.CPRI0.UES
Uplink ES over
the CPRI0 port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides uplink ESs over the CPRI0 port. If bit errors occur or the CPRI0 port
fails to properly receive or transmit data within a second, this second is an uplink ES. This
counter cannot be measured for the following modules: RRU3702, RRU3008, RRU3004,
RRU3801C, RRU3801E, RRU3804, RRU3805, RRU3821E, RRU3806, RRU3808,
RRU3203, RRU3201, RRU3222, RRU3220, RRU3908, RRU3201, RRU3920, RRU3926,
RRU3606, DRFU, GRFU V1, GRFU V2, GRFU V2A, GRFU V2B, GRFU V0, GRFU V2e,
WRFU, LRFU, MRFU V2A, MRFU V0, MRFU V1, MRFU V2, MRFU V2e, CRFU, RHUB
and pRRU.
Measurement Points
Uplink bit errors over the CPRI0 port are sampled every 1s. If an ES occurs, the value of this
counter is incremented by 1.
Formula
None
Unit
s
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
55
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
None
1.1.4.1.7 VS.RADIOEQM.CPRI0.USES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835658
VS.RADIOEQ
M.CPRI0.USE
S
Uplink SES
over the CPRI0
port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides uplink SESs over the CPRI0 port. If the uplink bit error rate is greater
than the value of Severely Errored Second Threshold or the CPRI0 port fails to properly
receive or transmit data within a second, this second is an uplink SES. The value of Severely
Errored Second Threshold is set to 1E-6 by default and can be modified by running an MML
command. This counter cannot be measured for the following modules: RRU3702, RRU3008,
RRU3004, RRU3801C, RRU3801E, RRU3804, RRU3805, RRU3821E, RRU3806,
RRU3808, RRU3203, RRU3201, RRU3222, RRU3220, RRU3908, RRU3201, RRU3920,
RRU3926, RRU3606, DRFU, GRFU V1, GRFU V2, GRFU V2A, GRFU V2B, GRFU V0,
GRFU V2e, WRFU, LRFU, MRFU V2A, MRFU V0, MRFU V1, MRFU V2, MRFU V2e,
CRFU, RHUB and pRRU.
Measurement Points
Uplink bit errors over the CPRI0 port are sampled every 1s. If an SES occurs, the value of this
counter is incremented by 1.
Formula
None
Unit
s
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
56
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
None
1.1.4.1.8 VS.RADIOEQM.CPRI0.UUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835659
VS.RADIOEQ
M.CPRI0.UUA
S
Uplink UAS
over the CPRI0
port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides uplink UASs over the CPRI0 port. If 10 consecutive uplink SESs occur
over the CPRI0 port, uplink UASs start from the first SES. If 10 consecutive uplink non-SESs
occur over the CPRI0 port, uplink UASs stop at the first non-SES. UASs do not mean that
services are unavailable. This counter cannot be measured for the following modules:
RRU3702, RRU3008, RRU3004, RRU3801C, RRU3801E, RRU3804, RRU3805,
RRU3821E, RRU3806, RRU3808, RRU3203, RRU3201, RRU3222, RRU3220, RRU3908,
RRU3201, RRU3920, RRU3926, RRU3606, DRFU, GRFU V1, GRFU V2, GRFU V2A,
GRFU V2B, GRFU V0, GRFU V2e, WRFU, LRFU, MRFU V2A, MRFU V0, MRFU V1,
MRFU V2, MRFU V2e, CRFU, RHUB and pRRU.
Measurement Points
Uplink bit errors over the CPRI0 port are sampled every 1s. If a UAS occurs, the value of this
counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
57
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.4.1.9 VS.RADIOEQM.CPRI0.UIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835660
VS.RADIOEQ
M.CPRI0.UIVS
Second when
uplink
measurement
results of the
CPRI0 port are
invalid
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides seconds within which the BBU cannot obtain uplink measurement
results over the CPRI0 port when the RF module maintenance link is interrupted. This counter
cannot be measured for the following modules: RRU3702, RRU3008, RRU3004, RRU3801C,
RRU3801E, RRU3804, RRU3805, RRU3821E, RRU3806, RRU3808, RRU3203, RRU3201,
RRU3222, RRU3220, RRU3908, RRU3201, RRU3920, RRU3926, RRU3606, DRFU, GRFU
V1, GRFU V2, GRFU V2A, GRFU V2B, GRFU V0, GRFU V2e, WRFU, LRFU, MRFU
V2A, MRFU V0, MRFU V1, MRFU V2, MRFU V2e, CRFU, RHUB and pRRU.
Measurement Points
Uplink bit errors over the CPRI0 port are sampled every 1s. If no measurement results are
reported within a second, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
58
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.4.1.10 VS.RADIOEQM.CPRI0.UERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835661
VS.RADIOEQ
M.CPRI0.UER
R
Number of
uplink bit errors
over the CPRI0
port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides the number of bit errors on the uplink physical layer of the CPRI0 port.
This counter cannot be measured for the following modules: RRU3702, RRU3008,
RRU3004, RRU3801C, RRU3801E, RRU3804, RRU3805, RRU3821E, RRU3806,
RRU3808, RRU3203, RRU3201, RRU3222, RRU3220, RRU3908, RRU3201, RRU3920,
RRU3926, RRU3606, DRFU, GRFU V1, GRFU V2, GRFU V2A, GRFU V2B, GRFU V0,
GRFU V2e, WRFU, LRFU, MRFU V2A, MRFU V0, MRFU V1, MRFU V2, MRFU V2e,
CRFU, RHUB and pRRU.
Measurement Points
Uplink bit errors over the CPRI0 port are sampled every 1s. If bit errors occur within a
second, the value of this counter is incremented by the number of bit errors within this
second.
Formula
None
Unit
None
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
59
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.4.1.11 VS.RADIOEQM.CPRI1.DES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835662
VS.RADIOEQ
M.CPRI1.DES
Downlink ES
over the CPRI1
port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides downlink ESs over the CPRI1 port. If bit errors occur or the CPRI1
port fails to properly receive or transmit data within a second, this second is a downlink ES.
This counter cannot be measured for the following modules: RRU3702, RRU3008,
RRU3004, RRU3801C, RRU3801E, RRU3804, RRU3805, RRU3821E, RRU3806,
RRU3808, RRU3203, RRU3201, RRU3222, RRU3220, RRU3908, RRU3201, RRU3920,
RRU3926, RRU3606, DRFU, GRFU V1, GRFU V2, GRFU V2A, GRFU V2B, GRFU V0,
GRFU V2e, WRFU, LRFU, MRFU V2A, MRFU V0, MRFU V1, MRFU V2, MRFU V2e,
CRFU, RHUB and pRRU.
Measurement Points
Downlink bit errors over the CPRI1 port are sampled every 1s. If an ES occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
60
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.4.1.12 VS.RADIOEQM.CPRI1.DSES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835663
VS.RADIOEQ
M.CPRI1.DSE
S
Downlink SES
over the CPRI1
port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides downlink SESs over the CPRI1 port. If the bit error rate is greater than
the value of Severely Errored Second Threshold or the CPRI1 port fails to properly receive or
transmit data within a second, this second is a downlink SES. The value of Severely Errored
Second Threshold is set to 1E-6 by default and can be modified by running an MML
command. This counter cannot be measured for the following modules: RRU3702, RRU3008,
RRU3004, RRU3801C, RRU3801E, RRU3804, RRU3805, RRU3821E, RRU3806,
RRU3808, RRU3203, RRU3201, RRU3222, RRU3220, RRU3908, RRU3201, RRU3920,
RRU3926, RRU3606, DRFU, GRFU V1, GRFU V2, GRFU V2A, GRFU V2B, GRFU V0,
GRFU V2e, WRFU, LRFU, MRFU V2A, MRFU V0, MRFU V1, MRFU V2, MRFU V2e,
CRFU, RHUB and pRRU.
Measurement Points
Downlink bit errors over the CPRI1 port are sampled every 1s. If an SES occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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61
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.4.1.13 VS.RADIOEQM.CPRI1.DUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835664
VS.RADIOEQ
M.CPRI1.DUA
S
Downlink UAS
over the CPRI1
port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides downlink UASs over the CPRI1 port. If 10 consecutive downlink SESs
occur over the CPRI1 port, downlink UASs start from the first SES. If 10 consecutive
downlink non-SESs occur over the CPRI1 port, downlink UASs stop at the first non-SES.
UASs do not mean that services are unavailable. This counter cannot be measured for the
following modules: RRU3702, RRU3008, RRU3004, RRU3801C, RRU3801E, RRU3804,
RRU3805, RRU3821E, RRU3806, RRU3808, RRU3203, RRU3201, RRU3222, RRU3220,
RRU3908, RRU3201, RRU3920, RRU3926, RRU3606, DRFU, GRFU V1, GRFU V2,
GRFU V2A, GRFU V2B, GRFU V0, GRFU V2e, WRFU, LRFU, MRFU V2A, MRFU V0,
MRFU V1, MRFU V2, MRFU V2e, CRFU, RHUB and pRRU.
Measurement Points
Downlink bit errors over the CPRI1 port are sampled every 1s. If a UAS occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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62
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.4.1.14 VS.RADIOEQM.CPRI1.DIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835665
VS.RADIOEQ
M.CPRI1.DIVS
Second when
downlink
measurement
results of the
CPRI1 port are
invalid
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides seconds within which the BBU cannot obtain downlink measurement
results over the CPRI1 port when the RF module maintenance link is interrupted. This counter
cannot be measured for the following modules: RRU3702, RRU3008, RRU3004, RRU3801C,
RRU3801E, RRU3804, RRU3805, RRU3821E, RRU3806, RRU3808, RRU3203, RRU3201,
RRU3222, RRU3220, RRU3908, RRU3201, RRU3920, RRU3926, RRU3606, DRFU, GRFU
V1, GRFU V2, GRFU V2A, GRFU V2B, GRFU V0, GRFU V2e, WRFU, LRFU, MRFU
V2A, MRFU V0, MRFU V1, MRFU V2, MRFU V2e, CRFU, RHUB and pRRU.
Measurement Points
Downlink bit errors over the CPRI1 port are sampled every 1s. If no measurement results are
reported within a second, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
63
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.4.1.15 VS.RADIOEQM.CPRI1.DERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835666
VS.RADIOEQ
M.CPRI1.DER
R
Number of
downlink bit
errors over the
CPRI1 port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides the number of bit errors on the downlink physical layer of the CPRI1
port. This counter cannot be measured for the following modules: RRU3702, RRU3008,
RRU3004, RRU3801C, RRU3801E, RRU3804, RRU3805, RRU3821E, RRU3806,
RRU3808, RRU3203, RRU3201, RRU3222, RRU3220, RRU3908, RRU3201, RRU3920,
RRU3926, RRU3606, DRFU, GRFU V1, GRFU V2, GRFU V2A, GRFU V2B, GRFU V0,
GRFU V2e, WRFU, LRFU, MRFU V2A, MRFU V0, MRFU V1, MRFU V2, MRFU V2e,
CRFU, RHUB and pRRU.
Measurement Points
Downlink bit errors over the CPRI1 port are sampled every 1s. If bit errors occur within a
second, the value of this counter is incremented by the number of bit errors within this
second.
Formula
None
Unit
None
Related Features
None
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1 Node Performance Counter Measurement
1.1.4.1.16 VS.RADIOEQM.CPRI1.UES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835667
VS.RADIOEQ
M.CPRI1.UES
Uplink ES over
the CPRI1 port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides uplink ESs over the CPRI1 port. If bit errors occur or the CPRI1 port
fails to properly receive or transmit data within a second, this second is an uplink ES. This
counter cannot be measured for the following modules: RRU3702, RRU3008, RRU3004,
RRU3801C, RRU3801E, RRU3804, RRU3805, RRU3821E, RRU3806, RRU3808,
RRU3203, RRU3201, RRU3222, RRU3220, RRU3908, RRU3201, RRU3920, RRU3926,
RRU3606, DRFU, GRFU V1, GRFU V2, GRFU V2A, GRFU V2B, GRFU V0, GRFU V2e,
WRFU, LRFU, MRFU V2A, MRFU V0, MRFU V1, MRFU V2, MRFU V2e, CRFU, RHUB
and pRRU.
Measurement Points
Uplink bit errors over the CPRI1 port are sampled every 1s. If an ES occurs, the value of this
counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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1 Node Performance Counter Measurement
1.1.4.1.17 VS.RADIOEQM.CPRI1.USES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835668
VS.RADIOEQ
M.CPRI1.USE
S
Uplink SES
over the CPRI1
port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides uplink SESs over the CPRI1 port. If the bit error rate is greater than the
value of Severely Errored Second Threshold or the CPRI1 port fails to properly receive or
transmit data within a second, this second is an uplink SES. The value of Severely Errored
Second Threshold is set to 1E-6 by default and can be modified by running an MML
command. This counter cannot be measured for the following modules: RRU3702, RRU3008,
RRU3004, RRU3801C, RRU3801E, RRU3804, RRU3805, RRU3821E, RRU3806,
RRU3808, RRU3203, RRU3201, RRU3222, RRU3220, RRU3908, RRU3201, RRU3920,
RRU3926, RRU3606, DRFU, GRFU V1, GRFU V2, GRFU V2A, GRFU V2B, GRFU V0,
GRFU V2e, WRFU, LRFU, MRFU V2A, MRFU V0, MRFU V1, MRFU V2, MRFU V2e,
CRFU, RHUB and pRRU.
Measurement Points
Uplink bit errors over the CPRI1 port are sampled every 1s. If an SES occurs, the value of this
counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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1 Node Performance Counter Measurement
1.1.4.1.18 VS.RADIOEQM.CPRI1.UUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835669
VS.RADIOEQ
M.CPRI1.UUA
S
Uplink UAS
over the CPRI1
port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides uplink UASs over the CPRI1 port. If 10 consecutive uplink SESs occur
over the CPRI1 port, uplink UASs start from the first SES. If 10 consecutive uplink non-SESs
occur over the CPRI1 port, uplink UASs stop at the first non-SES. UASs do not mean that
services are unavailable. This counter cannot be measured for the following modules:
RRU3702, RRU3008, RRU3004, RRU3801C, RRU3801E, RRU3804, RRU3805,
RRU3821E, RRU3806, RRU3808, RRU3203, RRU3201, RRU3222, RRU3220, RRU3908,
RRU3201, RRU3920, RRU3926, RRU3606, DRFU, GRFU V1, GRFU V2, GRFU V2A,
GRFU V2B, GRFU V0, GRFU V2e, WRFU, LRFU, MRFU V2A, MRFU V0, MRFU V1,
MRFU V2, MRFU V2e, CRFU, RHUB and pRRU.
Measurement Points
Uplink bit errors over the CPRI1 port are sampled every 1s. If a UAS occurs, the value of this
counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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1 Node Performance Counter Measurement
1.1.4.1.19 VS.RADIOEQM.CPRI1.UIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835670
VS.RADIOEQ
M.CPRI1.UIVS
Second when
uplink
measurement
results of the
CPRI1 port are
invalid
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides seconds within which the BBU cannot obtain uplink measurement
results over the CPRI1 port when the RF module maintenance link is interrupted. This counter
cannot be measured for the following modules: RRU3702, RRU3008, RRU3004, RRU3801C,
RRU3801E, RRU3804, RRU3805, RRU3821E, RRU3806, RRU3808, RRU3203, RRU3201,
RRU3222, RRU3220, RRU3908, RRU3201, RRU3920, RRU3926, RRU3606, DRFU, GRFU
V1, GRFU V2, GRFU V2A, GRFU V2B, GRFU V0, GRFU V2e, WRFU, LRFU, MRFU
V2A, MRFU V0, MRFU V1, MRFU V2, MRFU V2e, CRFU, RHUB and pRRU.
Measurement Points
Uplink bit errors over the CPRI1 port are sampled every 1s. If no measurement results are
reported within a second, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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1 Node Performance Counter Measurement
1.1.4.1.20 VS.RADIOEQM.CPRI1.UERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835671
VS.RADIOEQ
M.CPRI1.UER
R
Number of
uplink bit errors
over the CPRI1
port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides the number of bit errors on the uplink physical layer of the CPRI1 port.
This counter cannot be measured for the following modules: RRU3702, RRU3008,
RRU3004, RRU3801C, RRU3801E, RRU3804, RRU3805, RRU3821E, RRU3806,
RRU3808, RRU3203, RRU3201, RRU3222, RRU3220, RRU3908, RRU3201, RRU3920,
RRU3926, RRU3606, DRFU, GRFU V1, GRFU V2, GRFU V2A, GRFU V2B, GRFU V0,
GRFU V2e, WRFU, LRFU, MRFU V2A, MRFU V0, MRFU V1, MRFU V2, MRFU V2e,
CRFU, RHUB and pRRU.
Measurement Points
Uplink bit errors over the CPRI1 port are sampled every 1s. If bit errors occur within a
second, the value of this counter is incremented by the number of bit errors within this
second.
Formula
None
Unit
None
Related Features
None
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1 Node Performance Counter Measurement
1.1.4.2 RF Unit Power Measurement (RADIOEQM.Power)
Overview
The RF Unit Power Measurement measures the performance of RF Unit Power.
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835675
VS.RADIOEQM.D
L.Pwr.Avg
Average RF Unit TX
Power
BTS3900:
V100R011C10
BTS3900 LTE:
V100R011C10
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1593835676
VS.RADIOEQM.D
L.Pwr.Max
Maximum RF Unit
TX Power
BTS3900:
V100R011C10
BTS3900 LTE:
V100R011C10
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
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1 Node Performance Counter Measurement
1.1.4.2.1 RF Unit TX Power
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835675
VS.RADIOEQ
M.DL.Pwr.Avg
Average RF
Unit TX Power
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
1593835676
VS.RADIOEQ
M.DL.Pwr.Max
Maximum RF
Unit TX Power
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
The counter measures the average and maximum of the downlink TX power of RF units.
Measurement Points
The TX power of RF units is sampled every 5s. After a performance measurement period, the
average of these sampling results is used as the value of the VS.RADIOEQM.DL.Pwr.Avg
counter, and the maximum of these sampling results is used as the value of the
VS.RADIOEQM.DL.Pwr.Max counter.
Formula
None
Unit
dBm
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Related Features
Counter Name
Feature ID
Feature Name
VS.RADIOEQM.DL.Pwr.A
vg
Multi-mode: None
GSM: None
UMTS: None
LTE: LBFD-001041
TDLBFD-001041
Power Consumption
Monitoring
NR: None
VS.RADIOEQM.DL.Pwr.M
ax
Power Consumption
Monitoring
Multi-mode: None
GSM: None
UMTS: None
LTE: LBFD-001041
TDLBFD-001041
Power Consumption
Monitoring
Power Consumption
Monitoring
NR: None
1.1.4.3 Measurement of RF Unit Availability Duration (RADIOEQM.Avail)
Overview
The Measurement of RF Unit Availability Duration object provides the total availability
duration of an RF unit.
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835767
VS.RADIOEQM.A
vail.Dur
RF Unit Availability
Duration
BTS3900:
V100R012C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
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1 Node Performance Counter Measurement
1.1.4.3.1 VS.RADIOEQM.Avail.Dur
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835767
VS.RADIOEQ
M.Avail.Dur
RF Unit
Availability
Duration
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides the availability duration of an RF unit.
Measurement Points
When the system is started, the RF unit is periodically sampled every 5 seconds. If the RF
unit is available, this counter is incremented by 5 at each sampling point. The accumulated
duration is reported at the end of the measurement period.
Formula
None
Unit
s
Related Features
None
1.1.5 Measurement of CXU Performance (CXU)
Overview
The Measurement of CXU Module Performance object contains the function subsets related
to the CXU.
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1 Node Performance Counter Measurement
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
CXU.CPRI
CPRI Physical Layer Performance
Measurement for the CXU
CXU.Avail
Measurement of CXU Availability Duration
1.1.5.1 CPRI Physical Layer Performance Measurement for the CXU (CXU.CPRI)
Overview
1. CPRI physical layer performance measurement for the CXU monitors the bit error
performance at the physical layer of the CPRI link between neighboring devices in the uplink
and downlink, including errored seconds (ESs), severely errored seconds (SESs), unavailable
seconds (UASs), and the number of bit errors. 2. CPRI physical layer performance
measurement for the CXU measures the performance of CXUs, including CGPSs and RMUs.
Each CGPS or RPCU has two ports (CPRI ports 0 and 1). Each CPRI port has one set of
counters. Each RMU has two uplink ports (XCI ports 0 and 1). The XCI port in 1x40GE
mode has one set of counters and the XCI port in 2x10GE mode has two sets of counters. The
performance of both sending and receiving data of an uplink port on the CXU is measured by
default. Downlink performance of the uplink port is measured at this CXU, and uplink
performance is measured at the downlink port of the upper-level object. 3. The measurement
results of this function serve as reference for maintenance, and this function applies only to
scenarios with a low bit error rate. If the CXU maintenance link becomes faulty, the downlink
measurement results of the CPRI link are invalid. If bit errors exist in the downlink for a long
period of time, the CXU clock will become abnormal which affects uplink measurement
results. 4. In a separate-MPT base station using CPRI MUX, if the converged party queries
uplink measurement results of the first-level RF module on the converging party side, the
obtained results are invalid. 5. If the device maintenance link becomes faulty but the physical
CPRI link is running properly, CPRI port 0 is used by default to report uplink measurement
results on the measured CXU. After the maintenance link recovers, the connected CPRI port
reports uplink measurement results. 6. If all connected CPRI ports are blocked or breakpoints
are set on all links, the measurement results of the lower-level devices of the CXU are invalid.
If multiple CPRI ports are used and only some of them are blocked, the measurement results
of the lower-level devices which connect to the blocked CPRI ports are invalid.
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835687
VS.CXU.XCI0.DE
S
Downlink ES over
the CXU XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835688
VS.CXU.XCI0.DS
ES
Downlink SES over
the CXU XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835689
VS.CXU.XCI0.DU
AS
Downlink UAS over
the CXU XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835690
VS.CXU.XCI0.DIV
S
Second when
downlink
measurement results
of the CXU XCI
Port 0 are invalid
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835691
VS.CXU.XCI0.DE
RR
Number of downlink
bit errors over the
CXU XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835692
VS.CXU.XCI0.UE
S
Uplink ES over the
CXU XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835693
VS.CXU.XCI0.US
ES
Uplink SES over the
CXU XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835694
VS.CXU.XCI0.UU
AS
Uplink UAS over
the CXU XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835695
VS.CXU.XCI0.UIV
S
Second when uplink
measurement results
of the CXU XCI
Port 0 are invalid
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835696
VS.CXU.XCI0.UE
RR
Number of uplink
bit errors over the
CXU XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835697
VS.CXU.XCI1.DE
S
Downlink ES over
the CXU XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835698
VS.CXU.XCI1.DS
ES
Downlink SES over
the CXU XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835699
VS.CXU.XCI1.DU
AS
Downlink UAS over
the CXU XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835700
VS.CXU.XCI1.DIV
S
Second when
downlink
measurement results
of the CXU XCI
Port 1 are invalid
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835701
VS.CXU.XCI1.DE
RR
Number of downlink
bit errors over the
CXU XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835702
VS.CXU.XCI1.UE
S
Uplink ES over the
CXU XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835703
VS.CXU.XCI1.US
ES
Uplink SES over the
CXU XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835704
VS.CXU.XCI1.UU
AS
Uplink UAS over
the CXU XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835705
VS.CXU.XCI1.UIV
S
Second when uplink
measurement results
of the CXU XCI
Port 1 are invalid
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835706
VS.CXU.XCI1.UE
RR
Number of uplink
bit errors over the
CXU XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835707
VS.CXU.XCI0.SU
BPORT0.DES
Downlink ES over
the Sub-Port 0 of
CXU XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835708
VS.CXU.XCI0.SU
BPORT0.DSES
Downlink SES over
the Sub-Port 0 of
CXU XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835709
VS.CXU.XCI0.SU
BPORT0.DUAS
Downlink UAS over
the Sub-Port 0 of
CXU XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835710
VS.CXU.XCI0.SU
BPORT0.DIVS
Second when
downlink
measurement results
of the Sub-Port 0 of
CXU XCI Port 0 are
invalid
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835711
VS.CXU.XCI0.SU
BPORT0.DERR
Number of downlink
bit errors over the
Sub-Port 0 of CXU
XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835712
VS.CXU.XCI0.SU
BPORT0.UES
Uplink ES over the
Sub-Port 0 of CXU
XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835713
VS.CXU.XCI0.SU
BPORT0.USES
Uplink SES over the
Sub-Port 0 of CXU
XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835714
VS.CXU.XCI0.SU
BPORT0.UUAS
Uplink UAS over
the Sub-Port 0 of
CXU XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835715
VS.CXU.XCI0.SU
BPORT0.UIVS
Second when uplink
measurement results
of the Sub-Port 0 of
CXU XCI Port 0 are
invalid
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835716
VS.CXU.XCI0.SU
BPORT0.UERR
Number of uplink
bit errors over the
Sub-Port 0 of CXU
XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835717
VS.CXU.XCI0.SU
BPORT1.DES
Downlink ES over
the Sub-Port 1 of
CXU XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835718
VS.CXU.XCI0.SU
BPORT1.DSES
Downlink SES over
the Sub-Port 1 of
CXU XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835719
VS.CXU.XCI0.SU
BPORT1.DUAS
Downlink UAS over
the Sub-Port 1 of
CXU XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835720
VS.CXU.XCI0.SU
BPORT1.DIVS
Second when
downlink
measurement results
of the Sub-Port 1 of
CXU XCI Port 0 are
invalid
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835721
VS.CXU.XCI0.SU
BPORT1.DERR
Number of downlink
bit errors over the
Sub-Port 1 of CXU
XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835722
VS.CXU.XCI0.SU
BPORT1.UES
Uplink ES over the
Sub-Port 1 of CXU
XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835723
VS.CXU.XCI0.SU
BPORT1.USES
Uplink SES over the
Sub-Port 1 of CXU
XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835724
VS.CXU.XCI0.SU
BPORT1.UUAS
Uplink UAS over
the Sub-Port 1 of
CXU XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835725
VS.CXU.XCI0.SU
BPORT1.UIVS
Second when uplink
measurement results
of the Sub-Port 1 of
CXU XCI Port 0 are
invalid
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835726
VS.CXU.XCI0.SU
BPORT1.UERR
Number of uplink
bit errors over the
Sub-Port 1 of CXU
XCI Port 0
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835727
VS.CXU.XCI1.SU
BPORT0.DES
Downlink ES over
the Sub-Port 0 of
CXU XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
78
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835728
VS.CXU.XCI1.SU
BPORT0.DSES
Downlink SES over
the Sub-Port 0 of
CXU XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835729
VS.CXU.XCI1.SU
BPORT0.DUAS
Downlink UAS over
the Sub-Port 0 of
CXU XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835730
VS.CXU.XCI1.SU
BPORT0.DIVS
Second when
downlink
measurement results
of the Sub-Port 0 of
CXU XCI Port 1 are
invalid
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835731
VS.CXU.XCI1.SU
BPORT0.DERR
Number of downlink
bit errors over the
Sub-Port 0 of CXU
XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835732
VS.CXU.XCI1.SU
BPORT0.UES
Uplink ES over the
Sub-Port 0 of CXU
XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835733
VS.CXU.XCI1.SU
BPORT0.USES
Uplink SES over the
Sub-Port 0 of CXU
XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835734
VS.CXU.XCI1.SU
BPORT0.UUAS
Uplink UAS over
the Sub-Port 0 of
CXU XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835735
VS.CXU.XCI1.SU
BPORT0.UIVS
Second when uplink
measurement results
of the Sub-Port 0 of
CXU XCI Port 1 are
invalid
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835736
VS.CXU.XCI1.SU
BPORT0.UERR
Number of uplink
bit errors over the
Sub-Port 0 of CXU
XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835737
VS.CXU.XCI1.SU
BPORT1.DES
Downlink ES over
the Sub-Port 1 of
CXU XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
79
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835738
VS.CXU.XCI1.SU
BPORT1.DSES
Downlink SES over
the Sub-Port 1 of
CXU XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835739
VS.CXU.XCI1.SU
BPORT1.DUAS
Downlink UAS over
the Sub-Port 1 of
CXU XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835740
VS.CXU.XCI1.SU
BPORT1.DIVS
Second when
downlink
measurement results
of the Sub-Port 1 of
CXU XCI Port 1 are
invalid
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835741
VS.CXU.XCI1.SU
BPORT1.DERR
Number of downlink
bit errors over the
Sub-Port 1 of CXU
XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835742
VS.CXU.XCI1.SU
BPORT1.UES
Uplink ES over the
Sub-Port 1 of CXU
XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835743
VS.CXU.XCI1.SU
BPORT1.USES
Uplink SES over the
Sub-Port 1 of CXU
XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835744
VS.CXU.XCI1.SU
BPORT1.UUAS
Uplink UAS over
the Sub-Port 1 of
CXU XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835745
VS.CXU.XCI1.SU
BPORT1.UIVS
Second when uplink
measurement results
of the Sub-Port 1 of
CXU XCI Port 1 are
invalid
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835746
VS.CXU.XCI1.SU
BPORT1.UERR
Number of uplink
bit errors over the
Sub-Port 1 of CXU
XCI Port 1
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835747
VS.CXU.CPRI0.D
ES
Downlink ES over
the CPRI0 port
BTS3900:
V100R012C00
BTS5900:
V100R013C00
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
80
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835748
VS.CXU.CPRI0.DS
ES
Downlink SES over
the CPRI0 port
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835749
VS.CXU.CPRI0.D
UAS
Downlink UAS over
the CPRI0 port
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835750
VS.CXU.CPRI0.DI
VS
Second when
downlink
measurement results
of the CPRI0 port
are invalid
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835751
VS.CXU.CPRI0.D
ERR
Number of downlink
bit errors over the
CPRI0 port
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835752
VS.CXU.CPRI0.U
ES
Uplink ES over the
CPRI0 port
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835753
VS.CXU.CPRI0.US
ES
Uplink SES over the
CPRI0 port
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835754
VS.CXU.CPRI0.U
UAS
Uplink UAS over
the CPRI0 port
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835755
VS.CXU.CPRI0.UI
VS
Second when uplink
measurement results
of the CPRI0 port
are invalid
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835756
VS.CXU.CPRI0.U
ERR
Number of uplink
bit errors over the
CPRI0 port
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835757
VS.CXU.CPRI1.D
ES
Downlink ES over
the CPRI1 port
BTS3900:
V100R012C00
BTS5900:
V100R013C00
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
81
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835758
VS.CXU.CPRI1.DS
ES
Downlink SES over
the CPRI1 port
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835759
VS.CXU.CPRI1.D
UAS
Downlink UAS over
the CPRI1 port
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835760
VS.CXU.CPRI1.DI
VS
Second when
downlink
measurement results
of the CPRI1 port
are invalid
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835761
VS.CXU.CPRI1.D
ERR
Number of downlink
bit errors over the
CPRI1 port
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835762
VS.CXU.CPRI1.U
ES
Uplink ES over the
CPRI1 port
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835763
VS.CXU.CPRI1.US
ES
Uplink SES over the
CPRI1 port
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835764
VS.CXU.CPRI1.U
UAS
Uplink UAS over
the CPRI1 port
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835765
VS.CXU.CPRI1.UI
VS
Second when uplink
measurement results
of the CPRI1 port
are invalid
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835766
VS.CXU.CPRI1.U
ERR
Number of uplink
bit errors over the
CPRI1 port
BTS3900:
V100R012C00
BTS5900:
V100R013C00
1593835771
VS.CXU.CPRI9.D
ES
Downlink ES over
the CPRI9 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
82
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835772
VS.CXU.CPRI9.DS
ES
Downlink SES over
the CPRI9 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835773
VS.CXU.CPRI9.D
UAS
Downlink UAS over
the CPRI9 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835774
VS.CXU.CPRI9.DI
VS
Second when
downlink
measurement results
of the CPRI9 port
are invalid
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835775
VS.CXU.CPRI9.D
ERR
Number of downlink
bit errors over the
CPRI9 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835776
VS.CXU.CPRI9.U
ES
Uplink ES over the
CPRI9 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835777
VS.CXU.CPRI9.US
ES
Uplink SES over the
CPRI9 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835778
VS.CXU.CPRI9.U
UAS
Uplink UAS over
the CPRI9 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835779
VS.CXU.CPRI9.UI
VS
Second when uplink
measurement results
of the CPRI9 port
are invalid
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835780
VS.CXU.CPRI9.U
ERR
Number of uplink
bit errors over the
CPRI9 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835781
VS.CXU.CPRI10.D
ES
Downlink ES over
the CPRI10 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
83
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835782
VS.CXU.CPRI10.D
SES
Downlink SES over
the CPRI10 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835783
VS.CXU.CPRI10.D
UAS
Downlink UAS over
the CPRI10 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835784
VS.CXU.CPRI10.D
IVS
Second when
downlink
measurement results
of the CPRI10 port
are invalid
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835785
VS.CXU.CPRI10.D
ERR
Number of downlink
bit errors over the
CPRI10 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835786
VS.CXU.CPRI10.U
ES
Uplink ES over the
CPRI10 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835787
VS.CXU.CPRI10.U
SES
Uplink SES over the
CPRI10 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835788
VS.CXU.CPRI10.U
UAS
Uplink UAS over
the CPRI10 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835789
VS.CXU.CPRI10.U
IVS
Second when uplink
measurement results
of the CPRI10 port
are invalid
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835790
VS.CXU.CPRI10.U
ERR
Number of uplink
bit errors over the
CPRI10 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835791
VS.CXU.CPRI11.D
ES
Downlink ES over
the CPRI11 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
84
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835792
VS.CXU.CPRI11.D
SES
Downlink SES over
the CPRI11 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835793
VS.CXU.CPRI11.D
UAS
Downlink UAS over
the CPRI11 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835794
VS.CXU.CPRI11.D
IVS
Second when
downlink
measurement results
of the CPRI11 port
are invalid
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835795
VS.CXU.CPRI11.D
ERR
Number of downlink
bit errors over the
CPRI11 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835796
VS.CXU.CPRI11.U
ES
Uplink ES over the
CPRI11 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835797
VS.CXU.CPRI11.U
SES
Uplink SES over the
CPRI11 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835798
VS.CXU.CPRI11.U
UAS
Uplink UAS over
the CPRI11 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835799
VS.CXU.CPRI11.U
IVS
Second when uplink
measurement results
of the CPRI11 port
are invalid
BTS3900:
V100R012C10
BTS5900:
V100R013C00
1593835800
VS.CXU.CPRI11.U
ERR
Number of uplink
bit errors over the
CPRI11 port
BTS3900:
V100R012C10
BTS5900:
V100R013C00
Counter Relationship
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
85
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.1 VS.CXU.XCI0.DES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835687
VS.CXU.XCI0.
DES
Downlink ES
over the CXU
XCI Port 0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink ESs over the RMU XCI port 0 in 1x40GE mode. If bit errors
occur or the XCI port 0 fails to properly receive or transmit data within a second, this second
is a downlink ES.
Measurement Points
Downlink bit errors over the CXU XCI Port 0 are sampled every 1s. If an ES occurs, the
value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
86
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.2 VS.CXU.XCI0.DSES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835688
VS.CXU.XCI0.
DSES
Downlink SES
over the CXU
XCI Port 0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink SESs over the RMU XCI port 0 in 1x40GE mode. If the bit
error rate is greater than the value of Severely Errored Second Threshold or the XCI port 0
fails to properly receive or transmit data within a second, this second is a downlink SES. The
value of Severely Errored Second Threshold is set to 1E-6 by default and can be modified by
running an MML command.
Measurement Points
Downlink bit errors over the CXU XCI Port 0 are sampled every 1s. If an SES occurs, the
value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
87
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.3 VS.CXU.XCI0.DUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835689
VS.CXU.XCI0.
DUAS
Downlink UAS
over the CXU
XCI Port 0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink UASs over the RMU XCI port 0 in 1x40GE mode. If 10
consecutive downlink SESs occur over the XCI port 0, downlink UASs start from the first
SES. If 10 consecutive downlink non-SESs occur over the XCI port 0, downlink UASs stop at
the first non-SES. UASs do not mean that services are unavailable.
Measurement Points
Downlink bit errors over the CXU XCI Port 0 are sampled every 1s. If a UAS occurs, the
value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
88
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.4 VS.CXU.XCI0.DIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835690
VS.CXU.XCI0.
DIVS
Second when
downlink
measurement
results of the
CXU XCI Port
0 are invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain downlink measurement
results over the RMU XCI port 0 in 1x40GE mode when the RMU maintenance link is
interrupted.
Measurement Points
Downlink bit errors over the CXU XCI Port 0 are sampled every 1s. If no measurement
results are reported within a second, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
89
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.5 VS.CXU.XCI0.DERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835691
VS.CXU.XCI0.
DERR
Number of
downlink bit
errors over the
CXU XCI Port
0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the downlink physical layer of the RMU
XCI port 0 in 1x40GE mode.
Measurement Points
Downlink bit errors over the CXU XCI Port 0 are sampled every 1s. If bit errors occur within
a second, the value of this counter is incremented by the number of bit errors within this
second.
Formula
None
Unit
None
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
90
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.6 VS.CXU.XCI0.UES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835692
VS.CXU.XCI0.
UES
Uplink ES over
the CXU XCI
Port 0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink ESs over the RMU XCI port 0 in 1x40GE mode. If bit errors
occur or the XCI port 0 fails to properly receive or transmit data within a second, this second
is an uplink ES.
Measurement Points
Uplink bit errors over the CXU XCI Port 0 are sampled every 1s. If an ES occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
91
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.7 VS.CXU.XCI0.USES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835693
VS.CXU.XCI0.
USES
Uplink SES
over the CXU
XCI Port 0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink SESs over the RMU XCI port 0 in 1x40GE mode. If the bit error
rate is greater than the value of Severely Errored Second Threshold or the XCI port 0 fails to
properly receive or transmit data within a second, this second is an uplink SES. The value of
Severely Errored Second Threshold is set to 1E-6 by default and can be modified by running
an MML command.
Measurement Points
Uplink bit errors over the CXU XCI Port 0 are sampled every 1s. If an SES occurs, the value
of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
92
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.8 VS.CXU.XCI0.UUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835694
VS.CXU.XCI0.
UUAS
Uplink UAS
over the CXU
XCI Port 0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink UASs over the RMU XCI port 0 in 1x40GE mode. If 10
consecutive uplink SESs occur over the XCI port 0, uplink UASs start from the first SES. If
10 consecutive uplink non-SESs occur over the XCI port 0, uplink UASs stop at the first nonSES. UASs do not mean that services are unavailable.
Measurement Points
Uplink bit errors over the CXU XCI Port 0 are sampled every 1s. If a UAS occurs, the value
of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
93
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.9 VS.CXU.XCI0.UIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835695
VS.CXU.XCI0.
UIVS
Second when
uplink
measurement
results of the
CXU XCI Port
0 are invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain uplink measurement
results over the RMU XCI port 0 in 1x40GE mode when the RMU maintenance link is
interrupted.
Measurement Points
Uplink bit errors over the CXU XCI Port 0 are sampled every 1s. If no measurement results
are reported within a second, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
94
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.10 VS.CXU.XCI0.UERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835696
VS.CXU.XCI0.
UERR
Number of
uplink bit errors
over the CXU
XCI Port 0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the uplink physical layer of the RMU XCI
port 0 in 1x40GE mode.
Measurement Points
Uplink bit errors over the CXU XCI Port 0 are sampled every 1s. If bit errors occur within a
second, the value of this counter is incremented by the number of bit errors within this
second.
Formula
None
Unit
None
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
95
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.11 VS.CXU.XCI1.DES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835697
VS.CXU.XCI1.
DES
Downlink ES
over the CXU
XCI Port 1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink ESs over the RMU XCI port 1 in 1x40GE mode. If bit errors
occur or the XCI port 1 fails to properly receive or transmit data within a second, this second
is a downlink ES.
Measurement Points
Downlink bit errors over the CXU XCI Port 1 are sampled every 1s. If an ES occurs, the
value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
96
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.12 VS.CXU.XCI1.DSES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835698
VS.CXU.XCI1.
DSES
Downlink SES
over the CXU
XCI Port 1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink SESs over the RMU XCI port 1 in 1x40GE mode. If the bit
error rate is greater than the value of Severely Errored Second Threshold or the XCI port 1
fails to properly receive or transmit data within a second, this second is a downlink SES. The
value of Severely Errored Second Threshold is set to 1E-6 by default and can be modified by
running an MML command.
Measurement Points
Downlink bit errors over the CXU XCI Port 1 are sampled every 1s. If an SES occurs, the
value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
97
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.13 VS.CXU.XCI1.DUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835699
VS.CXU.XCI1.
DUAS
Downlink UAS
over the CXU
XCI Port 1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink UASs over the RMU XCI port 1 in 1x40GE mode. If 10
consecutive downlink SESs occur over the XCI port 1, downlink UASs start from the first
SES. If 10 consecutive downlink non-SESs occur over the XCI port 1, downlink UASs stop at
the first non-SES. UASs do not mean that services are unavailable.
Measurement Points
Downlink bit errors over the CXU XCI Port 1 are sampled every 1s. If a UAS occurs, the
value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
98
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.14 VS.CXU.XCI1.DIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835700
VS.CXU.XCI1.
DIVS
Second when
downlink
measurement
results of the
CXU XCI Port
1 are invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain downlink measurement
results over the RMU XCI port 1 in 1x40GE mode when the RMU maintenance link is
interrupted.
Measurement Points
Downlink bit errors over the CXU XCI Port 1 are sampled every 1s. If no measurement
results are reported within a second, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
99
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.15 VS.CXU.XCI1.DERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835701
VS.CXU.XCI1.
DERR
Number of
downlink bit
errors over the
CXU XCI Port
1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the downlink physical layer of the RMU
XCI port 1 in 1x40GE mode.
Measurement Points
Downlink bit errors over the CXU XCI Port 1 are sampled every 1s. If bit errors occur within
a second, the value of this counter is incremented by the number of bit errors within this
second.
Formula
None
Unit
None
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
100
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.16 VS.CXU.XCI1.UES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835702
VS.CXU.XCI1.
UES
Uplink ES over
the CXU XCI
Port 1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink ESs over the RMU XCI port 1 in 1x40GE mode. If bit errors
occur or the XCI port 1 fails to properly receive or transmit data within a second, this second
is an uplink ES.
Measurement Points
Uplink bit errors over the CXU XCI Port 1 are sampled every 1s. If an ES occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
101
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.17 VS.CXU.XCI1.USES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835703
VS.CXU.XCI1.
USES
Uplink SES
over the CXU
XCI Port 1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink SESs over the RMU XCI port 1 in 1x40GE mode. If the bit error
rate is greater than the value of Severely Errored Second Threshold or the XCI port 1 fails to
properly receive or transmit data within a second, this second is an uplink SES. The value of
Severely Errored Second Threshold is set to 1E-6 by default and can be modified by running
an MML command.
Measurement Points
Uplink bit errors over the CXU XCI Port 1 are sampled every 1s. If an SES occurs, the value
of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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102
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.18 VS.CXU.XCI1.UUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835704
VS.CXU.XCI1.
UUAS
Uplink UAS
over the CXU
XCI Port 1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink UASs over the RMU XCI port 1 in 1x40GE mode. If 10
consecutive uplink SESs occur over the XCI port 1, uplink UASs start from the first SES. If
10 consecutive uplink non-SESs occur over the XCI port 1, uplink UASs stop at the first nonSES. UASs do not mean that services are unavailable.
Measurement Points
Uplink bit errors over the CXU XCI Port 1 are sampled every 1s. If a UAS occurs, the value
of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
103
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.19 VS.CXU.XCI1.UIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835705
VS.CXU.XCI1.
UIVS
Second when
uplink
measurement
results of the
CXU XCI Port
1 are invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain uplink measurement
results over the RMU XCI port 1 in 1x40GE mode when the RMU maintenance link is
interrupted.
Measurement Points
Uplink bit errors over the CXU XCI Port 1 are sampled every 1s. If no measurement results
are reported within a second, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
104
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.20 VS.CXU.XCI1.UERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835706
VS.CXU.XCI1.
UERR
Number of
uplink bit errors
over the CXU
XCI Port 1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the uplink physical layer of the RMU XCI
port 1 in 1x40GE mode.
Measurement Points
Uplink bit errors over the CXU XCI Port 1 are sampled every 1s. If bit errors occur within a
second, the value of this counter is incremented by the number of bit errors within this
second.
Formula
None
Unit
None
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
105
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.21 VS.CXU.XCI0.SUBPORT0.DES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835707
VS.CXU.XCI0.
SUBPORT0.DE
S
Downlink ES
over the SubPort 0 of CXU
XCI Port 0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink ESs over the Sub-Port 0 of RMU XCI Port 0 in 2x10GE. If
bit errors occur or the Sub-Port 0 of XCI Port 0 fails to properly receive or transmit data
within a second, this second is a downlink ES.
Measurement Points
Downlink bit errors over the Sub-Port 0 of CXU XCI Port 0 are sampled every 1s. If an ES
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.22 VS.CXU.XCI0.SUBPORT0.DSES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835708
VS.CXU.XCI0.
SUBPORT0.DS
ES
Downlink SES
over the SubPort 0 of CXU
XCI Port 0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink SESs over the Sub-Port 0 of RMU XCI Port 0 in 2x10GE. If
the bit error rate is greater than the value of Severely Errored Second Threshold or the SubPort 0 of XCI Port 0 fails to properly receive or transmit data within a second, this second is a
downlink SES. The value of Severely Errored Second Threshold is set to 1E-6 by default and
can be modified by running an MML command.
Measurement Points
Downlink bit errors over the Sub-Port 0 of CXU XCI Port 0 are sampled every 1s. If an SES
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
107
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.23 VS.CXU.XCI0.SUBPORT0.DUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835709
VS.CXU.XCI0.
SUBPORT0.D
UAS
Downlink UAS
over the SubPort 0 of CXU
XCI Port 0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink UASs over the Sub-Port 0 of RMU XCI Port 0 in 2x10GE. If
10 consecutive downlink SESs occur over the Sub-Port 0 of XCI Port 0, downlink UASs start
from the first SES. If 10 consecutive downlink non-SESs occur over the Sub-Port 0 of XCI
Port 0, downlink UASs stop at the first non-SES. UASs do not mean that services are
unavailable.
Measurement Points
Downlink bit errors over the Sub-Port 0 of CXU XCI Port 0 are sampled every 1s. If a UAS
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
108
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.24 VS.CXU.XCI0.SUBPORT0.DIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835710
VS.CXU.XCI0.
SUBPORT0.DI
VS
Second when
downlink
measurement
results of the
Sub-Port 0 of
CXU XCI Port
0 are invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain downlink measurement
results over the Sub-Port 0 of RMU XCI Port 0 in 2x10GE when the RF module maintenance
link is interrupted.
Measurement Points
Downlink bit errors over the Sub-Port 0 of CXU XCI Port 0 are sampled every 1s. If no
measurement results are reported within a second, the value of this counter is incremented by
1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
109
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.25 VS.CXU.XCI0.SUBPORT0.DERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835711
VS.CXU.XCI0.
SUBPORT0.DE
RR
Number of
downlink bit
errors over the
Sub-Port 0 of
CXU XCI Port
0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the downlink physical layer of the Sub-Port
0 of RMU XCI Port 0 in 2x10GE.
Measurement Points
Downlink bit errors over the Sub-Port 0 of CXU XCI Port 0 are sampled every 1s. If bit errors
occur within a second, the value of this counter is incremented by the number of bit errors
within this second.
Formula
None
Unit
None
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
110
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.26 VS.CXU.XCI0.SUBPORT0.UES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835712
VS.CXU.XCI0.
SUBPORT0.UE
S
Uplink ES over
the Sub-Port 0
of CXU XCI
Port 0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink ESs over the Sub-Port 0 of RMU XCI Port 0 in 2x10GE. If bit
errors occur or the Sub-Port 0 of XCI Port 0 fails to properly receive or transmit data within a
second, this second is an uplink ES.
Measurement Points
Uplink bit errors over the Sub-Port 0 of CXU XCI Port 0 are sampled every 1s. If an ES
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
111
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.27 VS.CXU.XCI0.SUBPORT0.USES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835713
VS.CXU.XCI0.
SUBPORT0.US
ES
Uplink SES
over the SubPort 0 of CXU
XCI Port 0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink SESs over the Sub-Port 0 of RMU XCI Port 0 in 2x10GE. If the
uplink bit error rate is greater than the value of Severely Errored Second Threshold or the
Sub-Port 0 of XCI Port 0 fails to properly receive or transmit data within a second, this
second is an uplink SES. The value of Severely Errored Second Threshold is set to 1E-6 by
default and can be modified by running an MML command.
Measurement Points
Uplink bit errors over the Sub-Port 0 of CXU XCI Port 0 are sampled every 1s. If an SES
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
112
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.28 VS.CXU.XCI0.SUBPORT0.UUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835714
VS.CXU.XCI0.
SUBPORT0.U
UAS
Uplink UAS
over the SubPort 0 of CXU
XCI Port 0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink UASs over the Sub-Port 0 of RMU XCI Port 0 in 2x10GE. If 10
consecutive uplink SESs occur over the Sub-Port 0 of XCI Port 0, uplink UASs start from the
first SES. If 10 consecutive uplink non-SESs occur over the Sub-Port 0 of XCI Port 0, uplink
UASs stop at the first non-SES. UASs do not mean that services are unavailable.
Measurement Points
Uplink bit errors over the Sub-Port 0 of CXU XCI Port 0 are sampled every 1s. If a UAS
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
113
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.29 VS.CXU.XCI0.SUBPORT0.UIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835715
VS.CXU.XCI0.
SUBPORT0.UI
VS
Second when
uplink
measurement
results of the
Sub-Port 0 of
CXU XCI Port
0 are invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain uplink measurement
results over the Sub-Port 0 of RMU XCI Port 0 in 2x10GE when the RF module maintenance
link is interrupted.
Measurement Points
Uplink bit errors over the Sub-Port 0 of CXU XCI Port 0 are sampled every 1s. If no
measurement results are reported within a second, the value of this counter is incremented by
1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
114
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.30 VS.CXU.XCI0.SUBPORT0.UERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835716
VS.CXU.XCI0.
SUBPORT0.UE
RR
Number of
uplink bit errors
over the SubPort 0 of CXU
XCI Port 0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the uplink physical layer of the Sub-Port 0
of RMU XCI Port 0 in 2x10GE.
Measurement Points
Uplink bit errors over the Sub-Port 0 of CXU XCI Port 0 are sampled every 1s. If bit errors
occur within a second, the value of this counter is incremented by the number of bit errors
within this second.
Formula
None
Unit
None
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.31 VS.CXU.XCI0.SUBPORT1.DES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835717
VS.CXU.XCI0.
SUBPORT1.DE
S
Downlink ES
over the SubPort 1 of CXU
XCI Port 0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink ESs over the Sub-Port 1 of RMU XCI Port 0 in 2x10GE. If
bit errors occur or the Sub-Port 1 of XCI Port 0 fails to properly receive or transmit data
within a second, this second is a downlink ES.
Measurement Points
Downlink bit errors over the Sub-Port 1 of CXU XCI Port 0 are sampled every 1s. If an ES
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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116
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.32 VS.CXU.XCI0.SUBPORT1.DSES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835718
VS.CXU.XCI0.
SUBPORT1.DS
ES
Downlink SES
over the SubPort 1 of CXU
XCI Port 0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink SESs over the Sub-Port 1 of RMU XCI Port 0 in 2x10GE. If
the bit error rate is greater than the value of Severely Errored Second Threshold or the SubPort 1 of XCI Port 0 fails to properly receive or transmit data within a second, this second is a
downlink SES. The value of Severely Errored Second Threshold is set to 1E-6 by default and
can be modified by running an MML command.
Measurement Points
Downlink bit errors over the Sub-Port 1 of CXU XCI Port 0 are sampled every 1s. If an SES
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.33 VS.CXU.XCI0.SUBPORT1.DUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835719
VS.CXU.XCI0.
SUBPORT1.D
UAS
Downlink UAS
over the SubPort 1 of CXU
XCI Port 0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink UASs over the Sub-Port 1 of RMU XCI Port 0 in 2x10GE. If
10 consecutive downlink SESs occur over the Sub-Port 1 of XCI Port 0, downlink UASs start
from the first SES. If 10 consecutive downlink non-SESs occur over the Sub-Port 1 of XCI
Port 0, downlink UASs stop at the first non-SES. UASs do not mean that services are
unavailable.
Measurement Points
Downlink bit errors over the Sub-Port 1 of CXU XCI Port 0 are sampled every 1s. If a UAS
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
118
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.34 VS.CXU.XCI0.SUBPORT1.DIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835720
VS.CXU.XCI0.
SUBPORT1.DI
VS
Second when
downlink
measurement
results of the
Sub-Port 1 of
CXU XCI Port
0 are invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain downlink measurement
results over the Sub-Port 1 of RMU XCI Port 0 in 2x10GE when the RF module maintenance
link is interrupted.
Measurement Points
Downlink bit errors over the Sub-Port 1 of CXU XCI Port 0 are sampled every 1s. If no
measurement results are reported within a second, the value of this counter is incremented by
1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
119
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.35 VS.CXU.XCI0.SUBPORT1.DERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835721
VS.CXU.XCI0.
SUBPORT1.DE
RR
Number of
downlink bit
errors over the
Sub-Port 1 of
CXU XCI Port
0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the downlink physical layer of the Sub-Port
1 of RMU XCI Port 0 in 2x10GE.
Measurement Points
Downlink bit errors over the Sub-Port 1 of CXU XCI Port 0 are sampled every 1s. If bit errors
occur within a second, the value of this counter is incremented by the number of bit errors
within this second.
Formula
None
Unit
None
Related Features
None
Issue Draft C (2019-04-10)
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.36 VS.CXU.XCI0.SUBPORT1.UES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835722
VS.CXU.XCI0.
SUBPORT1.UE
S
Uplink ES over
the Sub-Port 1
of CXU XCI
Port 0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink ESs over the Sub-Port 1 of RMU XCI Port 0 in 2x10GE. If bit
errors occur or the Sub-Port 1 of XCI Port 0 fails to properly receive or transmit data within a
second, this second is an uplink ES.
Measurement Points
Uplink bit errors over the Sub-Port 1 of CXU XCI Port 0 are sampled every 1s. If an ES
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.37 VS.CXU.XCI0.SUBPORT1.USES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835723
VS.CXU.XCI0.
SUBPORT1.US
ES
Uplink SES
over the SubPort 1 of CXU
XCI Port 0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink SESs over the Sub-Port 1 of RMU XCI Port 0 in 2x10GE. If the
uplink bit error rate is greater than the value of Severely Errored Second Threshold or the
Sub-Port 1 of XCI Port 0 fails to properly receive or transmit data within a second, this
second is an uplink SES. The value of Severely Errored Second Threshold is set to 1E-6 by
default and can be modified by running an MML command.
Measurement Points
Uplink bit errors over the Sub-Port 1 of CXU XCI Port 0 are sampled every 1s. If an SES
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.38 VS.CXU.XCI0.SUBPORT1.UUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835724
VS.CXU.XCI0.
SUBPORT1.U
UAS
Uplink UAS
over the SubPort 1 of CXU
XCI Port 0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink UASs over the Sub-Port 1 of RMU XCI Port 0 in 2x10GE. If 10
consecutive uplink SESs occur over the Sub-Port 1 of XCI Port 0, uplink UASs start from the
first SES. If 10 consecutive uplink non-SESs occur over the Sub-Port 1 of XCI Port 0, uplink
UASs stop at the first non-SES. UASs do not mean that services are unavailable.
Measurement Points
Uplink bit errors over the Sub-Port 1 of CXU XCI Port 0 are sampled every 1s. If a UAS
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.39 VS.CXU.XCI0.SUBPORT1.UIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835725
VS.CXU.XCI0.
SUBPORT1.UI
VS
Second when
uplink
measurement
results of the
Sub-Port 1 of
CXU XCI Port
0 are invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain uplink measurement
results over the Sub-Port 1 of RMU XCI Port 0 in 2x10GE when the RF module maintenance
link is interrupted.
Measurement Points
Uplink bit errors over the Sub-Port 1 of CXU XCI Port 0 are sampled every 1s. If no
measurement results are reported within a second, the value of this counter is incremented by
1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.40 VS.CXU.XCI0.SUBPORT1.UERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835726
VS.CXU.XCI0.
SUBPORT1.UE
RR
Number of
uplink bit errors
over the SubPort 1 of CXU
XCI Port 0
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the uplink physical layer of the Sub-Port 1
of RMU XCI Port 0 in 2x10GE.
Measurement Points
Uplink bit errors over the Sub-Port 1 of CXU XCI Port 0 are sampled every 1s. If bit errors
occur within a second, the value of this counter is incremented by the number of bit errors
within this second.
Formula
None
Unit
None
Related Features
None
Issue Draft C (2019-04-10)
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1 Node Performance Counter Measurement
1.1.5.1.41 VS.CXU.XCI1.SUBPORT0.DES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835727
VS.CXU.XCI1.
SUBPORT0.DE
S
Downlink ES
over the SubPort 0 of CXU
XCI Port 1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink ESs over the Sub-Port 0 of RMU XCI Port 1 in 2x10GE. If
bit errors occur or the Sub-Port 0 of XCI Port 1 fails to properly receive or transmit data
within a second, this second is a downlink ES.
Measurement Points
Downlink bit errors over the Sub-Port 0 of CXU XCI Port 1 are sampled every 1s. If an ES
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.42 VS.CXU.XCI1.SUBPORT0.DSES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835728
VS.CXU.XCI1.
SUBPORT0.DS
ES
Downlink SES
over the SubPort 0 of CXU
XCI Port 1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink SESs over the Sub-Port 0 of RMU XCI Port 1 in 2x10GE. If
the bit error rate is greater than the value of Severely Errored Second Threshold or the SubPort 0 of XCI Port 1 fails to properly receive or transmit data within a second, this second is a
downlink SES. The value of Severely Errored Second Threshold is set to 1E-6 by default and
can be modified by running an MML command.
Measurement Points
Downlink bit errors over the Sub-Port 0 of CXU XCI Port 1 are sampled every 1s. If an SES
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.43 VS.CXU.XCI1.SUBPORT0.DUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835729
VS.CXU.XCI1.
SUBPORT0.D
UAS
Downlink UAS
over the SubPort 0 of CXU
XCI Port 1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink UASs over the Sub-Port 0 of RMU XCI Port 1 in 2x10GE. If
10 consecutive downlink SESs occur over the Sub-Port 0 of XCI Port 1, downlink UASs start
from the first SES. If 10 consecutive downlink non-SESs occur over the Sub-Port 0 of XCI
Port 1, downlink UASs stop at the first non-SES. UASs do not mean that services are
unavailable.
Measurement Points
Downlink bit errors over the Sub-Port 0 of CXU XCI Port 1 are sampled every 1s. If a UAS
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.44 VS.CXU.XCI1.SUBPORT0.DIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835730
VS.CXU.XCI1.
SUBPORT0.DI
VS
Second when
downlink
measurement
results of the
Sub-Port 0 of
CXU XCI Port
1 are invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain downlink measurement
results over the Sub-Port 0 of RMU XCI Port 1 in 2x10GE when the RF module maintenance
link is interrupted.
Measurement Points
Downlink bit errors over the Sub-Port 0 of CXU XCI Port 1 are sampled every 1s. If no
measurement results are reported within a second, the value of this counter is incremented by
1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
129
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.45 VS.CXU.XCI1.SUBPORT0.DERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835731
VS.CXU.XCI1.
SUBPORT0.DE
RR
Number of
downlink bit
errors over the
Sub-Port 0 of
CXU XCI Port
1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the downlink physical layer of the Sub-Port
0 of RMU XCI Port 1 in 2x10GE.
Measurement Points
Downlink bit errors over the Sub-Port 0 of CXU XCI Port 1 are sampled every 1s. If bit errors
occur within a second, the value of this counter is incremented by the number of bit errors
within this second.
Formula
None
Unit
None
Related Features
None
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.46 VS.CXU.XCI1.SUBPORT0.UES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835732
VS.CXU.XCI1.
SUBPORT0.UE
S
Uplink ES over
the Sub-Port 0
of CXU XCI
Port 1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink ESs over the Sub-Port 0 of RMU XCI Port 1 in 2x10GE. If bit
errors occur or the Sub-Port 0 of XCI Port 1 fails to properly receive or transmit data within a
second, this second is an uplink ES.
Measurement Points
Uplink bit errors over the Sub-Port 0 of CXU XCI Port 1 are sampled every 1s. If an ES
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.47 VS.CXU.XCI1.SUBPORT0.USES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835733
VS.CXU.XCI1.
SUBPORT0.US
ES
Uplink SES
over the SubPort 0 of CXU
XCI Port 1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink SESs over the Sub-Port 0 of RMU XCI Port 1 in 2x10GE. If the
uplink bit error rate is greater than the value of Severely Errored Second Threshold or the
Sub-Port 0 of XCI Port 1 fails to properly receive or transmit data within a second, this
second is an uplink SES. The value of Severely Errored Second Threshold is set to 1E-6 by
default and can be modified by running an MML command.
Measurement Points
Uplink bit errors over the Sub-Port 0 of CXU XCI Port 1 are sampled every 1s. If an SES
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.48 VS.CXU.XCI1.SUBPORT0.UUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835734
VS.CXU.XCI1.
SUBPORT0.U
UAS
Uplink UAS
over the SubPort 0 of CXU
XCI Port 1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink UASs over the Sub-Port 0 of RMU XCI Port 1 in 2x10GE. If 10
consecutive uplink SESs occur over the Sub-Port 0 of XCI Port 1, uplink UASs start from the
first SES. If 10 consecutive uplink non-SESs occur over the Sub-Port 0 of XCI Port 1, uplink
UASs stop at the first non-SES. UASs do not mean that services are unavailable.
Measurement Points
Uplink bit errors over the Sub-Port 0 of CXU XCI Port 1 are sampled every 1s. If a UAS
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.49 VS.CXU.XCI1.SUBPORT0.UIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835735
VS.CXU.XCI1.
SUBPORT0.UI
VS
Second when
uplink
measurement
results of the
Sub-Port 0 of
CXU XCI Port
1 are invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain uplink measurement
results over the Sub-Port 0 of RMU XCI Port 1 in 2x10GE when the RF module maintenance
link is interrupted.
Measurement Points
Uplink bit errors over the Sub-Port 0 of CXU XCI Port 1 are sampled every 1s. If no
measurement results are reported within a second, the value of this counter is incremented by
1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.50 VS.CXU.XCI1.SUBPORT0.UERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835736
VS.CXU.XCI1.
SUBPORT0.UE
RR
Number of
uplink bit errors
over the SubPort 0 of CXU
XCI Port 1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the uplink physical layer of the Sub-Port 0
of RMU XCI Port 1 in 2x10GE.
Measurement Points
Uplink bit errors over the Sub-Port 0 of CXU XCI Port 1 are sampled every 1s. If bit errors
occur within a second, the value of this counter is incremented by the number of bit errors
within this second.
Formula
None
Unit
None
Related Features
None
Issue Draft C (2019-04-10)
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135
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.51 VS.CXU.XCI1.SUBPORT1.DES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835737
VS.CXU.XCI1.
SUBPORT1.DE
S
Downlink ES
over the SubPort 1 of CXU
XCI Port 1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink ESs over the Sub-Port 1 of RMU XCI Port 1 in 2x10GE. If
bit errors occur or the Sub-Port 1 of XCI Port 1 fails to properly receive or transmit data
within a second, this second is a downlink ES.
Measurement Points
Downlink bit errors over the Sub-Port 1 of CXU XCI Port 1 are sampled every 1s. If an ES
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
136
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.52 VS.CXU.XCI1.SUBPORT1.DSES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835738
VS.CXU.XCI1.
SUBPORT1.DS
ES
Downlink SES
over the SubPort 1 of CXU
XCI Port 1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink SESs over the Sub-Port 1 of RMU XCI Port 1 in 2x10GE. If
the bit error rate is greater than the value of Severely Errored Second Threshold or the SubPort 1 of XCI Port 1 fails to properly receive or transmit data within a second, this second is a
downlink SES. The value of Severely Errored Second Threshold is set to 1E-6 by default and
can be modified by running an MML command.
Measurement Points
Downlink bit errors over the Sub-Port 1 of CXU XCI Port 1 are sampled every 1s. If an SES
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.53 VS.CXU.XCI1.SUBPORT1.DUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835739
VS.CXU.XCI1.
SUBPORT1.D
UAS
Downlink UAS
over the SubPort 1 of CXU
XCI Port 1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink UASs over the Sub-Port 1 of RMU XCI Port 1 in 2x10GE. If
10 consecutive downlink SESs occur over the Sub-Port 1 of XCI Port 1, downlink UASs start
from the first SES. If 10 consecutive downlink non-SESs occur over the Sub-Port 1 of XCI
Port 1, downlink UASs stop at the first non-SES. UASs do not mean that services are
unavailable.
Measurement Points
Downlink bit errors over the Sub-Port 1 of CXU XCI Port 1 are sampled every 1s. If a UAS
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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138
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.54 VS.CXU.XCI1.SUBPORT1.DIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835740
VS.CXU.XCI1.
SUBPORT1.DI
VS
Second when
downlink
measurement
results of the
Sub-Port 1 of
CXU XCI Port
1 are invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain downlink measurement
results over the Sub-Port 1 of RMU XCI Port 1 in 2x10GE when the RF module maintenance
link is interrupted.
Measurement Points
Downlink bit errors over the Sub-Port 1 of CXU XCI Port 1 are sampled every 1s. If no
measurement results are reported within a second, the value of this counter is incremented by
1.
Formula
None
Unit
s
Related Features
None
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139
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.55 VS.CXU.XCI1.SUBPORT1.DERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835741
VS.CXU.XCI1.
SUBPORT1.DE
RR
Number of
downlink bit
errors over the
Sub-Port 1 of
CXU XCI Port
1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the downlink physical layer of the Sub-Port
1 of RMU XCI Port 1 in 2x10GE.
Measurement Points
Downlink bit errors over the Sub-Port 1 of CXU XCI Port 1 are sampled every 1s. If bit errors
occur within a second, the value of this counter is incremented by the number of bit errors
within this second.
Formula
None
Unit
None
Related Features
None
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.56 VS.CXU.XCI1.SUBPORT1.UES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835742
VS.CXU.XCI1.
SUBPORT1.UE
S
Uplink ES over
the Sub-Port 1
of CXU XCI
Port 1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink ESs over the Sub-Port 1 of RMU XCI Port 1 in 2x10GE. If bit
errors occur or the Sub-Port 1 of XCI Port 1 fails to properly receive or transmit data within a
second, this second is an uplink ES.
Measurement Points
Uplink bit errors over the Sub-Port 1 of CXU XCI Port 1 are sampled every 1s. If an ES
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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1 Node Performance Counter Measurement
1.1.5.1.57 VS.CXU.XCI1.SUBPORT1.USES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835743
VS.CXU.XCI1.
SUBPORT1.US
ES
Uplink SES
over the SubPort 1 of CXU
XCI Port 1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink SESs over the Sub-Port 1 of RMU XCI Port 1 in 2x10GE. If the
uplink bit error rate is greater than the value of Severely Errored Second Threshold or the
Sub-Port 1 of XCI Port 1 fails to properly receive or transmit data within a second, this
second is an uplink SES. The value of Severely Errored Second Threshold is set to 1E-6 by
default and can be modified by running an MML command.
Measurement Points
Uplink bit errors over the Sub-Port 1 of CXU XCI Port 1 are sampled every 1s. If an SES
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.58 VS.CXU.XCI1.SUBPORT1.UUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835744
VS.CXU.XCI1.
SUBPORT1.U
UAS
Uplink UAS
over the SubPort 1 of CXU
XCI Port 1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink UASs over the Sub-Port 1 of RMU XCI Port 1 in 2x10GE. If 10
consecutive uplink SESs occur over the Sub-Port 1 of XCI Port 1, uplink UASs start from the
first SES. If 10 consecutive uplink non-SESs occur over the Sub-Port 1 of XCI Port 1, uplink
UASs stop at the first non-SES. UASs do not mean that services are unavailable.
Measurement Points
Uplink bit errors over the Sub-Port 1 of CXU XCI Port 1 are sampled every 1s. If a UAS
occurs, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.59 VS.CXU.XCI1.SUBPORT1.UIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835745
VS.CXU.XCI1.
SUBPORT1.UI
VS
Second when
uplink
measurement
results of the
Sub-Port 1 of
CXU XCI Port
1 are invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain uplink measurement
results over the Sub-Port 1 of RMU XCI Port 1 in 2x10GE when the RF module maintenance
link is interrupted.
Measurement Points
Uplink bit errors over the Sub-Port 1 of CXU XCI Port 1 are sampled every 1s. If no
measurement results are reported within a second, the value of this counter is incremented by
1.
Formula
None
Unit
s
Related Features
None
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.60 VS.CXU.XCI1.SUBPORT1.UERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835746
VS.CXU.XCI1.
SUBPORT1.UE
RR
Number of
uplink bit errors
over the SubPort 1 of CXU
XCI Port 1
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the uplink physical layer of the Sub-Port 1
of RMU XCI Port 1 in 2x10GE.
Measurement Points
Uplink bit errors over the Sub-Port 1 of CXU XCI Port 1 are sampled every 1s. If bit errors
occur within a second, the value of this counter is incremented by the number of bit errors
within this second.
Formula
None
Unit
None
Related Features
None
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.61 VS.CXU.CPRI0.DES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835747
VS.CXU.CPRI
0.DES
Downlink ES
over the CPRI0
port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink ESs over the CPRI0 port. If bit errors occur or the CPRI0
port fails to properly receive or transmit data within a second, this second is a downlink ES.
This counter is measured when the CXU is a CGPS or RPCU.
Measurement Points
Downlink bit errors over the CPRI0 port are sampled every 1s. If an ES occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.62 VS.CXU.CPRI0.DSES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835748
VS.CXU.CPRI
0.DSES
Downlink SES
over the CPRI0
port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink SESs over the CPRI0 port. If the bit error rate is greater than
the value of Severely Errored Second Threshold or the CPRI0 port fails to properly receive or
transmit data within a second, this second is a downlink SES. The value of Severely Errored
Second Threshold is set to 1E-6 by default and can be modified by running an MML
command. This counter is measured when the CXU is a CGPS or RPCU.
Measurement Points
Downlink bit errors over the CPRI0 port are sampled every 1s. If an SES occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.63 VS.CXU.CPRI0.DUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835749
VS.CXU.CPRI
0.DUAS
Downlink UAS
over the CPRI0
port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink UASs over the CPRI0 port. If 10 consecutive downlink SESs
occur over the CPRI0 port, downlink UASs start from the first SES. If 10 consecutive
downlink non-SESs occur over the CPRI0 port, downlink UASs stop at the first non-SES.
UASs do not mean that services are unavailable. This counter is measured when the CXU is a
CGPS or RPCU.
Measurement Points
Downlink bit errors over the CPRI0 port are sampled every 1s. If a UAS occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.64 VS.CXU.CPRI0.DIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835750
VS.CXU.CPRI
0.DIVS
Second when
downlink
measurement
results of the
CPRI0 port are
invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain downlink measurement
results over the CPRI0 port when the RF module maintenance link is interrupted. This counter
is measured when the CXU is a CGPS or RPCU.
Measurement Points
Downlink bit errors over the CPRI0 port are sampled every 1s. If no measurement results are
reported within a second, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.65 VS.CXU.CPRI0.DERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835751
VS.CXU.CPRI
0.DERR
Number of
downlink bit
errors over the
CPRI0 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the downlink physical layer of the CPRI0
port. This counter is measured when the CXU is a CGPS or RPCU.
Measurement Points
Downlink bit errors over the CPRI0 port are sampled every 1s. If bit errors occur within a
second, the value of this counter is incremented by the number of bit errors within this
second.
Formula
None
Unit
None
Related Features
None
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.66 VS.CXU.CPRI0.UES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835752
VS.CXU.CPRI
0.UES
Uplink ES over
the CPRI0 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink ESs over the CPRI0 port. If bit errors occur or the CPRI0 port
fails to properly receive or transmit data within a second, this second is an uplink ES. This
counter is measured when the CXU is a CGPS or RPCU.
Measurement Points
Uplink bit errors over the CPRI0 port are sampled every 1s. If an ES occurs, the value of this
counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.67 VS.CXU.CPRI0.USES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835753
VS.CXU.CPRI
0.USES
Uplink SES
over the CPRI0
port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink SESs over the CPRI0 port. If the uplink bit error rate is greater
than the value of Severely Errored Second Threshold or the CPRI0 port fails to properly
receive or transmit data within a second, this second is an uplink SES. The value of Severely
Errored Second Threshold is set to 1E-6 by default and can be modified by running an MML
command. This counter is measured when the CXU is a CGPS or RPCU.
Measurement Points
Uplink bit errors over the CPRI0 port are sampled every 1s. If an SES occurs, the value of this
counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.68 VS.CXU.CPRI0.UUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835754
VS.CXU.CPRI
0.UUAS
Uplink UAS
over the CPRI0
port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink UASs over the CPRI0 port. If 10 consecutive uplink SESs occur
over the CPRI0 port, uplink UASs start from the first SES. If 10 consecutive uplink non-SESs
occur over the CPRI0 port, uplink UASs stop at the first non-SES. UASs do not mean that
services are unavailable. This counter is measured when the CXU is a CGPS or RPCU.
Measurement Points
Uplink bit errors over the CPRI0 port are sampled every 1s. If a UAS occurs, the value of this
counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.69 VS.CXU.CPRI0.UIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835755
VS.CXU.CPRI
0.UIVS
Second when
uplink
measurement
results of the
CPRI0 port are
invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain uplink measurement
results over the CPRI0 port when the RF module maintenance link is interrupted. This counter
is measured when the CXU is a CGPS or RPCU.
Measurement Points
Uplink bit errors over the CPRI0 port are sampled every 1s. If no measurement results are
reported within a second, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.70 VS.CXU.CPRI0.UERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835756
VS.CXU.CPRI
0.UERR
Number of
uplink bit errors
over the CPRI0
port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the uplink physical layer of the CPRI0 port.
This counter is measured when the CXU is a CGPS or RPCU.
Measurement Points
Uplink bit errors over the CPRI0 port are sampled every 1s. If bit errors occur within a
second, the value of this counter is incremented by the number of bit errors within this
second.
Formula
None
Unit
None
Related Features
None
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1 Node Performance Counter Measurement
1.1.5.1.71 VS.CXU.CPRI1.DES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835757
VS.CXU.CPRI
1.DES
Downlink ES
over the CPRI1
port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink ESs over the CPRI1 port. If bit errors occur or the CPRI1
port fails to properly receive or transmit data within a second, this second is a downlink ES.
This counter is measured when the CXU is a CGPS or RPCU.
Measurement Points
Downlink bit errors over the CPRI1 port are sampled every 1s. If an ES occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.72 VS.CXU.CPRI1.DSES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835758
VS.CXU.CPRI
1.DSES
Downlink SES
over the CPRI1
port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink SESs over the CPRI1 port. If the bit error rate is greater than
the value of Severely Errored Second Threshold or the CPRI1 port fails to properly receive or
transmit data within a second, this second is a downlink SES. The value of Severely Errored
Second Threshold is set to 1E-6 by default and can be modified by running an MML
command. This counter is measured when the CXU is a CGPS or RPCU.
Measurement Points
Downlink bit errors over the CPRI1 port are sampled every 1s. If an SES occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.73 VS.CXU.CPRI1.DUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835759
VS.CXU.CPRI
1.DUAS
Downlink UAS
over the CPRI1
port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink UASs over the CPRI1 port. If 10 consecutive downlink SESs
occur over the CPRI1 port, downlink UASs start from the first SES. If 10 consecutive
downlink non-SESs occur over the CPRI1 port, downlink UASs stop at the first non-SES.
UASs do not mean that services are unavailable. This counter is measured when the CXU is a
CGPS or RPCU.
Measurement Points
Downlink bit errors over the CPRI1 port are sampled every 1s. If a UAS occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
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158
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.74 VS.CXU.CPRI1.DIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835760
VS.CXU.CPRI
1.DIVS
Second when
downlink
measurement
results of the
CPRI1 port are
invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain downlink measurement
results over the CPRI1 port when the RF module maintenance link is interrupted. This counter
is measured when the CXU is a CGPS or RPCU.
Measurement Points
Downlink bit errors over the CPRI1 port are sampled every 1s. If no measurement results are
reported within a second, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
159
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.75 VS.CXU.CPRI1.DERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835761
VS.CXU.CPRI
1.DERR
Number of
downlink bit
errors over the
CPRI1 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the downlink physical layer of the CPRI1
port. This counter is measured when the CXU is a CGPS or RPCU.
Measurement Points
Downlink bit errors over the CPRI1 port are sampled every 1s. If bit errors occur within a
second, the value of this counter is incremented by the number of bit errors within this
second.
Formula
None
Unit
None
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
160
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.76 VS.CXU.CPRI1.UES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835762
VS.CXU.CPRI
1.UES
Uplink ES over
the CPRI1 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink ESs over the CPRI1 port. If bit errors occur or the CPRI1 port
fails to properly receive or transmit data within a second, this second is an uplink ES. This
counter is measured when the CXU is a CGPS or RPCU.
Measurement Points
Uplink bit errors over the CPRI1 port are sampled every 1s. If an ES occurs, the value of this
counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
161
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.77 VS.CXU.CPRI1.USES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835763
VS.CXU.CPRI
1.USES
Uplink SES
over the CPRI1
port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink SESs over the CPRI1 port. If the bit error rate is greater than the
value of Severely Errored Second Threshold or the CPRI1 port fails to properly receive or
transmit data within a second, this second is an uplink SES. The value of Severely Errored
Second Threshold is set to 1E-6 by default and can be modified by running an MML
command. This counter is measured when the CXU is a CGPS or RPCU.
Measurement Points
Uplink bit errors over the CPRI1 port are sampled every 1s. If an SES occurs, the value of this
counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
162
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.78 VS.CXU.CPRI1.UUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835764
VS.CXU.CPRI
1.UUAS
Uplink UAS
over the CPRI1
port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink UASs over the CPRI1 port. If 10 consecutive uplink SESs occur
over the CPRI1 port, uplink UASs start from the first SES. If 10 consecutive uplink non-SESs
occur over the CPRI1 port, uplink UASs stop at the first non-SES. UASs do not mean that
services are unavailable. This counter is measured when the CXU is a CGPS or RPCU.
Measurement Points
Uplink bit errors over the CPRI1 port are sampled every 1s. If a UAS occurs, the value of this
counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
163
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.79 VS.CXU.CPRI1.UIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835765
VS.CXU.CPRI
1.UIVS
Second when
uplink
measurement
results of the
CPRI1 port are
invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain uplink measurement
results over the CPRI1 port when the RF module maintenance link is interrupted. This counter
is measured when the CXU is a CGPS or RPCU.
Measurement Points
Uplink bit errors over the CPRI1 port are sampled every 1s. If no measurement results are
reported within a second, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
164
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.80 VS.CXU.CPRI1.UERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835766
VS.CXU.CPRI
1.UERR
Number of
uplink bit errors
over the CPRI1
port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the uplink physical layer of the CPRI1 port.
This counter is measured when the CXU is a CGPS or RPCU.
Measurement Points
Uplink bit errors over the CPRI1 port are sampled every 1s. If bit errors occur within a
second, the value of this counter is incremented by the number of bit errors within this
second.
Formula
None
Unit
None
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
165
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.81 VS.CXU.CPRI9.DES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835771
VS.CXU.CPRI
9.DES
Downlink ES
over the CPRI9
port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink ESs over the CPRI9 port. If bit errors occur or the CPRI9
port fails to properly receive or transmit data within a second, this second is a downlink ES.
This counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Downlink bit errors over the CPRI9 port are sampled every 1s. If an ES occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
166
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.82 VS.CXU.CPRI9.DSES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835772
VS.CXU.CPRI
9.DSES
Downlink SES
over the CPRI9
port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink SESs over the CPRI9 port. If the bit error rate is greater than
the value of Severely Errored Second Threshold or the CPRI9 port fails to properly receive or
transmit data within a second, this second is a downlink SES. The value of Severely Errored
Second Threshold is set to 1E-6 by default and can be modified by running an MML
command. This counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Downlink bit errors over the CPRI9 port are sampled every 1s. If an SES occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
167
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.83 VS.CXU.CPRI9.DUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835773
VS.CXU.CPRI
9.DUAS
Downlink UAS
over the CPRI9
port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink UASs over the CPRI9 port. If 10 consecutive downlink SESs
occur over the CPRI9 port, downlink UASs start from the first SES. If 10 consecutive
downlink non-SESs occur over the CPRI9 port, downlink UASs stop at the first non-SES.
UASs do not mean that services are unavailable. This counter is measured when the RMU
works in WDM-SFP_OPTICAL mode.
Measurement Points
Downlink bit errors over the CPRI9 port are sampled every 1s. If a UAS occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
168
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.84 VS.CXU.CPRI9.DIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835774
VS.CXU.CPRI
9.DIVS
Second when
downlink
measurement
results of the
CPRI9 port are
invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain downlink measurement
results over the CPRI9 port when the RF module maintenance link is interrupted. This counter
is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Downlink bit errors over the CPRI9 port are sampled every 1s. If no measurement results are
reported within a second, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
169
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.85 VS.CXU.CPRI9.DERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835775
VS.CXU.CPRI
9.DERR
Number of
downlink bit
errors over the
CPRI9 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the downlink physical layer of the CPRI9
port. This counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Downlink bit errors over the CPRI9 port are sampled every 1s. If bit errors occur within a
second, the value of this counter is incremented by the number of bit errors within this
second.
Formula
None
Unit
None
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
170
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.86 VS.CXU.CPRI9.UES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835776
VS.CXU.CPRI
9.UES
Uplink ES over
the CPRI9 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink ESs over the CPRI9 port. If bit errors occur or the CPRI9 port
fails to properly receive or transmit data within a second, this second is an uplink ES. This
counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Uplink bit errors over the CPRI9 port are sampled every 1s. If an ES occurs, the value of this
counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
171
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.87 VS.CXU.CPRI9.USES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835777
VS.CXU.CPRI
9.USES
Uplink SES
over the CPRI9
port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink SESs over the CPRI9 port. If the uplink bit error rate is greater
than the value of Severely Errored Second Threshold or the CPRI9 port fails to properly
receive or transmit data within a second, this second is an uplink SES. The value of Severely
Errored Second Threshold is set to 1E-6 by default and can be modified by running an MML
command. This counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Uplink bit errors over the CPRI9 port are sampled every 1s. If an SES occurs, the value of this
counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
172
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.88 VS.CXU.CPRI9.UUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835778
VS.CXU.CPRI
9.UUAS
Uplink UAS
over the CPRI9
port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink UASs over the CPRI9 port. If 10 consecutive uplink SESs occur
over the CPRI9 port, uplink UASs start from the first SES. If 10 consecutive uplink non-SESs
occur over the CPRI9 port, uplink UASs stop at the first non-SES. UASs do not mean that
services are unavailable. This counter is measured when the RMU works in WDMSFP_OPTICAL mode.
Measurement Points
Uplink bit errors over the CPRI9 port are sampled every 1s. If a UAS occurs, the value of this
counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
173
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.89 VS.CXU.CPRI9.UIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835779
VS.CXU.CPRI
9.UIVS
Second when
uplink
measurement
results of the
CPRI9 port are
invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain uplink measurement
results over the CPRI9 port when the RF module maintenance link is interrupted. This counter
is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Uplink bit errors over the CPRI9 port are sampled every 1s. If no measurement results are
reported within a second, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
174
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.90 VS.CXU.CPRI9.UERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835780
VS.CXU.CPRI
9.UERR
Number of
uplink bit errors
over the CPRI9
port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the uplink physical layer of the CPRI9 port.
This counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Uplink bit errors over the CPRI9 port are sampled every 1s. If bit errors occur within a
second, the value of this counter is incremented by the number of bit errors within this
second.
Formula
None
Unit
None
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
175
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.91 VS.CXU.CPRI10.DES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835781
VS.CXU.CPRI
10.DES
Downlink ES
over the
CPRI10 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink ESs over the CPRI10 port. If bit errors occur or the CPRI10
port fails to properly receive or transmit data within a second, this second is a downlink ES.
This counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Downlink bit errors over the CPRI10 port are sampled every 1s. If an ES occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
176
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.92 VS.CXU.CPRI10.DSES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835782
VS.CXU.CPRI
10.DSES
Downlink SES
over the
CPRI10 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink SESs over the CPRI10 port. If the bit error rate is greater than
the value of Severely Errored Second Threshold or the CPRI10 port fails to properly receive
or transmit data within a second, this second is a downlink SES. The value of Severely
Errored Second Threshold is set to 1E-6 by default and can be modified by running an MML
command. This counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Downlink bit errors over the CPRI10 port are sampled every 1s. If an SES occurs, the value
of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
177
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.93 VS.CXU.CPRI10.DUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835783
VS.CXU.CPRI
10.DUAS
Downlink UAS
over the
CPRI10 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink UASs over the CPRI10 port. If 10 consecutive downlink
SESs occur over the CPRI10 port, downlink UASs start from the first SES. If 10 consecutive
downlink non-SESs occur over the CPRI10 port, downlink UASs stop at the first non-SES.
UASs do not mean that services are unavailable. This counter is measured when the RMU
works in WDM-SFP_OPTICAL mode.
Measurement Points
Downlink bit errors over the CPRI10 port are sampled every 1s. If a UAS occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
178
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.94 VS.CXU.CPRI10.DIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835784
VS.CXU.CPRI
10.DIVS
Second when
downlink
measurement
results of the
CPRI10 port
are invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain downlink measurement
results over the CPRI10 port when the RF module maintenance link is interrupted. This
counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Downlink bit errors over the CPRI10 port are sampled every 1s. If no measurement results are
reported within a second, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
179
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.95 VS.CXU.CPRI10.DERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835785
VS.CXU.CPRI
10.DERR
Number of
downlink bit
errors over the
CPRI10 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the downlink physical layer of the CPRI10
port. This counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Downlink bit errors over the CPRI10 port are sampled every 1s. If bit errors occur within a
second, the value of this counter is incremented by the number of bit errors within this
second.
Formula
None
Unit
None
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
180
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.96 VS.CXU.CPRI10.UES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835786
VS.CXU.CPRI
10.UES
Uplink ES over
the CPRI10
port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink ESs over the CPRI10 port. If bit errors occur or the CPRI10 port
fails to properly receive or transmit data within a second, this second is an uplink ES. This
counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Uplink bit errors over the CPRI10 port are sampled every 1s. If an ES occurs, the value of this
counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
181
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.97 VS.CXU.CPRI10.USES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835787
VS.CXU.CPRI
10.USES
Uplink SES
over the
CPRI10 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink SESs over the CPRI10 port. If the uplink bit error rate is greater
than the value of Severely Errored Second Threshold or the CPRI10 port fails to properly
receive or transmit data within a second, this second is an uplink SES. The value of Severely
Errored Second Threshold is set to 1E-6 by default and can be modified by running an MML
command. This counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Uplink bit errors over the CPRI10 port are sampled every 1s. If an SES occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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1 Node Performance Counter Measurement
1.1.5.1.98 VS.CXU.CPRI10.UUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835788
VS.CXU.CPRI
10.UUAS
Uplink UAS
over the
CPRI10 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink UASs over the CPRI10 port. If 10 consecutive uplink SESs
occur over the CPRI10 port, uplink UASs start from the first SES. If 10 consecutive uplink
non-SESs occur over the CPRI10 port, uplink UASs stop at the first non-SES. UASs do not
mean that services are unavailable. This counter is measured when the RMU works in WDMSFP_OPTICAL mode.
Measurement Points
Uplink bit errors over the CPRI10 port are sampled every 1s. If a UAS occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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1 Node Performance Counter Measurement
1.1.5.1.99 VS.CXU.CPRI10.UIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835789
VS.CXU.CPRI
10.UIVS
Second when
uplink
measurement
results of the
CPRI10 port
are invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain uplink measurement
results over the CPRI10 port when the RF module maintenance link is interrupted. This
counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Uplink bit errors over the CPRI10 port are sampled every 1s. If no measurement results are
reported within a second, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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1 Node Performance Counter Measurement
1.1.5.1.100 VS.CXU.CPRI10.UERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835790
VS.CXU.CPRI
10.UERR
Number of
uplink bit errors
over the
CPRI10 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the uplink physical layer of the CPRI10
port. This counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Uplink bit errors over the CPRI10 port are sampled every 1s. If bit errors occur within a
second, the value of this counter is incremented by the number of bit errors within this
second.
Formula
None
Unit
None
Related Features
None
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1.1.5.1.101 VS.CXU.CPRI11.DES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835791
VS.CXU.CPRI
11.DES
Downlink ES
over the
CPRI11 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink ESs over the CPRI11 port. If bit errors occur or the CPRI11
port fails to properly receive or transmit data within a second, this second is a downlink ES.
This counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Downlink bit errors over the CPRI11 port are sampled every 1s. If an ES occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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1 Node Performance Counter Measurement
1.1.5.1.102 VS.CXU.CPRI11.DSES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835792
VS.CXU.CPRI
11.DSES
Downlink SES
over the
CPRI11 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink SESs over the CPRI11 port. If the bit error rate is greater than
the value of Severely Errored Second Threshold or the CPRI11 port fails to properly receive
or transmit data within a second, this second is a downlink SES. The value of Severely
Errored Second Threshold is set to 1E-6 by default and can be modified by running an MML
command. This counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Downlink bit errors over the CPRI11 port are sampled every 1s. If an SES occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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1 Node Performance Counter Measurement
1.1.5.1.103 VS.CXU.CPRI11.DUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835793
VS.CXU.CPRI
11.DUAS
Downlink UAS
over the
CPRI11 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides downlink UASs over the CPRI11 port. If 10 consecutive downlink
SESs occur over the CPRI11 port, downlink UASs start from the first SES. If 10 consecutive
downlink non-SESs occur over the CPRI11 port, downlink UASs stop at the first non-SES.
UASs do not mean that services are unavailable. This counter is measured when the RMU
works in WDM-SFP_OPTICAL mode.
Measurement Points
Downlink bit errors over the CPRI11 port are sampled every 1s. If a UAS occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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1 Node Performance Counter Measurement
1.1.5.1.104 VS.CXU.CPRI11.DIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835794
VS.CXU.CPRI
11.DIVS
Second when
downlink
measurement
results of the
CPRI11 port are
invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain downlink measurement
results over the CPRI11 port when the RF module maintenance link is interrupted. This
counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Downlink bit errors over the CPRI11 port are sampled every 1s. If no measurement results are
reported within a second, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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1 Node Performance Counter Measurement
1.1.5.1.105 VS.CXU.CPRI11.DERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835795
VS.CXU.CPRI
11.DERR
Number of
downlink bit
errors over the
CPRI11 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the downlink physical layer of the CPRI11
port. This counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Downlink bit errors over the CPRI11 port are sampled every 1s. If bit errors occur within a
second, the value of this counter is incremented by the number of bit errors within this
second.
Formula
None
Unit
None
Related Features
None
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1 Node Performance Counter Measurement
1.1.5.1.106 VS.CXU.CPRI11.UES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835796
VS.CXU.CPRI
11.UES
Uplink ES over
the CPRI11 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink ESs over the CPRI11 port. If bit errors occur or the CPRI11 port
fails to properly receive or transmit data within a second, this second is an uplink ES. This
counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Uplink bit errors over the CPRI11 port are sampled every 1s. If an ES occurs, the value of this
counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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1 Node Performance Counter Measurement
1.1.5.1.107 VS.CXU.CPRI11.USES
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835797
VS.CXU.CPRI
11.USES
Uplink SES
over the
CPRI11 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink SESs over the CPRI11 port. If the bit error rate is greater than
the value of Severely Errored Second Threshold or the CPRI11 port fails to properly receive
or transmit data within a second, this second is an uplink SES. The value of Severely Errored
Second Threshold is set to 1E-6 by default and can be modified by running an MML
command. This counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Uplink bit errors over the CPRI11 port are sampled every 1s. If an SES occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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1 Node Performance Counter Measurement
1.1.5.1.108 VS.CXU.CPRI11.UUAS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835798
VS.CXU.CPRI
11.UUAS
Uplink UAS
over the
CPRI11 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides uplink UASs over the CPRI11 port. If 10 consecutive uplink SESs
occur over the CPRI11 port, uplink UASs start from the first SES. If 10 consecutive uplink
non-SESs occur over the CPRI11 port, uplink UASs stop at the first non-SES. UASs do not
mean that services are unavailable. This counter is measured when the RMU works in WDMSFP_OPTICAL mode.
Measurement Points
Uplink bit errors over the CPRI11 port are sampled every 1s. If a UAS occurs, the value of
this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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1 Node Performance Counter Measurement
1.1.5.1.109 VS.CXU.CPRI11.UIVS
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835799
VS.CXU.CPRI
11.UIVS
Second when
uplink
measurement
results of the
CPRI11 port are
invalid
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides seconds within which the BBU cannot obtain uplink measurement
results over the CPRI11 port when the RF module maintenance link is interrupted. This
counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Uplink bit errors over the CPRI11 port are sampled every 1s. If no measurement results are
reported within a second, the value of this counter is incremented by 1.
Formula
None
Unit
s
Related Features
None
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.1.5.1.110 VS.CXU.CPRI11.UERR
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835800
VS.CXU.CPRI
11.UERR
Number of
uplink bit errors
over the
CPRI11 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the number of bit errors on the uplink physical layer of the CPRI11
port. This counter is measured when the RMU works in WDM-SFP_OPTICAL mode.
Measurement Points
Uplink bit errors over the CPRI11 port are sampled every 1s. If bit errors occur within a
second, the value of this counter is incremented by the number of bit errors within this
second.
Formula
None
Unit
None
Related Features
None
1.1.5.2 Measurement of CXU Availability Duration (CXU.Avail)
Overview
The Measurement of CXU Availability Duration object provides the total availability duration
of a CXU.
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Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835768
VS.CXU.Avail.Dur
CXU Availability
Duration
BTS3900:
V100R012C00
BTS5900:
V100R013C00
Counter Relationship
None
1.1.5.2.1 VS.CXU.Avail.Dur
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835768
VS.CXU.Avail.
Dur
CXU
Availability
Duration
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the availability duration of a CXU.
Measurement Points
When the system is started, the CXU is periodically sampled every 5 seconds. If the CXU is
available, this counter is incremented by 5 at each sampling point. The accumulated duration
is reported at the end of the measurement period.
Formula
None
Unit
s
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Related Features
None
1.1.6 Measurement of eCPRI Port Performance (ECPRIPORT)
Overview
The Measurement of eCPRI Port Performance object consists of function subsets related to an
eCPRI port in a base station. It reflects the traffic volume and transmission quality of the
eCPRI port.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Physical.ECPRI
Measurement of eCPRI Port Performance
1.1.6.1 Measurement of eCPRI Port Performance (Physical.ECPRI)
Overview
The Measurement of eCPRI Port Performance function subset measures the traffic volume at
the data link layer of an eCPRI port. This function subset guides users in network planning.
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835822
VS.ECPRIPORT.T
xBytes
Number of Bytes
Transmitted from an
eCPRI Port
BTS3900:
V100R015C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R015C00
BTS5900 5G:
V100R015C00
1593835823
VS.ECPRIPORT.R
xBytes
Number of Bytes
Received by an
eCPRI Port
BTS3900:
V100R015C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R015C00
BTS5900 5G:
V100R015C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835824
VS.ECPRIPORT.T
xPackets
Number of Packets
Transmitted from an
eCPRI Port
BTS3900:
V100R015C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R015C00
BTS5900 5G:
V100R015C00
1593835825
VS.ECPRIPORT.R
xPackets
Number of Packets
Received by an
eCPRI Port
BTS3900:
V100R015C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R015C00
BTS5900 5G:
V100R015C00
1593835826
VS.ECPRIPORT.T
xMaxSpeed
Maximum Transmit
Rate of an eCPRI
Port
BTS3900:
V100R015C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R015C00
BTS5900 5G:
V100R015C00
1593835827
VS.ECPRIPORT.T
xMinSpeed
Minimum Transmit
Rate of an eCPRI
Port
BTS3900:
V100R015C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R015C00
BTS5900 5G:
V100R015C00
1593835828
VS.ECPRIPORT.T
xMeanSpeed
Average Transmit
Rate of an eCPRI
Port
BTS3900:
V100R015C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R015C00
BTS5900 5G:
V100R015C00
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1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835829
VS.ECPRIPORT.R
xMaxSpeed
Maximum Receive
Rate of an eCPRI
Port
BTS3900:
V100R015C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R015C00
BTS5900 5G:
V100R015C00
1593835830
VS.ECPRIPORT.R
xMinSpeed
Minimum Receive
Rate of an eCPRI
Port
BTS3900:
V100R015C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R015C00
BTS5900 5G:
V100R015C00
1593835831
VS.ECPRIPORT.R
xMeanSpeed
Average Receive
Rate of an eCPRI
Port
BTS3900:
V100R015C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R015C00
BTS5900 5G:
V100R015C00
1593835832
VS.ECPRIPORT.T
xTotalBW
Total Transmit
Bandwidth of an
eCPRI Port
BTS3900:
V100R015C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R015C00
BTS5900 5G:
V100R015C00
1593835833
VS.ECPRIPORT.R
xTotalBW
Total Receive
Bandwidth of an
eCPRI Port
BTS3900:
V100R015C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R015C00
BTS5900 5G:
V100R015C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835834
VS.ECPRIPORT.R
xErrPackets
Number of Error
Packets Received by
an eCPRI Port
BTS3900:
V100R015C00
BTS3900 5G:
V100R015C10
BTS5900:
V100R015C00
BTS5900 5G:
V100R015C00
Counter Relationship
None
1.1.6.1.1 Number of Bytes Transmitted from an eCPRI Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835822
VS.ECPRIPOR
T.TxBytes
Number of
Bytes
Transmitted
from an eCPRI
Port
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of bytes transmitted from an eCPRI port, and reflects the
traffic volume of the eCPRI port. The measurement includes the MAC header, VLAN tag,
payload, and CRC field of each packet.
Measurement Points
The number of bytes transmitted from the eCPRI port is sampled every 5 seconds. At the end
of a measurement period, the sum of these sampling results is used as the counter value.
Formula
None
Unit
byte
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Related Features
None
1.1.6.1.2 Number of Bytes Received by an eCPRI Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835823
VS.ECPRIPOR
T.RxBytes
Number of
Bytes Received
by an eCPRI
Port
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of bytes received by an eCPRI port, and reflects the traffic
volume of the eCPRI port. The measurement includes the MAC header, VLAN tag, payload,
and CRC field of each packet.
Measurement Points
The number of bytes received by the eCPRI port is sampled every 5 seconds. At the end of a
measurement period, the sum of these sampling results is used as the counter value.
Formula
None
Unit
byte
Related Features
None
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1 Node Performance Counter Measurement
1.1.6.1.3 Number of Packets Transmitted from an eCPRI Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835824
VS.ECPRIPOR
T.TxPackets
Number of
Packets
Transmitted
from an eCPRI
Port
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of packets successfully transmitted from an eCPRI port
within a measurement period, and reflects the traffic volume and transmission quality of the
eCPRI port.
Measurement Points
The number of packets transmitted from the eCPRI port is sampled every 5 seconds. At the
end of a measurement period, the sum of these sampling results is used as the counter value.
Formula
None
Unit
None
Related Features
None
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1 Node Performance Counter Measurement
1.1.6.1.4 Number of Packets Received by an eCPRI Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835825
VS.ECPRIPOR
T.RxPackets
Number of
Packets
Received by an
eCPRI Port
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of packets successfully received by an eCPRI port within a
measurement period, and reflects the traffic volume and transmission quality of the eCPRI
port.
Measurement Points
The number of packets received by the eCPRI port is sampled every 5 seconds. At the end of
a measurement period, the sum of these sampling results is used as the counter value.
Formula
None
Unit
None
Related Features
None
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1.1.6.1.5 Maximum Transmit Rate of an eCPRI Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835826
VS.ECPRIPOR
T.TxMaxSpeed
Maximum
Transmit Rate
of an eCPRI
Port
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the transmit rate at the data link layer of an eCPRI port within a
measurement period, and reflects the data-link-layer traffic volume of the eCPRI port.
Measurement Points
The number of bytes transmitted from the eCPRI port is sampled every 5 seconds, and a
sample is obtained from these sampling results in each sampling period. The maximum
sample in consecutive sampling periods is reported. At the end of a measurement period, the
system divides the maximum reported sample by the sampling period to obtain the counter
value.
Formula
None
Unit
bit/s
Related Features
None
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1.1.6.1.6 Minimum Transmit Rate of an eCPRI Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835827
VS.ECPRIPOR
T.TxMinSpeed
Minimum
Transmit Rate
of an eCPRI
Port
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the transmit rate at the data link layer of an eCPRI port within a
measurement period, and reflects the data-link-layer traffic volume of the eCPRI port.
Measurement Points
The number of bytes transmitted from the eCPRI port is sampled every 5 seconds, and a
sample is obtained from these sampling results in each sampling period. The minimum
sample in consecutive sampling periods is reported. At the end of a measurement period, the
system divides the minimum reported sample by the sampling period to obtain the counter
value.
Formula
None
Unit
bit/s
Related Features
None
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1.1.6.1.7 Average Transmit Rate of an eCPRI Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835828
VS.ECPRIPOR
T.TxMeanSpee
d
Average
Transmit Rate
of an eCPRI
Port
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the transmit rate at the data link layer of an eCPRI port within a
measurement period, and reflects the data-link-layer traffic volume of the eCPRI port.
Measurement Points
The number of bytes transmitted from the eCPRI port is sampled every 5 seconds, and a
sample is obtained from these sampling results in each sampling period. The average of the
samples in consecutive sampling periods is reported. At the end of a measurement period, the
system divides the average of the reported samples by the sampling period to obtain the
counter value.
Formula
None
Unit
bit/s
Related Features
None
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1.1.6.1.8 Maximum Receive Rate of an eCPRI Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835829
VS.ECPRIPOR
T.RxMaxSpeed
Maximum
Receive Rate of
an eCPRI Port
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the receive rate at the data link layer of an eCPRI port within a
measurement period, and reflects the data-link-layer traffic volume of the eCPRI port.
Measurement Points
The number of bytes received by the eCPRI port is sampled every 5 seconds, and a sample is
obtained from these sampling results in each sampling period. The maximum sample in
consecutive sampling periods is reported. At the end of a measurement period, the system
divides the maximum reported sample by the sampling period to obtain the counter value.
Formula
None
Unit
bit/s
Related Features
None
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1.1.6.1.9 Minimum Receive Rate of an eCPRI Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835830
VS.ECPRIPOR
T.RxMinSpeed
Minimum
Receive Rate of
an eCPRI Port
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the receive rate at the data link layer of an eCPRI port within a
measurement period, and reflects the data-link-layer traffic volume of the eCPRI port.
Measurement Points
The number of bytes received by the eCPRI port is sampled every 5 seconds, and a sample is
obtained from these sampling results in each sampling period. The minimum sample in
consecutive sampling periods is reported. At the end of a measurement period, the system
divides the minimum reported sample by the sampling period to obtain the counter value.
Formula
None
Unit
bit/s
Related Features
None
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1.1.6.1.10 Average Receive Rate of an eCPRI Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835831
VS.ECPRIPOR
T.RxMeanSpee
d
Average
Receive Rate of
an eCPRI Port
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the receive rate at the data link layer of an eCPRI port within a
measurement period, and reflects the data-link-layer traffic volume of the eCPRI port.
Measurement Points
The number of bytes received by the eCPRI port is sampled every 5 seconds, and a sample is
obtained from these sampling results in each sampling period. The average of the samples in
consecutive sampling periods is reported. At the end of a measurement period, the system
divides the average of the reported samples by the sampling period to obtain the counter
value.
Formula
None
Unit
bit/s
Related Features
None
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1.1.6.1.11 Total Transmit Bandwidth of an eCPRI Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835832
VS.ECPRIPOR
T.TxTotalBW
Total Transmit
Bandwidth of
an eCPRI Port
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the total available transmit bandwidth of an eCPRI port within a
measurement period. The counter value is obtained as follows:
1. If the eCPRI port is deactivated, the available bandwidth of the port is 0.
2. If the eCPRI port is activated, the available bandwidth equals the port rate in use.
Measurement Points
The available transmit bandwidth of the eCPRI port is sampled every 5 seconds. At the end of
a measurement period, the average of these sampling results is used as the counter value.
Formula
None
Unit
kbit/s
Related Features
None
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1.1.6.1.12 Total Receive Bandwidth of an eCPRI Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835833
VS.ECPRIPOR
T.RxTotalBW
Total Receive
Bandwidth of
an eCPRI Port
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the total available receive bandwidth of an eCPRI port within a
measurement period. The counter value is obtained as follows:
1. If the eCPRI port is deactivated, the available bandwidth of the port is 0.
2. If the eCPRI port is activated, the available bandwidth equals the port rate in use.
Measurement Points
The available receive bandwidth of the eCPRI port is sampled every 5 seconds. At the end of
a measurement period, the average of these sampling results is used as the counter value.
Formula
None
Unit
kbit/s
Related Features
None
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1.1.6.1.13 Number of Error Packets Received by an eCPRI Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835834
VS.ECPRIPOR
T.RxErrPackets
Number of
Error Packets
Received by an
eCPRI Port
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of error packets received by an eCPRI port within a
measurement period, and reflects the traffic volume and transmission quality of the eCPRI
port. The error packets include error packets received on physical links and those failed CRC.
Measurement Points
The number of error packets received by the eCPRI port is sampled every 5 seconds. At the
end of a measurement period, the sum of these sampling results is used as the counter value.
Formula
None
Unit
None
Related Features
None
1.1.7 Measurement of BU Performance (BU)
Overview
The Measurement of BU Performance object consists of function subsets related to the
baseband unit.
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FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Equipment.BU
Measurement of BU Equipment
Performance
1.1.7.1 Measurement of BU Equipment Performance (Equipment.BU)
Overview
The Measurement of BU Equipment Performance measures the baseband unit equipment
performance.
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835835
VS.EnergyCons.B
U
Power consumption
of baseband unit
BTS3900:
V100R015C10
BTS3900 WCDMA:
V100R015C10
BTS3900 LTE:
V100R015C10
BTS3900 5G:
V100R015C10
BTS5900:
V100R015C10
BTS5900 WCDMA:
V100R015C10
BTS5900 LTE:
V100R015C10
BTS5900 5G:
V100R015C10
Counter Relationship
None
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1.1.7.1.1 Power consumption of baseband unit
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835835
VS.EnergyCons
.BU
Power
consumption of
baseband unit
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides the power consumption of the baseband unit within the measurement
period.
Measurement Points
The system samples the power consumption of the baseband unit every 5 minutes. At the end
of a measurement period, the sum of these calculated results is used as the value of the
counter.
Note: If the baseband unit is powered by an analog power board (UPEUa or UPEUb), the
value of this counter for the baseband unit is invalid.
Formula
None
Unit
kWh
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Related Features
Counter Name
Feature ID
Feature Name
VS.EnergyCons.BU
Multi-mode: None
GSM: GBFD-111202
O&M of BTS
UMTS: WRFD-020406
Intelligent Power
Measurement
LTE: LBFD-001041
TDLBFD-001041
MLBFD-12000420
NR: FBFD-010025
Power Consumption
Monitoring
Power Consumption
Monitoring
Power Consumption
Monitoring
Basic OM package
1.1.8 Measurement of BTS Board Performance (BTSBoard)
Overview
The Measurement of BTS Board Performance object consists of function subsets related to
BTS board.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Equipment.BTSBoard
Measurement of BTS Board Equipment
Performance
1.1.8.1 Measurement of BTS Board Equipment Performance
(Equipment.BTSBoard)
Overview
The Measurement of BTS Board Equipment Performance measures the board equipment
performance.
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Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1593835836
VS.EnergyCons.BT
SBoard
Power consumption
of board
BTS3900:
V100R015C10
BTS3900 WCDMA:
V100R015C10
BTS3900 LTE:
V100R015C10
BTS3900 5G:
V100R015C10
BTS5900:
V100R015C10
BTS5900 WCDMA:
V100R015C10
BTS5900 LTE:
V100R015C10
BTS5900 5G:
V100R015C10
Counter Relationship
None
1.1.8.1.1 Power consumption of board
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1593835836
VS.EnergyCons
.BTSBoard
Power
consumption of
board
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
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Description
The preceding counter measures the power consumption of objects such as RRU, RFU, AAU,
CXU, or RHUB within a measurement period.
Measurement Points
The system samples the power consumption of board every 5 minutes. At the end of a
measurement period, the sum of these calculated results is used as the value of the counter.
Formula
None
Unit
kWh
Related Features
Counter Name
Feature ID
Feature Name
VS.EnergyCons.BTSBoard
Multi-mode: None
GSM: GBFD-111202
O&M of BTS
UMTS: WRFD-020406
Intelligent Power
Measurement
LTE: LBFD-001041
TDLBFD-001041
MLBFD-12000420
NR: FBFD-010025
Power Consumption
Monitoring
Power Consumption
Monitoring
Power Consumption
Monitoring
Basic OM package
1.1.9 Measurement of NodeB Board Performance (BOARD)
Overview
The object type "BOARD" contains two function subsets: "TRAFFIC.BOARD" and
"LOAD.BOARD".
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
TRAFFIC.BOARD
NodeB Board Service Measurement
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1.1.9.1 NodeB Board Service Measurement (TRAFFIC.BOARD)
Overview
The function subject measures the baseband resource usage of a certain NodeB board. The
baseband processing unit indicates the board that has baseband processing capabilities, for
example, BBP and MDU.
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
50332582
VS.CE.DLAvailabl
e.Board
The Number of
Downlink CEs
Configured on a
Baseband Board
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
50332583
VS.CE.ULAvailabl
e.Board
The Number of
Uplink CEs
Configured on a
Baseband Board
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
50332584
VS.CE.DLMean.Bo
ard
Mean Number of
Downlink CEs
Consumed by a
Baseband Board
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
50332586
VS.CE.ULMean.Bo
ard
Mean Number of
Uplink CEs
Consumed by a
Baseband Board
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
50342584
VS.CE.DLMin.Boa
rd
Minimum Number
of Downlink CEs
Consumed by a
Baseband Board
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
50342585
VS.CE.DLMax.Boa
rd
Maximum Number
of Downlink CEs
Consumed by a
Baseband Board
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
50342586
VS.CE.ULMin.Boa
rd
Minimum Number
of Uplink CEs
Consumed by a
Baseband Board
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
50342587
VS.CE.ULMax.Boa
rd
Maximum Number
of Uplink CEs
Consumed by a
Baseband Board
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
50342606
VS.BOARD.UsedH
sdpaUserRatio.Me
an
Average ratio of
HSDPA users on a
board
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
50342607
VS.BOARD.UsedH
sdpaUserRatio.Ma
x
Maximum ratio of
HSDPA users on a
board
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
50342608
VS.BOARD.UsedH
supaUserRatio.Me
an
Average ratio of
HSUPA users on a
board
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
50342609
VS.BOARD.UsedH
supaUserRatio.Ma
x
Maximum ratio of
HSUPA users on a
board
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
50342632
VS.ULCoMP.CE.U
LMean.Board
Average Number of
UL CEs Consumed
by UL Coordinating
Links on the
Baseband Board
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
50342633
VS.ULCoMP.CE.U
LMax.Board
Maximum Number
of UL CEs
Consumed by UL
Coordinating Links
on the Baseband
Board
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
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Counter Relationship
None
1.1.9.1.1 The Number of Downlink CEs Configured on a Baseband Board
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332582
VS.CE.DLAvai
lable.Board
The Number of
Downlink CEs
Configured on a
Baseband
Board
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
The number of downlink CEs configured on a baseband board. The counter is sampled every
30 seconds. At the end of the measurement period, the maximum of these sampling results is
used as the value of the counter. For example, if the measurement period is 15 minutes, there
are 30 sampling results and the maximum of these sampling results is used as the value of the
counter. If the board is unable to process downlink services, the number of CEs reported is
zero.
Measurement Points
The system samples the downlink hardware configured CEs number on available boards in an
uplink resource group in period.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.CE.DLAvailable.Board
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
NR: None
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1.1.9.1.2 The Number of Uplink CEs Configured on a Baseband Board
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332583
VS.CE.ULAvai
lable.Board
The Number of
Uplink CEs
Configured on a
Baseband
Board
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
The number of uplink CEs configured on a baseband board. The counter is sampled every 30
seconds. At the end of the measurement period, the maximum of these sampling results is
used as the value of the counter. For example, if the measurement period is 15 minutes, there
are 30 sampling results and the maximum of these sampling results is used as the value of the
counter. If the board is unable to process uplink services, the number of CEs reported is zero.
Measurement Points
The system samples the uplink hardware configured CEs number on available boards in an
uplink resource group in period.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.CE.ULAvailable.Board
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
NR: None
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1.1.9.1.3 Number of Downlink CEs Consumed by a Baseband Board
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332584
VS.CE.DLMea
n.Board
Mean Number
of Downlink
CEs Consumed
by a Baseband
Board
BTS3900,
BTS3900
WCDMA,
U
Minimum
Number of
Downlink CEs
Consumed by a
Baseband
Board
BTS3900,
BTS3900
WCDMA,
Maximum
Number of
Downlink CEs
Consumed by a
Baseband
Board
BTS3900,
BTS3900
WCDMA,
50342584
50342585
VS.CE.DLMin.
Board
VS.CE.DLMax.
Board
BTS5900,
BTS5900
WCDMA
U
BTS5900,
BTS5900
WCDMA
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the number of downlink CEs consumed by all cells in a board.
Measurement Points
The number of downlink CEs consumed by all cells in a baseband board is sampled every 30
seconds. At the end of a measurement period, the average number of downlink CEs consumed
by a baseband board is obtained by dividing the accumulated value in the period by the
number of samples. The maximum of these sampling results is defined as the maximum
number of downlink CEs consumed by a baseband board, and the minimum of these sampling
results is defined as the minimum number of downlink CEs consumed by a baseband board.
The number of downlink CEs consumed by a baseband board includes the number of CEs
consumed by common channels in a cell, and these CEs are not included in the
VS.CE.DLAvailable.Board counter. Therefore, the number of downlink CEs consumed by a
baseband board may be greater than the value of VS.CE.DLAvailable.Board.
Formula
None
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Unit
None
Related Features
Counter Name
Feature ID
VS.CE.DLMean.Board
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
NR: None
VS.CE.DLMin.Board
Multi-mode: None
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
NR: None
VS.CE.DLMax.Board
Multi-mode: None
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
NR: None
1.1.9.1.4 Number of Uplink CEs Consumed by a Baseband Board
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332586
VS.CE.ULMea
n.Board
Mean Number
of Uplink CEs
Consumed by a
Baseband
Board
BTS3900,
BTS3900
WCDMA,
U
Minimum
Number of
Uplink CEs
Consumed by a
Baseband
Board
BTS3900,
BTS3900
WCDMA,
50342586
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VS.CE.ULMin.
Board
BTS5900,
BTS5900
WCDMA
U
BTS5900,
BTS5900
WCDMA
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342587
VS.CE.ULMax.
Board
Maximum
Number of
Uplink CEs
Consumed by a
Baseband
Board
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter provides the average, maximum and minimum number of uplink CEs consumed
by all cells on a board.
Remarks:
After Uplink CoMP (Joint Reception), HetNet Uplink CoMP(Joint Reception), UL CoMP
(Joint Reception) based on Coordinated BBU, Coverage Expansion Under Interference,
Uplink Active Set Extension (Coordinating Link Extension Supported by Seamless Crystal
Voice, by SRB over DCH Uplink Coverage Expansion, or by CCPIC Phase 2),4-Way Receive
Diversity by Inter-Band Assistance, and Enhanced Inter-NodeB Uplink CoMP (Joint
Reception) are introduced, the number of consumed uplink CEs on the board includes the
number of uplink CEs consumed by R99 users and HSUPA users and the number of CEs
consumed by coordinating links. After the Uplink Enhanced CELL_FACH feature is
introduced, the uplink consumed CEs on the board include those consumed by E-RACH
users.
Coordinating link: Link specifically established for UL CoMP (joint reception) users on the
RAN side. A coordinating link is established when Uplink CoMP (Joint Reception), HetNet
Uplink CoMP(Joint Reception), UL CoMP (Joint Reception) based on Coordinated BBU,
Coverage Expansion Under Interference, Uplink Active Set Extension (Coordinating Link
Extension Supported by Seamless Crystal Voice, by SRB over DCH Uplink Coverage
Expansion, or by CCPIC Phase 2),4-Way Receive Diversity by Inter-Band Assistance, or
Enhanced Inter-NodeB Uplink CoMP (Joint Reception) is enabled.
Measurement Points
The number of uplink CEs consumed by all cells in a baseband board is sampled every 30
seconds. At the end of a measurement period, the average number of uplink CEs consumed by
a baseband board is obtained by dividing the accumulated value in the period by the number
of samples. The maximum of these sampling results is defined as the maximum number of
uplink CEs consumed by a baseband board, and the minimum of these sampling results is
defined as the minimum number of uplink CEs consumed by a baseband board.
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
VS.CE.ULMean.Board
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020101
WRFD-171212
WRFD-190103
WRFD-190210
WRFD-151205
LTE: None
NR: None
Admission Control
Coverage Expansion Under
Interference
Voice Coverage
Improvement by Advanced
Demodulation
4-Way Receive Diversity by
Inter-Band Assistance
Uplink CoMP (Joint
Reception)
VS.CE.ULMin.Board
Multi-mode: None
GSM: None
UMTS: WRFD-020101
WRFD-171212
WRFD-190103
WRFD-190210
WRFD-151205
LTE: None
NR: None
Admission Control
Coverage Expansion Under
Interference
Voice Coverage
Improvement by Advanced
Demodulation
4-Way Receive Diversity by
Inter-Band Assistance
Uplink CoMP (Joint
Reception)
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Counter Name
Feature ID
VS.CE.ULMax.Board
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020101
Admission Control
WRFD-171212
Coverage Expansion Under
Interference
WRFD-190103
Voice Coverage
Improvement by Advanced
Demodulation
WRFD-190210
WRFD-151205
LTE: None
4-Way Receive Diversity by
Inter-Band Assistance
NR: None
Uplink CoMP (Joint
Reception)
1.1.9.1.5 Ratio of HSDPA users on a board
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342606
VS.BOARD.Us
edHsdpaUserRa
tio.Mean
Average ratio of
HSDPA users
on a board
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
50342607
VS.BOARD.Us
edHsdpaUserRa
tio.Max
Maximum ratio
of HSDPA
users on a board
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
These counters indicate the ratio of HSDPA users that have been activated on the board
scheduler to HSDPA users that can be supported by a board. If HSDPA scheduler resource
pool is enabled, all boards that support the feature are used as a shared resource pool, and the
ratio of the number of HSDPA users that have been activated in the resource pool to the
number of HSDPA users that can be supported in the resource pool is displayed on each board
in the resource pool.
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Measurement Points
The following table describes the Measurement Points of each counter.
Counter Name
Measurement Points
VS.BOARD.UsedHsdpaUserRatio.Mean
If HSDPA scheduler resource pool is not
enabled, the ratio of HSDPA users on a
board is sampled every five seconds. At the
end of a measurement period, the
accumulated number of HSDPA equivalent
users within a sampling period is A, the
number of samples is B, and the number of
HSDPA users supported on the board is C.
The formula for calculating the counter is as
follows: VS.BOARD.UsedHsdpaUserRatio.Mean=A/(B x C).
If HSDPA scheduler resource pool is
enabled, all boards that support the feature
are used as a shared resource pool. The ratio
of HSDPA users on a board is sampled
every five seconds. At the end of a
measurement period, the accumulated
number of HSDPA equivalent users in the
resource pool within a sampling period is A,
the number of samples is B, and the number
of HSDPA users supported in the resource
pool is C. The formula for calculating the
counter is as follows:
VS.BOARD.UsedHsdpaUserRatio.Mean=A/(B x C).
Note:
One HSDPA user is regarded as one
HSDPA equivalent user. If DC-HSDPA/DBHSDPA/MC-HSDPA is activated, a DCHSDPA/DB-HSDPA/MC-HSDPA user is
regarded as one HSDPA user in each carrier.
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Counter Name
Measurement Points
VS.BOARD.UsedHsdpaUserRatio.Max
If HSDPA scheduler resource pool is not
enabled, the ratio of HSDPA users is
sampled every five seconds. At the end of a
measurement period, the maximum number
of HSDPA equivalent users on a board is A
and the number of HSDPA users supported
on the board is C. The formula for
calculating the counter is as follows:
VS.BOARD.UsedHsdpaUserRatio.Max =
A/C.
If HSDPA scheduler resource pool is
enabled, all boards that support the feature
are used as a shared resource pool. The ratio
of HSDPA users on a board is sampled
every five seconds. At the end of a
measurement period, the maximum number
of HSDPA equivalent users in the resource
pool within a sampling period is A, and the
number of HSDPA users supported in the
resource pool is C. The formula for
calculating the counter is as follows:
VS.BOARD.UsedHsdpaUserRatio.Max =
A/C.
Note:
One HSDPA user is regarded as one
HSDPA equivalent user. If DC-HSDPA/DBHSDPA/MC-HSDPA is activated, a DCHSDPA/DB-HSDPA/MC-HSDPA user is
regarded as one HSDPA user in each carrier.
Formula
None
Unit
%
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Related Features
Counter Name
Feature ID
VS.BOARD.UsedHsdpaUse
rRatio.Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
NR: None
VS.BOARD.UsedHsdpaUse
rRatio.Max
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
NR: None
1.1.9.1.6 Ratio of HSUPA users on a board
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342608
VS.BOARD.Us
edHsupaUserRa
tio.Mean
Average ratio of
HSUPA users
on a board
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
50342609
VS.BOARD.Us
edHsupaUserRa
tio.Max
Maximum ratio
of HSUPA
users on a board
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
These counters indicate the ratio of HSUPA users that have been activated on the board
scheduler to HSUPA users that can be supported by boards. If HSUPA scheduler resource
pool is enabled, all boards that support the feature are used as a shared resource pool, and the
ratio of the number of HSUPA users that have been activated in the resource pool to the
number of HSUPA users that can be supported in the resource pool is displayed on each board
in the resource pool.
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Measurement Points
The following table describes the Measurement Points of each counter.
Counter Name
Measurement Points
VS.BOARD.UsedHsupaUserRatio.Mean
If HSUPA scheduler resource pool is not
enabled, the ratio of HSUPA users on a
board is sampled every five seconds. At the
end of a measurement period, the
accumulated number of HSUPA equivalent
users within a sampling period is A, the
number of samples is B, and the number of
HSUPA users supported on the board is C.
The formula for calculating the counter is as
follows: VS.BOARD.UsedHsupaUserRatio.Mean=A/(B x C).
If HSUPA scheduler resource pool is
enabled, all boards that support the feature
are used as a shared resource pool. The ratio
of HSUPA users on a board is sampled
every five seconds. At the end of a
measurement period, the accumulated
number of HSUPA equivalent users in the
resource pool within a sampling period is A,
the number of samples is B, and the number
of HSUPA users supported in the resource
pool is C. The formula for calculating the
counter is as follows:
VS.BOARD.UsedHsupaUserRatio.Mean=A/(B x C).
Note:
One HSUPA user is regarded as one
HSUPA equivalent user. If DC-HSUPA is
activated, a DC-HSUPA user is regarded as
one HSUPA user in each carrier.
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Counter Name
Measurement Points
VS.BOARD.UsedHsupaUserRatio.Max
If HSUPA scheduler resource pool is not
enabled, the ratio of HSUPA users is
sampled every five seconds. At the end of a
measurement period, the maximum number
of HSUPA equivalent users on a board is A
and the number of HSUPA users supported
on the board is C. The formula for
calculating the counter is as follows:
VS.BOARD.UsedHsupaUserRatio.Max =
A/C.
If HSUPA scheduler resource pool is
enabled, all boards that support the feature
are used as a shared resource pool. The ratio
of HSUPA users on a board is sampled
every five seconds. At the end of a
measurement period, the maximum number
of HSUPA equivalent users in the resource
pool within a sampling period is A, and the
number of HSUPA users supported in the
resource pool is C. The formula for
calculating the counter is as follows:
VS.BOARD.UsedHsupaUserRatio.Max =
A/C.
Note:
One HSUPA user is regarded as one
HSUPA equivalent user. If DC-HSUPA is
activated, a DC-HSUPA user is regarded as
one HSUPA user in each carrier.
Formula
None
Unit
%
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Related Features
Counter Name
Feature ID
VS.BOARD.UsedHsupaUse
rRatio.Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
NR: None
VS.BOARD.UsedHsupaUse
rRatio.Max
Multi-mode: None
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
NR: None
1.1.9.1.7 Number of UL CEs Consumed by UL Coordinating Links on the Baseband
Board
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342632
VS.ULCoMP.C
E.ULMean.Boa
rd
Average
Number of UL
CEs Consumed
by UL
Coordinating
Links on the
Baseband
Board
BTS3900,
BTS3900
WCDMA,
U
Maximum
Number of UL
CEs Consumed
by UL
Coordinating
Links on the
Baseband
Board
BTS3900,
BTS3900
WCDMA,
50342633
VS.ULCoMP.C
E.ULMax.Boar
d
BTS5900,
BTS5900
WCDMA
U
BTS5900,
BTS5900
WCDMA
Description
This counter provides the average and maximum number of UL CEs consumed by all
coordinating links on the baseband processing unit.
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Remarks:
A coordinating link is established when Uplink CoMP (Joint Reception), HetNet Uplink
CoMP(Joint Reception), UL CoMP (Joint Reception) based on Coordinated BBU, Coverage
Expansion Under Interference, Uplink Active Set Extension (Coordinating Link Extension
Supported by Seamless Crystal Voice, by SRB over DCH Uplink Coverage Expansion, or by
CCPIC Phase 2),4-Way Receive Diversity by Inter-Band Assistance, or Enhanced InterNodeB Uplink CoMP (Joint Reception) is enabled.
Coordinating link: Link specifically established for UL CoMP (joint reception) users on the
RAN side.
Measurement Points
The number of UL CEs consumed by all coordinating links on the baseband board is sampled
every 30 seconds. At the end of a measurement period, the average number of UL CEs
consumed by all coordinating links on the baseband board is obtained by dividing the
accumulated value within the measurement by the number of samples. The maximum value
within the measurement period is the maximum number of UL CEs consumed by all
coordinating links on the baseband board.
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
VS.ULCoMP.CE.ULMean.
Board
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-151205
WRFD-151206
WRFD-151207
WRFD-171212
WRFD-140202
WRFD-180201
WRFD-170201
WRFD-171212
WRFD-190210
LTE: None
NR: None
Uplink CoMP (Joint
Reception)
HetNet Uplink CoMP (Joint
Reception)
Uplink CoMP (Joint
Reception) Based on
Coordinated BBU
Coverage Expansion Under
Interference
Control Channel Parallel
Interference Cancellation
(Phase 2)
Improved Uplink Coverage
for SRB over DCH
Seamless Crystal Voice
Coverage Expansion Under
Interference
4-Way Receive Diversity by
Inter-Band Assistance
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Counter Name
Feature ID
Feature Name
VS.ULCoMP.CE.ULMax.B
oard
Multi-mode: None
GSM: None
UMTS: WRFD-151205
WRFD-151206
WRFD-151207
WRFD-171212
WRFD-140202
WRFD-180201
WRFD-170201
WRFD-171212
WRFD-190210
LTE: None
NR: None
Uplink CoMP (Joint
Reception)
HetNet Uplink CoMP (Joint
Reception)
Uplink CoMP (Joint
Reception) Based on
Coordinated BBU
Coverage Expansion Under
Interference
Control Channel Parallel
Interference Cancellation
(Phase 2)
Improved Uplink Coverage
for SRB over DCH
Seamless Crystal Voice
Coverage Expansion Under
Interference
4-Way Receive Diversity by
Inter-Band Assistance
1.1.10 Measurement of UL Resource Group Performance
(ULGROUP)
Overview
The object type "ULGROUP" contains only one function subset, that is,
"TRAFFIC.ULGROUP".
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
TRAFFIC.ULGROUP
Uplink Resource Group Measurement
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1.1.10.1 Uplink Resource Group Measurement (TRAFFIC.ULGROUP)
Overview
The UL resource group measurement indicates the baseband resource usage of a NodeB UL
resource group.
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
50332573
VS.CE.ULAvailabl
e.UlGroup
The Number of CEs
Configured on All
Available Boards in
an Uplink Resource
Group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
50332574
VS.CE.ULMean.Ul
Group
Mean Number of
Uplink CEs
Consumed by All
Cells in an Uplink
Resource Group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
50342574
VS.CE.ULMin.UlG
roup
Minimum Number
of Uplink CEs
Consumed by All
Cells in an Uplink
Resource Group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
50342575
VS.CE.ULMax.Ul
Group
Maximum Number
of Uplink CEs
Consumed by All
Cells in an Uplink
Resource Group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
50342635
VS.ULCoMP.CE.U
LMean.UlGroup
Average Number of
UL CEs in a UL
Resource Group
Consumed by
Coordinating Links
for All Cells
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
50342636
VS.ULCoMP.CE.U
LMax.UlGroup
Maximum Number
of UL CEs in a UL
Resource Group
Consumed by
Coordinating Links
for All Cells
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
Counter Relationship
None
1.1.10.1.1 The Number of CEs Configured on All Available Boards in an Uplink
Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332573
VS.CE.ULAvai
lable.UlGroup
The Number of
CEs Configured
on All
Available
Boards in an
Uplink
Resource Group
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the number of CEs configured for hardware of all available boards in
an uplink resource group.
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Measurement Points
This counter is sampled every 30 seconds. At the end of a measurement period, the maximum
of these sampling results is defined as the value of the counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.CE.ULAvailable.UlGrou
p
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
NR: None
1.1.10.1.2 Number of Uplink CEs Consumed by All Cells in an Uplink Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332574
VS.CE.ULMea
n.UlGroup
Mean Number
of Uplink CEs
Consumed by
All Cells in an
Uplink
Resource Group
BTS3900,
BTS3900
WCDMA,
U
Minimum
Number of
Uplink CEs
Consumed by
All Cells in an
Uplink
Resource Group
BTS3900,
BTS3900
WCDMA,
50342574
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VS.CE.ULMin.
UlGroup
BTS5900,
BTS5900
WCDMA
U
BTS5900,
BTS5900
WCDMA
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342575
VS.CE.ULMax.
UlGroup
Maximum
Number of
Uplink CEs
Consumed by
All Cells in an
Uplink
Resource Group
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter provides the average, maximum and minimum number of uplink CEs consumed
by all cells in an uplink resource group.
Remarks:
After Uplink CoMP (Joint Reception), HetNet Uplink CoMP(Joint Reception), UL CoMP
(Joint Reception) based on Coordinated BBU, Coverage Expansion Under Interference,
Uplink Active Set Extension (Coordinating Link Extension Supported by Seamless Crystal
Voice, by SRB over DCH Uplink Coverage Expansion, or by CCPIC Phase 2),4-Way Receive
Diversity by Inter-Band Assistance, and Enhanced Inter-NodeB Uplink CoMP (Joint
Reception) are introduced, the number of consumed uplink CEs in an uplink resource group
includes the number of uplink CEs consumed by R99 users and HSUPA users and the number
of CEs consumed by coordinating links in the uplink resource group. After the Uplink
Enhanced CELL_FACH feature is introduced, the uplink consumed CEs in an uplink resource
group include those consumed by E-RACH users.
Coordinating link: Link specifically established for UL CoMP (joint reception) users on the
RAN side. A coordinating link is established when Uplink CoMP (Joint Reception), HetNet
Uplink CoMP(Joint Reception), UL CoMP (Joint Reception) based on Coordinated BBU,
Coverage Expansion Under Interference, Uplink Active Set Extension (Coordinating Link
Extension Supported by Seamless Crystal Voice, by SRB over DCH Uplink Coverage
Expansion, or by CCPIC Phase 2),4-Way Receive Diversity by Inter-Band Assistance, or
Enhanced Inter-NodeB Uplink CoMP (Joint Reception) is enabled.
Measurement Points
The number of uplink CEs consumed by all cells in an uplink resource group is sampled every
30 seconds. At the end of a measurement period, the average number of uplink CEs in an
uplink resource group is obtained by dividing the accumulated value in the period by the
number of samples. The maximum of these sampling results is defined as the maximum
number of uplink CEs consumed by all cells in an uplink resource group, and the minimum of
these sampling results is defined as the minimum number of uplink CEs consumed by all cells
in an uplink resource group.
Formula
None
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Unit
None
Related Features
Counter Name
Feature ID
VS.CE.ULMean.UlGroup
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020101
WRFD-171212
WRFD-190103
WRFD-190210
WRFD-151205
LTE: None
NR: None
Admission Control
Coverage Expansion Under
Interference
Voice Coverage
Improvement by Advanced
Demodulation
4-Way Receive Diversity by
Inter-Band Assistance
Uplink CoMP (Joint
Reception)
VS.CE.ULMin.UlGroup
Multi-mode: None
GSM: None
UMTS: WRFD-020101
WRFD-171212
WRFD-190103
WRFD-190210
WRFD-151205
LTE: None
NR: None
Admission Control
Coverage Expansion Under
Interference
Voice Coverage
Improvement by Advanced
Demodulation
4-Way Receive Diversity by
Inter-Band Assistance
Uplink CoMP (Joint
Reception)
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Counter Name
Feature ID
VS.CE.ULMax.UlGroup
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020101
Admission Control
WRFD-171212
Coverage Expansion Under
Interference
WRFD-190103
Voice Coverage
Improvement by Advanced
Demodulation
WRFD-190210
WRFD-151205
LTE: None
4-Way Receive Diversity by
Inter-Band Assistance
NR: None
Uplink CoMP (Joint
Reception)
1.1.10.1.3 Number of UL CEs in a UL Resource Group Consumed by Coordinating Links
for All Cells
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342635
VS.ULCoMP.C
E.ULMean.UlG
roup
Average
Number of UL
CEs in a UL
Resource Group
Consumed by
Coordinating
Links for All
Cells
BTS3900,
BTS3900
WCDMA,
U
Maximum
Number of UL
CEs in a UL
Resource Group
Consumed by
Coordinating
Links for All
Cells
BTS3900,
BTS3900
WCDMA,
50342636
VS.ULCoMP.C
E.ULMax.UlGr
oup
BTS5900,
BTS5900
WCDMA
U
BTS5900,
BTS5900
WCDMA
Description
This counter provides the average and maximum number of UL CEs in a UL resource group
consumed by all coordinating links.
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Remarks:
A coordinating link is established when Uplink CoMP (Joint Reception), HetNet Uplink
CoMP(Joint Reception), UL CoMP (Joint Reception) based on Coordinated BBU, Coverage
Expansion Under Interference, Uplink Active Set Extension (Coordinating Link Extension
Supported by Seamless Crystal Voice, by SRB over DCH Uplink Coverage Expansion, or by
CCPIC Phase 2),4-Way Receive Diversity by Inter-Band Assistance, or Enhanced InterNodeB Uplink CoMP (Joint Reception) is enabled.
Coordinating link: Link specifically established for UL CoMP (joint reception) users on the
RAN side.
Measurement Points
The number of UL CEs in a UL resource group consumed by coordinating links for all cells is
sampled every 30 seconds. At the end of a measurement period, the average number of UL
CEs in a UL resource group consumed by coordinating links for all cells is obtained by
dividing the accumulated value within the measurement by the number of samples. The
maximum value within the measurement period is the maximum number of UL CEs in a UL
resource group consumed by coordinating links for all cells.
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
VS.ULCoMP.CE.ULMean.
UlGroup
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-151205
WRFD-151206
WRFD-151207
WRFD-171212
WRFD-140202
WRFD-180201
WRFD-170201
WRFD-171212
WRFD-190210
LTE: None
NR: None
Uplink CoMP (Joint
Reception)
HetNet Uplink CoMP (Joint
Reception)
Uplink CoMP (Joint
Reception) Based on
Coordinated BBU
Coverage Expansion Under
Interference
Control Channel Parallel
Interference Cancellation
(Phase 2)
Improved Uplink Coverage
for SRB over DCH
Seamless Crystal Voice
Coverage Expansion Under
Interference
4-Way Receive Diversity by
Inter-Band Assistance
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Counter Name
Feature ID
Feature Name
VS.ULCoMP.CE.ULMax.Ul
Group
Multi-mode: None
GSM: None
UMTS: WRFD-151205
WRFD-151206
WRFD-151207
WRFD-171212
WRFD-140202
WRFD-180201
WRFD-170201
WRFD-171212
WRFD-190210
LTE: None
NR: None
Uplink CoMP (Joint
Reception)
HetNet Uplink CoMP (Joint
Reception)
Uplink CoMP (Joint
Reception) Based on
Coordinated BBU
Coverage Expansion Under
Interference
Control Channel Parallel
Interference Cancellation
(Phase 2)
Improved Uplink Coverage
for SRB over DCH
Seamless Crystal Voice
Coverage Expansion Under
Interference
4-Way Receive Diversity by
Inter-Band Assistance
1.1.11 Measurement of NodeB RF Module Performance
(NODEBRRU)
Overview
The object type consists of counters related to RF modules in a NodeB to indicate the working
performance of each RF module.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
ENERGYSAVING.NODEBRRU
Energy Saving Measurement
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1.1.11.1 Energy Saving Measurement (ENERGYSAVING.NODEBRRU)
Overview
The function subset consists of counters related to energy conservation and emission
reduction for RF units in a NodeB to indicate the effective status of features related to energy
conservation and emission reduction.
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
50332627
VS.EnergySaving.
VAMPAShutdown
Time.NodeBRRU
Duration with RF
Units Enabled with
VAM Power Saving
for NodeB
BTS3900:
V100R012C00
BTS3900 WCDMA:
V100R012C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
Counter Relationship
None
1.1.11.1.1 Duration with RF Units Enabled with VAM Power Saving for NodeB
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332627
VS.EnergySavi
ng.VAMPAShut
downTime.Nod
eBRRU
Duration with
RF Units
Enabled with
VAM Power
Saving for
NodeB
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the effective duration of the VAM Power Saving feature to show
whether the VAM Power Saving feature takes effect.
Measurement Points
The NodeB checks the effective status of the VAM Power Saving feature every 5s. If the
feature is effective, the NodeB increments the effective duration by 5s. Otherwise, the
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effective duration remains unchanged. The system samples the effective duration of the
feature every 5s. The counter is obtained by accumulating the sampled values within a
measurement period.
Formula
None
Unit
s
Related Features
Counter Name
Feature ID
Feature Name
VS.EnergySaving.VAMPAS
hutdownTime.NodeBRRU
Multi-mode: None
GSM: None
UMTS: WRFD-190205
VAM Power Saving
LTE: None
NR: None
1.1.12 Measurement of Service Board Service Performance
(ServiceBoard.Service)
Overview
The Board.Service object type contains function subsets related to the services of each board
in a DU of an eNodeB. It reflects the status of each service on the board.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Traffic.eNodeBServiceBoard
eNodeB Service Board User Quantity
Measurement
(Traffic.eNodeBServiceBoard)
Call Attempt.eNodeBServiceBoard
eNodeB Service Board Call Processing
Measurement (Call
Attempt.eNodeBServiceBoard)
UserPlane.CPU.eNodeBServiceBoard
Board Service User-Plane CPU Usage
Measurement(UserPlane.CPU.eNodeBServi
ceBoard)
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1.1.12.1 eNodeB Service Board User Quantity Measurement
(Traffic.eNodeBServiceBoard)
Overview
The Traffic.eNodeBServiceBoard function subset measures the number of UEs in the uplink
or downlink served by a service board in an eNodeB in a specific scenario. This function
subset is valid only for eNodeB DUs.
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1526749206
VS.User.Ulsync.Ma
x.eNodeBBoard
Maximum number
of UL-sync UEs
served by a BBP in
an eNodeB
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
1526749207
VS.User.Max.eNod
eBBoard
Maximum number
of UEs served by a
BBP in an eNodeB
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
1526749214
VS.SUNPT.DL.Ma
x.eNodeBBoard
Maximum number
of scheduled UEs
per TTI in the
downlink served by
a board in an
eNodeB
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
1526749215
VS.SUNPT.ULDL.
Max.eNodeBBoard
Maximum total
number of scheduled
UEs per TTI in the
uplink and downlink
served by a board in
an eNodeB
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
1526749219
VS.SUNPT.UL.Ma
x.eNodeBBoard
Maximum number
of scheduled UEs
per TTI in the uplink
served by a board in
an eNodeB
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
Counter Relationship
None
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1.1.12.1.1 Maximum Number of UL-Sync UEs Served by a BBP in an eNodeB
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1526749206
VS.User.Ulsync
.Max.eNodeBB
oard
Maximum
number of ULsync UEs
served by a
BBP in an
eNodeB
BTS3900,
BTS3900 LTE
L
Description
The counter measures the maximum number of UL-sync UEs served by a BBP in an eNodeB.
Measurement Points
The number of UL-sync UEs served by a BBP is sampled per second. At the end of a
measurement period, the maximum of these sampling results is taken as the counter value.
The counter value for a main control board is zero.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.User.Ulsync.Max.eNode
BBoard
Multi-mode: None
Feature Name
GSM: None
UMTS: None
LTE: LBFD-002007
TDLBFD-002007
NR: None
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1.1.12.1.2 Maximum Number of UEs Served by a BBP in an eNodeB
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1526749207
VS.User.Max.e
NodeBBoard
Maximum
number of UEs
served by a
BBP in an
eNodeB
BTS3900,
BTS3900 LTE
L
Description
The counter measures the maximum number of UEs served by a BBP in an eNodeB.
Measurement Points
The number of UEs in RRC_CONNECTED mode served by a BBP is sampled per second. At
the end of a measurement period, the maximum of these sampling results is taken as the
counter value.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.User.Max.eNodeBBoard
Multi-mode: None
Feature Name
GSM: None
UMTS: None
LTE: LBFD-002007
TDLBFD-002007
NR: None
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1.1.12.1.3 Maximum Number of Scheduled UEs per TTI in the Downlink Served by a
Baseband Board in an eNodeB
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1526749214
VS.SUNPT.DL.
Max.eNodeBBo
ard
Maximum
number of
scheduled UEs
per TTI in the
downlink
served by a
board in an
eNodeB
BTS3900,
BTS3900 LTE
L
Description
The counter measures the maximum number of scheduled UEs per TTI (SUNPT) in the
downlink served by a baseband board. A baseband board refers to a board capable of
baseband processing, for example baseband processing unit (BBP) or media distribution unit
(MDU).
Measurement Points
The counter is measured based on the number of scheduled UEs in a sample period. The
number of scheduled UEs within a TTI in the downlink in all cells (or all logical cells in SFN
scenarios) served by a board is sampled at the end of each TTI. If a cell successfully allocates
air interface resources (CCEs or PRBs) for a UE, the UE is scheduled. At the end of a
measurement period, the maximum of these sampling results is taken as the counter value.
This counter measures the maximum number of scheduled UEs per TTI in the downlink
served by a baseband board. The counter value for a main control board is zero.
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
VS.SUNPT.DL.Max.eNode
BBoard
Multi-mode: None
Feature Name
GSM: None
UMTS: None
LTE: LBFD-002025
Basic Scheduling
NR: None
1.1.12.1.4 Maximum Total Number of Scheduled UEs per TTI in the Uplink and
Downlink Served by a Baseband Board in an eNodeB
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1526749215
VS.SUNPT.UL
DL.Max.eNode
BBoard
Maximum total
number of
scheduled UEs
per TTI in the
uplink and
downlink
served by a
board in an
eNodeB
BTS3900,
BTS3900 LTE
L
Description
The counter measures the maximum total number of scheduled UEs per TTI (SUNPT) in the
uplink and downlink served by a baseband board. A baseband board refers to a board capable
of baseband processing, for example baseband processing unit (BBP) or media distribution
unit (MDU).
Measurement Points
The counter is measured based on the number of scheduled UEs in a sample period. The total
number of scheduled UEs within a TTI in the uplink and downlink in all cells (or all logical
cells in SFN scenarios) served by a board is sampled at the end of each TTI. If a cell
successfully allocates air interface resources (CCEs or PRBs) for a UE, the UE is scheduled.
At the end of a measurement period, the maximum of these sampling results is taken as the
counter value. This counter measures the maximum total number of scheduled UEs per TTI in
the uplink and downlink served by a baseband board. In SFN scenarios, this counter measures
the maximum number of scheduled UEs per TTI in the downlink served by a baseband board.
The counter value for a main control board is zero.
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Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.SUNPT.ULDL.Max.eNo
deBBoard
Multi-mode: None
Feature Name
GSM: None
UMTS: None
LTE: LBFD-002025
Basic Scheduling
NR: None
1.1.12.1.5 Maximum Number of Scheduled UEs per TTI in the Uplink Served by a
Baseband Board in an eNodeB
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1526749219
VS.SUNPT.UL.
Max.eNodeBBo
ard
Maximum
number of
scheduled UEs
per TTI in the
uplink served
by a board in an
eNodeB
BTS3900,
BTS3900 LTE
L
Description
The counter measures the maximum number of scheduled UEs per TTI (SUNPT) in the
uplink served by a baseband board. A baseband board refers to a board capable of baseband
processing, for example baseband processing unit (BBP) or MDU.
Measurement Points
The counter is measured based on the number of scheduled UEs in a sample period.The
number of scheduled UEs within a TTI in the uplink in all cells(or all logical cells in SFN
scenarios) served by a board is sampled at the end of each TTI.If a cell successfully allocates
air interface resources(CCEs or PRBs) for a UE, the UE is scheduled. At the end of a
measurement period, the maximum of these sampling results is taken as the counter
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value.This counter measures the maximum number of scheduled UEs per TTI in the uplink
served by a baseband board. The counter value of a main control board is zero.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
Feature Name
VS.SUNPT.UL.Max.eNode
BBoard
Multi-mode: None
GSM: None
UMTS: None
LTE: LBFD-002025
Basic Scheduling
NR: None
1.1.12.2 eNodeB Service Board Call Processing Measurement (Call
Attempt.eNodeBServiceBoard)
Overview
The Call Attempt.eNodeBServiceBoard function subset measures the number of call
processing times in a board. The number of call processing times in an eNodeB reflects the
traffic volume of signaling messages processed by the eNodeB. In an eNodeB, all boards are
involved the processing of signaling messages generated during calls. Therefore, the number
of call processing times in a board represents the traffic volume of signaling messages
processed by the board. This function subset is valid only for eNodeB DUs.
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1526749208
VS.CallAttempt.eN
odeBBoard
Number of call
processing times in a
board in an eNodeB
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
1526749209
VS.CallAttempt.M
ax.eNodeBBoard
Maximum number
of call processing
times in a board in
an eNodeB
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1526749210
VS.CallAttempt.Cu
mulativeHighloadCount.eNodeBBoar
d
Number of times the
number of the call
processing times in a
board in an eNodeB
is greater than a
specified threshold
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
1526749211
VS.CallAttemptNB
IoT.eNodeBBoard
Number of NB-IoT
call processing times
in a board in an
eNodeB
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
1526749212
VS.CallAttempt.M
axNBIoT.eNodeBB
oard
Maximum number
of NB-IoT call
processing times in a
board in an eNodeB
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
1526749213
VS.Caps.MAX.eNo
deBBoard
Maximum CAPS in
a board in an
eNodeB
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
Counter Relationship
None
1.1.12.2.1 Number of Call Processing Times in a Board in an eNodeB
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1526749208
VS.CallAttempt
.eNodeBBoard
Number of call
processing
times in a board
in an eNodeB
BTS3900,
BTS3900 LTE
L
1526749209
VS.CallAttempt
.Max.eNodeBB
oard
Maximum
number of call
processing
times in a board
in an eNodeB
BTS3900,
BTS3900 LTE
L
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1526749210
VS.CallAttempt
.CumulativeHig
hloadCount.eN
odeBBoard
Number of
times the
number of the
call processing
times in a board
in an eNodeB is
greater than a
specified
threshold
BTS3900,
BTS3900 LTE
L
1526749211
VS.CallAttempt
NBIoT.eNodeB
Board
Number of NBIoT call
processing
times in a board
in an eNodeB
BTS3900,
BTS3900 LTE
L-NB-IoT
1526749212
VS.CallAttempt
.MaxNBIoT.eN
odeBBoard
Maximum
number of NBIoT call
processing
times in a board
in an eNodeB
BTS3900,
BTS3900 LTE
L-NB-IoT
1526749213
VS.Caps.MAX.
eNodeBBoard
Maximum
CAPS in a
board in an
eNodeB
BTS3900,
BTS3900 LTE
L
Description
The counters measure the number of call processing times in a board, which reflects the
traffic volume of signaling messages processed by a board in an eNodeB.
The number of call processing times in a board and the busy hour call attempts (BHCA)
specification of the board can be used to determine the load status of the board.
The overall procedure from UE access to UE release is a call, which generates various
signaling procedures. The combination of these signaling procedures is named call traffic
model. The processing resource occupied by a call is related to the call traffic model.
The MBB BHCA and NB-IoT BHCA specifications of different boards vary with the
Huawei-typical MBB and NB-IoT call traffic models. However, the call traffic model on live
networks is not exactly the same as the Huawei-typical one. The number of call processing
times is calculated based on the conversion of the live-network call traffic model to the
Huawei-typical call traffic model. The conversion is based on the occupied CPU resources in
the two call traffic models. For details about the Huawei-typical call traffic model and the
BHCA specifications, see 3900 Series Base Station Product Documentation > 3900 Series
Base Station Technical Description > Product Specifications > Technical Specifications of the
BBU3900s and BBU3910s > Technical Specifications of the eNodeB FDD and Technical
Specifications of the eNodeB (NB-IoT).
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For example, the CPU usage for one call processing based on the typical call traffic model in
a board is A and the CPU usage for one call processing based on the live-network call traffic
model on the board is B. The equivalent number of call processing times of the board is B/A.
In the live network, the actual call traffic model varies with the time. The eNodeB calculates
and updates the live-network call traffic model per five minutes.
The signaling flows involved in the counter(s) comply with sections 19.2.2.3 and 19.2.2.4 in
3GPP TS 36.300 V10.6.0.
Measurement Points
when an eNodeB receives an INITIAL CONTEXT SETUP REQUEST message from an
MME for an MBB call or NB-IoT UP (user plane CIoT EPS optimization) call, the equivalent
number of times that the call is processed on the main control board or BBP is collected in the
method described in the description. The equivalent numbers are accumulated and the
accumulated value is taken as the VS.CallAttempt.eNodeBBoard or
VS.CallAttemptNBIoT.eNodeBBoard counter value.
when an eNodeB receives an RRCConnectionSetupComplete-NB message for an NB-IoT CP
(control plane CIoT EPS optimization) call or an NB-IoT UP resume call, the equivalent
number of times that the call is processed on the main control board or BBP is collected in the
method described in the description. The equivalent numbers are accumulated and the
accumulated value is taken as the VS.CallAttemptNBIoT.eNodeBBoard counter value.
In addition, the accumulated equivalent number of MBB call processing times (that is, B/A)
within every second in a board is sampled. At the end of a measurement period, the maximum
sampling result is taken as the VS.CallAttempt.Max.eNodeBBoard counter value for the
board. The accumulated equivalent number of NB-IoT call processing times (that is, B/A)
within every second in a board is sampled. At the end of a measurement period, the maximum
sampling result is taken as the VS.CallAttempt.MaxNBIoT.eNodeBBoard counter value for
the board. For example, within a measurement period, the sampling results are X1, X2,
X3, ..., Xn. Then, the VS.CallAttempt.MaxNBIoT.eNodeBBoard counter value is equal to
MAX(Xi).
The accumulated equivalent number of MBB call processing times (that is, B/A) within every
second in a board is sampled. The VS.CallAttempt.CumulativeHighloadCount.eNodeBBoard
counter is incremented by 1 each time the result of B/A is greater than the MBB BHCA of the
board per second.
The CAPS in a specific board is sampled per second. At the end of a measurement period, the
maximum of the sampling results is taken as the VS.Caps.MAX.eNodeBBoard counter value
for the specific board.
Formula
None
Unit
None
Related Features
None
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1.1.12.3 Board Service User-Plane CPU Usage Measurement
(UserPlane.CPU.eNodeBServiceBoard)
Overview
The UserPlane.CPU.eNodeBServiceBoard function subset measures the user-plane CPU
usage of a service board in an eNodeB. This function subset is valid only for eNodeB DUs.
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1526749216
VS.UPlane.CPULo
ad.AVG.eNodeBBo
ard
Average user-plane
CPU usage of a
board
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
1526749217
VS.UPlane.CPULo
ad.eNodeBMAX
Maximum userplane CPU usage of
a board
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
1526749218
VS.UPlane.CPULo
ad.CumulativeHigh
loadCount.eNodeB
Board
Number of times the
user-plane CPU
usage of a board is
greater than the
preset threshold
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
Counter Relationship
None
1.1.12.3.1 Average User-Plane CPU Usage of a Board
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1526749216
VS.UPlane.CP
ULoad.AVG.eN
odeBBoard
Average userplane CPU
usage of a
board
BTS3900,
BTS3900 LTE
L
Description
The counters measure the average user-plane CPU usage of a board
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Measurement Points
The maximum user-plane CPU usage of a board is sampled per second. The average of the
sampling results for each five consecutive seconds is used as the calculation value. At the end
of a measurement period, the average and maximum of these calculation values are used as
the values of the corresponding counters.
Formula
None
Unit
None
Related Features
None
1.1.12.3.2 Maximum User-Plane CPU Usage of a Board
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1526749217
VS.UPlane.CP
ULoad.eNodeB
MAX
Maximum userplane CPU
usage of a
board
BTS3900,
BTS3900 LTE
L
Description
The counters measure the maximum user-plane CPU usage of a board
Measurement Points
The maximum user-plane CPU usage of a board is sampled per second. The average of the
sampling results for each five consecutive seconds is used as the calculation value. At the end
of a measurement period, the average and maximum of these calculation values are used as
the values of the corresponding counters.
Formula
None
Unit
None
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Related Features
None
1.1.12.3.3 Number of Times the User-Plane CPU Usage of a Board Is Greater Than the
Preset Threshold.
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1526749218
VS.UPlane.CP
ULoad.Cumulat
iveHighloadCo
unt.eNodeBBoa
rd
Number of
times the userplane CPU
usage of a
board is greater
than the preset
threshold
BTS3900,
BTS3900 LTE
L
Description
The counter measures the number of times the user-plane CPU usage of a board is greater
than the preset threshold.
Measurement Points
The maximum user-plane CPU usage of a board is sampled per second. The average of the
sampling results for each five consecutive seconds is used as the calculation value. At the end
of a measurement period, the number of calculation values that are greater than 85% is used
as the value of the VS.UPlane.CPULoad.CumulativeHighloadCount.eNodeBBoard counter.
Formula
None
Unit
None
Related Features
None
1.1.13 Measurement of gNodeB Board Performance (NRBoard)
Overview
The NRBoard object type contains function subsets related to the services of each board in the
gNodeB. It reflects the status of the services at the board level.
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FunctionSubSets
FunctionSubSet
FunctionSubSet Name
UserPlane.CPU.NRBoard
gNodeB Board User-Plane CPU
Measurement(UserPlane.CPU.NRBoard)
Traffic.NRBoard
gNodeB Board User Count
Measurement(Traffic.NRBoard)
1.1.13.1 gNodeB Board User-Plane CPU Measurement (UserPlane.CPU.NRBoard)
Overview
The gNodeB Board User-Plane CPU Measurement (UserPlane.CPU.NRBoard) function
subset measures the user-plane CPU usage of a gNodeB board.
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1911816892
VS.NRBoard.UPla
ne.CPULoad.Avg
VS.NRBoard.UPlan
e.CPULoad.Avg
BTS5900 5G:
V100R015C00
BTS5900:
V100R015C00
BTS3900:
V100R015C00
1911816893
VS.NRBoard.UPla
ne.CPULoad.Max
VS.NRBoard.UPlan
e.CPULoad.Max
BTS5900 5G:
V100R015C00
BTS5900:
V100R015C00
BTS3900:
V100R015C00
1911816894
VS.NRBoard.UPla
ne.CumulativeHigh
loadCount
VS.NRBoard.UPlan
e.CumulativeHighlo
adCount
BTS5900 5G:
V100R015C00
BTS5900:
V100R015C00
BTS3900:
V100R015C00
Counter Relationship
None
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1.1.13.1.1 Average user-plane CPU usage of a board in a gNodeB
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1911816892
VS.NRBoard.U
Plane.CPULoad
.Avg
VS.NRBoard.U
Plane.CPULoad
.Avg
BTS3900,
BTS5900,
N
VS.NRBoard.U
Plane.CPULoad
.Max
VS.NRBoard.U
Plane.CPULoad
.Max
BTS3900,
BTS5900,
1911816893
BTS5900 5G
N
BTS5900 5G
Description
These counters measure the maximum and average user-plane CPU usage of a board in a
gNodeB.
Measurement Points
The maximum user-plane CPU usage of a board in a gNodeB is sampled per second. The
average value of the sampled values is calculated every 5 seconds. At the end of a
measurement period, the average of the calculated values and the maximum of the sampling
results are used as the values of the corresponding counters. This counter applies only to
baseband processing boards. For main control boards, the values of these counters are
displayed as zero.
Formula
None
Unit
%
Related Features
None
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1.1.13.1.2 Number of times that the user-plane CPU usage of a board in a gNodeB is
greater than a preset threshold
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1911816894
VS.NRBoard.U
Plane.Cumulati
veHighloadCou
nt
VS.NRBoard.U
Plane.Cumulati
veHighloadCou
nt
BTS3900,
BTS5900,
N
BTS5900 5G
Description
This counter measures the number of times the user-plane CPU usage of a board in a gNodeB
is greater than a preset threshold.
Measurement Points
The maximum user-plane CPU usage of a board in a gNodeB is sampled per second. The
average of the sampling results for each five consecutive seconds is calculated, and the
calculated value is compared with the preset threshold, which equals 85%. Each time a
calculated value is greater than the preset threshold, this counter is incremented by 1. This
counter applies only to baseband processing boards. For main control boards, the value of this
counter is displayed as zero.
Formula
None
Unit
None
Related Features
None
1.1.13.2 gNodeB Board User Count Measurement (Traffic.NRBoard)
Overview
The gNodeB Board User Count Measurement (Traffic.NRBoard) function subset measures
the number of users served by gNodeB boards in different scenarios.
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Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1911816895
VS.NRBoard.User.
Max
Maximum number
of UEs supported by
a baseband
processing board
BTS5900 5G:
V100R015C00
BTS5900:
V100R015C00
BTS3900:
V100R015C00
Counter Relationship
None
1.1.13.2.1 Maximum Number of UEs Supported by a Baseband Processing Board
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1911816895
VS.NRBoard.U
ser.Max
Maximum
number of UEs
supported by a
baseband
processing
board
BTS3900,
BTS5900,
N
BTS5900 5G
Description
These counters measure the maximum number of RRC_CONNECTED UEs on a baseband
processing board.
Measurement Points
The number of UEs in RRC_CONNECTED mode of a single baseband processing board is
sampled per second. At the end of a measurement period, the maximum of these sampling
results is used as the value of the counter. For DC users, one user is counted for each of the
master base station and the secondary base station.
Formula
None
Unit
None
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Related Features
None
1.2 Transport-related Measurement
1.2.1 Measurement of Ethernet Port Performance (ETHPORT)
Overview
The object type FEGE Measurement contains the function subset related to the Ethernet port.
It represents the throughput of services and communication quality of the Ethernet port on the
transmission board in the base station.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Physical.FEGE
Ethernet Port Measurement
1.2.1.1 Ethernet Port Measurement (Physical.FEGE)
Overview
The ETHPORT function subset measures the traffic at the data link layer on an Ethernet port,
helping users to plan network. Figure 1-1 shows the position of the Ethernet port in the
TCP/IP model.
Figure 1-1
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Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455297
VS.FEGE.TxBytes
Number of bytes in
the packets
successfully
transmitted on the
Ethernet port
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455298
VS.FEGE.TxPacke
ts
Number of packets
successfully
transmitted on the
Ethernet port
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455299
VS.FEGE.RxBytes
Number of bytes in
the packets
successfully
received on the
Ethernet port
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455300
VS.FEGE.RxPacke
ts
Number of packets
successfully
received on the
Ethernet port
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455301
VS.FEGE.RxErrPa
ckets
Number of error
packets received on
the Ethernet port
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455302
VS.FEGE.TxMaxS
peed
Maximum transmit
rate on the Ethernet
port
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455303
VS.FEGE.TxMinS
peed
Minimum transmit
rate on the Ethernet
port
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455304
VS.FEGE.TxMean
Speed
Average transmit
rate on the Ethernet
port
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455305
VS.FEGE.RxMaxS
peed
Maximum receive
rate on the Ethernet
port
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455306
VS.FEGE.RxMinS
peed
Minimum receive
rate on the Ethernet
port
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455307
VS.FEGE.RxMean
Speed
Average receive rate
on the Ethernet port
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460296
VS.FEGE.TxTotal
BW
Total transmit
bandwidth on the
Ethernet port
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460297
VS.FEGE.RxTotal
BW
Total receive
bandwidth on the
Ethernet port
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
1.2.1.1.1 Number of Bytes on the Ethernet Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455297
VS.FEGE.TxB
ytes
Number of
bytes in the
packets
successfully
transmitted on
the Ethernet
port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455299
VS.FEGE.RxB
ytes
Number of
bytes in the
packets
successfully
received on the
Ethernet port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters provide the number of bytes in the packets successfully transmitted and the
number of bytes in the packets successfully received on an Ethernet port within a
measurement period, respectively. They reflect the traffic on the Ethernet port. The counter
value includes the number of bytes in the MAC header, VLAN flag, payload, and CRC field
that is at the end of a packet, as shown in Figure 1-2.
Figure 1-2
Measurement Points
The number of bytes in the packets successfully transmitted or successfully received on the
Ethernet port is sampled per second. At the end of a measurement period, the sum of these
sampling results is used as the value of the corresponding counter.
Formula
None
Unit
byte
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Related Features
Counter Name
Feature ID
VS.FEGE.TxBytes
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
VS.FEGE.RxBytes
Multi-mode: None
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.1.1.2 Number of Packets on the Ethernet Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455298
VS.FEGE.TxPa
ckets
Number of
packets
successfully
transmitted on
the Ethernet
port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455300
VS.FEGE.RxPa
ckets
Number of
packets
successfully
received on the
Ethernet port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455301
VS.FEGE.RxEr
rPackets
Number of
error packets
received on the
Ethernet port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters provide the number of transmitted packets, received packets, or error packets
on an Ethernet port within a measurement period. They reflect the traffic on and the
transmission quality of the Ethernet port. The FEGE.RxErrPackets counter provides the
number of error packets received on physical links and failed in CRC checks.
Measurement Points
The number of transmitted packets, received packets, or error packets is sampled per second.
At the end of a measurement period, the sum of these sampling results is used as the value of
the corresponding counter.
Formula
None
Unit
packet
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Related Features
Counter Name
Feature ID
VS.FEGE.TxPackets
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
VS.FEGE.RxPackets
UMTS: WRFD-050402
LTE: None
NR: None
IP Transmission
Introduction on Iub
Interface
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
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IP Transmission
Introduction on Abis
Interface
Multi-mode: None
GSM: GBFD-118601
VS.FEGE.RxErrPackets
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
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1.2.1.1.3 Rate on the Ethernet Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455302
VS.FEGE.TxM
axSpeed
Maximum
transmit rate on
the Ethernet
port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455303
VS.FEGE.TxM
inSpeed
Minimum
transmit rate on
the Ethernet
port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455304
VS.FEGE.TxM
eanSpeed
Average
transmit rate on
the Ethernet
port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455305
VS.FEGE.RxM
axSpeed
Maximum
receive rate on
the Ethernet
port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455306
VS.FEGE.RxM
inSpeed
Minimum
receive rate on
the Ethernet
port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455307
VS.FEGE.RxM
eanSpeed
Average receive
rate on the
Ethernet port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
The counters measure the transmit rate and the receive rate on the Ethernet port within a
measurement period. They indicate the traffic on the Ethernet port at the data link layer.
Measurement Points
The transmit rate or the receive rate on the Ethernet port is sampled every second. At the end
of a measurement period, the maximum, minimum, or average of these sampling results is
used as the value of the corresponding counter. The system samples the received or
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transmitted bytes over the FEGE Ethernet port periodically. At the end of a measurement
period, the system divides the maximum values by the sampling period to obtain the
maximum receive rate or transmit rate; the system divides the minimum values by the
sampling period to obtain the minimum receive rate or transmit rate; the system divides the
average value of the measurement period by the measurement period to obtain the average
rate of this measurement period.
Formula
None
Unit
bit/s
Related Features
Counter Name
Feature ID
VS.FEGE.TxMaxSpeed
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
VS.FEGE.TxMinSpeed
UMTS: WRFD-050402
LTE: None
NR: None
IP Transmission
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Interface
IP Transmission
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Interface
IP Transmission
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Interface
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
Issue Draft C (2019-04-10)
IP Transmission
Introduction on Abis
Interface
Multi-mode: None
GSM: GBFD-118601
VS.FEGE.TxMeanSpeed
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
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Counter Name
Feature ID
VS.FEGE.RxMaxSpeed
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
VS.FEGE.RxMinSpeed
UMTS: WRFD-050402
LTE: None
NR: None
IP Transmission
Introduction on Iub
Interface
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
Issue Draft C (2019-04-10)
IP Transmission
Introduction on Abis
Interface
Multi-mode: None
GSM: GBFD-118601
VS.FEGE.RxMeanSpeed
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IP Transmission
Introduction on Abis
Interface
IP Transmission
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Interface
280
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1.2.1.1.4 Available Bandwidth on the Ethernet Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460296
VS.FEGE.TxTo
talBW
Total transmit
bandwidth on
the Ethernet
port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542460297
VS.FEGE.RxTo
talBW
Total receive
bandwidth on
the Ethernet
port
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters provide the total transmit and receive bandwidths of an Ethernet port in the
current measurement period, reflecting the bandwidth of the Ethernet port.
The total bandwidth of a port is indicated by its available bandwidth. The available transmit
bandwidth is determined as follows:
1. If an Ethernet port is not activated, its available bandwidth is 0.
2. If an Ethernet port is activated and the rate limitation function is not configured for the port,
the available bandwidth is indicated by the actual rate of the port.
3. If an Ethernet port is activated and the rate limitation function is configured for the port, the
available bandwidth is the minimum value between the actual rate of the port and the uplink
committed information rate for rate limitation.
The available receive bandwidth is determined as follows:
1. If an Ethernet port is not activated, its available bandwidth is 0.
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2. If an Ethernet port is activated and the rate limitation function is not configured for the port,
the available bandwidth is indicated by the actual rate of the port.
3. If an Ethernet port is activated and the rate limitation function is configured for the port, the
available bandwidth is the minimum value between the actual rate of the port and the
downlink committed information rate for rate limitation.
Measurement Points
Available bandwidth in the transmit and receive directions on the Ethernet port per second. At
the end of a measurement period, the average of these sampling results is used as the value of
the corresponding counter.
Formula
None
Unit
kbit/s
Related Features
Counter Name
Feature ID
VS.FEGE.TxTotalBW
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
VS.FEGE.RxTotalBW
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
Issue Draft C (2019-04-10)
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
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1.2.2 Measurement of E1/T1 Port Performance (E1T1)
Overview
The object type E1T1 Measurement contains the function subset related to E1/T1 ports. It
represents the communication quality of the E1/T1 port on the transmission board in the base
station.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Physical.E1T1
E1/T1 Port Measurement
1.2.2.1 E1/T1 Port Measurement (Physical.E1T1)
Overview
The E1T1 function subset helps analyze the transmission quality of the system and ensure the
stable and reliable running of the system. When signal loss occurs over an E1/T1 port, E1/T1
measurement over this port is invalid. Figure 1-3 shows the position of the E1/T1 port in the
TCP/IP model.
Figure 1-3
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Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455312
VS.E1T1.CodeViol
ate
Number of Code
Type Errors on the
E1/T1 Electrical
Port
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455313
VS.E1T1.Framing
Error
Number of Base
Frame Alignment
Errors on the E1/T1
Electrical Port
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455314
VS.E1T1.CrcError
Number of CRC
Errors on the E1/T1
Electrical Port
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455315
VS.E1T1.EbitErro
r
Number of Ebit
Errors on the E1/T1
Port
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455316
VS.E1T1.Sa6Error
Number of Sa6
Errors on the E1/T1
Port
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455320
VS.E1T1.Multifra
me
Number of
multiframe cycles at
the E1/T1 port
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455321
VS.E1T1.FrameAli
gnChanged
Number of Times
that Frames Are Not
Aligned
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455866
VS.E1T1.ES.TES
Total Errored
Seconds in the TX
Direction
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455867
VS.E1T1.ES.TSES
Total Severely
Errored Seconds in
the TX Direction
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455868
VS.E1T1.ES.TUAS
Total Unavailable
Seconds in the TX
Direction
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455869
VS.E1T1.ES.RES
Total Errored
Seconds in the RX
Direction
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455870
VS.E1T1.ES.RSES
Total Severely
Errored Seconds in
the RX Direction
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455871
VS.E1T1.ES.RUAS
Total Unavailable
Seconds in the RX
Direction
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
Counter Relationship
None
1.2.2.1.1 Number of Code Type Errors on the E1/T1 Electrical Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455312
VS.E1T1.Code
Violate
Number of
Code Type
Errors on the
E1/T1
Electrical Port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter measures the number of code type errors on the E1/T1 electrical port within a
measurement period. A code type error occurs if the line coding modes at two communicating
E1/T1 electrical ports mismatch.
Measurement Points
The number of code type errors on the E1/T1 electrical port is sampled per second. At the end
of a measurement period, the sum of these sampling results is used as the value of the counter.
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Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.E1T1.CodeViolate
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub
Interface
WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: None
NR: None
1.2.2.1.2 Number of Base Frame Alignment Errors on the E1/T1 Electrical Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455313
VS.E1T1.Frami
ngError
Number of
Base Frame
Alignment
Errors on the
E1/T1
Electrical Port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter measures the number of base frame alignment errors on the E1/T1 electrical port
within a measurement period. A base frame alignment error prohibits the precise location of
frames.
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Measurement Points
The number of base frame alignment errors on the E1/T1 electrical port is sampled per
second. At the end of a measurement period, the sum of these sampling results is used as the
value of the counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.E1T1.FramingError
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub
Interface
WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: None
NR: None
1.2.2.1.3 Number of CRC Errors on the E1/T1 Electrical Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455314
VS.E1T1.CrcEr
ror
Number of
CRC Errors on
the E1/T1
Electrical Port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
If the local end uses the CRC-4 multiframe format but the peer end does not, or if both ends
use the CRC-4 multiframe format, bit errors will occur on the link. This counter measures the
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number of CRC errors on the E1/T1 electrical port when bit errors occur on a link within a
measurement period. This counter is valid only when the CRC multiframe (E1) format or
extended super frame (T1) format is used.
Measurement Points
The number of CRC errors on the E1/T1 electrical port is sampled per second. At the end of a
measurement period, the sum of these sampling results is used as the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.E1T1.CrcError
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub
Interface
WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: None
NR: None
1.2.2.1.4 Number of Ebit Errors on the E1/T1 Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455315
VS.E1T1.EbitE
rror
Number of Ebit
Errors on the
E1/T1 Port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
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Description
This counter measures the number of E1T1 Ebit errors reported by the peer end when it
receives the data from the local end, that is, the number of cyclic redundancy check (CRC)
failures reported by the peer end, within a measurement period. This counter is valid only
when the CRC multiframe (E1) format or extended super frame (T1) format is used.
Measurement Points
The number of Ebit errors on the E1/T1 port is sampled per second. At the end of a
measurement period, the sum of these sampling results is used as the value of the counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.E1T1.EbitError
Multi-mode: None
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub
Interface
WRFD-050402
LTE: None
NR: None
Issue Draft C (2019-04-10)
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IP Transmission
Introduction on Iub
Interface
292
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1 Node Performance Counter Measurement
1.2.2.1.5 Number of Sa6 Errors on the E1/T1 Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455316
VS.E1T1.Sa6Er
ror
Number of Sa6
Errors on the
E1/T1 Port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter measures the number of Sa6 errors on the E1 port within a measurement period.
This counter is relevant only for CRC multiframes (E1 port).
Measurement Points
The measurement is performed per second to count the number of Sa6 errors on the E1 port,
and the sum of these sampling results is calculated as the result of the corresponding counter
at the end of a measurement period.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.E1T1.Sa6Error
Multi-mode: None
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub
Interface
WRFD-050402
LTE: None
NR: None
Issue Draft C (2019-04-10)
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IP Transmission
Introduction on Iub
Interface
293
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.2.1.6 Number of multiframe cycles at the E1/T1 port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455320
VS.E1T1.Multi
frame
Number of
multiframe
cycles at the
E1/T1 port
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter measures the number of multi-frame cycles on the E1/T1 port within a
measurement period. This counter is valid only for CRC multi-frames (E1) or extended superframes (T1).
Measurement Points
The measurement is performed per second to count the number of multiframe cycles on the
E1/T1 electrical port, and the sum of these sampling results is calculated as the result of the
corresponding counter at the end of a measurement period.
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
VS.E1T1.Multiframe
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub
Interface
WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: None
NR: None
1.2.2.1.7 Number of Times that Frames Are Not Aligned
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455321
VS.E1T1.Fram
eAlignChanged
Number of
Times that
Frames Are Not
Aligned
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter measures the number of times that frames are not aligned within a measurement
period. It indicates the multiframe variable. This counter is relevant only for CRC multiframes
(E1) or extended superframes (T1).
Measurement Points
The measurement is performed per second to count the number of times that frames are not
aligned on the E1/T1 electrical port. Every time the multi-frames (E1) or extended superframes (T1) change, the counter increases by one.
Formula
None
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Unit
None
Related Features
Counter Name
Feature ID
VS.E1T1.FrameAlignChang
ed
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub
Interface
WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: None
NR: None
1.2.2.1.8 Total Errored Seconds in the TX Direction
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455866
VS.E1T1.ES.T
ES
Total Errored
Seconds in the
TX Direction
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the total error seconds in the TX direction on an E1/T1 link. It reflects
the quality on the E1/T1 link. A second is considered an error second in the TX direction if an
e-bit error occurs or an RDI alarm is generated in this second.
Measurement Points
This counter is sampled per second in the TX direction. This counter is increased by one each
time a second is considered as an errored second.
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Formula
None
Unit
s
Related Features
Counter Name
Feature ID
VS.E1T1.ES.TES
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub
Interface
WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: None
NR: None
1.2.2.1.9 Total Severely Errored Seconds in the TX Direction
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455867
VS.E1T1.ES.T
SES
Total Severely
Errored
Seconds in the
TX Direction
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the total severely errored seconds (SESs) in the TX direction on an
E1/T1 link. It reflects the quality on the E1/T1 link. A second is considered a severe error bit
second in the TX direction if the e-bit error rate is larger than 30% or an RDI alarm is
generated in this second.
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Measurement Points
This counter is sampled per second in the TX direction. This counter is increased by one each
time a second is considered as a severely errored second.
Formula
None
Unit
s
Related Features
Counter Name
Feature ID
VS.E1T1.ES.TSES
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub
Interface
WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: None
NR: None
1.2.2.1.10 Total Unavailable Seconds in the TX Direction
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455868
VS.E1T1.ES.T
UAS
Total
Unavailable
Seconds in the
TX Direction
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter measures the unavailable seconds in the TX direction on an E1T1 link, that is,
more than 10 consecutive severe errored seconds (SESs).
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Measurement Points
This counter is sampled per second in the TX direction.
Formula
None
Unit
s
Related Features
Counter Name
Feature ID
VS.E1T1.ES.TUAS
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub
Interface
WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: None
NR: None
1.2.2.1.11 Total Errored Seconds in the RX Direction
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455869
VS.E1T1.ES.R
ES
Total Errored
Seconds in the
RX Direction
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the total errored seconds in the RX direction on an E1/T1 link. It
reflects the quality on the E1/T1 link. A second is considered an error second in the RX
direction if an error occurs or an LOS/AIS/LOF alarm is generated in this second.
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Measurement Points
This counter is sampled per second in the RX direction. This counter is increased by one each
time a second is considered as an errored second.
Formula
None
Unit
s
Related Features
Counter Name
Feature ID
VS.E1T1.ES.RES
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub
Interface
WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: None
NR: None
1.2.2.1.12 Total Severely Errored Seconds in the RX Direction
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455870
VS.E1T1.ES.R
SES
Total Severely
Errored
Seconds in the
RX Direction
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter provides the total severely errored seconds (SESs) in the RX direction on an
E1/T1 link. It reflects the quality on the E1/T1 link. A second is considered a severe error bit
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second in the RX direction if the bit error rate is larger than 30% or an LOS/AIS/LOF alarm is
generated in this second.
Measurement Points
This counter is sampled per second in the RX direction. This counter is increased by one each
time a second is considered as a severely errored second.
Formula
None
Unit
s
Related Features
Counter Name
Feature ID
VS.E1T1.ES.RSES
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub
Interface
WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: None
NR: None
1.2.2.1.13 Total Unavailable Seconds in the RX Direction
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455871
VS.E1T1.ES.R
UAS
Total
Unavailable
Seconds in the
RX Direction
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
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Description
This counter measures the unavailable seconds in the RX direction on an E1T1 link, that is,
more than 10 consecutive severe errored seconds (SESs).
Measurement Points
This counter is sampled per second in the RX direction.
Formula
None
Unit
s
Related Features
Counter Name
Feature ID
Feature Name
VS.E1T1.ES.RUAS
Multi-mode: None
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub
Interface
WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: None
NR: None
1.2.3 Measurement of PPP Link Performance (PPP)
Overview
The object type PPP Measurement contains the PPP link-related function subset. It represents
the traffic volume of services carried by the PPP link of the transmission board in the base
station and the quality of service.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
DataLink.PPP
PPP Link Measurement
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1.2.3.1 PPP Link Measurement (DataLink.PPP)
Overview
The DataLink.PPP function subset measures the number of packets transmitted on the PPP
link of the base station and evaluates the information about the rates, for example, the number
of received packets, the number of transmitted packets, and the rate. It represents the traffic
volume and quality of services carried by the PPP link. Figure 1-4 shows the position of the
PPP link in the TCP/IP model.
Figure 1-4
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455334
VS.PPP.TxPackets
Number of Packets
Successfully
Transmitted on the
PPP Link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455335
VS.PPP.TxBytes
Number of Bytes in
the Packets
Successfully
Transmitted on the
PPP Link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455336
VS.PPP.TxDropPkt
s
Number of Packets
to Be Transmitted
but Discarded on the
PPP Link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455337
VS.PPP.RxPackets
Number of Packets
Successfully
Received on the PPP
Link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455338
VS.PPP.RxBytes
Number of Bytes in
the Packets
Successfully
Received on the PPP
Link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455339
VS.PPP.RxDropPk
ts
Number of Packets
Received but
Discarded on the
PPP Link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455343
VS.PPP.TxMaxSpe
ed
Maximum Transmit
Rate on the PPP
Link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455344
VS.PPP.TxMinSpe
ed
Minimum Transmit
Rate on the PPP
Link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455345
VS.PPP.TxMeanSp
eed
Average Transmit
Rate on the PPP
Link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455346
VS.PPP.RxMaxSpe
ed
Maximum Receive
Rate on the PPP
Link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455347
VS.PPP.RxMinSpe
ed
Minimum Receive
Rate on the PPP
Link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455348
VS.PPP.RxMeanSp
eed
Average Receive
Rate on the PPP
Link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542460298
VS.PPP.TxTotalB
W
Total transmit
bandwidth of the
PPP link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460299
VS.PPP.RxTotalB
W
Total receive
bandwidth of the
PPP link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
Counter Relationship
None
1.2.3.1.1 Number of Packets on the PPP Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455334
VS.PPP.TxPack
ets
Number of
Packets
Successfully
Transmitted on
the PPP Link
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
1542455336
VS.PPP.TxDrop
Pkts
Number of
Packets to Be
Transmitted but
Discarded on
the PPP Link
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455337
VS.PPP.RxPack
ets
Number of
Packets
Successfully
Received on the
PPP Link
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
1542455339
VS.PPP.RxDro
pPkts
Number of
Packets
Received but
Discarded on
the PPP Link
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
The following table describes the meanings of each counter.
Counter Name
Description
VS.PPP.TxPackets
This counter measures the number of
packets successfully transmitted on the PPP
link within a measurement period. It
indicates the traffic on the PPP link.
VS.PPP.TxDropPkts
This counter measures the number of
packets that are to be transmitted but
discarded on the PPP link within a
measurement period. It indicates the traffic
on the PPP link. Packet losses occur in the
following situations: 1. The PPP link is not
stable or activated. 2. The protocol number
of transmitted packets is invalid. For
example, the protocol number is not one of
0x0021, 0x0061, 0x0065, 0x0059, and
0x003d.
VS.PPP.RxPackets
This counter measures the number of
packets successfully received on the PPP
link within a measurement period. It
indicates the traffic on the PPP link.
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Counter Name
Description
VS.PPP.RxDropPkts
This counter measures the number of
packets that are to be received but discarded
on the PPP link within a measurement
period. It indicates the traffic on the PPP
link. Packet losses occur in the following
situations: 1. The PPP link is not stable or
activated. 2. The protocol number of
received packets is invalid. For example, the
protocol number is not one of 0x0021,
0x0061, 0x0065, 0x0059, and 0x003d.
Measurement Points
Number of successfully transmitted packets, packets discarded by the transmit direction,
successfully received packets, and packets discarded by the receive direction on the PPP link
per second. At the end of a measurement period, the sum of these sampling results is used as
the value of the corresponding counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.PPP.TxPackets
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
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Counter Name
Feature ID
VS.PPP.TxDropPkts
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
VS.PPP.RxPackets
Multi-mode: None
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
VS.PPP.RxDropPkts
Multi-mode: None
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
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1.2.3.1.2 Number of Bytes on the PPP Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455335
VS.PPP.TxByte
s
Number of
Bytes in the
Packets
Successfully
Transmitted on
the PPP Link
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
1542455338
VS.PPP.RxByte
s
Number of
Bytes in the
Packets
Successfully
Received on the
PPP Link
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
This counter measures the number of bytes successfully transmitted on the PPP link within a
measurement period. This counter measures the total number of bytes in the address field,
control field, protocol field, and information field in a packet. As shown in Figure 1-5. It
indicates the traffic on the PPP link.
Figure 1-5
Measurement Points
Number of bytes successfully transmitted and received on the PPP link per second. At the end
of a measurement period, the sum of these sampling results is used as the value of the
corresponding counter.
Formula
None
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Unit
byte
Related Features
Counter Name
Feature ID
VS.PPP.TxBytes
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
Compression &
Multiplexing over E1/T1
NR: None
Compression &
Multiplexing over E1/T1
VS.PPP.RxBytes
Multi-mode: None
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
Compression &
Multiplexing over E1/T1
NR: None
Compression &
Multiplexing over E1/T1
1.2.3.1.3 Rate on the PPP Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455343
VS.PPP.TxMax
Speed
Maximum
Transmit Rate
on the PPP Link
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455344
VS.PPP.TxMin
Speed
Minimum
Transmit Rate
on the PPP Link
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
1542455345
VS.PPP.TxMea
nSpeed
Average
Transmit Rate
on the PPP Link
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
1542455346
VS.PPP.RxMax
Speed
Maximum
Receive Rate
on the PPP Link
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
1542455347
VS.PPP.RxMin
Speed
Minimum
Receive Rate
on the PPP Link
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
1542455348
VS.PPP.RxMea
nSpeed
Average
Receive Rate
on the PPP Link
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
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Description
These counters measure the maximum, minimum, and average transmit and receive rates on a
PPP link within a measurement period. They indicate the traffic volume of the PPP link.
Measurement Points
Number of bytes transmitted and received on the PPP link per second. At the end of a
measurement period, the maximum, minimum, and average sampling results are reported.
Formula
None
Unit
bit/s
Related Features
Counter Name
Feature ID
VS.PPP.TxMaxSpeed
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
VS.PPP.TxMinSpeed
Multi-mode: None
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
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Counter Name
Feature ID
VS.PPP.TxMeanSpeed
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
VS.PPP.RxMaxSpeed
Multi-mode: None
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
VS.PPP.RxMinSpeed
Multi-mode: None
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
VS.PPP.RxMeanSpeed
Multi-mode: None
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
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1.2.3.1.4 Total bandwidth of the PPP link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460298
VS.PPP.TxTotal
BW
Total transmit
bandwidth of
the PPP link
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
1542460299
VS.PPP.RxTota
lBW
Total receive
bandwidth of
the PPP link
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
These counters measure the total receive bandwidth and total transmit bandwidth of a PPP
link within a measurement period. They indicate the bandwidth of the PPP link. The total
bandwidth of a PPP link is indicated by its available bandwidth. Both the available transmit
and available receive bandwidths of an inactive PPP link are 0. Both the available transmit
and available receive bandwidths of an active PPP link are calculated by multiplying the
number of timeslots (PPPLNK.TSN) configured for the link by the single-timeslot rate (64
kbit/s).
Measurement Points
Available bandwidth in the transmit and receive directions of the PPP link per second. At the
end of a measurement period, the average of these sampling results is used as the value of the
corresponding counter.
Formula
None
Unit
kbit/s
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Related Features
Counter Name
Feature ID
Feature Name
VS.PPP.TxTotalBW
Multi-mode: None
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
VS.PPP.RxTotalBW
Multi-mode: None
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
1.2.4 Measurement of MP Group Performance (MPGRP)
Overview
The object type MP Group Measurement (MPGRP) contains the function subset related to the
MP group. It represents the traffic volume and service quality of the transmission board in the
base station.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
DataLink.MPGRP
MP Group Measurement
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1.2.4.1 MP Group Measurement (DataLink.MPGRP)
Overview
The MPGRP function subset measures traffic volumes of the services carried by the MPGRP
links and the service quality. Figure 1-6 shows the position of the MP group in the TCP/IP
model.
Figure 1-6
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455349
VS.MP.TxPackets
Number of Packets
Successfully
Transmitted by the
MP Group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455350
VS.MP.TxBytes
Number of Bytes in
the Packets
Successfully
Transmitted by the
MP Group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455351
VS.MP.TxDropPkt
s
Number of Packets
That Are to Be
Transmitted But
Discarded by the
MP Group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455352
VS.MP.RxPackets
Number of Packets
Successfully
Received by the MP
Group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455353
VS.MP.RxBytes
Number of Bytes in
the Packets
Successfully
Received by the MP
Group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455354
VS.MP.RxDropPkt
s
Number of Packets
That Are Received
But Discarded by
the MP Group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455358
VS.MP.TxMaxSpee
d
Maximum Transmit
Rate of the MP
Group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455359
VS.MP.TxMinSpee
d
Minimum Transmit
Rate of the MP
Group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455360
VS.MP.TxMeanSpe
ed
Average Transmit
Rate of the MP
Group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455361
VS.MP.RxMaxSpee
d
Maximum Receive
Rate of the MP
Group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455362
VS.MP.RxMinSpee
d
Minimum Receive
Rate of the MP
Group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455363
VS.MP.RxMeanSp
eed
Average Receive
Rate of the MP
Group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
1542460300
VS.MP.TxTotalBW
Total transmit
bandwidth of the
MP group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460301
VS.MP.RxTotalBW
Total receive
bandwidth of the
MP group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
Counter Relationship
None
1.2.4.1.1 Number of Packets on the MP Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455349
VS.MP.TxPack
ets
Number of
Packets
Successfully
Transmitted by
the MP Group
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
1542455351
VS.MP.TxDrop
Pkts
Number of
Packets That
Are to Be
Transmitted But
Discarded by
the MP Group
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455352
VS.MP.RxPack
ets
Number of
Packets
Successfully
Received by the
MP Group
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
1542455354
VS.MP.RxDrop
Pkts
Number of
Packets That
Are Received
But Discarded
by the MP
Group
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
The following table describes the meanings of each counter.
Counter Name
Description
VS.MP.TxPackets
This counter provides the number of packets
successfully transmitted on an MP group
within a measurement period. It reflects the
traffic and transmission capability on the
MP group.
VS.MP.TxDropPkts
This counter provides the number of packets
that are to be transmitted but discarded on
an MP group when MP links are not
activated within a measurement period. It
reflects the traffic and transmission
capability on the MP group.
VS.MP.RxPackets
This counter provides the number of packets
successfully received on an MP group
within a measurement period. It reflects the
traffic and transmission capability on the
MP group.
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Counter Name
Description
VS.MP.RxDropPkts
This counter provides the number of packets
that are to be received but discarded due to
failed reassembling of disordered packets on
MP links on an MP group within a
measurement period. It reflects the traffic
and transmission capability on the MP
group.
Measurement Points
Number of successfully transmitted packets, packets discarded by the transmit direction,
successfully received packets, and packets discarded by the receive direction by the MP group
is sampled per second. At the end of a measurement period, the average of these sampling
results is used as the value of the counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.MP.TxPackets
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
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Counter Name
Feature ID
VS.MP.TxDropPkts
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
VS.MP.RxPackets
Multi-mode: None
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
VS.MP.RxDropPkts
Multi-mode: None
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
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1.2.4.1.2 Number of Bytes on the MP Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455350
VS.MP.TxBytes
Number of
Bytes in the
Packets
Successfully
Transmitted by
the MP Group
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
1542455353
VS.MP.RxByte
s
Number of
Bytes in the
Packets
Successfully
Received by the
MP Group
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
These counters measure the numbers of bytes successfully transmitted and successfully
received in an MP group within a measurement period. They indicate the traffic volume and
transmission capability of an MP group. The counter value includes the number of bytes in
the MP group header and payload of a packet, as shown in Figure 1-7.
Figure 1-7
Measurement Points
Number of bytes successfully transmitted and received by the MP group is sampled per
second. At the end of a measurement period, the sum of these sampling results is used as the
value of the counter.
Formula
None
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Unit
byte
Related Features
Counter Name
Feature ID
VS.MP.TxBytes
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
Compression &
Multiplexing over E1/T1
NR: None
Compression &
Multiplexing over E1/T1
VS.MP.RxBytes
Multi-mode: None
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
Compression &
Multiplexing over E1/T1
NR: None
Compression &
Multiplexing over E1/T1
1.2.4.1.3 Rate on the MP Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455358
VS.MP.TxMax
Speed
Maximum
Transmit Rate
of the MP
Group
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455359
VS.MP.TxMinS
peed
Minimum
Transmit Rate
of the MP
Group
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
1542455360
VS.MP.TxMean
Speed
Average
Transmit Rate
of the MP
Group
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
1542455361
VS.MP.RxMax
Speed
Maximum
Receive Rate of
the MP Group
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
1542455362
VS.MP.RxMinS
peed
Minimum
Receive Rate of
the MP Group
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
1542455363
VS.MP.RxMea
nSpeed
Average
Receive Rate of
the MP Group
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
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Description
These counters measure the maximum, minimum, and average transmit and receive rates in an
MP group within a measurement period. They indicate the traffic volume of MP links.
Measurement Points
The number of bytes transmitted and received by the MP group is sampled per second. At the
end of a measurement period, the maximum, minimum, and average sampling results are
reported.
Formula
None
Unit
bit/s
Related Features
Counter Name
Feature ID
VS.MP.TxMaxSpeed
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
VS.MP.TxMinSpeed
Multi-mode: None
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
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1 Node Performance Counter Measurement
Counter Name
Feature ID
VS.MP.TxMeanSpeed
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
VS.MP.RxMaxSpeed
Multi-mode: None
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
VS.MP.RxMinSpeed
Multi-mode: None
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
VS.MP.RxMeanSpeed
Multi-mode: None
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
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1.2.4.1.4 Available Bandwidth on the MP Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460300
VS.MP.TxTotal
BW
Total transmit
bandwidth of
the MP group
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
1542460301
VS.MP.RxTotal
BW
Total receive
bandwidth of
the MP group
BTS3900,
BTS3900
WCDMA,
G,U,L
BTS3900 LTE,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE
Description
These counters measure the total receive bandwidth and total transmit bandwidth of an MP
group within a measurement period. They indicate the bandwidth of an MP group. The total
bandwidth of an MP group is indicated by its available bandwidth. The total available
transmit bandwidth is the sum of available transmit bandwidths of all active PPP links in the
MP group. For details, see the meaning of the VS.PPP.TxTotalBW counter. The total available
receive bandwidth is the sum of available receive bandwidths of all active PPP links in the
MP group. For details, see the meaning of the VS.PPP.RxTotalBW counter.
Measurement Points
Available bandwidth in the transmit and receive directions on the MP group per second. At
the end of a measurement period, the average of these sampling results is used as the value of
the corresponding counter.
Formula
None
Unit
kbit/s
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Related Features
Counter Name
Feature ID
Feature Name
VS.MP.TxTotalBW
Multi-mode: None
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
VS.MP.RxTotalBW
Multi-mode: None
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-003004
TDLBFD-003004
NR: None
Compression &
Multiplexing over E1/T1
Compression &
Multiplexing over E1/T1
1.2.5 Measurement of IP Layer Performance (IP)
Overview
The object type IP Measurement contains the function subset related to the IP layer of the
transmission board in the base station. It represents the throughput and quality of services at
the IP layer.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Network.IP
IP Measurement
1.2.5.1 IP Measurement (Network.IP)
Overview
The Network.IP function subset measures the IP packet traffic, such as the number of
successfully transmitted or received IP packets or the number of bytes in the transmitted or
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received IP packets. It represents the traffic volume and quality of services at the IP layer.
Figure 1-8 shows the position of the IP layer in the TCP/IP model.
Figure 1-8
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455326
VS.IP.TxPackets
Number of
successfully
transmitted IP
packets
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455327
VS.IP.TxBytes
Number of bytes in
the successfully
transmitted IP
packets
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455328
VS.IP.TxDropPkts
Number of
discarded IP packets
transmitted
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455329
VS.IP.TxDropBytes
Number of bytes in
the discarded IP
packets transmitted
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455330
VS.IP.RxPackets
Number of
successfully
received IP packets
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455331
VS.IP.RxBytes
Number of bytes in
the successfully
received IP packets
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455332
VS.IP.RxDropPkts
Number of
discarded IP packets
received
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455333
VS.IP.RxDropByte
s
Number of bytes in
the discarded IP
packets received
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
1.2.5.1.1 Number of IP Packets
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455326
VS.IP.TxPacket
s
Number of
successfully
transmitted IP
packets
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455328
VS.IP.TxDropP
kts
Number of
discarded IP
packets
transmitted
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455330
VS.IP.RxPacket
s
Number of
successfully
received IP
packets
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455332
VS.IP.RxDropP
kts
Number of
discarded IP
packets
received
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters indicate the traffic volume of a base station at the network layer and its
processing capability of IP packets within the measurement period.
The following table describes the meanings of each counter.
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Counter Name
Description
VS.IP.TxPackets
This counter measures the number of IP
packets successfully transmitted when the
routing table and ARP table are found
successfully within a measurement period.
It is measured after packets are fragmented.
VS.IP.TxDropPkts
This counter measures the number of
discarded IP packets that fail to be
transmitted by a base station at the network
layer within a measurement period. This
counter is measured in the following cases:
(1) The forward information base (FIB)
table fails to be found. (2) The address of
the FIB table is invalid. (3) The FIB table is
invalid. (4) During the configuration of the
routing load sharing, the configuration is
incorrect or the routing table is invalid. (5)
The packet length exceeds the MTU, and
the IP header has tags indicating that
fragmentation is unavailable. (6) The
bottom-layer forwarding resources are
insufficient, and therefore new packets
cannot be applied for to save the fragmented
packets. Therefore, the packets are
discarded. (7) The TTL update fails.
VS.IP.RxPackets
This counter measures the number of IP
packets received by a base station at the
network layer within a measurement period.
It is measured before the fragmented
packets are reassembled.
VS.IP.RxDropPkts
This counter measures the number of
discarded IP packets that fail to be received
by a base station at the network layer within
a measurement period. This counter is
measured in the following cases: (1) The IP
header is erroneous. (2) The IP checksum is
erroneous. (3) The TTL is 0. (4) The IP
header length is incorrectly filled in.
This counter is measured after the packets
are received but not being processed and
before the fragmented IP packets are
reassembled.
Measurement Points
The numbers of IP packets successfully received, IP packets successfully transmitted,
discarded IP packets received, and discarded IP packets transmitted by a base station are
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sampled every second. At the end of a measurement period, the sum of these sampling results
is used as the value of the corresponding counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.IP.TxPackets
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
VS.IP.TxDropPkts
UMTS: WRFD-050402
LTE: None
NR: None
IP Transmission
Introduction on Iub
Interface
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
Issue Draft C (2019-04-10)
IP Transmission
Introduction on Abis
Interface
Multi-mode: None
GSM: GBFD-118601
VS.IP.RxPackets
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
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Counter Name
Feature ID
VS.IP.RxDropPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.5.1.2 Number of Bytes in the IP Packets
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455327
VS.IP.TxBytes
Number of
bytes in the
successfully
transmitted IP
packets
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455329
VS.IP.TxDropB
ytes
Number of
bytes in the
discarded IP
packets
transmitted
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455331
VS.IP.RxBytes
Number of
bytes in the
successfully
received IP
packets
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455333
VS.IP.RxDropB
ytes
Number of
bytes in the
discarded IP
packets
received
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters indicate the traffic volume of a base station at the network layer and its
processing capability of bytes in the IP packets within the measurement period.
The following table describes the meanings of each counter.
Counter Name
Description
VS.IP.TxBytes
This counter measures the number of bytes
in the IP packets successfully transmitted by
a base station at the network layer within a
measurement period. The bytes include IP
headers and payloads (also including IPSecrelated payloads such as AH headers and
ESP headers in IPSec scenarios), as shown
in Figure 1-9. If packets need to be
fragmented, this counter is measured after
they are fragmented.
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Counter Name
Description
VS.IP.TxDropBytes
This counter measures the number of bytes
in the discarded IP packets that fail to be
transmitted by a base station at the network
layer within a measurement period. This
counter is measured in the following cases:
(1) The forward information base (FIB)
table fails to be found. (2) The address of
the FIB table is invalid. (3) The FIB table is
invalid. (4) During the configuration of the
routing load sharing, the configuration is
incorrect or the routing table is invalid. (5)
The packet length exceeds the MTU, and
the IP header has tags indicating that
fragmentation is unavailable. (6) The
bottom-layer forwarding resources are
insufficient, and therefore new packets
cannot be applied for to save the fragmented
packets. Therefore, the packets are
discarded. (7) The TTL update fails.
VS.IP.RxBytes
This counter measures the number of bytes
in the IP packets received by a base station
at the network layer within a measurement
period. The bytes include IP headers and
payloads (also including IPSec-related
payloads such as AH headers and ESP
headers in IPSec scenarios), as shown in
Figure 1-9. If the packets need to be
fragmented, this counter is measured before
the fragmented packets are reassembled.
VS.IP.RxDropBytes
This counter measures the number of bytes
in the discarded IP packets that fail to be
received by a base station at the network
layer within a measurement period. This
counter is measured in the following cases:
(1) The IP header is erroneous. (2) The IP
checksum is erroneous. (3) The TTL is 0.
(4) The IP header length is incorrectly filled
in. This counter is measured after the
packets are received but not being processed
and before the IP reassembly.
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Figure 1-9
Measurement Points
The number of bytes in the successfully transmitted, successfully received, or discarded IP
packets is sampled per second. At the end of a measurement period, the sum of these
sampling results is used as the value of the corresponding counter.
Formula
None
Unit
byte
Related Features
Counter Name
Feature ID
VS.IP.TxBytes
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
VS.IP.TxDropBytes
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
Issue Draft C (2019-04-10)
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
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Counter Name
Feature ID
Feature Name
VS.IP.RxBytes
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
VS.IP.RxDropBytes
IP Transmission
Introduction on Abis
Interface
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.6 Measurement of IPPath Performance (IPPath)
Overview
The object type IP Path Measurement contains the function subset related to the IP path in the
base station. It represents the traffic volume and service qualities of IP paths that are
configured on the transmission board. It represents the traffic volume of the packets that
follow the General Packet Radio Service Tunneling Protocol for User Plane (GTP-U). It
provides a fine-grained flow monitoring mechanism, which facilitates the user-data based
QoS management.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Transport.IPPath
IPPath Measurement
1.2.6.1 IPPath Measurement (Transport.IPPath)
Overview
The IP Path function subset provides the measurements on an IP path in the base station. It
measures the traffic volumes of services carried by an IP path and the service quality at a
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smaller granularity, and supports QoS management based on the traffic volumes. Figure 1-10
shows the position of the IP path in the TCP/IP model.
Figure 1-10
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455392
VS.IPPath.TxRtPk
ts
Number of real-time
service packets
successfully
transmitted on the IP
path
BTS3900:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455393
VS.IPPath.TxRtBy
tes
Number of bytes in
the real-time service
packets successfully
transmitted on the IP
path
BTS3900:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455396
VS.IPPath.RxRtPk
ts
Number of real-time
service packets
successfully
received on the IP
path
BTS3900:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455397
VS.IPPath.RxRtBy
tes
Number of bytes in
the real-time service
packets successfully
received on the IP
path
BTS3900:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455400
VS.IPPath.TxNrtP
kts
Number of non-realtime service packets
successfully
transmitted on the IP
path
BTS3900:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455401
VS.IPPath.TxNrtB
ytes
Number of bytes in
the non-real-time
service packets
successfully
transmitted on the IP
path
BTS3900:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455404
VS.IPPath.RxNrtP
kts
Number of non-realtime service packets
successfully
received on the IP
path
BTS3900:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455405
VS.IPPath.RxNrtB
ytes
Number of bytes in
the non-real-time
service packets
successfully
received on the IP
path
BTS3900:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1542455872
VS.IPPath.TxBytes
Number of bytes
successfully
transmitted on the IP
path
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455873
VS.IPPath.RxBytes
Number of bytes
successfully
received on the IP
path
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455874
VS.IPPath.TxPkts
Number of packets
successfully
transmitted on the IP
path
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455875
VS.IPPath.TxDrop
Pkts
Number of
discarded packets
transmitted on the IP
path
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455876
VS.IPPath.RxDrop
Pkts
Number of
discarded packets
received on the IP
path
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455877
VS.IPPath.RxPkts
Number of packets
successfully
received on the IP
path
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455878
VS.IPPath.TxMean
Speed
Average TX rate on
the IP path
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455879
VS.IPPath.TxMax
Speed
Maximum TX rate
on the IP path
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455880
VS.IPPath.RxMea
nSpeed
Average RX rate on
the IP path
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455881
VS.IPPath.RxMax
Speed
Maximum RX rate
on the IP path
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
Counter Relationship
None
1.2.6.1.1 Number of real-time service packets on the IP path
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455392
VS.IPPath.TxRt
Pkts
Number of realtime service
packets
successfully
transmitted on
the IP path
BTS3900,
BTS3900 LTE,
L
Number of realtime service
packets
successfully
received on the
IP path
BTS3900,
BTS3900 LTE,
1542455396
VS.IPPath.RxR
tPkts
BTS5900,
BTS5900 LTE
L
BTS5900,
BTS5900 LTE
Description
These counters measure the numbers of IP packets successfully transmitted and successfully
received on an IP path at the IP layer within a measurement period. They indicate the traffic
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volume of real-time services on one IP path at the IP layer. Real-time services refer to UDPbased streaming media data, such as the voice service, video conversation (real-time data
stream), and real-time game.
The preceding counters are measured when both the following conditions are met:
1. Users have enabled the IP path performance measurement function.
2. Users have configured real-time services.
Measurement Points
The number of real-time service packets transmitted or received on the IP path is sampled per
second. At the end of a measurement period, the sum of these sampling results is used as the
value of the corresponding counter.
Formula
None
Unit
packet
Related Features
None
1.2.6.1.2 Number of bytes of real-time service on the IP Path
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455393
VS.IPPath.TxRt
Bytes
Number of
bytes in the
real-time
service packets
successfully
transmitted on
the IP path
BTS3900,
BTS3900 LTE,
L
Number of
bytes in the
real-time
service packets
successfully
received on the
IP path
BTS3900,
BTS3900 LTE,
1542455397
Issue Draft C (2019-04-10)
VS.IPPath.RxR
tBytes
BTS5900,
BTS5900 LTE
L
BTS5900,
BTS5900 LTE
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Description
These counters measure the numbers of bytes (including the headers and payloads of IP
packets) in the successfully transmitted and successfully received IP packets on the IP path at
the IP layer within a measurement period. Figure 1-11 shows the measurement fields.
In IPSec scenarios, the IPPath.RxRtBytes counter measures the number of bytes in the
decrypted IP packets successfully received after reassembly, and the IPPath.TxRtBytes
counter measures the number of bytes in the IP packets successfully transmitted before
encryption (before fragmentation).
In non-IPSec scenarios, the IPPath.RxRtBytes counter measures the number of bytes in the IP
packets successfully received after reassembly, and the IPPath.TxRtBytes counter measures
the number of bytes in the IP packets successfully transmitted before they are fragmented.
The preceding counters indicate the traffic volume of real-time services on one IP path at the
IP layer. Real-time services refer to UDP-based streaming media data, such as the voice
service, video conversation (real-time data stream), and real-time game.
The preceding counters are measured when both the following conditions are met:
1. Users have enabled the IP path performance measurement function.
2. Users have configured real-time services.
Figure 1-11
Measurement Points
The numbers of bytes (including the headers and payloads of IP packets) in real-time services
successfully transmitted and successfully received on an IP path are sampled every second. At
the end of a measurement period, the sum of these sampling results is used as the value of the
corresponding counter.
Formula
None
Unit
byte
Related Features
None
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1.2.6.1.3 Number of non-real-time service packets on the IP path
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455400
VS.IPPath.TxN
rtPkts
Number of nonreal-time
service packets
successfully
transmitted on
the IP path
BTS3900,
BTS3900 LTE,
L
Number of nonreal-time
service packets
successfully
received on the
IP path
BTS3900,
BTS3900 LTE,
1542455404
VS.IPPath.RxN
rtPkts
BTS5900,
BTS5900 LTE
L
BTS5900,
BTS5900 LTE
Description
These counters measure the numbers of IP packets successfully transmitted and successfully
received on an IP path at the IP layer within a measurement period. They indicate the nonreal-time traffic volume on one IP path at the IP layer. Non-real-time services include the
video on demand (buffered streaming), interactive game, and TCP-based data stream.
The preceding counters are measured when both the following conditions are met:
1. Users have enabled the IP path performance measurement function.
2. Users have configured non-real-time services.
Measurement Points
The number of non-real-time service packets transmitted or received on the IP path is sampled
per second. At the end of a measurement period, the sum of these sampling results is used as
the value of the corresponding counter.
Formula
None
Unit
packet
Related Features
None
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1.2.6.1.4 Number of bytes of non-real-time services on the IP path
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455401
VS.IPPath.TxN
rtBytes
Number of
bytes in the
non-real-time
service packets
successfully
transmitted on
the IP path
BTS3900,
BTS3900 LTE,
L
Number of
bytes in the
non-real-time
service packets
successfully
received on the
IP path
BTS3900,
BTS3900 LTE,
1542455405
VS.IPPath.RxN
rtBytes
BTS5900,
BTS5900 LTE
L
BTS5900,
BTS5900 LTE
Description
These counters measure the numbers of bytes (including the headers and payloads of IP
packets) in the successfully transmitted and successfully received packets on the IP path at the
IP layer within a measurement period. Figure 1-12 shows the measurement fields.
In IPSec scenarios, the IPPath.RxNrtBytes counter measures the number of bytes in the
decrypted IP packets successfully received after reassembly, and the IPPath.TxNrtBytes
counter measures the number of bytes in the IP packets successfully transmitted before
encryption (before fragmentation).
In non-IPSec scenarios, the IPPath.RxNrtBytes counter measures the number of bytes in the
IP packets successfully received after reassembly, and the IPPath.TxNrtBytes counter
measures the number of bytes in the IP packets successfully transmitted before they are
fragmented.
The preceding counters indicate the traffic volume of non-real-time services on one IP path at
the IP layer. Non-real-time services include the video on demand (buffered streaming),
interactive game, and TCP-based data stream.
The preceding counters are measured when both the following conditions are met:
1. Users have enabled the IP path performance measurement function.
2. Users have configured non-real-time services.
Figure 1-12
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Measurement Points
The number of bytes in the non-real-time service packets successfully transmitted or
successfully received on the IP path is sampled per second. At the end of a measurement
period, the sum of these sampling results is used as the value of the corresponding counter.
Formula
None
Unit
byte
Related Features
None
1.2.6.1.5 Number of Bytes on the IP Path
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455872
VS.IPPath.TxB
ytes
Number of
bytes
successfully
transmitted on
the IP path
BTS3900,
BTS3900
WCDMA,
G,U
Number of
bytes
successfully
received on the
IP path
BTS3900,
BTS3900
WCDMA,
1542455873
VS.IPPath.RxB
ytes
BTS5900,
BTS5900
WCDMA
G,U
BTS5900,
BTS5900
WCDMA
Description
These counters measure the numbers of bytes (including the headers and payloads of IP
packets) in the successfully transmitted and successfully received IP packets on the IP path at
the IP layer within a measurement period. Figure 1-13 shows the measurement fields.
The preceding counters indicate the traffic volume and transmission quality of services on one
IP path at the IP layer.
Figure 1-13
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Measurement Points
The number of service bytes successfully transmitted or successfully received on the IP path
is sampled per second. At the end of a measurement period, the sum of these sampling results
is used as the value of the corresponding counter.
Formula
None
Unit
byte
Related Features
Counter Name
Feature ID
VS.IPPath.TxBytes
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
VS.IPPath.RxBytes
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
Issue Draft C (2019-04-10)
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
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1.2.6.1.6 Number of Packets on the IP Path
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455874
VS.IPPath.TxP
kts
Number of
packets
successfully
transmitted on
the IP path
BTS3900,
BTS3900
WCDMA,
G,U
Number of
discarded
packets
transmitted on
the IP path
BTS3900,
BTS3900
WCDMA,
Number of
discarded
packets
received on the
IP path
BTS3900,
BTS3900
WCDMA,
Number of
packets
successfully
received on the
IP path
BTS3900,
BTS3900
WCDMA,
1542455875
1542455876
1542455877
VS.IPPath.TxD
ropPkts
VS.IPPath.RxD
ropPkts
VS.IPPath.RxP
kts
BTS5900,
BTS5900
WCDMA
G,U
BTS5900,
BTS5900
WCDMA
G,U
BTS5900,
BTS5900
WCDMA
G,U
BTS5900,
BTS5900
WCDMA
Description
These counters provide the number of IP packets successfully transmitted, successfully
received, transmitted but discarded or received but discarded on an IP path at the IP layer
within a measurement period, respectively. They reflect the traffic and transmission capability
on the IP path at the IP layer.
Measurement Points
The number of service packets transmitted or received on the IP path is sampled per second.
At the end of a measurement period, the sum of these sampling results is used as the value of
the corresponding counter.
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Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.IPPath.TxPkts
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
VS.IPPath.TxDropPkts
UMTS: WRFD-050402
LTE: None
NR: None
IP Transmission
Introduction on Iub
Interface
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
Issue Draft C (2019-04-10)
IP Transmission
Introduction on Abis
Interface
Multi-mode: None
GSM: GBFD-118601
VS.IPPath.RxDropPkts
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
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Counter Name
Feature ID
VS.IPPath.RxPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.6.1.7 Rate on the IP Path
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455878
VS.IPPath.TxM
eanSpeed
Average TX
rate on the IP
path
BTS3900,
BTS3900
WCDMA,
G,U
BTS5900,
BTS5900
WCDMA
1542455879
VS.IPPath.TxM
axSpeed
Maximum TX
rate on the IP
path
BTS3900,
BTS3900
WCDMA,
G,U
BTS5900,
BTS5900
WCDMA
1542455880
VS.IPPath.RxM
eanSpeed
Average RX
rate on the IP
path
BTS3900,
BTS3900
WCDMA,
G,U
BTS5900,
BTS5900
WCDMA
1542455881
VS.IPPath.RxM
axSpeed
Maximum RX
rate on the IP
path
BTS3900,
BTS3900
WCDMA,
G,U
BTS5900,
BTS5900
WCDMA
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Description
These counters provide the rate of transmitting or receiving packets on the IP path at the IP
layer within a measurement period. They reflect the load on the IP path at the IP layer.
Measurement Points
The number of bytes (including the headers and payloads of IP packets) received or
transmitted on an IP path is sampled every second. At the end of a measurement period, the
sum of these sampling results is used as the value of the corresponding counter. The
maximum transmit rate and receive rate are calculated based on the maximum number of
bytes within a measurement period. The average rate within a measurement period is
calculated based on the average number of bytes.
Formula
None
Unit
bit/s
Related Features
Counter Name
Feature ID
VS.IPPath.TxMeanSpeed
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
VS.IPPath.TxMaxSpeed
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
Issue Draft C (2019-04-10)
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
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Counter Name
Feature ID
Feature Name
VS.IPPath.RxMeanSpeed
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
VS.IPPath.RxMaxSpeed
IP Transmission
Introduction on Abis
Interface
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.7 Measurement of Resource Group Performance (RscGroup)
Overview
The object type Resource Group Measurement contains the function subsets related to
transmission resource groups in a base station. It represents the traffic volume and service
processing capability of transmission resource groups on the transmission boards in the base
station. When Transmission Configuration Mode in the GTRANSPARA MO is set to OLD,
the old model is used. When Transmission Configuration Mode in the GTRANSPARA MO is
set to NEW, the new model is used. In the old model, the RscGroup measurement object
provides valid counter values in ATM and IP transmission modes. In the new model, the
RscGroup measurement object provides only counter values in ATM transmission mode, and
the IPRSCGRP measurement object provides counter values in IP transmission mode.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Transport.RscGroup
Resource Group Measurement
Transport.FLOWCTROL
Flow Control Measurement
Transport.AllocatedBW
Allocated Band Measurement
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1.2.7.1 Resource Group Measurement (Transport.RscGroup)
Overview
The resource group of a base station is a set of data streams. The data streams can be related
to control plane services, user plane services, OM services, IP clock services, or bypass
services (regardless of control plane services or user plane services). The transmission quality
affects the services of the base station. The base station manages bandwidths based on
resource groups. The base station can configure the bandwidth, flow shaping, admission
control, and flow control for the resource group. Multiple resource groups can be configured
on one physical link, the bandwidth of which is shared among these resource groups. Multiple
transport-layer bearers can be configured for one resource group, the configured bandwidth of
which is shared among these bearers. The Transport.RscGroup function subset measures the
number of bytes or packets transmitted by the resource group of the base station. It represents
the service processing capability of the resource group. Figure 1-14 shows the position of the
resource group in the TCP/IP model. The Transport.RscGroup function subset measures only
the data transmitted from a resource group. The counters of function subset
Transport.RscGourp report valid values in IP transmission, and reports zero in ATM
transmission.
Figure 1-14
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Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455365
VS.RscGroup.TxB
ytes
Number of bytes in
the packets
successfully
transmitted by the
resource group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455367
VS.RscGroup.TxP
kts
Number of packets
successfully
transmitted by the
resource group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455369
VS.RscGroup.TxD
ropBytes
Number of bytes in
the packets
discarded by the
resource group due
to transmission
failures
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455371
VS.RscGroup.TxD
ropPkts
Number of packets
discarded by the
resource group due
to transmission
failures
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455375
VS.RscGroup.TxM
axSpeed
Maximum transmit
rate of the resource
group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455376
VS.RscGroup.TxM
inSpeed
Minimum transmit
rate of the resource
group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455377
VS.RscGroup.TxM
eanSpeed
Average transmit
rate of the resource
group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455378
VS.RscGroup.TxFl
owOverloadTime
Congestion duration
of transmit data in
the resource group
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
BTS3900 LTE:
V100R009C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
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1.2.7.1.1 Number of Bytes in the Packets Transmitted by the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455365
VS.RscGroup.T
xBytes
Number of
bytes in the
packets
successfully
transmitted by
the resource
group
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455369
VS.RscGroup.T
xDropBytes
Number of
bytes in the
packets
discarded by
the resource
group due to
transmission
failures
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
The counters measure the number of bytes in the packets transmitted by all the queues of a
resource group at the data link layer within a measurement period and the number of bytes in
the packets discarded due to congestion in the queues within a measurement period. They
represent the transmit traffic on the resource group at the data link layer. If the resource group
is carried on an Ethernet port, the counters measure the MAC headers and payloads in the
packets. If the resource group is carried on a port carrying a PPP link or MP link, the counters
measure the data parts of the PPP frames or MP frames. As shown in Figure 1-15. The
measurement of the counters remains unchanged in packet fragment or IPSec scenarios.
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Figure 1-15
Measurement Points
Number of transmitted bytes and discarded bytes in the resource group per second. At the end
of a measurement period, the sum of these sampling results is used as the value of the
corresponding counter.
Formula
None
Unit
byte
Related Features
Counter Name
Feature ID
VS.RscGroup.TxBytes
Multi-mode: None
Feature Name
GSM: GBFD-118605
IP QOS
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LOFD-003011
TDLOFD-003011
NR: FOFD-010060
Enhanced Transmission QoS
Management
Enhanced Transmission QoS
Management
Transmission Network
Detection and Reliability
Improvement
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Counter Name
Feature ID
VS.RscGroup.TxDropBytes
Multi-mode: None
Feature Name
GSM: GBFD-118605
IP QOS
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LOFD-003011
TDLOFD-003011
Enhanced Transmission QoS
Management
NR: FOFD-010060
Enhanced Transmission QoS
Management
Transmission Network
Detection and Reliability
Improvement
1.2.7.1.2 Number of Packets Transmitted by the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455367
VS.RscGroup.T
xPkts
Number of
packets
successfully
transmitted by
the resource
group
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455371
VS.RscGroup.T
xDropPkts
Number of
packets
discarded by
the resource
group due to
transmission
failures
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
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Description
The counters measure the number of IP packets transmitted by all the queues of a resource
group at the data link layer within a measurement period and the number of packets discarded
due to congestion in the queues within a measurement period. They represent the transmit
traffic on the resource group at the data link layer.
Measurement Points
Number of transmitted and discarded packets in the resource group per second. At the end of
a measurement period, the sum of these sampling results is used as the value of the
corresponding counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.RscGroup.TxPkts
Multi-mode: None
Feature Name
GSM: GBFD-118605
IP QOS
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LOFD-003011
TDLOFD-003011
NR: FOFD-010060
Enhanced Transmission QoS
Management
Enhanced Transmission QoS
Management
Transmission Network
Detection and Reliability
Improvement
VS.RscGroup.TxDropPkts
Multi-mode: None
GSM: GBFD-118605
IP QOS
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LOFD-003011
TDLOFD-003011
NR: FOFD-010060
Enhanced Transmission QoS
Management
Enhanced Transmission QoS
Management
Transmission Network
Detection and Reliability
Improvement
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1.2.7.1.3 Rates of the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455375
VS.RscGroup.T
xMaxSpeed
Maximum
transmit rate of
the resource
group
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455376
VS.RscGroup.T
xMinSpeed
Minimum
transmit rate of
the resource
group
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455377
VS.RscGroup.T
xMeanSpeed
Average
transmit rate of
the resource
group
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters measure the transmit rate of one resource group at the data link layer in a
measurement period. This counter measures the MAC frame headers and net payloads when
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the resource group is carried on an Ethernet port. This counter measures the PPP/MP frames
when the resource group is carried on the PPP/MP link.
Measurement Points
The transmit rate of the resource group is sampled per second. At the end of a measurement
period, the maximum, minimum, or average of these sampling results is used as the value of
the corresponding counter.
Formula
None
Unit
bit/s
Related Features
Counter Name
Feature ID
VS.RscGroup.TxMaxSpeed
Multi-mode: None
Feature Name
GSM: GBFD-118605
IP QOS
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LOFD-003011
TDLOFD-003011
NR: FOFD-010060
Enhanced Transmission QoS
Management
Enhanced Transmission QoS
Management
Transmission Network
Detection and Reliability
Improvement
VS.RscGroup.TxMinSpeed
Multi-mode: None
GSM: GBFD-118605
IP QOS
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LOFD-003011
TDLOFD-003011
NR: FOFD-010060
Enhanced Transmission QoS
Management
Enhanced Transmission QoS
Management
Transmission Network
Detection and Reliability
Improvement
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Counter Name
Feature ID
VS.RscGroup.TxMeanSpee
d
Multi-mode: None
Feature Name
GSM: GBFD-118605
IP QOS
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LOFD-003011
TDLOFD-003011
Enhanced Transmission QoS
Management
NR: FOFD-010060
Enhanced Transmission QoS
Management
Transmission Network
Detection and Reliability
Improvement
1.2.7.1.4 Congestion Duration of Data Transmission in the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455378
VS.RscGroup.T
xFlowOverload
Time
Congestion
duration of
transmit data in
the resource
group
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters measure the data transmit congestion duration of one resource group within a
measurement period, that is, the duration when the data buffered in a resource group exceeds
the product of the available bandwidth of the resource group multiplying the congestion time
threshold of the resource group. It indicates the state of data buffered in one resource group.
Measurement Points
The sampling period of this counter is 1s. During a sampling period, this counter is increased
by one if the data buffered in a transmission resource group exceeds the product of the
available bandwidth of the transmission resource group multiplying the congestion time
threshold of the transmission resource group. During a sampling period, this counter remains
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unchanged if the data buffered in a transmission resource group is less than or equal to the
product of the available bandwidth of the transmission resource group multiplying the
congestion time threshold of the transmission resource group. The value of this counter equals
the sum of all sampling values in a measurement period. A deviation of one sampling period
may exist in the sampling timer when the timer performs time synchronization. As a result, a
deviation of one sampling period will also be generated in the value of the counters.
Formula
None
Unit
s
Related Features
Counter Name
Feature ID
Feature Name
VS.RscGroup.TxFlowOverl
oadTime
Multi-mode: MRFD-121115
Bandwidth sharing of
MBTS Multi-mode CoTransmission (GBTS)
MRFD-121125
MRFD-121135
MRFD-121145
MRFD-151168
GSM: None
UMTS: None
LTE: None
NR: FOFD-010060
Bandwidth sharing of
MBTS Multi-mode CoTransmission (NodeB)
Bandwidth sharing of
MBTS Multi-mode CoTransmission (eNodeB)
Bandwidth sharing of
MBTS Multi-mode CoTransmission (LTE TDD)
Bandwidth sharing of
MBTS Multi-mode CoTransmission (NR)
Transmission Network
Detection and Reliability
Improvement
1.2.7.2 Flow Control Measurement (Transport.FLOWCTROL)
Overview
The Flow control function subset provides resource-group-related flow control counters,
which indicate the flow control of each resource group. The counters of function subset
Transport.FLOWCTROL report valid values in both IP transmission and ATM transmission.
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Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460308
VS.RscGroup.Flow
Ctrol.UL.AdjBW.
Max
Resource group
maximum UL
available bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542460309
VS.RscGroup.Flow
Ctrol.UL.AdjBW.
Min
Resource group
minimum UL
available bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542460310
VS.RscGroup.Flow
Ctrol.UL.AdjBW.A
vg
Resource group
average UL
available bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542460311
VS.RscGroup.Flow
Ctrol.DL.AdjBW.
Max
Resource group
maximum DL
available bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542460312
VS.RscGroup.Flow
Ctrol.DL.AdjBW.
Min
Resource group
minimum DL
available bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460313
VS.RscGroup.Flow
Ctrol.DL.AdjBW.A
vg
Resource group
average DL
available bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542460314
VS.RscGroup.Flow
Ctrol.UL.UpBW.N
um
Resource group
available UL
bandwidth increase
times
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542460315
VS.RscGroup.Flow
Ctrol.DL.Delay.Up
BW.Num
Resource group DL
available bandwidth
increase times after
jitter congestion
released
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542460316
VS.RscGroup.Flow
Ctrol.DL.Drop.Up
BW.Num
Resource group DL
available bandwidth
increase times after
packet loss
congestion released
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542460317
VS.RscGroup.Flow
Ctrol.UL.DelayCon
g.DownBWNum
Resource group
available UL
bandwidth decrease
times for jitter
congestion
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460318
VS.RscGroup.Flow
Ctrol.DL.DelayCon
g.DownBWNum
Resource group DL
available bandwidth
decrease times for
jitter congestion
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542460319
VS.RscGroup.Flow
Ctrol.UL.DropCon
g.DownBWNum
Resource group
available UL
bandwidth decrease
times for packet loss
congestion
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542460320
VS.RscGroup.Flow
Ctrol.DL.DropCon
g.DownBWNum
Resource group DL
available bandwidth
decrease times for
packet loss
congestion
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542460321
VS.RscGroup.Flow
Ctrol.UL.SendNum
Resource group
Number of UL
frames Resource
group sent
successfully
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542460322
VS.RscGroup.Flow
Ctrol.DL.ReceiveN
um
Resource group
Number of DL
frames Resource
group received
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460323
VS.RscGroup.Flow
Ctrol.UL.DropNu
m
Resource group
Number of lost UL
frames
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542460324
VS.RscGroup.Flow
Ctrol.DL.DropNu
m
Resource group
Number of lost DL
frames
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542460325
VS.RscGroup.Flow
Ctrol.UL.DelayVar
a.Max
Resource group
maximum UL delay
jitter
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542460326
VS.RscGroup.Flow
Ctrol.UL.DelayVar
a.Min
Resource group
minimum UL delay
jitter
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542460327
VS.RscGroup.Flow
Ctrol.UL.DelayVar
a.Avg
Resource group
average UL delay
jitter
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460328
VS.RscGroup.Flow
Ctrol.DL.DelayVar
a.Max
Resource group
maximum DL delay
jitter
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542460329
VS.RscGroup.Flow
Ctrol.DL.DelayVar
a.Min
Resource group
minimum DL delay
jitter
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542460330
VS.RscGroup.Flow
Ctrol.DL.DelayVar
a.Avg
Resource group
average DL delay
jitter
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542460331
VS.RscGroup.Flow
Ctrol.UL.CongTim
e
Resource group UL
congestion duration
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542460332
VS.RscGroup.Flow
Ctrol.DL.CongTim
e
Resource group DL
congestion duration
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
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Counter Relationship
None
1.2.7.2.1 Maximum UL Available Bandwidth of the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460308
VS.RscGroup.F
lowCtrol.UL.A
djBW.Max
Resource group
maximum UL
available
bandwidth
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the maximum available uplink bandwidth of a resource group within a
measurement period.
1. If the physical port is carried on an MP group, this counter measures the total bandwidth of
the available MP links in the MP group.
2. If the physical port is carried on a PPP link, this counter measures the available bandwidth
on the PPP link.
3. If the physical port is carried on the ETHTRUNK or ETHPORT MO, this counter depends
on the negotiation for the port.
4. If the physical port is carried on the TUNNEL MO, this counter measures the total
available uplink bandwidth on the current TUNNEL MO.
If the uplink rates on the preceding ports are limited, the value of the counter is the smaller
one between the defined upper-limited bandwidth and the measured available bandwidth.
Measurement Points
Based on the flow control algorithm, the base station samples the available uplink bandwidth
of the physical layer every second. At the end of a measurement period, the maximum
sampling value is used as the value of this counter.
Formula
None
Unit
kbit/s
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Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL
.AdjBW.Max
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.7.2.2 Minimum UL Available Bandwidth of the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460309
VS.RscGroup.F
lowCtrol.UL.A
djBW.Min
Resource group
minimum UL
available
bandwidth
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the minimum available uplink bandwidth of a resource group within a
measurement period.
1. If the physical port is carried on an MP group, this counter measures the total bandwidth of
the available MP links in the MP group.
2. If the physical port is carried on a PPP link, this counter measures the available bandwidth
on the PPP link.
3. If the physical port is carried on the ETHTRUNK or ETHPORT MO, this counter depends
on the negotiation for the port.
4. If the physical port is carried on the TUNNEL MO, this counter measures the total
available uplink bandwidth on the current TUNNEL MO.
If the uplink rates on the preceding ports are limited, the value of the counter is the smaller
one between the defined upper-limited bandwidth and the measured available bandwidth.
Measurement Points
Based on the flow control algorithm, the base station samples the available uplink bandwidth
of the physical layer every second. At the end of a measurement period, the minimum
sampling value is used as the value of this counter.
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Formula
None
Unit
kbit/s
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL
.AdjBW.Min
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.7.2.3 Average UL Available Bandwidth of the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460310
VS.RscGroup.F
lowCtrol.UL.A
djBW.Avg
Resource group
average UL
available
bandwidth
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the average available uplink bandwidth of a resource group within a
measurement period.
1. If the physical port is carried on an MP group, this counter measures the total bandwidth of
the available MP links in the MP group.
2. If the physical port is carried on a PPP link, this counter measures the available bandwidth
on the PPP link.
3. If the physical port is carried on the ETHTRUNK or ETHPORT MO, this counter depends
on the negotiation for the port.
4. If the physical port is carried on the TUNNEL MO, this counter measures the total
available uplink bandwidth on the current TUNNEL MO.
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If the uplink rates on the preceding ports are limited, the value of the counter is the smaller
one between the defined upper-limited bandwidth and the measured available bandwidth.
Measurement Points
Based on the flow control algorithm, the base station samples the available uplink bandwidth
of the physical layer every second. At the end of a measurement period, the average value of
all sampling results is used as the value of this counter.
Formula
None
Unit
kbit/s
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL
.AdjBW.Avg
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.7.2.4 Maximum DL Available Bandwidth of the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460311
VS.RscGroup.F
lowCtrol.DL.A
djBW.Max
Resource group
maximum DL
available
bandwidth
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the maximum available downlink bandwidth of a resource group
within a measurement period.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
385
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
If the physical port is carried on an MP group, the value of the counter is the total bandwidth
of the available MP links in the MP group.
If the physical port is carried on a PPP link, the value of the counter is the available
bandwidth on the PPP link.
If the physical port is carried on the ETHTRUNK or ETHPORT MO, the value of the counter
depends on the negotiation for the port.
If the physical port is carried on the TUNNEL MO, the value of the counter is the total
available downlink bandwidth on the current TUNNEL MO.
If the downlink rates on the preceding ports are limited, the value of the counter is the smaller
one between the defined lower-limited bandwidth and the measured available bandwidth.
If the IP path is carried on loopback ports, the value of this counter is the total available
downlink bandwidth on the current loopback port (The default downlink bandwidth on the
loopback port is 1 GHz.)
Note: This counter measures the available downlink bandwidth at the MAC-HS layer. The
measurement is valid only when the configured bandwidth is completely shared. The
following condition must be met when the configured bandwidth is completely shared:
Configuration bandwidth of each type of path (such as RT and NRT) > Total physical
bandwidth x 90%.
Measurement Points
Based on the flow control algorithm, the base station samples the available downlink
bandwidth of the physical layer every second. At the end of a measurement period, the
maximum sampling value is used as the value of this counter.
The calculation methods after the sampling vary with flow control algorithms:
When the dynamic flow control algorithm is used, the base station adjusts the available
HSDPA bandwidth based on the result of internal congestion measurement and it samples the
available HSDPA bandwidth every second.
When the static flow control algorithm is used, the base station calculates the HSDPA
available bandwidth using the following formula: HSDPA available bandwidths = Total
physical bandwidth x Coefficient (0.8 for ATM transmission; 0.9 for IP transmission). The
system samples the HSDPA available bandwidth every second.
When the adaptive flow control algorithm is used, the base station does not sample the
HSDPA available bandwidth while in OFF mode. The system samples the HSDPA available
bandwidth every second while in ON mode.
When the none flow control algorithm is used, the system reports 0 as the sampling value
meaning the HSDPA available bandwidth is insignificant in this case.
Formula
None
Unit
kbit/s
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
386
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL
.AdjBW.Max
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
1.2.7.2.5 Minimum DL Available Bandwidth of the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460312
VS.RscGroup.F
lowCtrol.DL.A
djBW.Min
Resource group
minimum DL
available
bandwidth
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the minimum available downlink bandwidth of a resource group within
a measurement period.
If the physical port is carried on an MP group, the value of the counter is the total bandwidth
of the available MP links in the MP group.
If the physical port is carried on a PPP link, the value of the counter is the available
bandwidth on the PPP link.
If the physical port is carried on the ETHTRUNK or ETHPORT MO, the value of the counter
depends on the negotiation for the port.
If the physical port is carried on the TUNNEL MO, the value of the counter is the total
available downlink bandwidth on the current TUNNEL MO.
If the downlink rates on the preceding ports are limited, the value of the counter is the smaller
one between the defined lower-limited bandwidth and the measured available bandwidth.
If the IP path is carried on loopback ports, the value of this counter is the total available
downlink bandwidth on the current loopback port (The default downlink bandwidth on the
loopback port is 1 GHz.)
Note: This counter measures the available downlink bandwidth at the MAC-HS layer. The
measurement is valid only when the configured bandwidth is completely shared. The
following condition must be met when the configured bandwidth is completely shared:
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
387
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Configuration bandwidth of each type of path (such as RT and NRT) > Total physical
bandwidth x 90%.
Measurement Points
Based on the flow control algorithm, the base station samples the available downlink
bandwidth of the physical layer every second. At the end of a measurement period, the
minimum sampling value is used as the value of this counter.
The calculation methods after the sampling vary with flow control algorithms:
When the dynamic flow control algorithm is used, the base station adjusts the available
HSDPA bandwidth based on the result of internal congestion measurement and it samples the
available HSDPA bandwidth every second.
When the static flow control algorithm is used, the base station calculates the HSDPA
available bandwidth using the following formula: HSDPA available bandwidths = Total
physical bandwidth x Coefficient (0.8 for ATM transmission; 0.9 for IP transmission). The
system samples the HSDPA available bandwidth every second.
When the adaptive flow control algorithm is used, the base station does not sample while in
OFF mode. The system samples the HSDPA available bandwidth every second while on ON
mode.
When the none flow control algorithm is used, the system reports 0 as the sampling value
meaning the HSDPA available bandwidth is insignificant in this case.
Formula
None
Unit
kbit/s
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL
.AdjBW.Min
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
388
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.7.2.6 Average DL Available Bandwidth of the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460313
VS.RscGroup.F
lowCtrol.DL.A
djBW.Avg
Resource group
average DL
available
bandwidth
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the average available downlink bandwidth of a resource group within a
measurement period.
If the physical port is carried on an MP group, the value of the counter is the total bandwidth
of the available MP links in the MP group.
If the physical port is carried on a PPP link, the value of the counter is the available
bandwidth on the PPP link.
If the physical port is carried on the ETHTRUNK or ETHPORT MO, the value of the counter
depends on the negotiation for the port.
If the physical port is carried on the TUNNEL MO, the value of the counter is the total
available downlink bandwidth on the current TUNNEL MO.
If the downlink rates on the preceding ports are limited, the value of the counter is the smaller
one between the defined lower-limited bandwidth and the measured available bandwidth.
If the IP path is carried on loopback ports, the value of this counter is the total available
downlink bandwidth on the current loopback port (The default downlink bandwidth on the
loopback port is 1 GHz.)
Note: This counter measures the available downlink bandwidth at the MAC-HS layer. The
measurement is valid only when the configured bandwidth is completely shared. The
following condition must be met when the configured bandwidth is completely shared:
Configuration bandwidth of each type of path (such as RT and NRT) > Total physical
bandwidth x 90%.
Measurement Points
Based on the flow control algorithm, the base station samples the available downlink
bandwidth of the physical layer every second. At the end of a measurement period, the
average value of all sampling results is used as the value of this counter.
The calculation methods after the sampling vary with flow control algorithms:
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
When the dynamic flow control algorithm is used, the base station adjusts the available
HSDPA bandwidth based on the result of internal congestion measurement and it samples the
available HSDPA bandwidth every second.
When the static flow control algorithm is used, the base station calculates the HSDPA
available bandwidth using the following formula: HSDPA available bandwidths = Total
physical bandwidth x Coefficient (0.8 for ATM transmission; 0.9 for IP transmission). The
system samples the HSDPA available bandwidth every second.
When the adaptive flow control algorithm is used, the base station does not sample while in
OFF mode. The system samples the HSDPA available bandwidth every second while on ON
mode.
When the none-flow-control algorithm is used, the system reports 0 as the sampling value
meaning the HSDPA available bandwidth is insignificant in this case.
Formula
None
Unit
kbit/s
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL
.AdjBW.Avg
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
1.2.7.2.7 UL Available Bandwidth Increase Times of the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460314
VS.RscGroup.F
lowCtrol.UL.U
pBW.Num
Resource group
available UL
bandwidth
increase times
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
390
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the available uplink bandwidth increase times of a resource group
within a measurement period. At the end of a measurement period, the sum of the sampling
values is used as the value of this counter. It indicates the statistics of the resource group that
carries PATH.
Measurement Points
The number of attempts to increase the available UL bandwidth of the base station Iub logical
port is sampled every five seconds. All collected values within a measurement period are
accumulated. The base station reports the traffic statistics of logical ports that carry PATH.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL
.UpBW.Num
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.7.2.8 DL Available Bandwidth Increase Times of the Resource Group Based On the
Delay
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460315
VS.RscGroup.F
lowCtrol.DL.D
elay.UpBW.Nu
m
Resource group
DL available
bandwidth
increase times
after jitter
congestion
released
BTS3900,
BTS3900
WCDMA,
U
Issue Draft C (2019-04-10)
BTS5900,
BTS5900
WCDMA
Copyright © Huawei Technologies Co., Ltd.
391
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of available downlink bandwidth increase times of the Iub
resource group of a base station based on the delay within a measurement period. It indicates
the statistics of the resource group that carries PATH.
Measurement Points
Based on the dynamic flow control algorithm, the base station samples the number of times to
increase the available downlink bandwidth of the base station Iub logical port based on the
delay every second, and uses the sum of the sampling values as the value of this counter.
When other algorithms are used, the system reports 0 as the sampling value.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL
.Delay.UpBW.Num
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
1.2.7.2.9 DL Available Bandwidth Increase Times of the Resource Group Based On the
Packet Loss
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460316
VS.RscGroup.F
lowCtrol.DL.Dr
op.UpBW.Num
Resource group
DL available
bandwidth
increase times
after packet loss
congestion
released
BTS3900,
BTS3900
WCDMA,
U
Issue Draft C (2019-04-10)
BTS5900,
BTS5900
WCDMA
Copyright © Huawei Technologies Co., Ltd.
392
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the available downlink bandwidth increase times of the Iub resource
group of a base station based the packet loss within a measurement period. It indicates the
statistics of the resource group that carries PATH.
Measurement Points
Based on the dynamic flow control algorithm, the base station samples the number of times to
increase the available downlink bandwidth of the base station Iub logical port based on the
packet loss every second, and uses the sum of the sampling values as the value of this counter.
When other algorithms are used, the system reports 0 as the sampling value.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL
.Drop.UpBW.Num
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
1.2.7.2.10 UL Available Bandwidth Decrease Times of the Resource Group Based On the
Delay
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460317
VS.RscGroup.F
lowCtrol.UL.D
elayCong.Down
BWNum
Resource group
available UL
bandwidth
decrease times
for jitter
congestion
BTS3900,
BTS3900
WCDMA,
U
Issue Draft C (2019-04-10)
BTS5900,
BTS5900
WCDMA
Copyright © Huawei Technologies Co., Ltd.
393
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the available uplink bandwidth decrease times of the Iub logical port of
a base station based the delay within a measurement period. It indicates the statistics of the
resource group that carries PATH.
Measurement Points
The number of attempts to decrease the available UL bandwidth of the base station Iub logical
port is sampled every five seconds. All collected values within a measurement period are
accumulated. The base station reports the traffic statistics of logical ports that carry PATH.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL
.DelayCong.DownBWNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.7.2.11 DL Available Bandwidth Decrease Times of the Resource Group Based On the
Delay
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460318
VS.RscGroup.F
lowCtrol.DL.D
elayCong.Down
BWNum
Resource group
DL available
bandwidth
decrease times
for jitter
congestion
BTS3900,
BTS3900
WCDMA,
U
Issue Draft C (2019-04-10)
BTS5900,
BTS5900
WCDMA
Copyright © Huawei Technologies Co., Ltd.
394
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of available downlink bandwidth decrease times of the Iub
resource group of a base station based the delay within a measurement period. It indicates the
statistics of the resource group that carries PATH.
Measurement Points
Based on the dynamic flow control algorithm, the base station samples the number of times to
decrease the available downlink bandwidth of the base station Iub logical port based on the
delay every second, and uses the sum of the sampling values as the value of this counter.
When other algorithms are used, the system reports 0 as the sampling value.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL
.DelayCong.DownBWNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
1.2.7.2.12 UL Available Bandwidth Decrease Times of the Resource Group Based On the
Packet Loss
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460319
VS.RscGroup.F
lowCtrol.UL.Dr
opCong.DownB
WNum
Resource group
available UL
bandwidth
decrease times
for packet loss
congestion
BTS3900,
BTS3900
WCDMA,
U
Issue Draft C (2019-04-10)
BTS5900,
BTS5900
WCDMA
Copyright © Huawei Technologies Co., Ltd.
395
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the available uplink bandwidth decrease times of the Iub resource
group of a base station based the packet loss within a measurement period. It indicates the
statistics of the resource group that carries PATH.
Measurement Points
The number of attempts to decrease the available UL bandwidth of the base station Iub logical
port is sampled every five seconds. All collected values within a measurement period are
accumulated. The base station reports the traffic statistics of logical ports that carry PATH.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL
.DropCong.DownBWNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.7.2.13 DL Available Bandwidth Decrease Times of the Resource Group Based On the
Packet Loss
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460320
VS.RscGroup.F
lowCtrol.DL.Dr
opCong.DownB
WNum
Resource group
DL available
bandwidth
decrease times
for packet loss
congestion
BTS3900,
BTS3900
WCDMA,
U
Issue Draft C (2019-04-10)
BTS5900,
BTS5900
WCDMA
Copyright © Huawei Technologies Co., Ltd.
396
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the available downlink bandwidth decrease times of the Iub resource
group of a base station based the packet loss within a measurement period. It indicates the
statistics of the resource group that carries PATH.
Measurement Points
Based on the dynamic flow control algorithm, the base station samples the number of times to
decrease the available downlink bandwidth of the base station Iub logical port based on the
packet loss every second, and uses the sum of the sampling values as the value of this counter.
When other algorithms are used, the system reports 0 as the sampling value.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL
.DropCong.DownBWNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
1.2.7.2.14 Number of Successfully Sent UL Frames in the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460321
VS.RscGroup.F
lowCtrol.UL.Se
ndNum
Resource group
Number of UL
frames
Resource group
sent
successfully
BTS3900,
BTS3900
WCDMA,
U
Issue Draft C (2019-04-10)
BTS5900,
BTS5900
WCDMA
Copyright © Huawei Technologies Co., Ltd.
397
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of data frames successfully transmitted in a resource group
within a measurement period. It indicates the statistics of the resource group that carries
PATH.
Measurement Points
The number of frames that are successfully transmitted on a base station Iub logical port is
sampled every five seconds. All collected values within a measurement period are
accumulated. The base station reports the traffic statistics of logical ports that carry PATH.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL
.SendNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.7.2.15 Number of Received DL Frames in the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460322
VS.RscGroup.F
lowCtrol.DL.Re
ceiveNum
Resource group
Number of DL
frames
Resource group
received
BTS3900,
BTS3900
WCDMA,
U
Issue Draft C (2019-04-10)
BTS5900,
BTS5900
WCDMA
Copyright © Huawei Technologies Co., Ltd.
398
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of data frames successfully received by the base station Iub
resource group within a measurement period. It indicates the statistics of the resource group
that carries PATH.
Measurement Points
Based on the dynamic flow control algorithm, the base station samples the number of data
frames successfully received on the base station Iub logical port every second, and uses the
sum of the sampling results as the value of this counter at the end of a measurement period.
When other algorithms are used, the system reports 0 as the sampling value.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL
.ReceiveNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
1.2.7.2.16 Number of Lost UL Frames in the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460323
VS.RscGroup.F
lowCtrol.UL.Dr
opNum
Resource group
Number of lost
UL frames
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
399
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of discarded uplink data frames in a resource group
(including those discarded on the interface board of the RNC, in the intermediate transmission
link, and within the base station) within a measurement period. It indicates the statistics of the
resource group that carries PATH.
Measurement Points
The number of frames (including those discarded on the interface board of the RNC, in the
intermediate transmission link, and within the base station) that are lost on a base station Iub
logical port is sampled every five seconds. All collected values within a measurement period
are accumulated. The base station reports the traffic statistics of logical ports that carry PATH.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL
.DropNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.7.2.17 Number of Lost DL Frames in the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460324
VS.RscGroup.F
lowCtrol.DL.Dr
opNum
Resource group
Number of lost
DL frames
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
400
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the discarded downlink data frames in a base station Iub resource
group (including those discarded on the interface board of the RNC, in the intermediate
transmission link, and within the base station) within a measurement period. It indicates the
statistics of the resource group that carries PATH.
Measurement Points
Based on the dynamic flow control algorithm, the base station samples the number of
discarded data frames on the base station Iub logical port (including those discarded on the
interface board of the RNC, in the intermediate transmission link, and within the base station)
every second, and uses the sum of the sampling results as the value of this counter at the end
of a measurement period.
When other algorithms are used, the system reports 0 as the sampling value.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL
.DropNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
1.2.7.2.18 Maximum UL Delay Jitter of the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460325
VS.RscGroup.F
lowCtrol.UL.D
elayVara.Max
Resource group
maximum UL
delay jitter
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
401
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the maximum uplink delay jitter of a resource group within a
measurement period. It indicates the statistics of the resource group that carries PATH.
Measurement Points
The uplink delay jitter is sampled every second. At the end of a measurement period, the
maximum sampling value is used as the value of this counter.
Formula
None
Unit
ms
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL
.DelayVara.Max
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.7.2.19 Minimum UL Delay Jitter of the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460326
VS.RscGroup.F
lowCtrol.UL.D
elayVara.Min
Resource group
minimum UL
delay jitter
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the minimum uplink delay jitter of a resource group within a
measurement period. It indicates the statistics of the resource group that carries PATH.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
402
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
The uplink delay jitter is sampled every second. At the end of a measurement period, the
minimum sampling value is used as the value of this counter.
Formula
None
Unit
ms
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL
.DelayVara.Min
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.7.2.20 Average UL Delay Jitter of the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460327
VS.RscGroup.F
lowCtrol.UL.D
elayVara.Avg
Resource group
average UL
delay jitter
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the average uplink delay jitter of a resource group within a
measurement period. It indicates the statistics of the resource group that carries PATH.
Measurement Points
The uplink delay jitter is sampled every second. At the end of a measurement period, the
average value of all sampling results is used as the value of this counter.
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Formula
None
Unit
ms
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL
.DelayVara.Avg
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.7.2.21 Maximum DL Delay Jitter of the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460328
VS.RscGroup.F
lowCtrol.DL.D
elayVara.Max
Resource group
maximum DL
delay jitter
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the maximum downlink delay jitter of a resource group within a
measurement period. It indicates the statistics of the resource group that carries PATH.
Measurement Points
Based on the flow control algorithm, the base station samples the downlink delay jitter every
second. At the end of a measurement period, the maximum sampling value is used as the
value of this counter.
When other algorithms are used, the system reports 0 as the sampling value.
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Formula
None
Unit
ms
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL
.DelayVara.Max
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
1.2.7.2.22 Minimum DL Delay Jitter of the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460329
VS.RscGroup.F
lowCtrol.DL.D
elayVara.Min
Resource group
minimum DL
delay jitter
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the minimum downlink delay jitter of a resource group within a
measurement period. It indicates the statistics of the resource group that carries PATH.
Measurement Points
Based on the flow control algorithm, the base station samples the downlink delay jitter every
second. At the end of a measurement period, the minimum sampling value is used as the value
of this counter.
When other algorithms are used, the system reports 0 as the sampling value.
Formula
None
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1 Node Performance Counter Measurement
Unit
ms
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL
.DelayVara.Min
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
1.2.7.2.23 Average DL Delay Jitter of the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460330
VS.RscGroup.F
lowCtrol.DL.D
elayVara.Avg
Resource group
average DL
delay jitter
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the average downlink delay jitter of a resource group within a
measurement period. It indicates the statistics of the resource group that carries PATH.
Measurement Points
Based on the flow control algorithm, the base station samples the downlink delay jitter every
second. At the end of a measurement period, the average value of all sampling results is used
as the value of this counter.
When other algorithms are used, the system reports 0 as the sampling value.
Formula
None
Unit
ms
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1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL
.DelayVara.Avg
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
1.2.7.2.24 UL Congestion Duration of the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460331
VS.RscGroup.F
lowCtrol.UL.C
ongTime
Resource group
UL congestion
duration
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the uplink congestion duration of a resource group within a
measurement period. It indicates the statistics of the resource group that carries PATH.
Measurement Points
The base station determines whether the following requirement is met:
VS.IUB.FlowCtrol.UL.AdjBW.LgcPort.Avg x 0.8 < Actual physical layer flow of the uplink
logic port. If the preceding requirement is met, the uplink congestion duration is increased by
one second. If the preceding requirement is not met, the uplink congestion duration does not
change. Uplink congestion duration is sampled every second. At the end of a measurement
period, these sampling results are accumulated. Under certain circumstances, the value of this
counter may have an error of one sampling period (one second).
Formula
None
Unit
s
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Node Performance Counter Reference
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Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL
.CongTime
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.7.2.25 DL Congestion Duration of the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460332
VS.RscGroup.F
lowCtrol.DL.C
ongTime
Resource group
DL congestion
duration
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the downlink congestion duration of a resource group within a
measurement period. It indicates the statistics of the resource group that carries PATH.
Measurement Points
When the dynamic flow control algorithm is enabled and the configured bandwidth is
completely shared, the base station determines whether the following requirement is met:
VS.IUB.FlowCtrol.DL.AdjBW.LgcPort.Avg x 0.8 < HSDPA traffic volume on the downlink
logic port. If the preceding requirement is met, the downlink congestion duration is increased
by one second. If the preceding requirement is not met, the downlink congestion duration
does not change. Samples are taken every second. All sampling results within a measurement
period are accumulated. When other algorithms are used, the system reports 0 as the sampling
value. Under certain circumstances, the value of this counter may have an error of one
sampling period (one second).
Formula
None
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Unit
s
Related Features
Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL
.CongTime
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
1.2.7.3 Allocated Band Measurement (Transport.AllocatedBW)
Overview
The Allocated Band Measurement function subset measures the bandwidth that has been
allocated to each resource group. The bandwidths of all resource groups are measured without
discriminating between interface protocols. Currently, bandwidth allocation is triggered only
over the S1, X2, and eX2 interfaces. Figure 1-16 shows the position of the resource group in
the TCP/IP model.
Figure 1-16
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Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460390
VS.RscGroup.Alloc
atedBW.TxMaxB
W
Maximum transmit
bandwidth that has
been allocated to a
resource group
BTS3900:
V100R011C00
BTS3900 LTE:
V100R011C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1542460391
VS.RscGroup.Alloc
atedBW.TxAvgBW
Average transmit
bandwidth that has
been allocated to a
resource group
BTS3900:
V100R011C00
BTS3900 LTE:
V100R011C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1542460392
VS.RscGroup.Alloc
atedBW.TxMaxUsa
ge
Maximum allocation
rate of the transmit
bandwidth to a
resource group
BTS3900:
V100R011C00
BTS3900 LTE:
V100R011C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1542460393
VS.RscGroup.Alloc
atedBW.TxAvgUsa
ge
Average allocation
rate of the transmit
bandwidth to a
resource group
BTS3900:
V100R011C00
BTS3900 LTE:
V100R011C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1542460394
VS.RscGroup.Alloc
atedBW.RxMaxB
W
Maximum receive
bandwidth that has
been allocated to a
resource group
BTS3900:
V100R011C00
BTS3900 LTE:
V100R011C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
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Node Performance Counter Reference
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460395
VS.RscGroup.Alloc
atedBW.RxAvgBW
Average receive
bandwidth that has
been allocated to a
resource group
BTS3900:
V100R011C00
BTS3900 LTE:
V100R011C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1542460396
VS.RscGroup.Alloc
atedBW.RxMaxUs
age
Maximum allocation
rate of the receive
bandwidth to a
resource group
BTS3900:
V100R011C00
BTS3900 LTE:
V100R011C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1542460397
VS.RscGroup.Alloc
atedBW.RxAvgUsa
ge
Average allocation
rate of the receive
bandwidth to a
resource group
BTS3900:
V100R011C00
BTS3900 LTE:
V100R011C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
Counter Relationship
None
1.2.7.3.1 Measurement of Bandwidth Allocated to the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460390
VS.RscGroup.
AllocatedBW.T
xMaxBW
Maximum
transmit
bandwidth that
has been
allocated to a
resource group
BTS3900,
BTS3900 LTE,
L
Issue Draft C (2019-04-10)
BTS5900,
BTS5900 LTE
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1 Node Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460391
VS.RscGroup.
AllocatedBW.T
xAvgBW
Average
transmit
bandwidth that
has been
allocated to a
resource group
BTS3900,
BTS3900 LTE,
L
Maximum
receive
bandwidth that
has been
allocated to a
resource group
BTS3900,
BTS3900 LTE,
Average receive
bandwidth that
has been
allocated to a
resource group
BTS3900,
BTS3900 LTE,
1542460394
1542460395
VS.RscGroup.
AllocatedBW.R
xMaxBW
VS.RscGroup.
AllocatedBW.R
xAvgBW
BTS5900,
BTS5900 LTE
L
BTS5900,
BTS5900 LTE
L
BTS5900,
BTS5900 LTE
Description
These counters provide the maximum and average transmit/receive bandwidths in a resource
group in a measurement period. The sampling value depends on the current service access
status. The counters only indicate the bandwidth allocation instead of real-time usage.
Measurement Points
The allocated bandwidth is sampled every 10 seconds. At the end of a measurement period,
the maximum and average of these sampling results are used as the values of the
corresponding counters.
Formula
None
Unit
kbit/s
Related Features
None
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1.2.7.3.2 Measurement of Allocated Bandwidth Ratio in the Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460392
VS.RscGroup.
AllocatedBW.T
xMaxUsage
Maximum
allocation rate
of the transmit
bandwidth to a
resource group
BTS3900,
BTS3900 LTE,
L
Average
allocation rate
of the transmit
bandwidth to a
resource group
BTS3900,
BTS3900 LTE,
Maximum
allocation rate
of the receive
bandwidth to a
resource group
BTS3900,
BTS3900 LTE,
Average
allocation rate
of the receive
bandwidth to a
resource group
BTS3900,
BTS3900 LTE,
1542460393
1542460396
1542460397
VS.RscGroup.
AllocatedBW.T
xAvgUsage
VS.RscGroup.
AllocatedBW.R
xMaxUsage
VS.RscGroup.
AllocatedBW.R
xAvgUsage
BTS5900,
BTS5900 LTE
L
BTS5900,
BTS5900 LTE
L
BTS5900,
BTS5900 LTE
L
BTS5900,
BTS5900 LTE
Description
These counters provide the maximum and average allocated bandwidth ratios in a resource
group in a measurement period. The sampling value depends on the current service access
status. The counters only indicate the bandwidth allocation instead of real-time usage.
Measurement Points
The allocated bandwidth ratio is sampled every 10 seconds. The allocated bandwidth ratio is
calculated by multiplying the allocated bandwidth by the total bandwidth. If the calculated
result is greater than 1, the allocated bandwidth ratio is 100. At the end of a measurement
period, the maximum and average sampling results are used as the values of the
corresponding counters.
Formula
None
Unit
%
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Related Features
None
1.2.8 Measurement of IPPM Performance (IPPM)
Overview
The object type IP PM measurement contains the function subset related to the IP
performance monitoring (PM). It represents the quality of services carried on the transmission
board in the base station.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Transport.IPPM
IPPM Measurement
1.2.8.1 IPPM Measurement (Transport.IPPM)
Overview
The IP PM function subset provides the measurements on an IP PM in the base station. It
measures the quality of traffic carried on the transmission boards. Figure 1-17 shows the
position of the IP PM in the TCP/IP model. Figure 1-18 shows the principles of the IP PM.
The IP PM checks the packet loss, delay, and jitter condition of a link by the local end
transmitting forward monitoring (FM) frames and the peer end responding with backward
reporting (BR) frames. The number of FM frames is used to represent the number of frames
transmitted by the local end, whereas that of BR frames is used to represent the number of
frames received by the peer end. The local end calculates the delay, jitter, and packet loss rate
along the local-to-peer direction based on the received BR frames. Ultimately, the bandwidth
condition is obtained.
Figure 1-17
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Figure 1-18
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455408
VS.IPPM.Bits.Mea
nsTx
Average bit transmit
rate on the IP PM
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455409
VS.IPPM.Pkts.Mea
nsTx
Average packet
transmit rate on the
IP PM
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455410
VS.IPPM.Peak.Bits
.RateTx
Peak bit transmit
rate on the IP PM
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455411
VS.IPPM.Peak.Pkt
s.RateTx
Peak packet transmit
rate on the IP PM
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455412
VS.IPPM.Peer.Bits.
MeansRx
Average peer bit
receive rate on the
IP PM
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455413
VS.IPPM.Peer.Pkts
.MeansRx
Average peer packet
receive rate on the
IP PM
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455414
VS.IPPM.Peer.Pea
k.Bits.RateRx
Peak peer bit receive
rate on the IP PM
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455415
VS.IPPM.Peer.Pea
k.Pkts.RateRx
Peak peer packet
receive rate on the
IP PM
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455416
VS.IPPM.Forword.
DropMeans
Average forward
packet loss rate on
the IP PM
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455417
VS.IPPM.Forword.
Peak.DropRates
Peak forward packet
loss rate on the IP
PM
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455418
VS.IPPM.Forward.
JitterStandardDeviation
Standard deviation
of forward jitter on
the IP PM
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
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1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455419
VS.IPPM.Back.Jitt
erStandardDeviation
Standard deviation
of backward jitter on
the IP PM
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455420
VS.IPPM.Rtt.Mean
s
Average RTT on the
IP PM
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455421
VS.IPPM.MaxRttD
elay
Maximum RTT on
the IP PM
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455452
VS.IPPM.MinRttD
elay
Minimum RTT on
the IP PM
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455911
VS.IPPM.Local.Tx
Pkts
Number of packets
sent by the IP PM
local end
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455912
VS.IPPM.Peer.RxP
kts
Number of packets
received by the IP
PM peer end
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
423
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460406
VS.IPPM.HighLev
el.Rtt.Means
Average
Microsecond-Level
RTT on the IP PM
BTS3900:
V100R012C00
BTS3900 WCDMA:
V100R012C00
BTS3900 LTE:
V100R012C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460407
VS.IPPM.HighLev
el.MaxRttDelay
Maximum
Microsecond-Level
RTT on the IP PM
BTS3900:
V100R012C00
BTS3900 WCDMA:
V100R012C00
BTS3900 LTE:
V100R012C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460408
VS.IPPM.HighLev
el.MinRttDelay
Minimum
Microsecond-Level
RTT on the IP PM
BTS3900:
V100R012C00
BTS3900 WCDMA:
V100R012C00
BTS3900 LTE:
V100R012C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460409
VS.IPPM.Owd.Me
ans
Average One-Way
Delay on the IP PM
BTS3900:
V100R012C00
BTS3900 WCDMA:
V100R012C00
BTS3900 LTE:
V100R012C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
425
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460410
VS.IPPM.MaxOwd
Delay
Maximum One-Way
Delay on the IP PM
BTS3900:
V100R012C00
BTS3900 WCDMA:
V100R012C00
BTS3900 LTE:
V100R012C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460411
VS.IPPM.MinOwd
Delay
Minimum One-Way
Delay on the IP PM
BTS3900:
V100R012C00
BTS3900 WCDMA:
V100R012C00
BTS3900 LTE:
V100R012C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
426
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.8.1.1 Byte Rate Measurements on the IP PM
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455408
VS.IPPM.Bits.
MeansTx
Average bit
transmit rate on
the IP PM
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455410
VS.IPPM.Peak.
Bits.RateTx
Peak bit
transmit rate on
the IP PM
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455412
VS.IPPM.Peer.
Bits.MeansRx
Average peer
bit receive rate
on the IP PM
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455414
VS.IPPM.Peer.
Peak.Bits.Rate
Rx
Peak peer bit
receive rate on
the IP PM
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters provide transmit byte rates and receive byte rates of the transport network on
the IP performance monitor (IP PM) within a measurement period. They indicate the
transmission capability of the transport network.
Measurement Points
The transmit byte rate or receive byte rate at the local or peer end is sampled per second on
the IP PM. At the end of a measurement period, the average or maximum of these sampling
results is used as the value of the corresponding counter.
The counters are measured as follows:
The VS.IPPM.Bits.MeansTx and VS.IPPM.Peak.Bits.RateTx counters are sampled per
second. Let Tn be the number of accumulated transmitted bits at second n, and Tn-1 be the
number of accumulated transmitted bits at second n-1. Then, bit transmit rate at second n = Tn
- Tn-1. At the end of a measurement period, the average of the bit transmit rates is used as the
value of the VS.IPPM.Bits.MeansTx, and the maximum of the bit transmit rates is used as the
value of the VS.IPPM.Peak.Bits.RateTx. Figure 1-19 shows the measured fields.
The VS.IPPM.Peer.Bits.MeansRx and VS.IPPM.Peer.Peak.Bits.RateRx counters are sampled
per second. Let Rn be the number of accumulated received bits at second n, and Rn-1 be the
number of accumulated received bits at second n-1. Then, bit receive rate at second n = Rn Rn-1. At the end of a measurement period, the average of the bit receive rates is used as the
value of the VS.IPPM.Peer.Bits.MeansRx counter, and the maximum of the bit receive rates is
used as the value of the VS.IPPM.Peer.Peak.Bits.RateRx counter. Figure 1-19 shows the
measured fields.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Figure 1-19
Formula
None
Unit
bit/s
Related Features
Counter Name
Feature ID
VS.IPPM.Bits.MeansTx
Multi-mode: None
Feature Name
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter Name
Feature ID
VS.IPPM.Peak.Bits.RateTx
Multi-mode: None
Feature Name
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
VS.IPPM.Peer.Bits.MeansR
x
Multi-mode: None
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
VS.IPPM.Peer.Peak.Bits.Rat
eRx
Multi-mode: None
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
430
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.8.1.2 Packet Rate Measurements on the IP PM
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455409
VS.IPPM.Pkts.
MeansTx
Average packet
transmit rate on
the IP PM
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455411
VS.IPPM.Peak.
Pkts.RateTx
Peak packet
transmit rate on
the IP PM
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455413
VS.IPPM.Peer.
Pkts.MeansRx
Average peer
packet receive
rate on the IP
PM
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455415
VS.IPPM.Peer.
Peak.Pkts.Rate
Rx
Peak peer
packet receive
rate on the IP
PM
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters provide transmit packet rates and receive packet rates of the transport network
on the IP performance monitor (IP PM) within a measurement period. They indicate the
transmission capability of the transport network.
Measurement Points
The transmit packet rate or receive packet rate at the local or peer end is sampled per second
on the IP PM. At the end of a measurement period, the average or maximum of these
sampling results is used as the value of the corresponding counter.
The counters are measured as follows:
The VS.IPPM.Pkts.MeansTx and VS.IPPM.Peak.Pkts.RateTx counters are sampled per
second. Let Tn be the number of accumulated transmitted packets at second n, and Tn-1 be
the number of accumulated transmitted packets at second n-1. Then, packet transmit rate at
second n = Tn - Tn-1. At the end of a measurement period, the average of the packet transmit
rates is used as the value of the VS.IPPM.Pkts.MeansTx counter, and the maximum of the
packet transmit rates is used as the value of the VS.IPPM.Peak.Pkts.RateTx counter.
The VS.IPPM.Peer.Pkts.MeansRx and VS.IPPM.Peer.Peak.Pkts.RateRx counters are sampled
per second. Let Rn be the number of accumulated received packets at second n, and Rn-1 be
the number of accumulated received packets at second n-1. Then, packet receive rate at
second n = Rn - Rn-1. At the end of a measurement period, the average of the packet receive
rates is used as the value of the VS.IPPM.Peer.Pkts.MeansRx counter, and the maximum of
the packet receive rates is used as the value of the VS.IPPM.Peer.Peak.Pkts.RateRx counter.
Formula
None
Unit
packet/s
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.IPPM.Pkts.MeansTx
Multi-mode: None
Feature Name
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
VS.IPPM.Peak.Pkts.RateTx
Multi-mode: None
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
VS.IPPM.Peer.Pkts.MeansR
x
Multi-mode: None
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
VS.IPPM.Peer.Peak.Pkts.Ra
teRx
Multi-mode: None
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
433
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.8.1.3 Forward Packet Loss Rate Measurements on the IP PM
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455416
VS.IPPM.Forw
ord.DropMeans
Average
forward packet
loss rate on the
IP PM
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455417
VS.IPPM.Forw
ord.Peak.DropR
ates
Peak forward
packet loss rate
on the IP PM
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters provide packet loss rate on the transport network by using the IP performance
monitor (IP PM) within a measurement period. They reflect the quality on the detected user
plane path.
Measurement Points
The numbers of transmitted forward packets and lost forward packets on the link are sampled
every second. At the end of a measurement period, the sum of these sampling results is used
as the value of the corresponding counter. The packet loss rate in a second is obtained by
dividing the number of lost forward packets in the second by the number of transmit forward
packets in the second. At the end of the measurement period, the maximum packet loss rate is
used as the maximum one among all the packet loss rates in the measurement period. The
average packet loss rate is obtained by dividing the total number of lost forward packets by
the total number of forward packets transmitted in the measurement period. The
VS.IPPM.Forword.DropMeans and VS.IPPM.Forword.Peak.DropRates counters are invalid
when there is no traffic.
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Formula
(([VS.IPPM.Local.TxPkts]-[VS.IPPM.Peer.RxPkts])/[VS.IPPM.Local.TxPkts])*{100}
Unit
%
Related Features
Counter Name
Feature ID
VS.IPPM.Forword.DropMe
ans
Multi-mode: None
Feature Name
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
VS.IPPM.Forword.Peak.Dro
pRates
Multi-mode: None
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
435
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.8.1.4 Jitter Measurements on the IP PM
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455418
VS.IPPM.Forw
ard.JitterStanda
rdDeviation
Standard
deviation of
forward jitter
on the IP PM
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455419
VS.IPPM.Back.
JitterStandardD
eviation
Standard
deviation of
backward jitter
on the IP PM
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters provide the standard delay deviation of the round trip time (RTT) for the IP
PM packets on the transport network within a measurement period. They reflect the
stabilization of the transmission delay of a detected data flow. A larger counter value reflects a
larger fluctuation in transmission delay. The forward delay variation represents the delay
variation in the RTT of IP PM packets from the local end to the peer end. The backward delay
variation represents the delay variation in the RTT of IP PM packets from the peer end to the
local end.
Measurement Points
A sample is taken every 1 second to obtain the forward jitter and backward jitter of the IP PM
for calculating the forward jitter standard deviation and backward jitter standard deviation at
the end of a measurement period based on the standard deviation formula.
The counter VS.IPPM.Forward.JitterStandardDeviation provides the jitter standard deviation
of FM frames on a link at the end of a measurement period. The forward jitter is calculated by
using the following formula: Forward jitter = T2 - T1 - T, where T2 is the time when the FM
frame is received, T1 is the time when the FM frame is sent, and T is the standard delay.
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
The counter VS.IPPM.Back.JitterStandardDeviation provides the jitter standard deviation of
BR frames on a link at the end of a measurement period. The backward jitter is calculated by
using the following formula: Backward jitter = T4 - T3 - T, where T4 is the time when the BR
frame is received, T3 is the time when the BR frame is sent, and T is the standard delay.
Formula
None
Unit
ms
Related Features
Counter Name
Feature ID
VS.IPPM.Forward.JitterStan
dardDeviation
Multi-mode: None
Feature Name
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
VS.IPPM.Back.JitterStandar
dDeviation
Multi-mode: None
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
437
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.8.1.5 RTT Measurements on the IP PM
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455420
VS.IPPM.Rtt.M
eans
Average RTT
on the IP PM
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455421
VS.IPPM.Max
RttDelay
Maximum RTT
on the IP PM
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455452
VS.IPPM.MinR
ttDelay
Minimum RTT
on the IP PM
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters measure the average, maximum, and minimum round-trip times (RTTs) for the
IP PM packets on the transport network within a measurement period. They indicate the delay
of the transport network.
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
The RTT is sampled and calculated by the IP PM mechanism every second.
After forward activation is performed for an IP PM link, the local end sends FM frames and
receives BR frames periodically.
The value of the VS.IPPM.Rtt.Means counter is calculated by the following formula:
VS.IPPM.Rtt.Means = Total delay of FM and BR frames on the link/Total number of
transmitted FM and BR frames.
The maximum value among the sampling results of FM frames and BR frames is used as the
value of the VS.IPPM.MaxRttDelay counter.
The minimum value among the sampling results of FM frames and BR frames is used as the
value of the VS.IPPM.MinRttDelay counter.
Formula
None
Unit
ms
Related Features
Counter Name
Feature ID
VS.IPPM.Rtt.Means
Multi-mode: None
Feature Name
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
VS.IPPM.MaxRttDelay
Multi-mode: None
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
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Counter Name
Feature ID
VS.IPPM.MinRttDelay
Multi-mode: None
Feature Name
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
IP Performance Monitoring
IP Performance Monitoring
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
1.2.8.1.6 Number of Packets on the IP PM
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455911
VS.IPPM.Local
.TxPkts
Number of
packets sent by
the IP PM local
end
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455912
VS.IPPM.Peer.
RxPkts
Number of
packets
received by the
IP PM peer end
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
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Description
These counters provide the number of packets sent by the local end of an IP PM session and
the number of packets received by the peer end of an IP PM session. They reflect the service
traffic volume on user plane paths measured by IP PM.
Measurement Points
The base station takes samples of the number of packets sent by the local end of an IP PM
session and the number of packets received by the peer end of an IP PM session every
measurement period of 1 second. At the end of each measurement period, the base station
adds up all sampled values to obtain the value of the corresponding counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.IPPM.Local.TxPkts
Multi-mode: None
Feature Name
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
VS.IPPM.Peer.RxPkts
Multi-mode: None
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.8.1.7 High-Precision Delay Measurement on the IP PM
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460406
VS.IPPM.High
Level.Rtt.Mean
s
Average
MicrosecondLevel RTT on
the IP PM
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542460407
VS.IPPM.High
Level.MaxRttD
elay
Maximum
MicrosecondLevel RTT on
the IP PM
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542460408
VS.IPPM.High
Level.MinRttD
elay
Minimum
MicrosecondLevel RTT on
the IP PM
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters measure the average, maximum, and minimum high-precision round-trip
times (RTTs) for the IP PM packets on the transport network within a measurement period.
They reflect the delay on the transport network.
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Measurement Points
The high-precision RTT is sampled and calculated by the IP PM mechanism every second.
After forward activation is performed on an IP PM link, the local end sends FM frames and
receives BR frames periodically.
The value of the VS.IPPM.HighLevel.Rtt.Means counter is calculated by the following
formula: VS.IPPM.HighLevel.Rtt.Means = Total delay of FM and BR frames on the link/
Total number of transmitted FM and BR frames.
The maximum value among the sampling results of FM and BR frames is used as the value of
the VS.IPPM.HighLevel.MaxRttDelay counter.
The minimum value among the sampling results of FM and BR frames is used as the value of
the VS.IPPM.HighLevel.MinRttDelay counter.
Formula
None
Unit
microsecond
Related Features
Counter Name
Feature ID
VS.IPPM.HighLevel.Rtt.Me
ans
Multi-mode: None
Feature Name
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
VS.IPPM.HighLevel.MaxRt
tDelay
Multi-mode: None
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
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Counter Name
Feature ID
VS.IPPM.HighLevel.MinRtt
Delay
Multi-mode: None
Feature Name
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
IP Performance Monitoring
IP Performance Monitoring
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
1.2.8.1.8 One-Way Delay Measurement on the IP PM
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460409
VS.IPPM.Owd.
Means
Average OneWay Delay on
the IP PM
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542460410
VS.IPPM.Max
OwdDelay
Maximum OneWay Delay on
the IP PM
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460411
VS.IPPM.MinO
wdDelay
Minimum OneWay Delay on
the IP PM
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters measure the average, maximum, and minimum high-precision one-way delays
for the IP PM packets on the transport network within a measurement period. They reflect the
delay on the transport network. The one-way delay is the time consumed to transmit IP PM
detection packets from the local end to the peer end.
Measurement Points
The one-way delay is sampled and calculated by the IP PM mechanism every second.
After forward activation is performed on an IP PM link, the local end sends FM frames and
receives BR frames periodically.
A sends FM frames at T5. B receives the FM frames at T6. When A and B are synchronized,
the one-way delay on the A side is T6 minus T5.
The system obtains the average one-way delay on an IP PM link every second.
The VS.IPPM.Rtt.Owd.Means counter is calculated by the following formula:
VS.IPPM.Rtt.Owd.Means = Accumulated sampling results/Total number of samplings
The maximum value among the sampling results is used as the value of the
VS.IPPM.MaxOwdDelay counter.
The minimum value among the sampling results is used as the value of the
VS.IPPM.MinOwdDelay counter.
Formula
None
Unit
microsecond
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Related Features
Counter Name
Feature ID
VS.IPPM.Owd.Means
Multi-mode: None
Feature Name
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
VS.IPPM.MaxOwdDelay
Multi-mode: None
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
VS.IPPM.MinOwdDelay
Multi-mode: None
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LBFD-00301201
TDLBFD-00301201
MLBFD-12100309
NR: FBFD-010024
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
IP Performance Monitoring
1.2.9 Measurement of IPv6 Performance (IPv6)
Overview
The IPv6 object type measures the function subset related to IPv6 packets on the transmission
board in the base station. It represents the throughput of IPv6 packets.
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FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Network.IPv6
IPv6 Measurement
1.2.9.1 IPv6 Measurement (Network.IPv6)
Overview
The Network.IPv6 function subset measures the traffic volumes of IPv6 packets, such as the
number of successfully transmitted or received IPv6 packets or the number of bytes in the
transmitted or received IPv6 packets. It represents the throughput of IPv6 packets on the
transmission board in the base station. Figure 1-20 shows the position of the IPv6 in the
TCP/IP model.
Figure 1-20
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Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455796
VS.IPv6.TxPackets
Number of
successfully
transmitted IPv6
packets
BTS3900:
V100R008C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455797
VS.IPv6.TxBytes
Number of bytes in
the successfully
transmitted IPv6
packets
BTS3900:
V100R008C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455798
VS.IPv6.TxDropPk
ts
Number of
discarded IPv6
packets transmitted
BTS3900:
V100R008C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455799
VS.IPv6.TxDropBy
tes
Number of bytes in
the discarded IPv6
packets transmitted
BTS3900:
V100R008C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455800
VS.IPv6.RxPackets
Number of
successfully
received IPv6
packets
BTS3900:
V100R008C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455801
VS.IPv6.RxBytes
Number of bytes in
the successfully
received IPv6
packets
BTS3900:
V100R008C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455802
VS.IPv6.RxDropPk
ts
Number of
discarded IPv6
packets received
BTS3900:
V100R008C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455803
VS.IPv6.RxDropBy
tes
Number of bytes in
the discarded IPv6
packets received
BTS3900:
V100R008C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
1.2.9.1.1 Number of IPv6 Packets
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455796
VS.IPv6.TxPac
kets
Number of
successfully
transmitted
IPv6 packets
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455798
VS.IPv6.TxDro
pPkts
Number of
discarded IPv6
packets
transmitted
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
1542455800
VS.IPv6.RxPac
kets
Number of
successfully
received IPv6
packets
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
1542455802
VS.IPv6.RxDro
pPkts
Number of
discarded IPv6
packets
received
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
The following table describes the meanings of each counter.
Counter Name
Description
VS.IPv6.TxPackets
This counter measures the number of IPv6
packets successfully transmitted at the
network layer within a measurement period.
It indicates the traffic volume at the network
layer and the base station's processing
capability for IPv6 packets. This counter is
measured at the network layer after the
fragmentation.
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Counter Name
Description
VS.IPv6.TxDropPkts
This counter measures the number of
transmit IPv6 packets discarded at the
network layer in a measurement period. It
reflects the traffic volume at the network
layer and the capability of a base station to
process IPv6 packets. This counter is
measured in the following cases:
1. The routing fails.
2. The packet length exceeds the MTU size,
and the IP header contains an unfragmented
flag. This counter is measured at the
network layer after the route searching.
VS.IPv6.RxPackets
This counter measures the number of IPv6
packets successfully received at the network
layer within a measurement period. It
indicates the traffic volume at the network
layer and the base station's processing
capability for IPv6 packets. This counter is
measured at the network layer before the
fragmentation and reassembly.
VS.IPv6.RxDropPkts
This counter measures the number of
receive IPv6 packets discarded at the
network layer in a measurement period. It
reflects the traffic volume at the network
layer and the capability of a base station to
process IPv6 packets. This counter is
measured at the network layer for IPv6
packets decapsulated by the Ethernet. This
counter is measured in the following cases:
1. An IPv6 header error occurs, which can
be: the packet header format is incorrect; the
extended packet header is unknown; the
upper-layer protocol is unknown.
2. The destination IPv6 link-local address
fails to be searched.
3. The destination IPv6 multicast address
fails to be searched.
4. The destination IPv6 global unicast
address fails to be searched.
5. The packet reassembly fails.
Measurement Points
Number of successfully transmitted packets, discarded packets due to transmission failures,
successfully received packets, and discarded packets due to receive failures on the IPv6 path
per second. At the end of a measurement period, the sum of these sampling results is used as
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the value of the corresponding counter. If packets need to be fragmented, the number of TX
packets is measured after the packets are fragmented and the number of RX packets is
measured before the packets are reassembled.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.IPv6.TxPackets
Multi-mode: None
Feature Name
GSM: None
UMTS: None
LTE: LBFD-003006
TDLBFD-003006
IPv4/IPv6 Dual Stack
MLBFD-12000307
IPv4/IPv6 Dual Stack
LOFD-003017
S1 and X2 over IPv6
TDLOFD-003017
S1 and X2 over IPv6
MLOFD-003017
S1 over IPv6
NR: FBFD-021101
FOFD-021212
VS.IPv6.TxDropPkts
IPv4/IPv6 Dual Stack
IPv4/IPv6 Dual Stack
IPv6
Multi-mode: None
GSM: None
UMTS: None
LTE: LBFD-003006
TDLBFD-003006
IPv4/IPv6 Dual Stack
MLBFD-12000307
IPv4/IPv6 Dual Stack
LOFD-003017
S1 and X2 over IPv6
TDLOFD-003017
S1 and X2 over IPv6
MLOFD-003017
S1 over IPv6
NR: FBFD-021101
FOFD-021212
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IPv4/IPv6 Dual Stack
Copyright © Huawei Technologies Co., Ltd.
IPv4/IPv6 Dual Stack
IPv6
453
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1 Node Performance Counter Measurement
Counter Name
Feature ID
VS.IPv6.RxPackets
Multi-mode: None
Feature Name
GSM: None
UMTS: None
LTE: LBFD-003006
IPv4/IPv6 Dual Stack
TDLBFD-003006
IPv4/IPv6 Dual Stack
MLBFD-12000307
IPv4/IPv6 Dual Stack
LOFD-003017
S1 and X2 over IPv6
TDLOFD-003017
S1 and X2 over IPv6
MLOFD-003017
S1 over IPv6
NR: FBFD-021101
IPv4/IPv6 Dual Stack
FOFD-021212
VS.IPv6.RxDropPkts
IPv6
Multi-mode: None
GSM: None
UMTS: None
LTE: LBFD-003006
IPv4/IPv6 Dual Stack
TDLBFD-003006
IPv4/IPv6 Dual Stack
MLBFD-12000307
IPv4/IPv6 Dual Stack
LOFD-003017
S1 and X2 over IPv6
TDLOFD-003017
S1 and X2 over IPv6
MLOFD-003017
S1 over IPv6
NR: FBFD-021101
IPv4/IPv6 Dual Stack
FOFD-021212
IPv6
1.2.9.1.2 Number of Bytes in the IPv6 Packets
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455797
VS.IPv6.TxByt
es
Number of
bytes in the
successfully
transmitted
IPv6 packets
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455799
VS.IPv6.TxDro
pBytes
Number of
bytes in the
discarded IPv6
packets
transmitted
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
1542455801
VS.IPv6.RxByt
es
Number of
bytes in the
successfully
received IPv6
packets
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
1542455803
VS.IPv6.RxDro
pBytes
Number of
bytes in the
discarded IPv6
packets
received
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
The following table describes the meanings of each counter.
Counter Name
Description
VS.IPv6.TxBytes
This counter measures the number of bytes
in the IPv6 packets successfully transmitted
at the network layer within a measurement
period. It indicates the traffic volume at the
network layer and the base station's
processing capability for bytes in the IPv6
packets. The bytes include IPv6 headers,
IPv6 extension headers, and payloads (also
including IPSec-related payloads such as
AH headers and ESP headers in IPSec
scenarios), as shown in Figure 1-21.
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Counter Name
Description
VS.IPv6.TxDropBytes
This counter measures the number of
transmit IPv6 bytes discarded at the network
layer in a measurement period. It reflects
the traffic volume at the network layer and
the capability of a base station to process
IPv6 packets. This counter is measured in
the following cases:
1. The routing fails.
2. The packet length exceeds the MTU size,
and the IP header contains an unfragmented
flag. This counter is measured at the
network layer after the route searching.
VS.IPv6.RxBytes
This counter measures the number of bytes
in the IPv6 packets successfully received at
the network layer within a measurement
period. It indicates the traffic volume at the
network layer and the base station's
processing capability for IPv6 packets. This
counter is measured at the network layer for
IPv6 packets being decapsulated on the
Ethernet and not being reassembled. The
bytes include IPv6 headers, IPv6 extension
headers, and payloads (also including
IPSec-related payloads such as AH headers
and ESP headers in IPSec scenarios), as
shown in Figure 1-21.
VS.IPv6.RxDropBytes
This counter measures the number of
receive IPv6 bytes discarded at the network
layer in a measurement period. It reflects
the traffic volume at the network layer and
the capability of a base station to process
IPv6 packets. This counter is measured at
the network layer for IPv6 packets
decapsulated by the Ethernet. This counter
is measured in the following cases:
1. An IPv6 header error occurs, which can
be: the packet header format is incorrect; the
extended packet header is unknown; the
upper-layer protocol is unknown.
2. The destination IPv6 link-local address
fails to be searched.
3. The destination IPv6 multicast address
fails to be searched.
4. The destination IPv6 global unicast
address fails to be searched.
5. The packet reassembly fails.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Figure 1-21
Measurement Points
Number of successfully transmitted bytes, discarded bytes due to transmission failures,
successfully received bytes, and discarded bytes due to receive failures on the IPv6 path per
second. At the end of a measurement period, the sum of these sampling results is used as the
value of the corresponding counter. If packets need to be fragmented, the number of TX bytes
is measured after the packets are fragmented and the number of RX bytes is measured before
the packets are reassembled.
Formula
None
Unit
byte
Related Features
Counter Name
Feature ID
VS.IPv6.TxBytes
Multi-mode: None
Feature Name
GSM: None
UMTS: None
LTE: LBFD-003006
TDLBFD-003006
IPv4/IPv6 Dual Stack
MLBFD-12000307
IPv4/IPv6 Dual Stack
LOFD-003017
S1 and X2 over IPv6
TDLOFD-003017
S1 and X2 over IPv6
MLOFD-003017
S1 over IPv6
NR: FBFD-021101
FOFD-021212
Issue Draft C (2019-04-10)
IPv4/IPv6 Dual Stack
Copyright © Huawei Technologies Co., Ltd.
IPv4/IPv6 Dual Stack
IPv6
457
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter Name
Feature ID
VS.IPv6.TxDropBytes
Multi-mode: None
Feature Name
GSM: None
UMTS: None
LTE: LBFD-003006
TDLBFD-003006
IPv4/IPv6 Dual Stack
MLBFD-12000307
IPv4/IPv6 Dual Stack
LOFD-003017
S1 and X2 over IPv6
TDLOFD-003017
S1 and X2 over IPv6
MLOFD-003017
S1 over IPv6
NR: FBFD-021101
FOFD-021212
VS.IPv6.RxBytes
IPv4/IPv6 Dual Stack
IPv4/IPv6 Dual Stack
IPv6
Multi-mode: None
GSM: None
UMTS: None
LTE: LBFD-003006
TDLBFD-003006
IPv4/IPv6 Dual Stack
MLBFD-12000307
IPv4/IPv6 Dual Stack
LOFD-003017
S1 and X2 over IPv6
TDLOFD-003017
S1 and X2 over IPv6
MLOFD-003017
S1 over IPv6
NR: FBFD-021101
FOFD-021212
VS.IPv6.RxDropBytes
IPv4/IPv6 Dual Stack
IPv4/IPv6 Dual Stack
IPv6
Multi-mode: None
GSM: None
UMTS: None
LTE: LBFD-003006
TDLBFD-003006
IPv4/IPv6 Dual Stack
MLBFD-12000307
IPv4/IPv6 Dual Stack
LOFD-003017
S1 and X2 over IPv6
TDLOFD-003017
S1 and X2 over IPv6
MLOFD-003017
S1 over IPv6
NR: FBFD-021101
FOFD-021212
Issue Draft C (2019-04-10)
IPv4/IPv6 Dual Stack
Copyright © Huawei Technologies Co., Ltd.
IPv4/IPv6 Dual Stack
IPv6
458
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.10 Measurement of OM Channel Performance (OMCH)
Overview
The object type OMCH measurement contains the OM channel-related function subset. It
represents the traffic volume of services carried by the OM channel in the base station and the
quality of service.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Transport.OMCH
OMCH Measurement
1.2.10.1 OMCH Measurement (Transport.OMCH)
Overview
The OMCH function subset provides the measurements on an OM channel in the base station.
It measures traffic volumes of the services carried on the OM channel in the base station and
the service quality. The OM channel uses TCP packets for transmission. Figure 1-22 shows
the position of the OM channel in the TCP/IP model.
Figure 1-22
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455826
VS.OMCH.RxTotal
Pkts
Total Number of
Packets Received by
an OM Channel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455827
VS.OMCH.RxInSe
qPkts
Number of In-Order
Packets Received by
an OM Channel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455828
VS.OMCH.RxWnd
ProbePkts
Number of Window
Probe Packets
Received by an OM
Channel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455829
VS.OMCH.RxWnd
UpdatePkts
Number of Window
Size Update Packets
Received by an OM
Channel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Copyright © Huawei Technologies Co., Ltd.
461
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455833
VS.OMCH.RxDup
Pkts
Number of Fully
Duplicate Packets
Received by an OM
Channel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455834
VS.OMCH.RxPart
DupPkts
Number of Partially
Duplicate Packets
Received by an OM
Channel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455835
VS.OMCH.RxOut
OfOrderPkts
Number of Out-ofOrder Packets
Received by an OM
Channel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455836
VS.OMCH.RxAfte
rWndPkts
Number of Packets
Beyond the Receive
Window of an OM
Channel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455837
VS.OMCH.RxAfte
rClosePkts
Number of Packets
Received by an OM
Channel After the
Connection Is
Released
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455838
VS.OMCH.RxAck
Pkts
Number of ACK
Packets Received by
an OM Channel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455839
VS.OMCH.RxDup
AckPkts
Number of
Duplicate ACK
Packets Received by
an OM Channel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455840
VS.OMCH.RxToo
MuchAckPkts
Number of Received
ACK Packets for
Non-Transmitted
Data by an OM
Channel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455841
VS.OMCH.TxTotal
Pkts
Total Number of
Packets Transmitted
by an OM Channel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455842
VS.OMCH.TxUrge
ntPkts
Number of Urgent
Data Packets
Transmitted by an
OM Channel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455843
VS.OMCH.TxCtrl
Pkts
Number of Control
Packets Transmitted
by an OM Channel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455844
VS.OMCH.TxWnd
ProbePkts
Number of Window
Probe Packets
Transmitted by an
OM Channel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
467
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455845
VS.OMCH.TxWnd
UpdatePkts
Number of Window
Size Update Packets
Transmitted by an
OM Channel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455846
VS.OMCH.TxData
Pkts
Number of Data
Packets Transmitted
by an OM Channel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
468
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455847
VS.OMCH.TxData
RexntPkts
Number of Packets
Retransmitted by an
OM Channel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455848
VS.OMCH.TxAck
OnlyPkts
Number of ACK
Packets Transmitted
by an OM Channel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.10.1.1 Total Number of Packets Received by an OM Channel
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455826
VS.OMCH.Rx
TotalPkts
Total Number
of Packets
Received by an
OM Channel
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the total number of TCP packets received by an OM channel in a
measurement period. The TCP packets include control packets related to TCP link
establishment, removal, and keepalive, and data packets exchanged between TCP connectionbased applications. This counter is used to reflect the traffic volume on the OM channel.
Measurement Points
The total number of packets received by the OM channel is sampled every one second. At the
end of a measurement period, the sum of these sampling results is used as the value of this
counter.
Formula
None
Unit
packet
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.OMCH.RxTotalPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.10.1.2 Number of In-Order Packets Received by an OM Channel
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455827
VS.OMCH.RxI
nSeqPkts
Number of InOrder Packets
Received by an
OM Channel
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of in-order TCP packets, of which the data length is not
zero, received by an OM channel in a measurement period. This counter is used to reflect the
traffic volume on the OM channel.
Measurement Points
The number of in-order packets received by the OM channel is sampled every one second. At
the end of a measurement period, the sum of these sampling results is used as the value of this
counter.
Formula
None
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Unit
packet
Related Features
Counter Name
Feature ID
VS.OMCH.RxInSeqPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.10.1.3 Number of Window Probe Packets Received by an OM Channel
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455828
VS.OMCH.Rx
WndProbePkts
Number of
Window Probe
Packets
Received by an
OM Channel
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of window probe packets received by an OM channel in a
measurement period. This counter is used to reflect the traffic volume on the OM channel.
When the local end informs the peer end that the receive window size is zero, the peer end
periodically sends window probe packets to check the size of the receive window at the local
end.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
The number of window probe packets received by the OM channel is sampled every one
second. At the end of a measurement period, the sum of these sampling results is used as the
value of this counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.OMCH.RxWndProbePkt
s
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.10.1.4 Number of Window Size Update Packets Received by an OM Channel
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455829
VS.OMCH.Rx
WndUpdatePkt
s
Number of
Window Size
Update Packets
Received by an
OM Channel
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of window size update packets received by an OM channel
in a measurement period. This counter is used to reflect the quality of the OM channel. The
peer end sends a window size update packet when it receives a window probe packet from the
local end or when the window size changes at the peer end.
Measurement Points
The number of window size update packets received by the OM channel is sampled every one
second. At the end of a measurement period, the sum of these sampling results is used as the
value of this counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.OMCH.RxWndUpdateP
kts
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
Feature Name
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
474
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.10.1.5 Number of Fully Duplicate Packets Received by an OM Channel
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455833
VS.OMCH.Rx
DupPkts
Number of
Fully Duplicate
Packets
Received by an
OM Channel
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of fully duplicate packets received by an OM channel in a
measurement period. This counter is used to reflect the quality of the OM channel. Two
packets are fully duplicate if they have the same sequence number and the same data. If
congestion or delay occurs on a network, the ACK packets cannot be transmitted in time to
the peer end. In this case, the peer end retransmits the data packets. This counter is used to
reflect the link quality and the receive capability of the transmit end.
Measurement Points
The number of fully duplicate packets received by the OM channel is sampled every one
second. At the end of a measurement period, the sum of these sampling results is used as the
value of this counter.
Formula
None
Unit
packet
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
475
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.OMCH.RxDupPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.10.1.6 Number of Partially Duplicate Packets Received by an OM Channel
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455834
VS.OMCH.RxP
artDupPkts
Number of
Partially
Duplicate
Packets
Received by an
OM Channel
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of partially duplicate packets received by an OM channel
in a measurement period. This counter is used to reflect the quality of the OM channel. Two
packets are partially duplicate if they have the same data. This counter is used to reflect the
link quality and the receive capability of the transmit end.
Measurement Points
The number of partially duplicate packets received by the OM channel is sampled every one
second. At the end of a measurement period, the sum of these sampling results is used as the
value of this counter.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.OMCH.RxPartDupPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.10.1.7 Number of Out-of-Order Packets Received by an OM Channel
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455835
VS.OMCH.Rx
OutOfOrderPkt
s
Number of Outof-Order
Packets
Received by an
OM Channel
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of out-of-order packets received by an OM channel in a
measurement period. Packets may not be received in sequence when they are transmitted
through multiple routes or retransmitted on networks or data link layers. This counter is used
to reflect the quality of the OM channel.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
The number of out-of-order packets received by the OM channel is sampled every one
second. At the end of a measurement period, the sum of these sampling results is used as the
value of this counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.OMCH.RxOutOfOrderP
kts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.10.1.8 Number of Packets Beyond the Receive Window of an OM Channel
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455836
VS.OMCH.Rx
AfterWndPkts
Number of
Packets Beyond
the Receive
Window of an
OM Channel
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
478
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of packets beyond the receive window of an OM channel
in a measurement period. A packet falls beyond the receive window if its size is larger than
the value indicated by the receive window. This counter is used to reflect the quality of the
OM channel.
Measurement Points
The number of packets beyond the receive window of an OM channel is sampled every one
second. At the end of a measurement period, the sum of these sampling results is used as the
value of this counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.OMCH.RxAfterWndPkt
s
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
Feature Name
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
479
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.10.1.9 Number of Packets Received by an OM Channel After the Connection Is
Released
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455837
VS.OMCH.Rx
AfterClosePkts
Number of
Packets
Received by an
OM Channel
After the
Connection Is
Released
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of FIN packets, which are received after the connection is
released, by an OM channel from the peer end in a measurement period. This counter is used
to reflect the quality of the OM channel. Some data is buffered during transmission and can be
received only after the connection is released. This counter is used to reflect the network
quality.
Measurement Points
The number of packets received by the OM channel after the connection is released is
sampled every one second. At the end of a measurement period, the sum of these sampling
results is used as the value of this counter.
Formula
None
Unit
packet
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
480
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.OMCH.RxAfterClosePk
ts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.10.1.10 Number of ACK Packets Received by an OM Channel
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455838
VS.OMCH.Rx
AckPkts
Number of
ACK Packets
Received by an
OM Channel
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of ACK packets received by an OM channel in a
measurement period. The ACK packets are packets with the ACK flags, including packets
carrying only ACK information and packets carrying ACK information and other information.
This counter is used to reflect the quality of the OM channel.
Measurement Points
The number of ACK packets received by the OM channel is sampled every one second. At the
end of a measurement period, the sum of these sampling results is used as the value of this
counter.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
481
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.OMCH.RxAckPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.10.1.11 Number of Duplicate ACK Packets Received by an OM Channel
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455839
VS.OMCH.Rx
DupAckPkts
Number of
Duplicate ACK
Packets
Received by an
OM Channel
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of duplicate ACK packets received by an OM channel in a
measurement period. If the sequence number of a TCP packet received by the peer end is not
as expected, ACK packets will be retransmitted. This counter is used to reflect the quality of
the OM channel.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
The number of duplicate ACK packets received by the OM channel is sampled every one
second. At the end of a measurement period, the sum of these sampling results is used as the
value of this counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.OMCH.RxDupAckPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.10.1.12 Number of Received ACK Packets for Non-Transmitted Data by an OM
Channel
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455840
VS.OMCH.Rx
TooMuchAckP
kts
Number of
Received ACK
Packets for
NonTransmitted
Data by an OM
Channel
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
483
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of received ACK packets for data that has not been
transmitted by an OM channel in a measurement period. This counter is used to reflect the
quality of the OM channel.
Measurement Points
The number of received ACK packets for non-transmitted data by the OM channel is sampled
every one second. At the end of a measurement period, the sum of these sampling results is
used as the value of this counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.OMCH.RxTooMuchAck
Pkts
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
Feature Name
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
484
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.10.1.13 Total Number of Packets Transmitted by an OM Channel
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455841
VS.OMCH.TxT
otalPkts
Total Number
of Packets
Transmitted by
an OM Channel
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the total number of TCP packets transmitted successfully and
unsuccessfully by an OM channel in a measurement period. The TCP packets include control
packets related to TCP link establishment, removal, and keepalive, and data packets
exchanged between TCP connection-based applications. This counter is used to reflect the
traffic volume on the OM channel.
Measurement Points
The total number of packets transmitted by the OM channel is sampled every one second. At
the end of a measurement period, the sum of these sampling results is used as the value of this
counter.
Formula
None
Unit
packet
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
485
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.OMCH.TxTotalPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.10.1.14 Number of Urgent Data Packets Transmitted by an OM Channel
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455842
VS.OMCH.Tx
UrgentPkts
Number of
Urgent Data
Packets
Transmitted by
an OM Channel
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of urgent data packets transmitted successfully and
unsuccessfully by an OM channel in a measurement period. This counter is used to reflect the
traffic volume on the OM channel. An urgent data packet is a TCP packet with the URG bit
set to 1.
Measurement Points
The number of urgent data packets transmitted by the OM channel is sampled every one
second. At the end of a measurement period, the sum of these sampling results is used as the
value of this counter.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
486
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.OMCH.TxUrgentPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.10.1.15 Number of Control Packets Transmitted by an OM Channel
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455843
VS.OMCH.Tx
CtrlPkts
Number of
Control Packets
Transmitted by
an OM Channel
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of control packets transmitted successfully and
unsuccessfully by an OM channel in a measurement period. This counter is used to reflect the
traffic volume on the OM channel. A control packet is a TCP packet with the SYN, FIN, or
RST bit set and with no data carried, which is used for connection setup and connection
release.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
The number of control packets transmitted by the OM channel is sampled every one second.
At the end of a measurement period, the sum of these sampling results is used as the value of
this counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.OMCH.TxCtrlPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.10.1.16 Number of Window Probe Packets Transmitted by an OM Channel
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455844
VS.OMCH.Tx
WndProbePkts
Number of
Window Probe
Packets
Transmitted by
an OM Channel
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of window probe packets transmitted successfully and
unsuccessfully by an OM channel in a measurement period. This counter is used to reflect the
quality of the OM channel. If the local end receives an ACK packet indicating that the receive
window size is zero, the local end will send a one-byte TCP packet, that is, a window probe
packet, to the peer end at a certain interval. The transmitted window probe packets are used to
determine whether the receive end can receive packets, that is, whether the receive window
size changes to a non-zero value. The larger the value of this counter, the larger extent the
transmit capability is stronger than the receive capability.
Measurement Points
The number of window probe packets transmitted by the OM channel is sampled every one
second. At the end of a measurement period, the sum of these sampling results is used as the
value of this counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.OMCH.TxWndProbePkt
s
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
Feature Name
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
489
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.10.1.17 Number of Window Size Update Packets Transmitted by an OM Channel
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455845
VS.OMCH.Tx
WndUpdatePkt
s
Number of
Window Size
Update Packets
Transmitted by
an OM Channel
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of window size update packets successfully and
unsuccessfully transmitted by an OM channel in a measurement period. When the receive
window of the local end changes, a window size update packet is sent, which carries only the
window update information, has a data length of 0, and corresponds to the window probe
packet. This counter is used to reflect the quality of the OM channel.
Measurement Points
The number of window size update packets transmitted by the OM channel is sampled every
one second. At the end of a measurement period, the sum of these sampling results is used as
the value of this counter.
Formula
None
Unit
packet
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
490
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.OMCH.TxWndUpdateP
kts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.10.1.18 Number of Data Packets Transmitted by an OM Channel
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455846
VS.OMCH.Tx
DataPkts
Number of Data
Packets
Transmitted by
an OM Channel
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of data packets transmitted successfully and unsuccessfully
by an OM channel in a measurement period. This counter is used to reflect the traffic volume
on the OM channel.
Measurement Points
The number of data packets transmitted by the OM channel is sampled every one second. At
the end of a measurement period, the sum of these sampling results is used as the value of this
counter.
Formula
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Unit
packet
Related Features
Counter Name
Feature ID
VS.OMCH.TxDataPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.10.1.19 Number of Packets Retransmitted by an OM Channel
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455847
VS.OMCH.Tx
DataRexntPkts
Number of
Packets
Retransmitted
by an OM
Channel
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of packets retransmitted successfully and unsuccessfully
by an OM channel in a measurement period. One end retransmits a packet if it does not
receive an ACK packet for the packet within a specified time. This counter is used to reflect
the quality of the OM channel.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
The number of packets retransmitted by the OM channel is sampled every one second. At the
end of a measurement period, the sum of these sampling results is used as the value of this
counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.OMCH.TxDataRexntPkt
s
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.10.1.20 Number of ACK Packets Transmitted by an OM Channel
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455848
VS.OMCH.Tx
AckOnlyPkts
Number of
ACK Packets
Transmitted by
an OM Channel
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
493
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of ACK packets successfully and unsuccessfully
transmitted by an OM channel in a measurement period. The ACK packets include packets
carrying only ACK information (with a data length of 0) and packets carrying ACK
information and other information. This counter is used to reflect the quality of the OM
channel.
Measurement Points
The number of ACK packets transmitted by the OM channel is sampled every one second. At
the end of a measurement period, the sum of these sampling results is used as the value of this
counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.OMCH.TxAckOnlyPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.11 Measurement of Tunnel Performance (TUNNEL)
Overview
The object type Tunnel Measurement contains the function subset related to tunnels. It
represents the traffic of services carried on the tunnel in the base station and the service
quality.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Network.Tunnel
Tunnel Measurement
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Copyright © Huawei Technologies Co., Ltd.
494
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.11.1 Tunnel Measurement (Network.Tunnel)
Overview
The Network.Tunnel function subset measures the traffic and data rate in the tunnel. It
represents the traffic volume of services carried by the tunnel in the base station and the
quality of data transmission. Figure 1-23 shows the position of the tunnel in the TCP/IP
model.
Figure 1-23
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Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455856
VS.TUNNEL.TxBy
tes
Number of Bytes
Transmitted in the
Tunnel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455857
VS.TUNNEL.TxPa
ckets
Number of Packets
Transmitted in the
Tunnel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455858
VS.TUNNEL.RxBy
tes
Number of Bytes
Received in the
Tunnel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455859
VS.TUNNEL.RxPa
ckets
Number of Packets
Received in the
Tunnel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Copyright © Huawei Technologies Co., Ltd.
497
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455860
VS.TUNNEL.TxM
axSpeed
Maximum Transmit
Rate in the Tunnel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455861
VS.TUNNEL.TxMi
nSpeed
Minimum Transmit
Rate in the Tunnel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Copyright © Huawei Technologies Co., Ltd.
498
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455862
VS.TUNNEL.TxM
eanSpeed
Average Transmit
Rate in the Tunnel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455863
VS.TUNNEL.RxM
axSpeed
Maximum Receive
Rate in the Tunnel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
499
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455864
VS.TUNNEL.RxMi
nSpeed
Minimum Receive
Rate in the Tunnel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455865
VS.TUNNEL.RxM
eanSpeed
Average Receive
Rate in the Tunnel
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS3900 LTE:
V100R005C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
500
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.11.1.1 Number of Bytes on the TUNNEL
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455856
VS.TUNNEL.T
xBytes
Number of
Bytes
Transmitted in
the Tunnel
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455858
VS.TUNNEL.R
xBytes
Number of
Bytes Received
in the Tunnel
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters measure the numbers of bytes in the packets transmitted and received on a
tunnel at the data link layer within a measurement period. Figure 1-24 shows the
measurement fields. They indicate the traffic volume on the tunnel at the data link layer.
Figure 1-24
Measurement Points
The number of bytes in the packets successfully transmitted or received in the tunnel is
sampled per second. At the end of a measurement period, the sum of these sampling results is
used as the value of the counter.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Formula
None
Unit
byte
Related Features
Counter Name
Feature ID
Feature Name
VS.TUNNEL.TxBytes
Multi-mode: MRFD-121114
IP-Based Multi-mode CoTransmission on BS
side(GBTS)
MRFD-121124
MRFD-121134
MRFD-121144
MRFD-151167
GSM: None
UMTS: None
LTE: None
NR: None
IP-Based Multi-mode CoTransmission on BS
side(NodeB)
IP-Based Multi-mode CoTransmission on BS
side(eNodeB)
IP-Based Multi-mode CoTransmission on BS
side(LTE TDD)
IP-Based Multi-mode CoTransmission on BS
side(NR)
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502
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter Name
Feature ID
Feature Name
VS.TUNNEL.RxBytes
Multi-mode: MRFD-121114
IP-Based Multi-mode CoTransmission on BS
side(GBTS)
MRFD-121124
MRFD-121134
MRFD-121144
MRFD-151167
GSM: None
IP-Based Multi-mode CoTransmission on BS
side(NodeB)
IP-Based Multi-mode CoTransmission on BS
side(eNodeB)
UMTS: None
LTE: None
IP-Based Multi-mode CoTransmission on BS
side(LTE TDD)
NR: None
IP-Based Multi-mode CoTransmission on BS
side(NR)
1.2.11.1.2 Number of Packets on the TUNNEL
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455857
VS.TUNNEL.T
xPackets
Number of
Packets
Transmitted in
the Tunnel
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455859
VS.TUNNEL.R
xPackets
Number of
Packets
Received in the
Tunnel
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters measure the numbers of packets transmitted and received on a tunnel at the
data link layer within a measurement period. They indicate the traffic volume and
transmission quality of the tunnel at the data link layer.
Measurement Points
The number of packets successfully transmitted or received in the tunnel is sampled per
second. At the end of a measurement period, the sum of these sampling results is used as the
value of the counter.
Formula
None
Unit
packet
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
504
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
Feature Name
VS.TUNNEL.TxPackets
Multi-mode: MRFD-121114
IP-Based Multi-mode CoTransmission on BS
side(GBTS)
MRFD-121124
MRFD-121134
MRFD-121144
MRFD-151167
GSM: None
UMTS: None
LTE: None
IP-Based Multi-mode CoTransmission on BS
side(NodeB)
IP-Based Multi-mode CoTransmission on BS
side(eNodeB)
IP-Based Multi-mode CoTransmission on BS
side(LTE TDD)
NR: None
IP-Based Multi-mode CoTransmission on BS
side(NR)
VS.TUNNEL.RxPackets
Multi-mode: MRFD-121114
MRFD-121124
MRFD-121134
MRFD-121144
MRFD-151167
GSM: None
UMTS: None
LTE: None
NR: None
IP-Based Multi-mode CoTransmission on BS
side(GBTS)
IP-Based Multi-mode CoTransmission on BS
side(NodeB)
IP-Based Multi-mode CoTransmission on BS
side(eNodeB)
IP-Based Multi-mode CoTransmission on BS
side(LTE TDD)
IP-Based Multi-mode CoTransmission on BS
side(NR)
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
505
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.11.1.3 Rate on the TUNNEL
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455860
VS.TUNNEL.T
xMaxSpeed
Maximum
Transmit Rate
in the Tunnel
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455861
VS.TUNNEL.T
xMinSpeed
Minimum
Transmit Rate
in the Tunnel
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455862
VS.TUNNEL.T
xMeanSpeed
Average
Transmit Rate
in the Tunnel
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455863
VS.TUNNEL.R
xMaxSpeed
Maximum
Receive Rate in
the Tunnel
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455864
VS.TUNNEL.R
xMinSpeed
Minimum
Receive Rate in
the Tunnel
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455865
VS.TUNNEL.R
xMeanSpeed
Average
Receive Rate in
the Tunnel
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters measure the maximum, minimum, and average transmit and receive rates on a
tunnel at the data link layer within a measurement period. They indicate the traffic volume on
the tunnel at the data link layer.
Measurement Points
Transmit rate and receive rate in the TUNNEL per second. At the end of a measurement
period, the maximum, minimum, average sampling results are reported.
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Formula
None
Unit
bit/s
Related Features
Counter Name
Feature ID
Feature Name
VS.TUNNEL.TxMaxSpeed
Multi-mode: MRFD-121114
IP-Based Multi-mode CoTransmission on BS
side(GBTS)
MRFD-121124
MRFD-121134
MRFD-121144
MRFD-151167
GSM: None
UMTS: None
LTE: None
NR: None
IP-Based Multi-mode CoTransmission on BS
side(NodeB)
IP-Based Multi-mode CoTransmission on BS
side(eNodeB)
IP-Based Multi-mode CoTransmission on BS
side(LTE TDD)
IP-Based Multi-mode CoTransmission on BS
side(NR)
Issue Draft C (2019-04-10)
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508
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter Name
Feature ID
Feature Name
VS.TUNNEL.TxMinSpeed
Multi-mode: MRFD-121114
IP-Based Multi-mode CoTransmission on BS
side(GBTS)
MRFD-121124
MRFD-121134
MRFD-121144
MRFD-151167
GSM: None
UMTS: None
LTE: None
IP-Based Multi-mode CoTransmission on BS
side(NodeB)
IP-Based Multi-mode CoTransmission on BS
side(eNodeB)
IP-Based Multi-mode CoTransmission on BS
side(LTE TDD)
NR: None
IP-Based Multi-mode CoTransmission on BS
side(NR)
VS.TUNNEL.TxMeanSpee
d
Multi-mode: MRFD-121114
MRFD-121124
MRFD-121134
MRFD-121144
MRFD-151167
GSM: None
UMTS: None
LTE: None
NR: None
IP-Based Multi-mode CoTransmission on BS
side(GBTS)
IP-Based Multi-mode CoTransmission on BS
side(NodeB)
IP-Based Multi-mode CoTransmission on BS
side(eNodeB)
IP-Based Multi-mode CoTransmission on BS
side(LTE TDD)
IP-Based Multi-mode CoTransmission on BS
side(NR)
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
509
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter Name
Feature ID
Feature Name
VS.TUNNEL.RxMaxSpeed
Multi-mode: MRFD-121114
IP-Based Multi-mode CoTransmission on BS
side(GBTS)
MRFD-121124
MRFD-121134
MRFD-121144
MRFD-151167
GSM: None
UMTS: None
LTE: None
IP-Based Multi-mode CoTransmission on BS
side(NodeB)
IP-Based Multi-mode CoTransmission on BS
side(eNodeB)
IP-Based Multi-mode CoTransmission on BS
side(LTE TDD)
NR: None
IP-Based Multi-mode CoTransmission on BS
side(NR)
VS.TUNNEL.RxMinSpeed
Multi-mode: MRFD-121114
MRFD-121124
MRFD-121134
MRFD-121144
MRFD-151167
GSM: None
UMTS: None
LTE: None
NR: None
IP-Based Multi-mode CoTransmission on BS
side(GBTS)
IP-Based Multi-mode CoTransmission on BS
side(NodeB)
IP-Based Multi-mode CoTransmission on BS
side(eNodeB)
IP-Based Multi-mode CoTransmission on BS
side(LTE TDD)
IP-Based Multi-mode CoTransmission on BS
side(NR)
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter Name
Feature ID
Feature Name
VS.TUNNEL.RxMeanSpee
d
Multi-mode: MRFD-121114
IP-Based Multi-mode CoTransmission on BS
side(GBTS)
MRFD-121124
MRFD-121134
MRFD-121144
MRFD-151167
GSM: None
IP-Based Multi-mode CoTransmission on BS
side(NodeB)
IP-Based Multi-mode CoTransmission on BS
side(eNodeB)
UMTS: None
LTE: None
IP-Based Multi-mode CoTransmission on BS
side(LTE TDD)
NR: None
IP-Based Multi-mode CoTransmission on BS
side(NR)
1.2.12 Measurement of AAL2Path Performance (AAL2PATH)
Overview
The object type AAL2PATH contains the function subset related to AAL2 paths. It represents
the traffic of services carried on AAL2 paths in the base station and the service quality.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Transport.AAL2PATH
AAL2Path Measurement
1.2.12.1 AAL2Path Measurement (Transport.AAL2PATH)
Overview
The AAL2 PATH function subset measures the traffic volume carried on a transmission link.
It helps analyze the transmission quality of the system and ensure the stable and reliable
running of the system.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455884
VS.AAL2PATH.Rx
Pkts
Number of packets
successfully
received on the
AAL2 Path
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455885
VS.AAL2PATH.Tx
Pkts
Number of packets
successfully
transmitted on the
AAL2 Path
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455886
VS.AAL2PATH.Tx
DropPkts
Number of
discarded packets
transmitted on the
AAL2 Path
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455887
VS.AAL2PATH.Rx
DropPkts
Number of
discarded packets
received on the
AAL2 Path
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
Counter Relationship
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.12.1.1 Number of Packets on the AAL2 Path
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455884
VS.AAL2PATH
.RxPkts
Number of
packets
successfully
received on the
AAL2 Path
BTS3900,
BTS3900
WCDMA,
U
Number of
packets
successfully
transmitted on
the AAL2 Path
BTS3900,
BTS3900
WCDMA,
Number of
discarded
packets
transmitted on
the AAL2 Path
BTS3900,
BTS3900
WCDMA,
Number of
discarded
packets
received on the
AAL2 Path
BTS3900,
BTS3900
WCDMA,
1542455885
1542455886
1542455887
VS.AAL2PATH
.TxPkts
VS.AAL2PATH
.TxDropPkts
VS.AAL2PATH
.RxDropPkts
BTS5900,
BTS5900
WCDMA
U
BTS5900,
BTS5900
WCDMA
U
BTS5900,
BTS5900
WCDMA
U
BTS5900,
BTS5900
WCDMA
Description
These counters measure the numbers of packets successfully received on the AAL2 path,
packets successfully transmitted on the AAL2 path, discarded packets received on the AAL2
path, and discarded packets transmitted on the AAL2 path within a measurement period. They
indicate the traffic volume on the AAL2 path. In the TX direction, a packet is discarded when
errors occur during frame encapsulation. In the RX direction, a packet is discarded when
errors occur during the check and reassembly.
Measurement Points
The numbers of packets successfully received, packets successfully transmitted, discarded
packets received, and discarded packets transmitted on a link are sampled every second. At
the end of a measurement period, the sum of these sampling results is used as the value of the
corresponding counter.
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.AAL2PATH.RxPkts
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-05030104
LTE: None
Dynamic AAL2 connection
on Iub/IuCS/Iur Interface
NR: None
VS.AAL2PATH.TxPkts
Multi-mode: None
GSM: None
UMTS: WRFD-05030104
LTE: None
Dynamic AAL2 connection
on Iub/IuCS/Iur Interface
NR: None
VS.AAL2PATH.TxDropPkt
s
Multi-mode: None
GSM: None
UMTS: WRFD-05030104
LTE: None
Dynamic AAL2 connection
on Iub/IuCS/Iur Interface
NR: None
VS.AAL2PATH.RxDropPkt
s
Multi-mode: None
GSM: None
UMTS: WRFD-05030104
LTE: None
Dynamic AAL2 connection
on Iub/IuCS/Iur Interface
NR: None
1.2.13 Measurement of SAAL Performance (SAAL)
Overview
The SAAL object type contains the function subsets related to SAAL links. It indicates the
traffic of signaling services carried on SAAL links and the service quality.
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
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FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Transport.SAAL
SAAL Measurement
1.2.13.1 SAAL Measurement (Transport.SAAL)
Overview
The SAAL function subset measures the traffic volumes of IP packets transmitted and
received on an SAAL link inside the base station. It measures traffic volumes of the signaling
services carried on base station transmission boards and the service quality.
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455888
VS.SAALAAL5.Rx
Pkts
Number of packets
received on the
SAAL AAL5 link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455889
VS.SAALAAL5.Tx
Pkts
Number of packets
transmitted on the
SAAL AAL5 link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455890
VS.SAALAAL5.Rx
DropPkts
Number of
discarded packets
received on the
SAAL AAL5 link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455891
VS.SAALAAL5.Tx
DropPkts
Number of
discarded packets
transmitted on the
SAAL AAL5 link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455892
VS.SAALAAL5.Tx
Cells
Number of cells
transmitted on the
SAAL AAL5 link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455893
VS.SAALAAL5.Rx
Cells
Number of cells
received on the
SAAL AAL5 link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455894
VS.SAAL.ToAAL5
Pkts
Number of packets
successfully
transmitted to the
AAL5 layer from
the SAAL link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455895
VS.SAAL.ToAAL5
DropPkts
Number of
discarded packets
transmitted to the
AAL5 layer from
the SAAL link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455896
VS.SAAL.FromAA
L5Pkts
Number of packets
successfully
received from the
AAL5 layer on the
SAAL link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455897
VS.SAAL.FromAA
L5DropPkts
Number of
discarded packets
received from the
AAL5 layer on the
SAAL link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455898
VS.SAAL.FromUse
rPkts
Number of packets
received from the
user layer on the
SAAL link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455899
VS.SAAL.ToUserP
kts
Number of packets
successfully
transmitted to the
user layer on the
SAAL link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455900
VS.SAAL.ToUserF
ailedNumber
Number of packets
failed to be
transmitted to the
user layer on the
SAAL link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
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Counter Relationship
None
1.2.13.1.1 Number of Packets on the SAAL AAL5 link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455888
VS.SAALAAL
5.RxPkts
Number of
packets
received on the
SAAL AAL5
link
BTS3900,
BTS3900
WCDMA,
U
Number of
packets
transmitted on
the SAAL
AAL5 link
BTS3900,
BTS3900
WCDMA,
Number of
discarded
packets
received on the
SAAL AAL5
link
BTS3900,
BTS3900
WCDMA,
Number of
discarded
packets
transmitted on
the SAAL
AAL5 link
BTS3900,
BTS3900
WCDMA,
1542455889
1542455890
1542455891
VS.SAALAAL
5.TxPkts
VS.SAALAAL
5.RxDropPkts
VS.SAALAAL
5.TxDropPkts
BTS5900,
BTS5900
WCDMA
U
BTS5900,
BTS5900
WCDMA
U
BTS5900,
BTS5900
WCDMA
U
BTS5900,
BTS5900
WCDMA
Description
These counters measure the numbers of packets received on an SAAL link at the AAL5 layer,
packets transmitted on an SAAL link at the AAL5 layer, discarded packets received on an
SAAL link at the AAL5 layer, and discarded packets transmitted on an SAAL link at the
AAL5 layer. They indicate the traffic volume at the SAAL AAL5 layer.
Measurement Points
The numbers of packets successfully received, packets successfully transmitted, discarded
packets received, and discarded packets transmitted on a link are sampled every second. At
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the end of a measurement period, the sum of these sampling results is used as the value of the
corresponding counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.SAALAAL5.RxPkts
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-05030105
LTE: None
NR: None
VS.SAALAAL5.TxPkts
AAL5 permanent
connection on control
surfaces business
Multi-mode: None
GSM: None
UMTS: WRFD-05030105
LTE: None
NR: None
VS.SAALAAL5.RxDropPkt
s
Multi-mode: None
GSM: None
UMTS: WRFD-05030105
LTE: None
NR: None
VS.SAALAAL5.TxDropPkt
s
AAL5 permanent
connection on control
surfaces business
Multi-mode: None
GSM: None
UMTS: WRFD-05030105
LTE: None
NR: None
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AAL5 permanent
connection on control
surfaces business
Copyright © Huawei Technologies Co., Ltd.
AAL5 permanent
connection on control
surfaces business
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1.2.13.1.2 Number of Cells on the SAAL AAL5 link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455892
VS.SAALAAL
5.TxCells
Number of cells
transmitted on
the SAAL
AAL5 link
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
1542455893
VS.SAALAAL
5.RxCells
Number of cells
received on the
SAAL AAL5
link
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
These counters measure the numbers of cells on an SAAL link at the AAL5 layer within a
measurement period. They indicate the traffic volume at the SAAL AAL5 layer.
Measurement Points
The numbers of transmitted cells and received cells on a link are sampled every second. At
the end of a measurement period, the sum of these sampling results is used as the value of the
corresponding counter.
Formula
None
Unit
cell
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Related Features
Counter Name
Feature ID
VS.SAALAAL5.TxCells
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-05030105
LTE: None
NR: None
VS.SAALAAL5.RxCells
AAL5 permanent
connection on control
surfaces business
Multi-mode: None
GSM: None
UMTS: WRFD-05030105
LTE: None
NR: None
AAL5 permanent
connection on control
surfaces business
1.2.13.1.3 Number of packets successfully received to the AAL5 layer on the SAAL link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455894
VS.SAAL.ToA
AL5Pkts
Number of
packets
successfully
transmitted to
the AAL5 layer
from the SAAL
link
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the number of packets successfully transmitted to the AAL5 layer from
the upper-layer SAAL link within a measurement period. It indicates the traffic volume on the
SAAL link.
Measurement Points
This counter is measured when data to be transmitted to the AAL5 layer on the SAAL link in
a measurement period.
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Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.SAAL.ToAAL5Pkts
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-05030104
LTE: None
Dynamic AAL2 connection
on Iub/IuCS/Iur Interface
NR: None
1.2.13.1.4 Number of discarded packets received to the AAL5 layer on the SAAL link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455895
VS.SAAL.ToA
AL5DropPkts
Number of
discarded
packets
transmitted to
the AAL5 layer
from the SAAL
link
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the number of discarded packets transmitted to the AAL5 layer on an
SAAL link within a measurement period. It indicates the traffic volume on the SAAL link. A
packet is discarded when errors occur during frame encapsulation.
Measurement Points
This counter is measured when data fails to be transmitted to the AAL5 layer on the SAAL
link in a measurement period.
Formula
None
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Unit
packet
Related Features
Counter Name
Feature ID
VS.SAAL.ToAAL5DropPkt
s
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-05030104
LTE: None
Dynamic AAL2 connection
on Iub/IuCS/Iur Interface
NR: None
1.2.13.1.5 Number of packets successfully received from the AAL5 layer on the SAAL
link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455896
VS.SAAL.Fro
mAAL5Pkts
Number of
packets
successfully
received from
the AAL5 layer
on the SAAL
link
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the number of packets successfully received by the upper-layer SAAL
link from the AAL5 layer within a measurement period. It indicates the traffic volume on the
SAAL link.
Measurement Points
This counter is measured when data to be received from the AAL5 layer on the SAAL link in
a measurement period.
Formula
None
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Unit
packet
Related Features
Counter Name
Feature ID
VS.SAAL.FromAAL5Pkts
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-05030104
LTE: None
Dynamic AAL2 connection
on Iub/IuCS/Iur Interface
NR: None
1.2.13.1.6 Number of discarded packets received from the AAL5 layer on the SAAL link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455897
VS.SAAL.Fro
mAAL5DropPk
ts
Number of
discarded
packets
received from
the AAL5 layer
on the SAAL
link
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the number of discarded packets received from the AAL5 layer on an
SAAL link within a measurement period. It indicates the traffic volume on the SAAL link. A
packet is discarded when errors occur during frame encapsulation.
Measurement Points
This counter is measured when data fails to be received from the AAL5 layer on the SAAL
link in a measurement period.
Formula
None
Unit
packet
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Related Features
Counter Name
Feature ID
VS.SAAL.FromAAL5Drop
Pkts
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-05030104
LTE: None
Dynamic AAL2 connection
on Iub/IuCS/Iur Interface
NR: None
1.2.13.1.7 Number of packets received from the user layer on the SAAL link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455898
VS.SAAL.Fro
mUserPkts
Number of
packets
received from
the user layer
on the SAAL
link
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter provides the number of packets received from the signaling or ALCAP on an
SAAL path in a measurement period. It reflects the quality on the SAAL link.
Measurement Points
This counter is measured when data to be received from the application layer on the SAAL
link in a measurement period.
Formula
None
Unit
packet
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Related Features
Counter Name
Feature ID
VS.SAAL.FromUserPkts
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-05030104
LTE: None
Dynamic AAL2 connection
on Iub/IuCS/Iur Interface
NR: None
1.2.13.1.8 Number of packets successfully transmitted to the user layer on the SAAL link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455899
VS.SAAL.ToU
serPkts
Number of
packets
successfully
transmitted to
the user layer
on the SAAL
link
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter provides the number of packets successfully transmitted to the signaling or
ALCAP on an SAAL path in a measurement period. It reflects the quality on the SAAL link.
Measurement Points
This counter is measured when data to be transmitted to the application layer on the SAAL
link in a measurement period.
Formula
None
Unit
packet
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Related Features
Counter Name
Feature ID
VS.SAAL.ToUserPkts
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-05030104
LTE: None
Dynamic AAL2 connection
on Iub/IuCS/Iur Interface
NR: None
1.2.13.1.9 Number of packets failed to be transmitted to the user layer on the SAAL link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455900
VS.SAAL.ToU
serFailedNumb
er
Number of
packets failed
to be
transmitted to
the user layer
on the SAAL
link
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter provides the number of packets that failed to be transmitted to the signaling or
ALCAP on an SAAL path in a measurement period. It reflects the traffic on the SAAL link.
Measurement Points
This counter is measured when data fails to be transmitted to the application layer on the
SAAL link in a measurement period.
Formula
None
Unit
packet
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Related Features
Counter Name
Feature ID
Feature Name
VS.SAAL.ToUserFailedNu
mber
Multi-mode: None
GSM: None
UMTS: WRFD-05030104
LTE: None
Dynamic AAL2 connection
on Iub/IuCS/Iur Interface
NR: None
1.2.14 Measurement of IMAGRP Performance (IMAGRP)
Overview
The IMAGRP object type contains the function subsets related to IMA groups. It indicates the
traffic of services carried on IMA groups and the service quality.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
DataLink.IMAGRP
IMAGRP Measurement
1.2.14.1 IMAGRP Measurement (DataLink.IMAGRP)
Overview
The IMAGRP function subset measures traffic volumes carried on the transmission links. It
helps analyze the transmission quality of the system and ensure the stable and reliable running
of the system.
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455901
VS.IMAGRP.TxDr
opCells
Number of
discarded cells
transmitted on the
IMAGRP
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455902
VS.IMAGRP.TxCe
lls
Number of user cells
transmitted on the
IMAGRP
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455903
VS.IMAGRP.RxCe
lls
Number of user cells
received on the
IMAGRP
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455904
VS.IMAGRP.RxDr
opCells
Number of
discarded cells
received on the
IMAGRP
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
Counter Relationship
None
1.2.14.1.1 Number of Cells on the IMAGRP
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455901
VS.IMAGRP.T
xDropCells
Number of
discarded cells
transmitted on
the IMAGRP
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455902
VS.IMAGRP.T
xCells
Number of user
cells
transmitted on
the IMAGRP
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
1542455903
VS.IMAGRP.R
xCells
Number of user
cells received
on the
IMAGRP
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
1542455904
VS.IMAGRP.R
xDropCells
Number of
discarded cells
received on the
IMAGRP
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
The following table describes the meanings of each counter.
Counter Name
Description
VS.IMAGRP.TxDropCells
This counter measures the number of
discarded user cells transmitted on an IMA
group due to ATM layer congestion within a
measurement period. It indicates the quality
of the IMA group.
VS.IMAGRP.TxCells
This counter measures the number of cells
transmitted on an IMA group within a
measurement period. It indicates the traffic
volume on the IMA group.
VS.IMAGRP.RxCells
This counter measures the number of cells
received on an IMA group within a
measurement period. It indicates the traffic
volume on the IMA group.
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Counter Name
Description
VS.IMAGRP.RxDropCells
This counter measures the numbers of
discarded user cells received on an IMA
group due to ATM layer congestion within a
measurement period. It indicates the quality
of the IMA group.
Measurement Points
The numbers cells received, cells transmitted, discarded cells received, and discarded cells
transmitted on a link are sampled every second. At the end of a measurement period, the sum
of these sampling results is used as the value of the corresponding counter.
Formula
None
Unit
cell
Related Features
Counter Name
Feature ID
VS.IMAGRP.TxDropCells
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-050304
LTE: None
IMA over E1T1 or STM-1/
OC-3 on Iub Interface
NR: None
VS.IMAGRP.TxCells
Multi-mode: None
GSM: None
UMTS: WRFD-050304
LTE: None
IMA over E1T1 or STM-1/
OC-3 on Iub Interface
NR: None
VS.IMAGRP.RxCells
Multi-mode: None
GSM: None
UMTS: WRFD-050304
LTE: None
IMA over E1T1 or STM-1/
OC-3 on Iub Interface
NR: None
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Counter Name
Feature ID
Feature Name
VS.IMAGRP.RxDropCells
Multi-mode: None
GSM: None
UMTS: WRFD-050304
LTE: None
IMA over E1T1 or STM-1/
OC-3 on Iub Interface
NR: None
1.2.15 Measurement of IPoA Performance (IPOAAAL5)
Overview
The IPOAAAL5 object type contains the function subsets related to IPOA AAL5. It indicates
the traffic of services carried on IPOA AAL5 and the service quality.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Transport.IPOAAAL5
IPoA Measurement
1.2.15.1 IPoA Measurement (Transport.IPOAAAL5)
Overview
The IPoA AAL5 function subset measures the traffic volume carried on a transmission link at
the ATM layer. It helps analyze the transmission quality of the system and ensure the stable
and reliable running of the system.
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455905
VS.IPOAAAL5.Rx
Pkts
Number of packets
received on the
IPOA AAL5 link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455906
VS.IPOAAAL5.Tx
Pkts
Number of packets
transmitted on the
IPOA AAL5 link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455907
VS.IPOAAAL5.Rx
DropPkts
Number of
discarded packets
received on the
IPOA AAL5 link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455908
VS.IPOAAAL5.Tx
DropPkts
Number of
discarded packets
transmitted on the
IPOA AAL5 link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455909
VS.IPOAAAL5.Tx
Cells
Number of cells
transmitted on the
IPOA AAL5 link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
1542455910
VS.IPOAAAL5.Rx
Cells
Number of cells
received on the
IPOA AAL5 link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
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Counter Relationship
None
1.2.15.1.1 Number of Packets on the IPOA AAL5 link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455905
VS.IPOAAAL5
.RxPkts
Number of
packets
received on the
IPOA AAL5
link
BTS3900,
BTS3900
WCDMA,
U
Number of
packets
transmitted on
the IPOA
AAL5 link
BTS3900,
BTS3900
WCDMA,
Number of
discarded
packets
received on the
IPOA AAL5
link
BTS3900,
BTS3900
WCDMA,
Number of
discarded
packets
transmitted on
the IPOA
AAL5 link
BTS3900,
BTS3900
WCDMA,
1542455906
1542455907
1542455908
VS.IPOAAAL5
.TxPkts
VS.IPOAAAL5
.RxDropPkts
VS.IPOAAAL5
.TxDropPkts
BTS5900,
BTS5900
WCDMA
U
BTS5900,
BTS5900
WCDMA
U
BTS5900,
BTS5900
WCDMA
U
BTS5900,
BTS5900
WCDMA
Description
These counters measure the numbers of packets received on an IPoA link at the AAL5 layer,
packets transmitted on an IPoA link at the AAL5 layer, discarded packets received on an
IPoA link at the AAL5 layer, and discarded packets transmitted on an IPoA link at the AAL5
layer within a measurement period. They indicate the traffic volume at the IPoA AAL5 layer.
In the TX direction, a packet is discarded when errors occur during frame encapsulation. In
the RX direction, a packet is discarded when errors occur during the check and reassembly.
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Measurement Points
The numbers of packets received, packets transmitted, discarded packets received, and
discarded packets transmitted on an IPoA link at the AAL5 layer are sampled every second.
At the end of a measurement period, the sum of these sampling results is used as the value of
the corresponding counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.IPOAAAL5.RxPkts
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-05030105
LTE: None
NR: None
VS.IPOAAAL5.TxPkts
AAL5 permanent
connection on control
surfaces business
Multi-mode: None
GSM: None
UMTS: WRFD-05030105
LTE: None
NR: None
VS.IPOAAAL5.RxDropPkt
s
Multi-mode: None
GSM: None
UMTS: WRFD-05030105
LTE: None
NR: None
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AAL5 permanent
connection on control
surfaces business
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connection on control
surfaces business
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Counter Name
Feature ID
VS.IPOAAAL5.TxDropPkts
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-05030105
LTE: None
NR: None
AAL5 permanent
connection on control
surfaces business
1.2.15.1.2 Number of Cells on the IPOA AAL5 link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455909
VS.IPOAAAL5
.TxCells
Number of cells
transmitted on
the IPOA
AAL5 link
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
1542455910
VS.IPOAAAL5
.RxCells
Number of cells
received on the
IPOA AAL5
link
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
These counters measure the numbers of packets transmitted and received on an IPoA link at
the AAL5 layer. They indicate the traffic volume at the IPoA AAL5 layer.
Measurement Points
The numbers of transmitted cells and received cells on a link are sampled every second. At
the end of a measurement period, the sum of these sampling results is used as the value of the
corresponding counter.
Formula
None
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Unit
cell
Related Features
Counter Name
Feature ID
Feature Name
VS.IPOAAAL5.TxCells
Multi-mode: None
GSM: None
UMTS: WRFD-05030105
LTE: None
NR: None
VS.IPOAAAL5.RxCells
AAL5 permanent
connection on control
surfaces business
Multi-mode: None
GSM: None
UMTS: WRFD-05030105
LTE: None
NR: None
AAL5 permanent
connection on control
surfaces business
1.2.16 Measurement of Trunk Performance (TRUNK)
Overview
The object type TRUNK measurement contains the TRUNK-related function subset. It
represents the traffic volume of services carried by the TRUNK in the base station and the
quality of service.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Datalink.TRUNK
Trunk Measurement
1.2.16.1 Trunk Measurement (Datalink.TRUNK)
Overview
The Datalink.TRUNK function subset measures the data rate in the TRUNK. It represents the
traffic volume of services carried by the TRUNK in the base station and the quality of service.
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Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542456126
VS.TRUNK.TxPac
kets
Number of packets
transmitted in
TRUNK
BTS3900:
V100R010C10
BTS3900 WCDMA:
V100R010C10
BTS3900 LTE:
V100R010C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542456127
VS.TRUNK.RxPac
kets
Number of packets
received in TRUNK
BTS3900:
V100R010C10
BTS3900 WCDMA:
V100R010C10
BTS3900 LTE:
V100R010C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542456128
VS.TRUNK.RxErr
Packets
Number of error
packets received in
TRUNK
BTS3900:
V100R010C10
BTS3900 WCDMA:
V100R010C10
BTS3900 LTE:
V100R010C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460302
VS.TRUNK.TxTot
alBW
Total transmission
bandwidth in
TRUNK
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460303
VS.TRUNK.RxTot
alBW
Total receive
bandwidth in
TRUNK
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460304
VS.TRUNK.RxMa
xSpeed
Maximum Receive
Rate in TRUNK
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460305
VS.TRUNK.RxMe
anSpeed
Mean Receive Rate
in TRUNK
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460306
VS.TRUNK.TxMa
xSpeed
Maximum transmit
Rate in TRUNK
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460307
VS.TRUNK.TxMe
anSpeed
Mean transmit Rate
in TRUNK
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
1.2.16.1.1 Number of Packets on the TRUNK
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542456126
VS.TRUNK.Tx
Packets
Number of
packets
transmitted in
TRUNK
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542456127
VS.TRUNK.Rx
Packets
Number of
packets
received in
TRUNK
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542456128
VS.TRUNK.Rx
ErrPackets
Number of
error packets
received in
TRUNK
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters measure the numbers of packets transmitted, packets received, and error
packets received by a trunk. They indicate the link state of the trunk.
Measurement Points
The number of packets transmitted, packets received, or error packets received by a trunk is
sampled per second. At the end of a measurement period, the sum of these sampling results is
used as the value of the corresponding counter.
Received error packets include error packets received on a physical path and error packets
detected during a CRC. Error packets received on a physical path include those with
erroneous headers, discarded by a MAC address, filtered out by an L2 ACL rule, discarded
due to erroneous protocol types, and discarded ARP MISS packets.
Formula
None
Unit
packet
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Related Features
Counter Name
Feature ID
Feature Name
VS.TRUNK.TxPackets
Multi-mode: MRFD-210103
Link Aggregation
GSM: None
UMTS: None
LTE: LOFD-003008
TDLOFD-003008
NR: FOFD-010060
Ethernet Link Aggregation
(IEEE 802.3ad)
Ethernet Link Aggregation
(IEEE 802.3ad)
Transmission Network
Detection and Reliability
Improvement
VS.TRUNK.RxPackets
Multi-mode: MRFD-210103
Link Aggregation
GSM: None
UMTS: None
LTE: LOFD-003008
TDLOFD-003008
NR: FOFD-010060
Ethernet Link Aggregation
(IEEE 802.3ad)
Ethernet Link Aggregation
(IEEE 802.3ad)
Transmission Network
Detection and Reliability
Improvement
VS.TRUNK.RxErrPackets
Multi-mode: MRFD-210103
Link Aggregation
GSM: None
UMTS: None
LTE: LOFD-003008
TDLOFD-003008
NR: FOFD-010060
Ethernet Link Aggregation
(IEEE 802.3ad)
Ethernet Link Aggregation
(IEEE 802.3ad)
Transmission Network
Detection and Reliability
Improvement
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1.2.16.1.2 Available Bandwidth on the TRUNK
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460302
VS.TRUNK.Tx
TotalBW
Total
transmission
bandwidth in
TRUNK
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542460303
VS.TRUNK.Rx
TotalBW
Total receive
bandwidth in
TRUNK
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters provide the total transmit and receive bandwidths of a trunk group in the
current measurement period, reflecting the bandwidth of the trunk group. The total bandwidth
of a trunk group is indicated by its available bandwidth. The total available transmit
bandwidth is the sum of available transmit bandwidths of all member ports in the trunk group.
For details, see the meaning of the VS.FEGE.TxTotalBW counter. The total available receive
bandwidth is the sum of available receive bandwidths of all member ports in the trunk group.
For details, see the meaning of the VS.FEGE.RxTotalBW counter.
Measurement Points
Available bandwidth in the transmit and receive directions of the trunk group per second. At
the end of a measurement period, the average of these sampling results is used as the value of
the corresponding counter.
Formula
None
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Unit
kbit/s
Related Features
Counter Name
Feature ID
Feature Name
VS.TRUNK.TxTotalBW
Multi-mode: MRFD-210103
Link Aggregation
GSM: None
UMTS: None
LTE: LOFD-003008
TDLOFD-003008
NR: FOFD-010060
Ethernet Link Aggregation
(IEEE 802.3ad)
Ethernet Link Aggregation
(IEEE 802.3ad)
Transmission Network
Detection and Reliability
Improvement
VS.TRUNK.RxTotalBW
Multi-mode: MRFD-210103
Link Aggregation
GSM: None
UMTS: None
LTE: LOFD-003008
TDLOFD-003008
NR: FOFD-010060
Ethernet Link Aggregation
(IEEE 802.3ad)
Ethernet Link Aggregation
(IEEE 802.3ad)
Transmission Network
Detection and Reliability
Improvement
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1.2.16.1.3 Rate on the TRUNK
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460304
VS.TRUNK.Rx
MaxSpeed
Maximum
Receive Rate in
TRUNK
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542460305
VS.TRUNK.Rx
MeanSpeed
Mean Receive
Rate in
TRUNK
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542460306
VS.TRUNK.Tx
MaxSpeed
Maximum
transmit Rate in
TRUNK
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460307
VS.TRUNK.Tx
MeanSpeed
Mean transmit
Rate in
TRUNK
BTS3900,
BTS3900
WCDMA,
G,U,L,R,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters measure the maximum and average transmit rate and receive rate on the trunk
within a measurement period. They indicate the link state of the trunk.
Measurement Points
The transmit rate or the receive rate on the trunk is sampled every second. At the end of a
measurement period, the maximum or average of these sampling results is used as the value
of the corresponding counter.
Formula
None
Unit
kbit/s
Related Features
Counter Name
Feature ID
Feature Name
VS.TRUNK.RxMaxSpeed
Multi-mode: MRFD-210103
Link Aggregation
GSM: None
UMTS: None
LTE: LOFD-003008
TDLOFD-003008
NR: FOFD-010060
Ethernet Link Aggregation
(IEEE 802.3ad)
Ethernet Link Aggregation
(IEEE 802.3ad)
Transmission Network
Detection and Reliability
Improvement
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Counter Name
Feature ID
Feature Name
VS.TRUNK.RxMeanSpeed
Multi-mode: MRFD-210103
Link Aggregation
GSM: None
UMTS: None
LTE: LOFD-003008
TDLOFD-003008
NR: FOFD-010060
Ethernet Link Aggregation
(IEEE 802.3ad)
Ethernet Link Aggregation
(IEEE 802.3ad)
Transmission Network
Detection and Reliability
Improvement
VS.TRUNK.TxMaxSpeed
Multi-mode: MRFD-210103
Link Aggregation
GSM: None
UMTS: None
LTE: LOFD-003008
TDLOFD-003008
NR: FOFD-010060
Ethernet Link Aggregation
(IEEE 802.3ad)
Ethernet Link Aggregation
(IEEE 802.3ad)
Transmission Network
Detection and Reliability
Improvement
VS.TRUNK.TxMeanSpeed
Multi-mode: MRFD-210103
Link Aggregation
GSM: None
UMTS: None
LTE: LOFD-003008
TDLOFD-003008
NR: FOFD-010060
Ethernet Link Aggregation
(IEEE 802.3ad)
Ethernet Link Aggregation
(IEEE 802.3ad)
Transmission Network
Detection and Reliability
Improvement
1.2.17 Measurement of Integrated Firewall Performance (Firewall)
Overview
The Firewall object type contains the function subsets related to the built-in firewall. It
indicates the security status of the base station.
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FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Transport.Firewall
Integrated Firewall Measurement
1.2.17.1 Integrated Firewall Measurement (Transport.Firewall)
Overview
The firewall function subset measures the state of firewall. It helps to analyze the firewall
state.
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460338
VS.Firewall.RxL2
ACLFilterDropPkt
s
Number of
discarded packets
due to L2 ACL filter
based on port
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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3900 Series & 5900 Series Base Station
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460339
VS.Firewall.RxAdv
ACLFilterDropPkt
s
Number of
discarded packets
due to advanced
ACL filter based on
port
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
1.2.17.1.1 Number of discarded packets due to L2 ACL filter based on port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460338
VS.Firewall.Rx
L2ACLFilterDr
opPkts
Number of
discarded
packets due to
L2 ACL filter
based on port
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
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Description
This counter measures the number of discarded packets due to L2 ACL filter based on ports
within a measurement period. A packet is discarded when it matches the ACL rule and the
ACL rule rejects it.
Disuse Statement:
This counter will be replaced by the VS.PacketFilter.RxL2ACLFilterDropPkts counter in later
versions. In the current version, this counter can be reported normally when Transmission
Configuration Mode in the GTRANSPARA MO is set to OLD, but is replaced by the
VS.PacketFilter.RxL2ACLFilterDropPkts counter when Transmission Configuration Mode in
the GTRANSPARA MO is set to NEW. This counter will be removed from later versions.
Therefore, avoid using this counter.
Measurement Points
The number of discarded packets received due to L2 ACL filter based on port is sampled per
second. At the end of a measurement period, the sum of these sampling results is used as the
value of the counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.Firewall.RxL2ACLFilter
DropPkts
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: LOFD-003014
TDLOFD-003014
MLOFD-003009
NR: FBFD-010023
Feature Name
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
Integrated Firewall
Integrated Firewall
IPsec
Security Mechanism
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1.2.17.1.2 Number of discarded packets due to advanced ACL filter based on port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460339
VS.Firewall.Rx
AdvACLFilter
DropPkts
Number of
discarded
packets due to
advanced ACL
filter based on
port
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of discarded packets due to advanced ACL filter based on
ports within a measurement period. Advanced ACLs refer to L3 and L4 ACLs. A packet is
discarded when it matches the ACL rule and the ACL rule rejects it.
Disuse Statement:
This counter will be replaced by the VS.PacketFilter.RxAdvACLFilterDropPkts counter in
later versions. In the current version, this counter can be reported normally when
Transmission Configuration Mode in the GTRANSPARA MO is set to OLD, but is replaced
by the VS.PacketFilter.RxAdvACLFilterDropPkts counter when Transmission Configuration
Mode in the GTRANSPARA MO is set to NEW. This counter will be removed from later
versions. Therefore, avoid using this counter.
Measurement Points
The number of discarded packets received due to advanced ACL filter based on port is
sampled per second. At the end of a measurement period, the sum of these sampling results is
used as the value of the counter.
Formula
None
Unit
packet
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
Feature Name
VS.Firewall.RxAdvACLFilt
erDropPkts
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: LOFD-003014
TDLOFD-003014
MLOFD-003009
NR: FBFD-010023
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
Integrated Firewall
Integrated Firewall
IPsec
Security Mechanism
1.2.18 Measurement of IKE Performance (IKE)
Overview
The IKE object type contains the function subsets related to the IKE. It indicates the IKE
negotiation traffic and the service quality.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Transport.IKE
IKE Measurement
1.2.18.1 IKE Measurement (Transport.IKE)
Overview
The IKE function subset measures the state of IKE. It helps to analyze the IKE state.
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Node Performance Counter Reference
1 Node Performance Counter Measurement
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460340
VS.IKE.RxPackets
Number of IKE
packets received
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460341
VS.IKE.TxPackets
Number of IKE
packets transmitted
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460342
VS.IKE.SubSARek
ey.Times
Number of Re-keys
Performed by IKE
Child SA
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460343
VS.IKE.DPDSessio
nFail.Times
Number of Failed
DPD Sessions
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460496
VS.IKE.Init.ChildS
ARekeyFail.Times
Number of Failed
Initiations of Re-key
Negotiations for
IKE Child SA
BTS3900:
V100R012C10
BTS3900 WCDMA:
V100R012C10
BTS3900 LTE:
V100R012C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460497
VS.IKE.Response.
ChildSARekeyFail.
Times
Number of Failed
Responses to Re-key
Negotiations for
IKE Child SA
BTS3900:
V100R012C10
BTS3900 WCDMA:
V100R012C10
BTS3900 LTE:
V100R012C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460498
VS.IKE.Init.ChildS
ARekeySucc.Times
Number of
Successful
Initiations of Re-key
Negotiations for
IKE Child SA
BTS3900:
V100R012C10
BTS3900 WCDMA:
V100R012C10
BTS3900 LTE:
V100R012C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460499
VS.IKE.Response.
ChildSARekeySucc
.Times
Number of
Successful
Responses to Re-key
Negotiations for
IKE Child SA
BTS3900:
V100R012C10
BTS3900 WCDMA:
V100R012C10
BTS3900 LTE:
V100R012C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460500
VS.IKE.Init.SARek
eySucc.Times
Number of
Successful
Initiations of Re-key
Negotiations for
IKE SA
BTS3900:
V100R012C10
BTS3900 WCDMA:
V100R012C10
BTS3900 LTE:
V100R012C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460501
VS.IKE.Response.S
ARekeySucc.Times
Number of
Successful
Responses to Re-key
Negotiations for
IKE SA
BTS3900:
V100R012C10
BTS3900 WCDMA:
V100R012C10
BTS3900 LTE:
V100R012C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Copyright © Huawei Technologies Co., Ltd.
559
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460502
VS.IKE.Init.SARek
eyFail.Times
Number of Failed
Initiations of Re-key
Negotiations for
IKE SA
BTS3900:
V100R012C10
BTS3900 WCDMA:
V100R012C10
BTS3900 LTE:
V100R012C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460503
VS.IKE.Response.S
ARekeyFail.Times
Number of Failed
Responses to Re-key
Negotiations for
IKE SA
BTS3900:
V100R012C10
BTS3900 WCDMA:
V100R012C10
BTS3900 LTE:
V100R012C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
560
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460504
VS.IKE.Init.V2Rea
uthSucc.Times
Number of
Successful
Initiations of IKEv2
Re-authentications
BTS3900:
V100R012C10
BTS3900 WCDMA:
V100R012C10
BTS3900 LTE:
V100R012C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460505
VS.IKE.Response.
V2ReauthSucc.Tim
es
Number of
Successful
Responses to IKEv2
Re-authentications
BTS3900:
V100R012C10
BTS3900 WCDMA:
V100R012C10
BTS3900 LTE:
V100R012C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460506
VS.IKE.Init.V2Rea
uthFail.Times
Number of Failed
Initiations of IKEv2
Re-authentications
BTS3900:
V100R012C10
BTS3900 WCDMA:
V100R012C10
BTS3900 LTE:
V100R012C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460507
VS.IKE.Response.
V2ReauthFail.Tim
es
Number of Failed
Responses to IKEv2
Re-authentications
BTS3900:
V100R012C10
BTS3900 WCDMA:
V100R012C10
BTS3900 LTE:
V100R012C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460510
VS.IKE.Receive.In
validSPIPackets
Number of Received
IP or ESP Packets
with SPI That Does
Not Match an
Existing SA
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
1.2.18.1.1 Number of IKE packets received
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460340
VS.IKE.RxPac
kets
Number of IKE
packets
received
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of IKE packets received by the base station.
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
The number of IKE packets received is sampled per second. At the end of a measurement
period, the sum of these sampling results is used as the value of the counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.IKE.RxPackets
Multi-mode: None
Feature Name
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.18.1.2 Number of IKE packets transmitted
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460341
VS.IKE.TxPack
ets
Number of IKE
packets
transmitted
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of IKE packets transmitted.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
The number of IKE packets transmitted is sampled per second. At the end of a measurement
period, the sum of these sampling results is used as the value of the counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.IKE.TxPackets
Multi-mode: None
Feature Name
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.18.1.3 Number of Re-keys Performed by IKE Child SA
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460342
VS.IKE.SubSA
Rekey.Times
Number of Rekeys Performed
by IKE Child
SA
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides the number of re-keys performed by the IKE child SA of a base station.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
When the IKE child SA of a base station performs one re-key, the value of this counter is
incremented by one within a measurement period.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKE.SubSARekey.Times
Multi-mode: None
Feature Name
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.18.1.4 Number of Failed DPD Sessions
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460343
VS.IKE.DPDSe
ssionFail.Times
Number of
Failed DPD
Sessions
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter provides the number of failed DPD sessions in a base station, that is, the number
of expired DPD sessions after the SA negotiation in the second phase succeeds.
Measurement Points
The base station takes samples of the number of disconnected IKE links caused by failed DPD
sessions every 30 seconds. At the end of a measurement period, the sum of all sampling
values is used as the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKE.DPDSessionFail.Ti
mes
Multi-mode: None
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
Issue Draft C (2019-04-10)
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IPsec
567
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.18.1.5 Number of Failed Initiations of Re-key Negotiations for IKE Child SA
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460496
VS.IKE.Init.Chi
ldSARekeyFail.
Times
Number of
Failed
Initiations of
Re-key
Negotiations for
IKE Child SA
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of times that a base station fails to initiate a re-key
negotiation for IKE child SA.
Measurement Points
In a measurement period, when a base station fails to initiate a re-key negotiation for IKE
child SA, the value of this counter is incremented by one and the accumulated number within
this measurement period is used as the value of this counter.
Formula
None
Unit
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
568
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.IKE.Init.ChildSARekey
Fail.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.18.1.6 Number of Failed Responses to Re-key Negotiations for IKE Child SA
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460497
VS.IKE.Respon
se.ChildSARek
eyFail.Times
Number of
Failed
Responses to
Re-key
Negotiations for
IKE Child SA
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of times that a base station fails to respond to a re-key
negotiation request for IKE child SA.
Measurement Points
In a measurement period, when a base station fails to respond to a re-key negotiation request
for IKE child SA of the base station, the value of this counter is incremented by one and the
accumulated number within this measurement period is used as the value of this counter.
Formula
None
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Unit
None
Related Features
Counter Name
Feature ID
VS.IKE.Response.ChildSA
RekeyFail.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.18.1.7 Number of Successful Initiations of Re-key Negotiations for IKE Child SA
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460498
VS.IKE.Init.Chi
ldSARekeySuc
c.Times
Number of
Successful
Initiations of
Re-key
Negotiations for
IKE Child SA
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of times that a base station successfully initiates a re-key
negotiation for IKE child SA.
Measurement Points
In a measurement period, when a base station successfully initiates a re-key negotiation for
IKE child SA, the value of this counter is incremented by one and the accumulated number
within this measurement period is used as the value of this counter.
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKE.Init.ChildSARekey
Succ.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.18.1.8 Number of Successful Responses to Re-key Negotiations for IKE Child SA
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460499
VS.IKE.Respon
se.ChildSARek
eySucc.Times
Number of
Successful
Responses to
Re-key
Negotiations for
IKE Child SA
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of times that a base station successfully responds to a rekey request negotiation for IKE child SA.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
In a measurement period, when a base station successfully responds to a re-key negotiation
request for IKE child SA, the value of this counter is incremented by one and the accumulated
number within this measurement period is used as the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKE.Response.ChildSA
RekeySucc.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.18.1.9 Number of Successful Initiations of Re-key Negotiations for IKE SA
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460500
VS.IKE.Init.SA
RekeySucc.Tim
es
Number of
Successful
Initiations of
Re-key
Negotiations for
IKE SA
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
572
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of times that a base station successfully initiates a re-key
negotiation for IKE SA.
Measurement Points
In a measurement period, when a base station successfully initiates a re-key negotiation for
IKE SA, the value of this counter is incremented by one and the accumulated number within
this measurement period is used as the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKE.Init.SARekeySucc.
Times
Multi-mode: None
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
Issue Draft C (2019-04-10)
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IPsec
573
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.18.1.10 Number of Successful Responses to Re-key Negotiations for IKE SA
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460501
VS.IKE.Respon
se.SARekeySuc
c.Times
Number of
Successful
Responses to
Re-key
Negotiations for
IKE SA
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of times that a base station successfully responds to a rekey request negotiation for IKE SA.
Measurement Points
In a measurement period, when a base station successfully responds to a re-key negotiation
request for IKE SA, the value of this counter is incremented by one and the accumulated
number within this measurement period is used as the value of this counter.
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
VS.IKE.Response.SARekey
Succ.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.18.1.11 Number of Failed Initiations of Re-key Negotiations for IKE SA
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460502
VS.IKE.Init.SA
RekeyFail.Time
s
Number of
Failed
Initiations of
Re-key
Negotiations for
IKE SA
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of times that a base station fails to initiate a re-key
negotiation for IKE SA.
Measurement Points
In a measurement period, when a base station fails to initiate a re-key negotiation for IKE SA,
the value of this counter is incremented by one and the accumulated number within this
measurement period is used as the value of this counter.
Formula
None
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Unit
None
Related Features
Counter Name
Feature ID
VS.IKE.Init.SARekeyFail.T
imes
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.18.1.12 Number of Failed Responses to Re-key Negotiations for IKE SA
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460503
VS.IKE.Respon
se.SARekeyFail
.Times
Number of
Failed
Responses to
Re-key
Negotiations for
IKE SA
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of times that a base station fails to respond to a re-key
negotiation request for IKE SA.
Measurement Points
In a measurement period, when a base station fails to respond to a re-key negotiation request
for IKE SA, the value of this counter is incremented by one and the accumulated number
within this measurement period is used as the value of this counter.
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Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKE.Response.SARekey
Fail.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.18.1.13 Number of Successful Initiations of IKEv2 Re-authentications
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460504
VS.IKE.Init.V2
ReauthSucc.Ti
mes
Number of
Successful
Initiations of
IKEv2 Reauthentications
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of times that a base station successfully initiates an IKEv2
re-authentication.
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Measurement Points
In a measurement period, when a base station successfully initiates an IKEv2 reauthentication, the sum of the successful re-authentication initiations at the first and second
stages of the measurement period is used as the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKE.Init.V2ReauthSucc.
Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.18.1.14 Number of Successful Responses to IKEv2 Re-authentications
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460505
VS.IKE.Respon
se.V2ReauthSu
cc.Times
Number of
Successful
Responses to
IKEv2 Reauthentications
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
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Description
This counter measures the number of times that a base station successfully responds to an
IKEv2 re-authentication request.
Measurement Points
In a measurement period, when a base station successfully responds to an IKEv2 reauthentication request, the sum of the successful responses to re-authentication requests at the
first and second stages of the measurement period is used as the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKE.Response.V2Reaut
hSucc.Times
Multi-mode: None
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
Issue Draft C (2019-04-10)
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IPsec
579
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.18.1.15 Number of Failed Initiations of IKEv2 Re-authentications
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460506
VS.IKE.Init.V2
ReauthFail.Tim
es
Number of
Failed
Initiations of
IKEv2 Reauthentications
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of times that a base station fails to initiate an IKEv2 reauthentication.
Measurement Points
In a measurement period, when a base station fails to initiate an IKEv2 re-authentication, the
sum of the failed re-authentication initiations at the first and second stages of the
measurement period is used as the value of this counter.
Formula
None
Unit
None
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.IKE.Init.V2ReauthFail.T
imes
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.18.1.16 Number of Failed Responses to IKEv2 Re-authentications
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460507
VS.IKE.Respon
se.V2ReauthFai
l.Times
Number of
Failed
Responses to
IKEv2 Reauthentications
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of times that a base station fails to respond to an IKEv2 reauthentication request.
Measurement Points
In a measurement period, when a base station fails to respond to an IKEv2 re-authentication
request, the sum of the failed responses to re-authentication requests at the first and second
stages of the measurement period is used as the value of this counter.
Formula
None
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Unit
None
Related Features
Counter Name
Feature ID
VS.IKE.Response.V2Reaut
hFail.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.18.1.17 Number of Received IP or ESP Packets with SPI That Does Not Match an
Existing SA
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460510
VS.IKE.Receiv
e.InvalidSPIPac
kets
Number of
Received IP or
ESP Packets
with SPI That
Does Not
Match an
Existing SA
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of received IP or ESP packets with SPI that does not match
an existing SA.
Measurement Points
In a measurement period, when a base station receives a packet indicating that the security
parameter index (SPI) does not match the existing SA, the value of this counter is
incremented by one and the accumulated number within this measurement period is used as
the value of this counter.
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Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
Feature Name
VS.IKE.Receive.InvalidSPI
Packets
Multi-mode: None
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
NR: FOFD-010080
IPsec
IPsec
1.2.19 Measurement of IPSec Performance (IPSec)
Overview
The IPSec object type contains the function subsets related to IPSec. It indicates the IPSec
traffic and the service quality.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Transport.IPSec
IPSec Measurement
1.2.19.1 IPSec Measurement (Transport.IPSec)
Overview
The IPSec function subset measures the state of IPSec. It helps to analyze the IPSec state.
Figure 1-25 shows the position of the IPSec layer in the TCP/IP model.
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Figure 1-25
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460344
VS.IPSec.RxCheck
ReplayFailDropPkt
s
Number of
discarded packets
received due to
replay checking fail
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460345
VS.IPSec.RxAHCh
eckFailDropPkts
Number of
discarded packets
received due to AH
checking fail
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460346
VS.IPSec.RxESPFa
ilDropPkts
Number of
discarded packets
received due to ESP
fail
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460347
VS.IPSec.RxDecry
ptACLFailDropPkt
s
Number of
discarded packets
received due to
decrypt ACL fail
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460348
VS.IPSec.RxDecry
ptSuccessPkts
Number of decrypt
success packets
received
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460349
VS.IPSec.TxOutbo
undSAMissDropPk
ts
Number of
discarded packets
transmitted due to
outbound SA miss
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460350
VS.IPSec.TxAntiR
eplaySnWrappedD
ropPkts
Number of
discarded packets
transmitted due to
sequence number
overflow
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460351
VS.IPSec.TxEncry
ptSuccessPkts
Number of encrypt
success packets
transmitted
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460508
VS.IPSec.SABuilt.
Times
Number of IPsec SA
Establishments
BTS3900:
V100R012C10
BTS3900 WCDMA:
V100R012C10
BTS3900 LTE:
V100R012C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460509
VS.IPSec.SADel.Ti
mes
Number of IPsec SA
Deletions
BTS3900:
V100R012C10
BTS3900 WCDMA:
V100R012C10
BTS3900 LTE:
V100R012C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
1.2.19.1.1 Number of discarded packets received due to replay checking fail
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460344
VS.IPSec.RxCh
eckReplayFailD
ropPkts
Number of
discarded
packets
received due to
replay checking
fail
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of packets discarded by the receiver end of the base station
if these packets fail the replay checking within a measurement period. A packet received by
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the local end is discarded if it is duplicated or its sequence number is less than any packet in
the anti-replay checking window.
Measurement Points
The number of discarded packets received due to replay checking fail is sampled per second.
At the end of a measurement period, the sum of these sampling results is used as the value of
the counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.IPSec.RxCheckReplayF
ailDropPkts
Multi-mode: None
Feature Name
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.19.1.2 Number of discarded packets received due to AH checking fail
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460345
VS.IPSec.RxA
HCheckFailDro
pPkts
Number of
discarded
packets
received due to
AH checking
fail
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
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Description
This counter measures the number of packets discarded by the base station RX due to the AH
authentication failure.
Measurement Points
The number of discarded packets received due to AH checking fail is sampled per second. At
the end of a measurement period, the sum of these sampling results is used as the value of the
counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.IPSec.RxAHCheckFailD
ropPkts
Multi-mode: None
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
Issue Draft C (2019-04-10)
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IPsec
591
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.19.1.3 Number of discarded packets received due to ESP fail
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460346
VS.IPSec.RxES
PFailDropPkts
Number of
discarded
packets
received due to
ESP fail
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of packets discarded by the base station RX due to the ESP
authentication failure or decryption failure.
Measurement Points
The number of discarded packets received due to ESP fail is sampled per second. At the end
of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.IPSec.RxESPFailDropP
kts
Multi-mode: None
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
Issue Draft C (2019-04-10)
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IPsec
592
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.19.1.4 Number of discarded packets received due to decrypt ACL fail
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460347
VS.IPSec.RxDe
cryptACLFailD
ropPkts
Number of
discarded
packets
received due to
decrypt ACL
fail
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of packets discarded by the receiver end of the base station
if these packets should not have been encrypted. Such packets refer to those cannot match
with the ACLRULE of the SA after being decrypted.
Measurement Points
Samples are taken every 1s to measure the number of packets that are discarded because they
are encrypted, but should not be encrypted, by the receiver end of the base station. At the end
of a measurement period, the sum of all sampling values is used as the value of the
corresponding counter.
Formula
None
Unit
packet
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3900 Series & 5900 Series Base Station
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1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.IPSec.RxDecryptACLFa
ilDropPkts
Multi-mode: None
Feature Name
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.19.1.5 Number of decrypt success packets received
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460348
VS.IPSec.RxDe
cryptSuccessPk
ts
Number of
decrypt success
packets
received
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of packets successfully decrypted by the base station RX.
Measurement Points
The number of packets decryption successful received is sampled per second. At the end of a
measurement period, the sum of these sampling results is used as the value of the counter.
Formula
None
Unit
packet
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Copyright © Huawei Technologies Co., Ltd.
594
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.IPSec.RxDecryptSucces
sPkts
Multi-mode: None
Feature Name
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.19.1.6 Number of discarded packets transmitted due to outbound SA miss
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460349
VS.IPSec.TxOu
tboundSAMiss
DropPkts
Number of
discarded
packets
transmitted due
to outbound SA
miss
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of packets discarded by the base station TX due to
outbound SA miss.
Measurement Points
The number of discarded packets transmitted due to outbound SA miss is sampled per second.
At the end of a measurement period, the sum of these sampling results is used as the value of
the counter.
Formula
None
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Unit
packet
Related Features
Counter Name
Feature ID
VS.IPSec.TxOutboundSAM
issDropPkts
Multi-mode: None
Feature Name
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.19.1.7 Number of discarded packets transmitted due to sequence number overflow
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460350
VS.IPSec.TxAn
tiReplaySnWra
ppedDropPkts
Number of
discarded
packets
transmitted due
to sequence
number
overflow
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of packets discarded by the transmitter end of the base
station due to sequence number overflow within a measurement period, that is, the sequence
number of the received encrypted packets exceeds 4163895296.
Measurement Points
The number of discarded packets transmitted due to sequence number overflow is sampled
per second. At the end of a measurement period, the sum of these sampling results is used as
the value of the counter.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.IPSec.TxAntiReplaySn
WrappedDropPkts
Multi-mode: None
Feature Name
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.19.1.8 Number of encrypt success packets transmitted
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460351
VS.IPSec.TxEn
cryptSuccessPk
ts
Number of
encrypt success
packets
transmitted
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of packets successfully encrypted by the base station TX.
Measurement Points
The number of packets encryption successful transmitted is sampled per second. At the end of
a measurement period, the sum of these sampling results is used as the value of the counter.
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.IPSec.TxEncryptSuccess
Pkts
Multi-mode: None
Feature Name
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.19.1.9 Number of IPsec SA Establishments
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460508
VS.IPSec.SAB
uilt.Times
Number of
IPsec SA
Establishments
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of times that a base station establishes an IPsec SA.
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
In a measurement period, when a base station successfully establishes an IPsec SA, the value
of this counter is incremented by one and the accumulated number within this measurement
period is used as the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IPSec.SABuilt.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.19.1.10 Number of IPsec SA Deletions
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460509
VS.IPSec.SAD
el.Times
Number of
IPsec SA
Deletions
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of times that a base station deletes an IPsec SA.
Measurement Points
In a measurement period, when a base station deletes an IPsec SA, the value of this counter is
incremented by one and the accumulated number within this measurement period is used as
the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
Feature Name
VS.IPSec.SADel.Times
Multi-mode: None
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
MLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.20 Measurement of SCTP Link Performance (SCTPLNK)
Overview
The object type SCTPLNK Measurement contains the function subset related to the Stream
Control Transmission Protocol (SCTP) link of the base station. It represents the traffic volume
of signaling services carried by the SCTP link and the quality of service.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Transport.SCTPLNK
SCTP Link Measurement
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
600
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.20.1 SCTP Link Measurement (Transport.SCTPLNK)
Overview
The SCTPLNK function subset measures the traffic volumes of IP packets transmitted and
received on an SCTP link inside the base station. It measures traffic volumes of the signaling
services carried on base station transmission boards and the service quality. Figure 1-26
shows the position of the SCTP layer in the TCP/IP model.
Figure 1-26
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460356
VS.SctpLnk.RxByt
es
Number of bytes in
the IP packets
received on the
SCTP link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460357
VS.SctpLnk.TxByt
es
Number of bytes in
the IP packets
transmitted on the
SCTP link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460358
VS.SctpLnk.RxPkt
s
Number of IP
packets received on
the SCTP link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460359
VS.SctpLnk.TxPkt
s
Number of IP
packets transmitted
on the SCTP link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460360
VS.SctpLnk.RxDro
pPkts
Number of
discarded IP packets
received on the
SCTP link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
603
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460361
VS.SctpLnk.RxMa
xSpeed
Maximum IP packet
receive rate on the
SCTP link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460362
VS.SctpLnk.RxMi
nSpeed
Minimum IP packet
receive rate on the
SCTP link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
604
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460363
VS.SctpLnk.RxMe
anSpeed
Average IP packet
receive rate on the
SCTP link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460364
VS.SctpLnk.TxMa
xSpeed
Maximum IP packet
transmit rate on the
SCTP link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460365
VS.SctpLnk.TxMin
Speed
Minimum IP packet
transmit rate on the
SCTP link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460366
VS.SctpLnk.TxMe
anSpeed
Average IP packet
transmit rate on the
SCTP link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
606
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460367
VS.SctpLnk.ToUse
rPkts
Number of packets
transmitted from an
SCTP link to the
application layer
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460368
VS.SctpLnk.From
UserPkts
Number of packets
received on the
SCTP link from the
application layer
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460369
VS.SctpLnk.RePkt
s
Number of chunks
retransmitted from
the SCTP link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460370
VS.SctpLnk.RxDro
pBytes
Number of
discarded IP bytes
received on the
SCTP link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460371
VS.SctpLnk.Cong.
Dur
Congestion Duration
of an SCTP Link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460372
VS.SctpLnk.Cong
Number of
Congestions on an
SCTP Link
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460373
VS.SctpLnk.Unava
il.Dur
Duration of SCTP
Link Unavailable
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460374
VS.SctpLnk.Unava
il
Number of Times
SCTP Link
Unavailable
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460375
VS.SctpLnk.TxDat
aChunk
Number of Data
Chunks Transmitted
on an SCTP Link
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
BTS3900 LTE:
V100R009C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460376
VS.SctpLnk.RxDat
aChunk
Number of Data
Chunks Received on
an SCTP Link
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
BTS3900 LTE:
V100R009C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
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1 Node Performance Counter Measurement
1.2.20.1.1 Number of Bytes in the IP Packets on the SCTP link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460356
VS.SctpLnk.Rx
Bytes
Number of
bytes in the IP
packets
received on the
SCTP link
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542460357
VS.SctpLnk.Tx
Bytes
Number of
bytes in the IP
packets
transmitted on
the SCTP link
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542460370
VS.SctpLnk.Rx
DropBytes
Number of
discarded IP
bytes received
on the SCTP
link
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters measure the numbers of bytes in the packets received from the IP layer on an
SCTP link, packets transmitted to the IP layer on an SCTP link, and discarded packets
received from the IP layer on an SCTP link within a measurement period, as shown in Figure
1-27. They indicate the traffic volume of signaling services. The measured bytes include those
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
in user data (the data field of a user data packet, excluding the MAC header, IP header, and
SCTP header). The measured bytes exclude the SCTP management messages, such as
heartbeat messages, link establishment messages, link disconnection messages, and
handshake messages. Currently, the bytes in the discarded packets received from the IP layer
cannot be measured. The value of the VS.SctpLnk.RxDropBytes counter is always 0.
Figure 1-27
Measurement Points
The number of bytes in the IP packets successfully transmitted, successfully received or
discarded on the SCTP link is sampled per second. At the end of a measurement period, the
sum of these sampling results is used as the value of the corresponding counter.
Formula
None
Unit
byte
Related Features
Counter Name
Feature ID
VS.SctpLnk.RxBytes
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
VS.SctpLnk.TxBytes
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
Issue Draft C (2019-04-10)
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
613
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter Name
Feature ID
VS.SctpLnk.RxDropBytes
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.20.1.2 Number of IP Packets on the SCTP link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460358
VS.SctpLnk.Rx
Pkts
Number of IP
packets
received on the
SCTP link
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542460359
VS.SctpLnk.Tx
Pkts
Number of IP
packets
transmitted on
the SCTP link
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
614
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460360
VS.SctpLnk.Rx
DropPkts
Number of
discarded IP
packets
received on the
SCTP link
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters measure the numbers of packets received from the IP layer on an SCTP link,
packets transmitted to the IP layer on an SCTP link, and discarded packets received from the
IP layer within a measurement period. They indicate the traffic volume of signaling services.
The measured packets include SCTP management messages, such as heartbeat messages, link
establishment messages, link disconnection messages, and handshake messages. However, the
received packets on an SCTP link are not measured in any of the following cases: (1) The
SCTP link is not configured. (2) There is no signaling bearer at the upper layer of the SCTP
link. (3) The SCTP link is blocked.
Measurement Points
The number of IP packets transmitted, successfully received or discarded on the SCTP link is
sampled per second. At the end of a measurement period, the sum of these sampling results is
used as the value of the corresponding counter.
Formula
None
Unit
packet
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
615
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.SctpLnk.RxPkts
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
VS.SctpLnk.TxPkts
UMTS: WRFD-050402
LTE: None
NR: None
IP Transmission
Introduction on Iub
Interface
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
Issue Draft C (2019-04-10)
IP Transmission
Introduction on Abis
Interface
Multi-mode: None
GSM: GBFD-118601
VS.SctpLnk.RxDropPkts
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
616
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.20.1.3 IP Packet Rate Measurements on the SCTP link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460361
VS.SctpLnk.Rx
MaxSpeed
Maximum IP
packet receive
rate on the
SCTP link
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542460362
VS.SctpLnk.Rx
MinSpeed
Minimum IP
packet receive
rate on the
SCTP link
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542460363
VS.SctpLnk.Rx
MeanSpeed
Average IP
packet receive
rate on the
SCTP link
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460364
VS.SctpLnk.Tx
MaxSpeed
Maximum IP
packet transmit
rate on the
SCTP link
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542460365
VS.SctpLnk.Tx
MinSpeed
Minimum IP
packet transmit
rate on the
SCTP link
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542460366
VS.SctpLnk.Tx
MeanSpeed
Average IP
packet transmit
rate on the
SCTP link
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters measure the maximum rate, minimum rate, and average rate for transmitting
or receiving IP packets on an SCTP link within a measurement period. These rates are
calculated on a per-byte basis. They represent the transmission capability of the SCTP link.
Issue Draft C (2019-04-10)
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Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
The transmit rate or the receive rate on the SCTP link is sampled per second. At the end of a
measurement period, the maximum rate, minimum rate or average rate of these sampling
results is used as the value of the corresponding counter.
Formula
None
Unit
bit/s
Related Features
Counter Name
Feature ID
VS.SctpLnk.RxMaxSpeed
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
VS.SctpLnk.RxMinSpeed
UMTS: WRFD-050402
LTE: None
NR: None
IP Transmission
Introduction on Iub
Interface
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
Issue Draft C (2019-04-10)
IP Transmission
Introduction on Abis
Interface
Multi-mode: None
GSM: GBFD-118601
VS.SctpLnk.RxMeanSpeed
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
619
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter Name
Feature ID
VS.SctpLnk.TxMaxSpeed
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
VS.SctpLnk.TxMinSpeed
UMTS: WRFD-050402
LTE: None
NR: None
IP Transmission
Introduction on Iub
Interface
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
Issue Draft C (2019-04-10)
IP Transmission
Introduction on Abis
Interface
Multi-mode: None
GSM: GBFD-118601
VS.SctpLnk.TxMeanSpeed
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
620
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.20.1.4 Number of packets on the SCTP link from the application layer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460367
VS.SctpLnk.To
UserPkts
Number of
packets
transmitted
from an SCTP
link to the
application
layer
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542460368
VS.SctpLnk.Fr
omUserPkts
Number of
packets
received on the
SCTP link from
the application
layer
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
The counters measure the number of user packets transmitted or received on the SCTP link
within a measurement period. They represent the traffic volume of signaling services.
Measurement Points
The number of packets received from or transmitted to the application layer on an SCTP link
is sampled per second. At the end of a measurement period, the sum of these sampling results
is used as the value of the corresponding counters.
Formula
None
Unit
packet
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.SctpLnk.ToUserPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
VS.SctpLnk.FromUserPkts
Multi-mode: None
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.20.1.5 Number of chunks retransmitted from the SCTP link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460369
VS.SctpLnk.Re
Pkts
Number of
chunks
retransmitted
from the SCTP
link
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of chunks retransmitted from the SCTP link within a
measurement period. It indicates the transmission capability of signaling services.
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
The number of packets retransmitted on an SCTP link is sampled per second. At the end of a
measurement period, the sum of these sampling results is used as the value of the
corresponding counters.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.SctpLnk.RePkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.20.1.6 Congestion Duration of an SCTP Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460371
VS.SctpLnk.Co
ng.Dur
Congestion
Duration of an
SCTP Link
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
623
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Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter provides the duration through which an SCTP link is in the congested state in a
measurement period.
Measurement Points
The congestion duration is sampled per second. At the end of a measurement period, the sum
of these sampling results is used as the value of the corresponding counter. An SCTP link is
considered congested when the buffered data of the SCTP link reaches the threshold.
Formula
None
Unit
s
Related Features
Counter Name
Feature ID
VS.SctpLnk.Cong.Dur
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
NR: None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
Feature Name
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
624
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.20.1.7 Number of Congestions on an SCTP Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460372
VS.SctpLnk.Co
ng
Number of
Congestions on
an SCTP Link
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter provides the number of times that an SCTP link enters the congested state in a
measurement period.
Measurement Points
The number of congestion times is sampled per second. At the end of a measurement period,
the sum of these sampling results is used as the value of the corresponding counter. An SCTP
link is considered congested when the buffered data of the SCTP link reaches the threshold.
Formula
None
Unit
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
625
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.SctpLnk.Cong
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.20.1.8 Duration of SCTP Link Unavailable
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460373
VS.SctpLnk.Un
avail.Dur
Duration of
SCTP Link
Unavailable
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the duration when an SCTP link is unavailable within a measurement
period. A link is unavailable when it is faulty or not activated.
Measurement Points
The duration through which an SCTP link is unavailable is sampled per second. At the end of
a measurement period, the sum of these sampling results is used as the value of the
corresponding counter. Due to time adjustment and measurement precision, the measurement
result of the counter VS.SctpLnk.Unavail.Dur may have an error of several seconds.
Formula
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
626
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Unit
s
Related Features
Counter Name
Feature ID
VS.SctpLnk.Unavail.Dur
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.20.1.9 Number of Times SCTP Link Unavailable
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460374
VS.SctpLnk.Un
avail
Number of
Times SCTP
Link
Unavailable
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of times that an SCTP link is unavailable within a
measurement period. A link is unavailable when it is faulty or not activated.
Measurement Points
The number of times that an SCTP link becomes unavailable is sampled per second. At the
end of a measurement period, the sum of these sampling results is used as the value of the
corresponding counter.
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.SctpLnk.Unavail
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.20.1.10 Data Chunk Flow Measurement on an SCTP Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460375
VS.SctpLnk.Tx
DataChunk
Number of Data
Chunks
Transmitted on
an SCTP Link
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460376
VS.SctpLnk.Rx
DataChunk
Number of Data
Chunks
Received on an
SCTP Link
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters provide the number of data chunks transmitted (including retransmitted data
chunks) and the number of correct data chunks received on an SCTP link within the current
measurement period. They represent the traffic volume of signaling services.
Measurement Points
The number of data chunks transmitted (including retransmitted data chunks) and the number
of correct data chunks received on an SCTP link are sampled every second. At the end of a
measurement period, the sum of these sampling results is used as the value of the
corresponding counter.
Formula
None
Unit
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
Feature Name
VS.SctpLnk.TxDataChunk
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Iub
Interface
NR: None
VS.SctpLnk.RxDataChunk
IP Transmission
Introduction on Abis
Interface
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: None
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
NR: None
1.2.21 Measurement of UserPlaneHostIP Performance
(UserPlaneHostIP)
Overview
The UserPlaneHostIP object type contains the function subsets related to the local IP
addresses on the user plane. It indicates the traffic of the user-plane services.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Transport.UserPlaneHostIP
UserPlaneHostIP IP Layer Measurement
1.2.21.1 UserPlaneHostIP IP Layer Measurement (Transport.UserPlaneHostIP)
Overview
The UserPlaneHostIP function subset measures the IP packets and bytes in the IP packets
transmitted from and received by a user-plane local IP address. It helps analyze the
transmission quality of the system and ensure stable and reliable operation of the system.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455526
VS.UserPlaneHostI
P.TxPkts
Number of IP
packets transmitted
on the user-plane
local IP address
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455527
VS.UserPlaneHostI
P.RxPkts
Number of IP
packets received on
the user-plane local
IP address
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455528
VS.UserPlaneHostI
P.TxBytes
Number of bytes in
the IP packets
transmitted on the
user-plane local IP
address
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455529
VS.UserPlaneHostI
P.RxBytes
Number of bytes in
the IP packets
received on the userplane local IP
address
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455530
VS.UserPlaneHostI
P.TxMaxSpeed
Maximum transmit
rate of IP packets on
the user-plane local
IP address
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455531
VS.UserPlaneHostI
P.TxMeanSpeed
Average transmit
rate of IP packets on
the user-plane local
IP address
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455532
VS.UserPlaneHostI
P.RxMaxSpeed
Maximum receive
rate of IP packets on
the user-plane local
IP address
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455533
VS.UserPlaneHostI
P.RxMeanSpeed
Average receive rate
of IP packets on the
user-plane local IP
address
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455534
VS.UserPlaneHostI
P.RxGtpuSNReord
erPkts
Number of
Disordered GTP-U
Packets Received on
the User-Plane Local
IP Address
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455535
VS.UserPlaneHostI
P.RxGtpuSNDiscon
tinutySize
Number of
Discontinuous GTPU Packet Sequence
Numbers Received
on the User-Plane
Local IP Address
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
BTS3900 LTE:
V100R008C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
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1.2.21.1.1 Number of IP Packets on the User-Plane Local IP Address
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455526
VS.UserPlaneH
ostIP.TxPkts
Number of IP
packets
transmitted on
the user-plane
local IP address
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455527
VS.UserPlaneH
ostIP.RxPkts
Number of IP
packets
received on the
user-plane local
IP address
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters measure the numbers of packets received and transmitted by users based on
the user-plane local IP address at the IP layer within a measurement period. They indicate the
user traffic volume of a user-plane local IP address at the IP layer. The packets measured are
IP packets. If IP packets need to be fragmented, the TX packets are measured before being
fragmented and RX packets are measured after being reassembled.
Measurement Points
The numbers of packets transmitted and received on the user-plane local IP address are
sampled every second. At the end of a measurement period, the sum of these sampling results
is used as the value of the corresponding counter.
Formula
None
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Unit
packet
Related Features
Counter Name
Feature ID
VS.UserPlaneHostIP.TxPkts
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: LBFD-002035
TDLBFD-002036
MLBFD-12000241
NR: FBFD-010016
Feature Name
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
Self-configuration
Self-configuration
Self-configuration
Transmission Networking
VS.UserPlaneHostIP.RxPkts
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: LBFD-002035
TDLBFD-002036
MLBFD-12000241
NR: FBFD-010016
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
Self-configuration
Self-configuration
Self-configuration
Transmission Networking
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1.2.21.1.2 Number of Bytes in the IP Packets on the User-Plane Local IP Address
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455528
VS.UserPlaneH
ostIP.TxBytes
Number of
bytes in the IP
packets
transmitted on
the user-plane
local IP address
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455529
VS.UserPlaneH
ostIP.RxBytes
Number of
bytes in the IP
packets
received on the
user-plane local
IP address
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters measure the numbers of bytes in packets received and transmitted by users
based on the user-plane local IP address at the IP layer within a measurement period, as
shown in Figure 1-28. The measured bytes include IP headers and payloads (also including
IPSec-related payloads such as AH headers and ESP headers in IPSec scenarios). If packets
need to be fragmented, the number of TX bytes is measured before the packets are fragmented
and the number of RX bytes is measured after the packets are reassembled.
The counters indicate the user traffic volume of a user-plane local IP address at the IP layer.
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Figure 1-28
Measurement Points
The numbers of bytes in packets transmitted and received on the user-plane local IP address
are sampled every second. At the end of a measurement period, the sum of these sampling
results is used as the value of the corresponding counter.
Formula
None
Unit
byte
Related Features
Counter Name
Feature ID
VS.UserPlaneHostIP.TxByte
s
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: LBFD-002035
TDLBFD-002036
MLBFD-12000241
NR: FBFD-010016
Feature Name
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
Self-configuration
Self-configuration
Self-configuration
Transmission Networking
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Counter Name
Feature ID
VS.UserPlaneHostIP.RxByt
es
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: LBFD-002035
IP Transmission
Introduction on Iub
Interface
TDLBFD-002036
MLBFD-12000241
NR: FBFD-010016
Self-configuration
Self-configuration
Self-configuration
Transmission Networking
1.2.21.1.3 Rate of IP Packets on the User-Plane Local IP Address
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455530
VS.UserPlaneH
ostIP.TxMaxSp
eed
Maximum
transmit rate of
IP packets on
the user-plane
local IP address
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455531
VS.UserPlaneH
ostIP.TxMeanS
peed
Average
transmit rate of
IP packets on
the user-plane
local IP address
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455532
VS.UserPlaneH
ostIP.RxMaxSp
eed
Maximum
receive rate of
IP packets on
the user-plane
local IP address
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455533
VS.UserPlaneH
ostIP.RxMeanS
peed
Average receive
rate of IP
packets on the
user-plane local
IP address
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters measure the maximum and average transmit and receive rates of the userplane local IP address at the IP layer within a measurement period. They indicate the load of a
user-plane local IP address at the IP layer.
Measurement Points
The transmit rate and the receive rate of the user-plane local IP address at the IP layer are
sampled every second. At the end of a measurement period, the maximum or average of these
sampling results is used as the value of the corresponding counter.
Formula
None
Unit
bit/s
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Related Features
Counter Name
Feature ID
VS.UserPlaneHostIP.TxMax
Speed
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: LBFD-002035
TDLBFD-002036
MLBFD-12000241
NR: FBFD-010016
Feature Name
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
Self-configuration
Self-configuration
Self-configuration
Transmission Networking
VS.UserPlaneHostIP.TxMea
nSpeed
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: LBFD-002035
TDLBFD-002036
MLBFD-12000241
NR: FBFD-010016
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
Self-configuration
Self-configuration
Self-configuration
Transmission Networking
VS.UserPlaneHostIP.RxMax
Speed
Multi-mode: None
GSM: GBFD-118601
UMTS: WRFD-050402
LTE: LBFD-002035
TDLBFD-002036
MLBFD-12000241
NR: FBFD-010016
IP Transmission
Introduction on Abis
Interface
IP Transmission
Introduction on Iub
Interface
Self-configuration
Self-configuration
Self-configuration
Transmission Networking
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Counter Name
Feature ID
VS.UserPlaneHostIP.RxMea
nSpeed
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission
Introduction on Abis
Interface
UMTS: WRFD-050402
LTE: LBFD-002035
IP Transmission
Introduction on Iub
Interface
TDLBFD-002036
MLBFD-12000241
NR: FBFD-010016
Self-configuration
Self-configuration
Self-configuration
Transmission Networking
1.2.21.1.4 Number of Disordered GTP-U Packets Received on the User-Plane Local IP
Address
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455534
VS.UserPlaneH
ostIP.RxGtpuS
NReorderPkts
Number of
Disordered
GTP-U Packets
Received on the
User-Plane
Local IP
Address
BTS3900,
BTS3900
WCDMA,
L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of disordered GTP-U packets received on the user-plane
local IP address within a measurement period. This counter is valid only when the sequence
number check switch for downlink GTP-U packets is turned on (this switch is supported only
by LTE) and the sequence numbers of GTP-U packets sent by the peer device increment
continuously. This counter takes effect only for the UMPT board.
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Measurement Points
The number of disordered GTP-U packets received on the user-plane local IP address are
sampled every five seconds. At the end of a measurement period, the sum of these sampling
results is used as the value of the corresponding counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.UserPlaneHostIP.RxGtp
uSNReorderPkts
Multi-mode: None
Feature Name
GSM: None
UMTS: None
LTE: LBFD-002035
Self-configuration
TDLBFD-002036
Self-configuration
MLBFD-12000241
Self-configuration
NR: FBFD-010016
Transmission Networking
1.2.21.1.5 Number of Discontinuous GTP-U Packet Sequence Numbers Received on the
User-Plane Local IP Address
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455535
VS.UserPlaneH
ostIP.RxGtpuS
NDiscontinutyS
ize
Number of
Discontinuous
GTP-U Packet
Sequence
Numbers
Received on the
User-Plane
Local IP
Address
BTS3900,
BTS3900
WCDMA,
L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
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Description
This counter measures the number of discontinuous sequence numbers of GTP-U packets
received on the user-plane local IP address within a measurement period. This counter is valid
only when the sequence number check switch for downlink GTP-U packets is turned on (this
switch is supported only by LTE) and the sequence numbers of received GTP-U packets
increment continuously. This counter takes effect only for the UMPT board.
Measurement Points
The number of discontinuous GTP-U packet sequence numbers received on the user-plane
local IP address are sampled every five seconds. At the end of a measurement period, the sum
of these sampling results is used as the value of the corresponding counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.UserPlaneHostIP.RxGtp
uSNDiscontinutySize
Multi-mode: None
Feature Name
GSM: None
UMTS: None
LTE: LBFD-002035
Self-configuration
TDLBFD-002036
Self-configuration
MLBFD-12000241
Self-configuration
NR: FBFD-010016
Transmission Networking
1.2.22 Measurement of GTP-U Performance (GTP-U)
Overview
The object type GTP-U Measurement contains the function subset related to GTP-U. It
represents the traffic of services on a base station and the service quality.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Transport.GTPU
GTP-U Measurement
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1.2.22.1 GTP-U Measurement (Transport.GTPU)
Overview
The Transport.Gtpu function subset measures the number of packets or the number of bytes in
the packets received or transmitted on the GTP-U link. It represents the data volume on the
user plane of the base station. The GTP-U layer uses UDP packets for transmission. Figure
1-29 shows the position of the GTP-U layer in the TCP/IP model.
Figure 1-29
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1526727075
VS.Gtpu.RxBytes
Number of bytes in
the packets received
on the GTP-U link
BTS3900:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1526727076
VS.Gtpu.TxBytes
Number of bytes in
the packets
transmitted on the
GTP-U link
BTS3900:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1526727077
VS.Gtpu.RxPkts
Number of packets
received on the
GTP-U link
BTS3900:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1526727078
VS.Gtpu.TxPkts
Number of packets
transmitted on the
GTP-U link
BTS3900:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1526727079
VS.Gtpu.RxDropB
ytes
Number of bytes in
the error packets
received on the
GTP-U link
BTS3900:
V100R008C00
BTS3900 LTE:
version earlier than
V100R003C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1526727080
VS.Gtpu.RxDropP
kts
Number of
erroneous packets
received on the
GTP-U link
BTS3900:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
1.2.22.1.1 Number of Bytes in the Packets on the GTP-U Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1526727075
VS.Gtpu.RxByt
es
Number of
bytes in the
packets
received on the
GTP-U link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1526727076
VS.Gtpu.TxByt
es
Number of
bytes in the
packets
transmitted on
the GTP-U link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
1526727079
VS.Gtpu.RxDro
pBytes
Number of
bytes in the
error packets
received on the
GTP-U link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
These counters measure the numbers of bytes in the packets transmitted, packets received, and
erroneous packets received on the GTP-U link within a measurement period. The measured
fields include GTP-U headers, as shown in Figure 1-30. GTP-U control packets and user data
are measured. The counters reflect the user-plane data volume.
The VS.Gtpu.RxDropBytes counter measures the number of bytes in the erroneous packets
received at the GTP-U layer in the following cases: (1) The inter working (ITW) table fails to
be found. (2) Errors occur in version check. (3) The protocol type is incorrect. (4) The packet
length is incorrect. (5) The TEID is not a configured one. When the ITW table fails to be
found, the base station may release the ITW table before the peer end does during service
release. In this case, the peer end still sends service packets to the base station. As a result, the
base station counts the packets as error packets. Therefore, this counter cannot reflect the
quality of transmission links.
Figure 1-30
Measurement Points
The number of bytes in the packets transmitted, received, or erroneous in the receive direction
on the GTP-U link is sampled per second. At the end of a measurement period, the sum of
these sampling results is used as the value of the corresponding counter.
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Formula
None
Unit
byte
Related Features
None
1.2.22.1.2 Number of Packets on the GTP-U Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1526727077
VS.Gtpu.RxPkt
s
Number of
packets
received on the
GTP-U link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
1526727078
VS.Gtpu.TxPkt
s
Number of
packets
transmitted on
the GTP-U link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
1526727080
VS.Gtpu.RxDro
pPkts
Number of
erroneous
packets
received on the
GTP-U link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
These counters measure the numbers of transmitted, received, and received erroneous packets
on the GTP-U link within a measurement period. These packets include GTP-U control
packets and user data. These counters reflect the user-plane traffic volume.
The VS.Gtpu.RxDropPkts counter measures the number of received erroneous packets at the
GTP-U layer in the following cases: (1) The inter working (ITW) table fails to be found. (2)
Errors occur in version check. (3) The protocol type is incorrect. (4) The packet length is
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incorrect. (5) The TEID is not a configured one. When the ITW table fails to be found, the
base station may release the ITW table before the peer end does during service release. In this
case, the peer end still sends service packets to the base station. As a result, the base station
counts the packets as error packets. Therefore, this counter cannot reflect the quality of
transmission links.
Measurement Points
The number of packets in the packets transmitted, received, or erroneous in the receive
direction on the GTP-U link is sampled per second. At the end of a measurement period, the
sum of these sampling results is used as the value of the corresponding counter.
Formula
None
Unit
packet
Related Features
None
1.2.23 Measurement of BS TWAMP Performance (BSTWAMP)
Overview
The object type BSTWAMP measurement contains the function subset related to TWAMP. It
represents the quality of the transport network where the base station is located.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Transport.BSTWAMP
TWAMP Transport Link Measurement
1.2.23.1 TWAMP Transport Link Measurement (Transport.BSTWAMP)
Overview
In a transport network, IP performance can be measured between a base station and another
TWAMP-compliant device. After a base station is deployed, TWAMP measurement can be
used to measure the QoS of radio bearers. During daily maintenance, TWAMP measurement
can be used to identify transmission problems and monitor the performance of the transport
network. The counters that reflect transmission QoS include round-trip delay, one-way packet
loss rate, one-way jitter, the number of received packets, and the number of transmitted
packets.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
651
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455996
VS.BSTWAMP.For
ward.DropMeans
Average forward
packet loss rate on
the BSTWAMP
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
BTS3900 LTE:
V100R008C01
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455997
VS.BSTWAMP.For
ward.Peak.DropRa
tes
Peak forward packet
loss rate on the
BSTWAMP
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
BTS3900 LTE:
V100R008C01
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
652
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542455998
VS.BSTWAMP.Bac
kward.DropMeans
Average backward
packet loss rate on
the BSTWAMP
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
BTS3900 LTE:
V100R008C01
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542455999
VS.BSTWAMP.Bac
kward.Peak.DropR
ates
Peak backward
packet loss rate on
the BSTWAMP
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
BTS3900 LTE:
V100R008C01
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
653
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542456000
VS.BSTWAMP.Mi
nRttDelay
Minimum RTT on
the BSTWAMP
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
BTS3900 LTE:
V100R008C01
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542456001
VS.BSTWAMP.Rtt.
Means
Average RTT on the
BSTWAMP
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
BTS3900 LTE:
V100R008C01
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
654
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542456002
VS.BSTWAMP.Ma
xRttDelay
Maximum RTT on
the BSTWAMP
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
BTS3900 LTE:
V100R008C01
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542456003
VS.BSTWAMP.For
ward.MinJitter
Minimum forward
jitter on the
BSTWAMP
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
BTS3900 LTE:
V100R008C01
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
655
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542456004
VS.BSTWAMP.For
ward.Jitter.Means
Average forward
jitter on the
BSTWAMP
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
BTS3900 LTE:
V100R008C01
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542456005
VS.BSTWAMP.For
ward.MaxJitter
Maximum forward
jitter on the
BSTWAMP
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
BTS3900 LTE:
V100R008C01
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
656
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542456006
VS.BSTWAMP.Bac
kward.MinJitter
Minimum backward
jitter on the
BSTWAMP
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
BTS3900 LTE:
V100R008C01
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542456007
VS.BSTWAMP.Bac
kward.Jitter.Means
Average backward
jitter on the
BSTWAMP
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
BTS3900 LTE:
V100R008C01
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
657
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542456008
VS.BSTWAMP.Bac
kward.MaxJitter
Maximum backward
jitter on the
BSTWAMP
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
BTS3900 LTE:
V100R008C01
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460412
VS.BSTWAMP.Sen
der.TxPackets
Number of packets
transmitted by the
sender on the
BSTWAMP
BTS3900:
V100R012C00
BTS3900 WCDMA:
V100R012C00
BTS3900 LTE:
V100R012C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
658
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460413
VS.BSTWAMP.Ref
lector.TxPackets
Number of packets
transmitted by the
reflector on the
BSTWAMP
BTS3900:
V100R012C00
BTS3900 WCDMA:
V100R012C00
BTS3900 LTE:
V100R012C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460414
VS.BSTWAMP.Sen
der.RxPackets
Number of packets
received by the
sender on the
BSTWAMP
BTS3900:
V100R012C00
BTS3900 WCDMA:
V100R012C00
BTS3900 LTE:
V100R012C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
659
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.23.1.1 Packet Loss Rate Measurements on the BSTWAMP
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455996
VS.BSTWAMP.
Forward.Drop
Means
Average
forward packet
loss rate on the
BSTWAMP
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455997
VS.BSTWAMP.
Forward.Peak.
DropRates
Peak forward
packet loss rate
on the
BSTWAMP
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542455998
VS.BSTWAMP.
Backward.Drop
Means
Average
backward
packet loss rate
on the
BSTWAMP
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
660
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542455999
VS.BSTWAMP.
Backward.Peak.
DropRates
Peak backward
packet loss rate
on the
BSTWAMP
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters provide the packet loss rate on the transport network and indicate the
transmission quality on the detected links.
Measurement Points
The sampling period is 30s. In each sampling period, the base station measures the number of
packets sent by the TWAMP sender, the number of packets sent by the TWAMP responder,
and the number of packets received by the TWAMP sender.
Number of lost forward packets = Number of packets sent by the TWAMP sender - Number
of packets sent by the TWAMP responder
Number of lost backward packets = Number of packets sent by the TWAMP responder Number of packets received by the TWAMP sender
VS.BSTWAMP.Forward.DropMeans:
The system measures the number of packets sent by the TWAMP sender and the number of
lost forward packets on the link every 30 seconds and calculates the total number in a
measurement period. The value of the VS.BSTWAMP.Forward.DropMeans counter is the
result of dividing the total number of lost forward packets by the total number of packets sent
by the TWAMP sender.
VS.BSTWAMP.Forward.Peak.DropRates:
The forward packet loss rate per 30 seconds can be calculated by dividing the number of lost
forward packets by the number of packets sent by the TWAMP sender. The value of the
VS.BSTWAMP.Forward.Peak.DropRates counter is the maximum forward packet loss rate in
a measurement period.
VS.BSTWAMP.Backward.DropMeans:
The system measures the number of packets sent by the TWAMP responder and the number
of lost backward packets on the link every 30 seconds and calculates the total number in a
measurement period. The value of the VS.BSTWAMP.Backward.DropMeans counter is the
result of dividing the total number of lost backward packets by the total number of packets
sent by the TWAMP responder.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
661
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
VS.BSTWAMP.Backward.Peak.DropRates:
The backward packet loss rate per 30 seconds can be calculated by dividing the number of
lost backward packets by the number of packets sent by the TWAMP responder. The value of
the VS.BSTWAMP.Backward.Peak.DropRates counter is the maximum backward packet loss
rate in a measurement period.
Formula
None
Unit
%
Related Features
Counter Name
Feature ID
VS.BSTWAMP.Forward.Dr
opMeans
Multi-mode: None
GSM: GBFD-151202
UMTS: WRFD-151212
LTE: LOFD-070219
TDLOFD-003018
NR: FOFD-010060
Feature Name
BTS IP Active Performance
Measurement
NodeB IP Active
Performance Measurement
IP Active Performance
Measurement
IP Active Performance
Measurement
Transmission Network
Detection and Reliability
Improvement
VS.BSTWAMP.Forward.Pe
ak.DropRates
Multi-mode: None
GSM: GBFD-151202
UMTS: WRFD-151212
LTE: LOFD-070219
TDLOFD-003018
NR: FOFD-010060
BTS IP Active Performance
Measurement
NodeB IP Active
Performance Measurement
IP Active Performance
Measurement
IP Active Performance
Measurement
Transmission Network
Detection and Reliability
Improvement
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
662
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter Name
Feature ID
VS.BSTWAMP.Backward.D
ropMeans
Multi-mode: None
Feature Name
GSM: GBFD-151202
BTS IP Active Performance
Measurement
UMTS: WRFD-151212
NodeB IP Active
Performance Measurement
LTE: LOFD-070219
TDLOFD-003018
IP Active Performance
Measurement
NR: FOFD-010060
IP Active Performance
Measurement
Transmission Network
Detection and Reliability
Improvement
VS.BSTWAMP.Backward.P
eak.DropRates
Multi-mode: None
GSM: GBFD-151202
BTS IP Active Performance
Measurement
UMTS: WRFD-151212
NodeB IP Active
Performance Measurement
LTE: LOFD-070219
TDLOFD-003018
IP Active Performance
Measurement
NR: FOFD-010060
IP Active Performance
Measurement
Transmission Network
Detection and Reliability
Improvement
1.2.23.1.2 RTT Measurements on the BSTWAMP
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542456000
VS.BSTWAMP.
MinRttDelay
Minimum RTT
on the
BSTWAMP
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
663
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542456001
VS.BSTWAMP.
Rtt.Means
Average RTT
on the
BSTWAMP
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542456002
VS.BSTWAMP.
MaxRttDelay
Maximum RTT
on the
BSTWAMP
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters provide the round-trip delay on the transport network. They reflect the time
delay on the transport network.
Measurement Points
The sampling period is 5s. In each sampling period, the base station measures the round-trip
delay on a TWAMP link, as shown in Figure 1-31.
T1 indicates the time when the TWAMP sender sends a test packet.
T2 indicates the time when the TWAMP responder receives the test packet.
T3 indicates the time when the TWAMP responder sends a response packet.
T4 indicates the time when the TWAMP sender receives the response packet.
Round-trip delay = (T2 - T1) + (T4 - T3) = (T4 - T1) - (T3 - T2)
VS.BSTWAMP.MinRttDelay:
The sampling period is 5 seconds. The system measures the average round-trip delay on a link
every 5 seconds and accumulates the round-trip delays at the end of a measurement period to
obtain the total round-trip delay. The value of the VS.BSTWAMP.MinRttDelay counter is the
minimum among all the average round-trip delays in a measurement period.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
664
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
VS.BSTWAMP.MaxRttDelay:
The value of the VS.BSTWAMP.MaxRttDelay counter is the maximum among all the average
round-trip delays in a measurement period.
VS.BSTWAMP.Rtt.Means:
The value of the VS.BSTWAMP.Rtt.Means counter is the value of dividing the total roundtrip delay by the sampling times.
Figure 1-31
Formula
None
Unit
ms
Related Features
Counter Name
Feature ID
VS.BSTWAMP.MinRttDela
y
Multi-mode: None
GSM: GBFD-151202
UMTS: WRFD-151212
LTE: LOFD-070219
TDLOFD-003018
NR: FOFD-010060
Feature Name
BTS IP Active Performance
Measurement
NodeB IP Active
Performance Measurement
IP Active Performance
Measurement
IP Active Performance
Measurement
Transmission Network
Detection and Reliability
Improvement
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
665
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter Name
Feature ID
VS.BSTWAMP.Rtt.Means
Multi-mode: None
Feature Name
GSM: GBFD-151202
BTS IP Active Performance
Measurement
UMTS: WRFD-151212
NodeB IP Active
Performance Measurement
LTE: LOFD-070219
TDLOFD-003018
IP Active Performance
Measurement
NR: FOFD-010060
IP Active Performance
Measurement
Transmission Network
Detection and Reliability
Improvement
VS.BSTWAMP.MaxRttDela
y
Multi-mode: None
GSM: GBFD-151202
BTS IP Active Performance
Measurement
UMTS: WRFD-151212
NodeB IP Active
Performance Measurement
LTE: LOFD-070219
TDLOFD-003018
IP Active Performance
Measurement
NR: FOFD-010060
IP Active Performance
Measurement
Transmission Network
Detection and Reliability
Improvement
1.2.23.1.3 Jitter Measurements on the BSTWAMP
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542456003
VS.BSTWAMP.
Forward.MinJitt
er
Minimum
forward jitter
on the
BSTWAMP
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
666
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542456004
VS.BSTWAMP.
Forward.Jitter.
Means
Average
forward jitter
on the
BSTWAMP
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542456005
VS.BSTWAMP.
Forward.MaxJit
ter
Maximum
forward jitter
on the
BSTWAMP
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542456006
VS.BSTWAMP.
Backward.MinJ
itter
Minimum
backward jitter
on the
BSTWAMP
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542456007
VS.BSTWAMP.
Backward.Jitter.
Means
Average
backward jitter
on the
BSTWAMP
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
667
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542456008
VS.BSTWAMP.
Backward.MaxJ
itter
Maximum
backward jitter
on the
BSTWAMP
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters provide the variation of BSTWAMP packets transmitted on the transport
network and indicate the stability of the transmission on the detected links.
Measurement Points
The sampling period is 5 seconds. The base station calculates the jitter in each sampling
period. At the end of a measurement period, the system calculates the minimum delay,
average delay, and maximum delay.
As shown in Figure 1-32:
Forward delay delta(T_1) = T2_1 - T1_1
Backward delay delta(D_1) = T4_1 - T3_1
Based on the second response packet,
Forward delay delta(T_2) = T2_2 - T1_2
Backward delay delta(D_2) = T4_2 - T3_2
Then,
Forward jitter J1 = delta(T_2) - delta(T_1) = (T2_2 - T2_1) - (T1_2 - T1_1)
Similarly,
Backward jitter Q1 = delta(D_2) - delta(D_1) = (T4_2 - T4_1) - (T3_2 - T3_1)
VS.BSTWAMP.Forward.MinJitter:
The sampling period is 5 seconds. The system calculates the forward jitter on a link every 5
seconds and calculates the total forward jitter at the end of a measurement period. The value
of the VS.BSTWAMP.Forward.MinJitter counter is the minimum among all the forward jitters
in a measurement period.
VS.BSTWAMP.Forward.MaxJitter:
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Node Performance Counter Reference
1 Node Performance Counter Measurement
The value of the VS.BSTWAMP.Forward.MaxJitter counter is the maximum among all the
jitters in a measurement period.
VS.BSTWAMP.Forward.Jitter.Means:
The value of the VS.BSTWAMP.Forward.Jitter.Means counter is the value of dividing the
total forward jitter by the sampling times.
VS.BSTWAMP.Backward.MinJitter:
The sampling period is 5 seconds. The system calculates the backward jitter on a link every 5
seconds and calculates the total backward jitter at the end of a measurement period. The value
of the VS.BSTWAMP.Backward.MinJitter counter is the minimum among all the backward
jitters in a measurement period.
VS.BSTWAMP.Backward.MaxJitter:
The value of the VS.BSTWAMP.Backward.MaxJitter counter is the maximum among all the
backward jitters in a measurement period.
VS.BSTWAMP.Backward.Jitter.Means:
The value of the VS.BSTWAMP.Backward.Jitter.Means counter is the value of dividing the
total backward jitter by the sampling times.
Figure 1-32
Formula
None
Unit
ms
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Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.BSTWAMP.Forward.Mi
nJitter
Multi-mode: None
GSM: GBFD-151202
UMTS: WRFD-151212
LTE: LOFD-070219
TDLOFD-003018
NR: FOFD-010060
Feature Name
BTS IP Active Performance
Measurement
NodeB IP Active
Performance Measurement
IP Active Performance
Measurement
IP Active Performance
Measurement
Transmission Network
Detection and Reliability
Improvement
VS.BSTWAMP.Forward.Jitt
er.Means
Multi-mode: None
GSM: GBFD-151202
UMTS: WRFD-151212
LTE: LOFD-070219
TDLOFD-003018
NR: FOFD-010060
BTS IP Active Performance
Measurement
NodeB IP Active
Performance Measurement
IP Active Performance
Measurement
IP Active Performance
Measurement
Transmission Network
Detection and Reliability
Improvement
VS.BSTWAMP.Forward.Ma
xJitter
Multi-mode: None
GSM: GBFD-151202
UMTS: WRFD-151212
LTE: LOFD-070219
TDLOFD-003018
NR: FOFD-010060
BTS IP Active Performance
Measurement
NodeB IP Active
Performance Measurement
IP Active Performance
Measurement
IP Active Performance
Measurement
Transmission Network
Detection and Reliability
Improvement
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter Name
Feature ID
VS.BSTWAMP.Backward.
MinJitter
Multi-mode: None
GSM: GBFD-151202
UMTS: WRFD-151212
LTE: LOFD-070219
TDLOFD-003018
NR: FOFD-010060
Feature Name
BTS IP Active Performance
Measurement
NodeB IP Active
Performance Measurement
IP Active Performance
Measurement
IP Active Performance
Measurement
Transmission Network
Detection and Reliability
Improvement
VS.BSTWAMP.Backward.Ji
tter.Means
Multi-mode: None
GSM: GBFD-151202
UMTS: WRFD-151212
LTE: LOFD-070219
TDLOFD-003018
NR: FOFD-010060
BTS IP Active Performance
Measurement
NodeB IP Active
Performance Measurement
IP Active Performance
Measurement
IP Active Performance
Measurement
Transmission Network
Detection and Reliability
Improvement
VS.BSTWAMP.Backward.
MaxJitter
Multi-mode: None
GSM: GBFD-151202
UMTS: WRFD-151212
LTE: LOFD-070219
TDLOFD-003018
NR: FOFD-010060
BTS IP Active Performance
Measurement
NodeB IP Active
Performance Measurement
IP Active Performance
Measurement
IP Active Performance
Measurement
Transmission Network
Detection and Reliability
Improvement
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.23.1.4 Packet Traffic Measurement on the BSTWAMP
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460412
VS.BSTWAMP.
Sender.TxPacke
ts
Number of
packets
transmitted by
the sender on
the BSTWAMP
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542460413
VS.BSTWAMP.
Reflector.TxPac
kets
Number of
packets
transmitted by
the reflector on
the BSTWAMP
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542460414
VS.BSTWAMP.
Sender.RxPacke
ts
Number of
packets
received by the
sender on the
BSTWAMP
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters provide the number of packets sent or received on the transport network
observed through the base station TWAMP measurement. They reflect the transmission
quality on the checked link. When the interval for sending packets is short, data errors may
occur.
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Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
The number of packets sent or received is sampled every 30 seconds. In each measurement
period, the number of packets sent by the TWAMP sender, the number of packets sent by the
TWAMP reflector, and the number of packets received by the TWAMP sender are measured.
At the end of a measurement period, the accumulations of these sampling results are used as
the values of the corresponding counters.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.BSTWAMP.Sender.TxP
ackets
Multi-mode: None
GSM: GBFD-151202
UMTS: WRFD-151212
LTE: LOFD-070219
TDLOFD-003018
NR: FOFD-010060
Feature Name
BTS IP Active Performance
Measurement
NodeB IP Active
Performance Measurement
IP Active Performance
Measurement
IP Active Performance
Measurement
Transmission Network
Detection and Reliability
Improvement
VS.BSTWAMP.Reflector.Tx
Packets
Multi-mode: None
GSM: GBFD-151202
UMTS: WRFD-151212
LTE: LOFD-070219
TDLOFD-003018
NR: FOFD-010060
BTS IP Active Performance
Measurement
NodeB IP Active
Performance Measurement
IP Active Performance
Measurement
IP Active Performance
Measurement
Transmission Network
Detection and Reliability
Improvement
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter Name
Feature ID
Feature Name
VS.BSTWAMP.Sender.RxP
ackets
Multi-mode: None
GSM: GBFD-151202
UMTS: WRFD-151212
LTE: LOFD-070219
TDLOFD-003018
NR: FOFD-010060
BTS IP Active Performance
Measurement
NodeB IP Active
Performance Measurement
IP Active Performance
Measurement
IP Active Performance
Measurement
Transmission Network
Detection and Reliability
Improvement
1.2.24 Measurement of GPM Performance (GPM)
Overview
The object type Measurement of GPM Performance contains the function subsets related to
GPM. It represents the congestion of an E2E IP transmission network based on the RSCGRP
MO.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Transport.GPM
GPM Measurement
1.2.24.1 GPM Measurement (Transport.GPM)
Overview
The GPM Measurement function subset measures the congestion of an E2E IP transmission
network based on the RSCGRP MO. GPM detection is a congestion detection mechanism,
preventing the interference of error bits. GPM detection can detect whether congestion occurs
on an E2E IP transmission network regardless of whether there are error bits.
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Node Performance Counter Reference
1 Node Performance Counter Measurement
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542456097
VS.GPM.CongTim
e
GPM-measured
Congestion Duration
BTS3900:
V100R010C01
BTS3900 WCDMA:
V100R010C01
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
Counter Relationship
None
1.2.24.1.1 GPM Congestion Duration Measurement
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542456097
VS.GPM.Cong
Time
GPM-measured
Congestion
Duration
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the congestion duration on the IP transmission network that is detected
by the GPM detection. It represents the congestion of the E2E IP transmission network.
Disuse Statement:
This counter will be replaced by the VS.IPGPM.CongTime counter in later versions. In the
current version, this counter can be reported normally when Transmission Configuration
Mode in the GTRANSPARA MO is set to OLD, but is replaced by the VS.IPGPM.CongTime
counter when Transmission Configuration Mode in the GTRANSPARA MO is set to NEW.
This counter will be removed from later versions. Therefore, avoid using this counter.
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Measurement Points
The base station calculates the congestion duration based on the GPM detection results every
second. The base station takes 5s as a sampling period. At the end of a measurement period,
the sum of these sampling results is used as the value of this counter.
The condition that the GPM can normally detect the congestion duration is as follows: An
HSUPA interactive or background service is performed in the uplink on the Iub transmission
network; An HSDPA interactive, background, or streaming service is performed in the
downlink on the Iub transmission network. If this condition is not met, the GPM detection
result is NO_MEASUREMENT. The duration of this state will not be accumulated to the
measurement value of this congestion duration.
Formula
None
Unit
s
Related Features
Counter Name
Feature ID
VS.GPM.CongTime
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
WRFD-01061212
LTE: None
HSDPA Flow Control
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.25 Measurement of ETHDM Performance (ETHDM)
Overview
The object type Measurement of ETHDM Performance contains the function subsets related
to ETHDM. It reflects the jitter of transmission at the data link layer measured by the base
station based on the ITU-T Y.1731 protocol.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
DataLink.ETHDM
Ethernet Delay Measurement
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1.2.25.1 Ethernet Delay Measurement (DataLink.ETHDM)
Overview
The Measurement of Ethernet Delay function subset measures ETHLM-related jitter of the
Ethernet. It helps analyze the jitter loss of transmission at the data link layer measured by the
base station based on the ITU-T Y.1731 protocol. Figure 1-33 shows the position of the
Ethernet port in the TCP/IP model.
Figure 1-33
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542456106
VS.ETHDM.MaxR
ttDelay
Maximum RTT
delay on the
Ethernet
BTS3900:
V100R010C10
BTS3900 WCDMA:
V100R010C10
BTS3900 LTE:
V100R010C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542456107
VS.ETHDM.MinRt
tDelay
Minimum RTT
delay on the
Ethernet
BTS3900:
V100R010C10
BTS3900 WCDMA:
V100R010C10
BTS3900 LTE:
V100R010C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542456108
VS.ETHDM.Rtt.M
eans
Average RTT delay
on the Ethernet
BTS3900:
V100R010C10
BTS3900 WCDMA:
V100R010C10
BTS3900 LTE:
V100R010C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542456109
VS.ETHDM.RttJitt
erStandardDeviation
Standard deviation
of the RTT jitter on
the Ethernet
BTS3900:
V100R010C10
BTS3900 WCDMA:
V100R010C10
BTS3900 LTE:
V100R010C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542456110
VS.ETHDM.MaxR
ttJitter
Maximum RTT jitter
on the Ethernet
BTS3900:
V100R010C10
BTS3900 WCDMA:
V100R010C10
BTS3900 LTE:
V100R010C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542456111
VS.ETHDM.MinRt
tJitter
Minimum RTT jitter
on the Ethernet
BTS3900:
V100R010C10
BTS3900 WCDMA:
V100R010C10
BTS3900 LTE:
V100R010C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542456112
VS.ETHDM.RttJitt
er.Means
Average RTT jitter
on the Ethernet
BTS3900:
V100R010C10
BTS3900 WCDMA:
V100R010C10
BTS3900 LTE:
V100R010C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.25.1.1 Ethernet Delay Measurement
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542456106
VS.ETHDM.M
axRttDelay
Maximum RTT
delay on the
Ethernet
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542456107
VS.ETHDM.Mi
nRttDelay
Minimum RTT
delay on the
Ethernet
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542456108
VS.ETHDM.Rt
t.Means
Average RTT
delay on the
Ethernet
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters measure the maximum, minimum, and average round-trip times (RTTs)
obtained by the transport network within a measurement period based on the ITU-T Y.1731
protocol. They indicate the delay of the transport network.
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Node Performance Counter Reference
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Measurement Points
The base station takes samples every 5s to obtain the Ethernet RTT.
After the Ethernet delay measurement is activated, the base station periodically sends delay
measurement message (DMM) frames and receives delay measurement reply (DMR) frames.
The value of the VS.ETHDM.Rtt.Means counter is calculated by the following formula:
VS.ETHDM.Rtt.Means = Total delay of DMM and DMR frames during the transmission on
links at the end of a measurement period/Total number of received DMR frames.
The maximum sampling value in a measurement period is used as the value of the
VS.ETHDM.MaxRttDelay counter.
The minimum sampling value in a measurement period is used as the value of the
VS.ETHDM.MinRttDelay counter.
Formula
None
Unit
microsecond
Related Features
Counter Name
Feature ID
VS.ETHDM.MaxRttDelay
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-050425
Ethernet OAM
LTE: LOFD-003004
Ethernet OAM
TDLOFD-003004
NR: FOFD-010060
VS.ETHDM.MinRttDelay
Ethernet OAM
Transmission Network
Detection and Reliability
Improvement
Multi-mode: None
GSM: None
UMTS: WRFD-050425
Ethernet OAM
LTE: LOFD-003004
Ethernet OAM
TDLOFD-003004
NR: FOFD-010060
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Copyright © Huawei Technologies Co., Ltd.
Ethernet OAM
Transmission Network
Detection and Reliability
Improvement
682
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter Name
Feature ID
VS.ETHDM.Rtt.Means
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-050425
Ethernet OAM
LTE: LOFD-003004
Ethernet OAM
TDLOFD-003004
Ethernet OAM
NR: FOFD-010060
Transmission Network
Detection and Reliability
Improvement
1.2.25.1.2 Ethernet Jitter Measurement
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542456109
VS.ETHDM.Rt
tJitterStandardDeviation
Standard
deviation of the
RTT jitter on
the Ethernet
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542456110
VS.ETHDM.M
axRttJitter
Maximum RTT
jitter on the
Ethernet
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
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3900 Series & 5900 Series Base Station
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1 Node Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542456111
VS.ETHDM.Mi
nRttJitter
Minimum RTT
jitter on the
Ethernet
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542456112
VS.ETHDM.Rt
tJitter.Means
Average RTT
jitter on the
Ethernet
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters provide the standard deviation of RTT jitters and the maximum, minimum,
and average RTT jitters of ITU-T Y.1731 packets in the transport network within a
measurement period. They indicate the delay stability during the transmission of detected data
streams. A larger standard deviation reflects a larger fluctuation in transmission delay.
Measurement Points
The base station takes samples every 5s to obtain the Ethernet RTT jitter.
After the Ethernet delay measurement is activated, the base station periodically sends delay
measurement message (DMM) frames and receives delay measurement reply (DMR) frames.
The VS.ETHDM.RttJitterStandardDeviation counter is calculated as follows: The squared
value of the jitter at the end of a measurement period is divided by the number of received
DMR frames, and then the calculation result is extracted.
The VS.ETHDM.RttJitter.Means counter is calculated by the following formula:
VS.ETHDM.Rtt.Means = Total jitter of DMM and DMR frames during the transmission on
links at the end of a measurement period/Total number of received DMR frames.
The maximum jitter calculated at the end of a measurement period is used as the value of the
VS.ETHDM.MaxRttJitter counter.
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The minimum jitter calculated at the end of a measurement period is used as the value of the
VS.ETHDM.MinRttJitter counter.
Formula
None
Unit
microsecond
Related Features
Counter Name
Feature ID
VS.ETHDM.RttJitterStanda
rdDeviation
Multi-mode: None
GSM: None
UMTS: WRFD-050425
Ethernet OAM
LTE: LOFD-003004
Ethernet OAM
TDLOFD-003004
NR: FOFD-010060
VS.ETHDM.MaxRttJitter
Feature Name
Ethernet OAM
Transmission Network
Detection and Reliability
Improvement
Multi-mode: None
GSM: None
UMTS: WRFD-050425
Ethernet OAM
LTE: LOFD-003004
Ethernet OAM
TDLOFD-003004
NR: FOFD-010060
VS.ETHDM.MinRttJitter
Ethernet OAM
Transmission Network
Detection and Reliability
Improvement
Multi-mode: None
GSM: None
UMTS: WRFD-050425
Ethernet OAM
LTE: LOFD-003004
Ethernet OAM
TDLOFD-003004
NR: FOFD-010060
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Ethernet OAM
Transmission Network
Detection and Reliability
Improvement
685
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter Name
Feature ID
Feature Name
VS.ETHDM.RttJitter.Means
Multi-mode: None
GSM: None
UMTS: WRFD-050425
Ethernet OAM
LTE: LOFD-003004
Ethernet OAM
TDLOFD-003004
NR: FOFD-010060
Ethernet OAM
Transmission Network
Detection and Reliability
Improvement
1.2.26 Measurement of ETHLM Performance (ETHLM)
Overview
The object type Measurement of ETHLM Performance contains the function subsets related
to ETHLM. It reflects the packet loss of transmission at the data link layer measured by the
base station based on the ITU-T Y.1731 protocol.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
DataLink.ETHLM
Ethernet Loss Measurement
1.2.26.1 Ethernet Loss Measurement (DataLink.ETHLM)
Overview
The Measurement of Ethernet Packet Loss function subset measures ETHLM-related packet
loss of the Ethernet. It helps analyze the packet loss of transmission at the data link layer
measured by the base station based on the ITU-T Y.1731 protocol. Figure 1-34 shows the
position of the Ethernet port in the TCP/IP model.
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Figure 1-34
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542456116
VS.ETHLM.Forwa
rd.DropMeans
Average forward
packet loss on the
Ethernet
BTS3900:
V100R010C10
BTS3900 WCDMA:
V100R010C10
BTS3900 LTE:
V100R010C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
687
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542456117
VS.ETHLM.Forwa
rd.Peak.DropRates
Peak forward packet
loss on the Ethernet
BTS3900:
V100R010C10
BTS3900 WCDMA:
V100R010C10
BTS3900 LTE:
V100R010C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542456118
VS.ETHLM.Forwa
rd.MinDropRates
Minimum forward
packet loss on the
Ethernet
BTS3900:
V100R010C10
BTS3900 WCDMA:
V100R010C10
BTS3900 LTE:
V100R010C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
688
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542456119
VS.ETHLM.Backw
ard.DropMeans
Average backward
packet loss on the
Ethernet
BTS3900:
V100R010C10
BTS3900 WCDMA:
V100R010C10
BTS3900 LTE:
V100R010C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542456120
VS.ETHLM.Backw
ard.Peak.DropRate
s
Peak backward
packet loss on the
Ethernet
BTS3900:
V100R010C10
BTS3900 WCDMA:
V100R010C10
BTS3900 LTE:
V100R010C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
689
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542456121
VS.ETHLM.Backw
ard.MinDropRates
Minimum backward
packet loss on the
Ethernet
BTS3900:
V100R010C10
BTS3900 WCDMA:
V100R010C10
BTS3900 LTE:
V100R010C10
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
1.2.26.1.1 Ethernet Loss Measurement
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542456116
VS.ETHLM.Fo
rward.DropMea
ns
Average
forward packet
loss on the
Ethernet
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
690
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542456117
VS.ETHLM.Fo
rward.Peak.Dro
pRates
Peak forward
packet loss on
the Ethernet
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542456118
VS.ETHLM.Fo
rward.MinDrop
Rates
Minimum
forward packet
loss on the
Ethernet
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542456119
VS.ETHLM.Ba
ckward.DropM
eans
Average
backward
packet loss on
the Ethernet
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542456120
VS.ETHLM.Ba
ckward.Peak.Dr
opRates
Peak backward
packet loss on
the Ethernet
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
691
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542456121
VS.ETHLM.Ba
ckward.MinDro
pRates
Minimum
backward
packet loss on
the Ethernet
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters provide the average, peak, and minimum numbers of forward and backward
data packets detected by ITU-T Y.1731. They indicate the transmission quality of the detected
link.
The forward packet loss rate refers to the packet loss rate of ITU-T Y.1731 detection packets
from the local end to the peer end. The backward packet loss rate refers to the packet loss rate
of response packets from the peer end to the local end.
Measurement Points
The sampling period is 5s. The base station obtains the numbers of forward packets, backward
packets, and lost packets in each sampling period. The base station calculates the total number
of each value at the end of a measurement period. The packet loss rate in each sampling
period is calculated by dividing the number of lost packets by the total number of packets.
The base station calculates the average, maximum, and minimum packet loss rates at the end
of a measurement period.
Formula
None
Unit
%
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
692
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.ETHLM.Forward.Drop
Means
Multi-mode: None
GSM: None
UMTS: WRFD-050425
Ethernet OAM
LTE: LOFD-003004
Ethernet OAM
TDLOFD-003004
NR: FOFD-010060
VS.ETHLM.Forward.Peak.
DropRates
UMTS: WRFD-050425
Ethernet OAM
LTE: LOFD-003004
Ethernet OAM
Ethernet OAM
Transmission Network
Detection and Reliability
Improvement
Multi-mode: None
GSM: None
UMTS: WRFD-050425
Ethernet OAM
LTE: LOFD-003004
Ethernet OAM
TDLOFD-003004
NR: FOFD-010060
Ethernet OAM
Transmission Network
Detection and Reliability
Improvement
Multi-mode: None
GSM: None
UMTS: WRFD-050425
Ethernet OAM
LTE: LOFD-003004
Ethernet OAM
TDLOFD-003004
NR: FOFD-010060
Issue Draft C (2019-04-10)
Transmission Network
Detection and Reliability
Improvement
GSM: None
NR: FOFD-010060
VS.ETHLM.Backward.Dro
pMeans
Ethernet OAM
Multi-mode: None
TDLOFD-003004
VS.ETHLM.Forward.MinD
ropRates
Feature Name
Copyright © Huawei Technologies Co., Ltd.
Ethernet OAM
Transmission Network
Detection and Reliability
Improvement
693
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter Name
Feature ID
Feature Name
VS.ETHLM.Backward.Peak
.DropRates
Multi-mode: None
GSM: None
UMTS: WRFD-050425
Ethernet OAM
LTE: LOFD-003004
Ethernet OAM
TDLOFD-003004
NR: FOFD-010060
VS.ETHLM.Backward.Min
DropRates
Ethernet OAM
Transmission Network
Detection and Reliability
Improvement
Multi-mode: None
GSM: None
UMTS: WRFD-050425
Ethernet OAM
LTE: LOFD-003004
Ethernet OAM
TDLOFD-003004
NR: FOFD-010060
Ethernet OAM
Transmission Network
Detection and Reliability
Improvement
1.2.27 Measurement of SRIO Port Performance (SRIOPORT)
Overview
The object type Measurement of SRIO Port Performance contains the function subsets related
to the SRIO ports in a base station. It represents the bandwidth allocated to these ports.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Physical.SRIOPORT
SRIO Port Measurement
1.2.27.1 SRIO Port Measurement (Physical.SRIOPORT)
Overview
The SRIO Port Measurement function subset measures the bandwidth allocated to the SRIO
ports in a base station and guides users through network planning. Figure 1-35 shows the
position of the SRIO port in the SRIO model.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
694
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Figure 1-35
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460382
VS.SRIOPORT.All
ocatedBW.TxMaxB
W
Maximum transmit
bandwidth that has
been allocated to an
SRIO port
BTS3900:
V100R011C00
BTS3900 LTE:
V100R011C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1542460383
VS.SRIOPORT.All
ocatedBW.TxAvgB
W
Average transmit
bandwidth that has
been allocated to an
SRIO port
BTS3900:
V100R011C00
BTS3900 LTE:
V100R011C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1542460384
VS.SRIOPORT.All
ocatedBW.TxMax
Usage
Maximum allocation
rate of the transmit
bandwidth to an
SRIO port
BTS3900:
V100R011C00
BTS3900 LTE:
V100R011C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1542460385
VS.SRIOPORT.All
ocatedBW.TxAvgU
sage
Average allocation
rate of the transmit
bandwidth to an
SRIO port
BTS3900:
V100R011C00
BTS3900 LTE:
V100R011C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
695
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460386
VS.SRIOPORT.All
ocatedBW.RxMax
BW
Maximum receive
bandwidth that has
been allocated to an
SRIO port
BTS3900:
V100R011C00
BTS3900 LTE:
V100R011C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1542460387
VS.SRIOPORT.All
ocatedBW.RxAvgB
W
Average receive
bandwidth that has
been allocated to an
SRIO port
BTS3900:
V100R011C00
BTS3900 LTE:
V100R011C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1542460388
VS.SRIOPORT.All
ocatedBW.RxMax
Usage
Maximum allocation
rate of the receive
bandwidth to an
SRIO port
BTS3900:
V100R011C00
BTS3900 LTE:
V100R011C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
1542460389
VS.SRIOPORT.All
ocatedBW.RxAvgU
sage
Average allocation
rate of the receive
bandwidth to an
SRIO port
BTS3900:
V100R011C00
BTS3900 LTE:
V100R011C00
BTS5900:
V100R013C00
BTS5900 LTE:
V100R013C00
Counter Relationship
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
696
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.27.1.1 Measurement of Bandwidth Allocated to an SRIO Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460382
VS.SRIOPORT.
AllocatedBW.T
xMaxBW
Maximum
transmit
bandwidth that
has been
allocated to an
SRIO port
BTS3900,
BTS3900 LTE,
L
Average
transmit
bandwidth that
has been
allocated to an
SRIO port
BTS3900,
BTS3900 LTE,
Maximum
receive
bandwidth that
has been
allocated to an
SRIO port
BTS3900,
BTS3900 LTE,
Average receive
bandwidth that
has been
allocated to an
SRIO port
BTS3900,
BTS3900 LTE,
1542460383
1542460386
1542460387
VS.SRIOPORT.
AllocatedBW.T
xAvgBW
VS.SRIOPORT.
AllocatedBW.R
xMaxBW
VS.SRIOPORT.
AllocatedBW.R
xAvgBW
BTS5900,
BTS5900 LTE
L
BTS5900,
BTS5900 LTE
L
BTS5900,
BTS5900 LTE
L
BTS5900,
BTS5900 LTE
Description
These counters provide the maximum and average transmit/receive bandwidths on an SRIO
port in a measurement period. The counters only indicate the bandwidth allocation instead of
real-time usage.
Measurement Points
The allocated bandwidth is sampled every 10 seconds. At the end of a measurement period,
the maximum and average of these sampling results are used as the values of the
corresponding counters.
Formula
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
697
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Unit
kbit/s
Related Features
None
1.2.27.1.2 Measurement of Allocated Bandwidth Ratio on an SRIO Port
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460384
VS.SRIOPORT.
AllocatedBW.T
xMaxUsage
Maximum
allocation rate
of the transmit
bandwidth to an
SRIO port
BTS3900,
BTS3900 LTE,
L
Average
allocation rate
of the transmit
bandwidth to an
SRIO port
BTS3900,
BTS3900 LTE,
Maximum
allocation rate
of the receive
bandwidth to an
SRIO port
BTS3900,
BTS3900 LTE,
Average
allocation rate
of the receive
bandwidth to an
SRIO port
BTS3900,
BTS3900 LTE,
1542460385
1542460388
1542460389
VS.SRIOPORT.
AllocatedBW.T
xAvgUsage
VS.SRIOPORT.
AllocatedBW.R
xMaxUsage
VS.SRIOPORT.
AllocatedBW.R
xAvgUsage
BTS5900,
BTS5900 LTE
L
BTS5900,
BTS5900 LTE
L
BTS5900,
BTS5900 LTE
L
BTS5900,
BTS5900 LTE
Description
These counters provide the maximum and average allocated bandwidth ratios on an SRIO port
in a measurement period. The counters only indicate the bandwidth allocation instead of realtime usage.
Measurement Points
The allocated bandwidth ratio is sampled every 10 seconds. The allocated bandwidth ratio is
calculated by multiplying the allocated bandwidth by the total bandwidth. If the calculated
result is greater than 1, the allocated bandwidth ratio is 100. At the end of a measurement
period, the maximum and average sampling results are used as the values of the
corresponding counters.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
698
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Formula
None
Unit
%
Related Features
None
1.2.28 Measurement of IKEPEER Performance (IKEPEER)
Overview
The object type Measurement of IKE Peer Performance provides the IPSec performance of
IKE peers in a base station. It represents the IPSec status of IKE peers and helps improve the
IPSec maintenance capability.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Transport.IKEPEER
IKEPEER Measurement
1.2.28.1 IKEPEER Measurement (Transport.IKEPEER)
Overview
The IKE Peer Measurement function subset measures the IPSec performance of IKE peers in
a base station. It represents the IPSec status of IKE peers and helps improve the IPSec
maintenance capability.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
699
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460596
VS.IKEPEER.RxP
ackets
Number of IKE
Packets Received by
an IKE Peer
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460597
VS.IKEPEER.TxP
ackets
Number of IKE
Packets Transmitted
by an IKE Peer
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
700
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460598
VS.IKEPEER.Sub
SARekey.Times
Number of Re-key
Negotiations
Initiated for IKE
Peer Child SA
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460599
VS.IKEPEER.DPD
SessionFail.Times
Number of IKE
Disconnections
Caused by DPD
Sessions of an IKE
Peer
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
701
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460600
VS.IKEPEER.Resp
.Recv.AuthReq.Ti
mes
Number of IKE
Authentication
Requests Received
by an IKE Peer
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460601
VS.IKEPEER.Init.
Recv.AuthResp.Ti
mes
Number of
Responses Received
by an IKE Peer to
IKE Authentication
Requests
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
702
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460602
VS.IKEPEER.Resp
.Recv.CrChildSAR
eq.Times
Number of IKE
Create Child SA
Requests Received
by an IKE Peer
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460603
VS.IKEPEER.Init.
Recv.CrChildSARe
sponse
Number of
Responses to IKE
Create Child SA
Requests Received
by an IKE Peer
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
703
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460604
VS.IKEPEER.Resp
RecvErrorNotify
Number of IKE
Error Type Notify
Messages Received
by an IKE Peer
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460605
VS.IKEPEER.Resp
.Recv.StateNotify.T
imes
Number of IKE
State Type Notify
Messages Received
by an IKE Peer
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
704
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460606
VS.IKEPEER.Resp
.Recv.DelSAReq.Ti
mes
Number of IKE
Delete SA Requests
Received by an IKE
Peer
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460607
VS.IKEPEER.Init.
Recv.DelSAResp.Ti
mes
Number of
Responses Received
by an IKE Peer to
IKE Delete SA
Requests
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
705
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460608
VS.IKEPEER.Init.
Recv.ConfigReply.
Times
Number of
Responses Received
by an IKE Peer to
IKE Configuration
Payload Requests
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460609
VS.IKEPEER.Resp
.Recv.IKEInitReq.
Times
Number of IKE
Initialization
Requests Received
by an IKE Peer
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
706
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460610
VS.IKEPEER.Init.
Recv.IKEInitResp.
Times
Number of
Responses Received
by an IKE Peer to
IKE Initialization
Requests
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460611
VS.IKEPEER.Recv
.InvalidPackets
Number of Invalid
IKE Packets
Received by an IKE
Peer
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
707
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460612
VS.IKEPEER.Init.
Send.AuthReq.Tim
es
Number of IKE
Authentication
Requests Sent by an
IKE Peer
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460613
VS.IKEPEER.Resp
.Send.AuthResp.Ti
mes
Number of
Responses Sent by
an IKE Peer to IKE
Authentication
Requests
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
708
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460614
VS.IKEPEER.Init.
Send.CrChildSARe
q.Times
Number of IKE
Create Child SA
Requests Sent by an
IKE Peer
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460615
VS.IKEPEER.Resp
.Send.CrChildSAR
esp.Times
Number of
Responses Sent by
an IKE Peer to IKE
Create Child SA
Requests
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
709
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460616
VS.IKEPEER.Init.
Send.ErrorNotify.T
imes
Number of IKE
Error Type Notify
Messages Sent by an
IKE Peer
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460617
VS.IKEPEER.Init.
Send.StateNotify.Ti
mes
Number of IKE
State Type Notify
Messages Sent by an
IKE Peer
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
710
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460618
VS.IKEPEER.Init.
Send.DelSAReq.Ti
mes
Number of
Responses Sent by
an IKE Peer to IKE
Delete SA Requests
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460619
VS.IKEPEER.Resp
.Send.DelSAResp.T
imes
Number of IKE
Delete SA Requests
Sent by an IKE Peer
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
711
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460620
VS.IKEPEER.Init.
Send.ConfigReq.Ti
mes
Number of IKE
Configuration
Payload Requests
Sent by an IKE Peer
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
1542460621
VS.IKEPEER.Init.
Send.IKEInitReq.T
imes
Number of IKE
Initialization
Requests Sent by an
IKE Peer
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
712
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460622
VS.IKEPEER.Resp
.Send.IKEInitResp.
Times
Number of
Responses Sent by
an IKE Peer to IKE
Initialization
Requests
BTS3900:
V100R013C00
BTS3900 WCDMA:
V100R013C00
BTS3900 LTE:
V100R013C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R013C00
BTS5900 WCDMA:
V100R013C00
BTS5900 LTE:
V100R013C00
BTS5900 5G:
V100R013C10
Counter Relationship
None
1.2.28.1.1 Number of IKE Packets Received by an IKE Peer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460596
VS.IKEPEER.
RxPackets
Number of IKE
Packets
Received by an
IKE Peer
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of IKE packets received by an IKE peer.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
713
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
The number of IKE packets received by an IKE peer is sampled every five seconds. At the
end of a measurement period, the sum of these sampling results is used as the value of this
counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.IKEPEER.RxPackets
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.28.1.2 Number of IKE Packets Transmitted by an IKE Peer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460597
VS.IKEPEER.T
xPackets
Number of IKE
Packets
Transmitted by
an IKE Peer
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of IKE packets transmitted by an IKE peer.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
714
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
The number of IKE packets transmitted by an IKE peer is sampled every five seconds. At the
end of a measurement period, the sum of these sampling results is used as the value of this
counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.IKEPEER.TxPackets
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.28.1.3 Number of Re-key Negotiations Initiated for IKE Peer Child SA
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460598
VS.IKEPEER.S
ubSARekey.Ti
mes
Number of Rekey
Negotiations
Initiated for
IKE Peer Child
SA
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
715
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of re-key negotiations initiated by a base station for IKE
peer child SA.
Measurement Points
In a measurement period, when a base station successfully initiates a re-key negotiation for
IKE peer child SA, the value of this counter is incremented by one and the accumulated
number within this measurement period is used as the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKEPEER.SubSARekey.
Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.28.1.4 Number of IKE Disconnections Caused by DPD Sessions of an IKE Peer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460599
VS.IKEPEER.
DPDSessionFai
l.Times
Number of IKE
Disconnections
Caused by DPD
Sessions of an
IKE Peer
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
716
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of IKE disconnections caused by DPD sessions of an IKE
peer.
Measurement Points
The number of IKE disconnections caused by dead peer detection (DPD) sessions of an IKE
peer is sampled every five seconds. At the end of a measurement period, the sum of these
sampling results is used as the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKEPEER.DPDSessionF
ail.Times
Multi-mode: None
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
NR: FOFD-010080
Issue Draft C (2019-04-10)
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IPsec
IPsec
717
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.28.1.5 Number of IKE Authentication Requests Received by an IKE Peer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460600
VS.IKEPEER.
Resp.Recv.Auth
Req.Times
Number of IKE
Authentication
Requests
Received by an
IKE Peer
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of IKE authentication requests received by an IKE peer.
Measurement Points
In a measurement period, when an IKE peer receives an IKE authentication request, the value
of this counter is incremented by one and the accumulated number within this measurement
period is used as the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKEPEER.Resp.Recv.A
uthReq.Times
Multi-mode: None
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
NR: FOFD-010080
Issue Draft C (2019-04-10)
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IPsec
IPsec
718
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.28.1.6 Number of Responses Received by an IKE Peer to IKE Authentication
Requests
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460601
VS.IKEPEER.I
nit.Recv.AuthR
esp.Times
Number of
Responses
Received by an
IKE Peer to
IKE
Authentication
Requests
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of responses that are received by an IKE peer to IKE
authentication requests.
Measurement Points
In a measurement period, when an IKE peer receives a response to an IKE authentication
request, the value of this counter is incremented by one and the accumulated number within
this measurement period is used as the value of this counter.
Formula
None
Unit
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
719
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.IKEPEER.Init.Recv.Aut
hResp.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.28.1.7 Number of IKE Create Child SA Requests Received by an IKE Peer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460602
VS.IKEPEER.
Resp.Recv.CrC
hildSAReq.Tim
es
Number of IKE
Create Child
SA Requests
Received by an
IKE Peer
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of IKE Create Child SA requests received by an IKE peer.
Measurement Points
In a measurement period, when an IKE peer receives an IKE Create Child SA request, the
value of this counter is incremented by one and the accumulated number within this
measurement period is used as the value of this counter.
Formula
None
Unit
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
720
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.IKEPEER.Resp.Recv.Cr
ChildSAReq.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.28.1.8 Number of Responses to IKE Create Child SA Requests Received by an IKE
Peer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460603
VS.IKEPEER.I
nit.Recv.CrChil
dSAResponse
Number of
Responses to
IKE Create
Child SA
Requests
Received by an
IKE Peer
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of responses received by an IKE peer to IKE Create Child
SA requests.
Measurement Points
In a measurement period, when an IKE peer receives a response to an IKE Create Child SA
request, the value of this counter is incremented by one and the accumulated number within
this measurement period is used as the value of this counter.
Formula
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
721
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Unit
None
Related Features
Counter Name
Feature ID
VS.IKEPEER.Init.Recv.CrC
hildSAResponse
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.28.1.9 Number of IKE Error Type Notify Messages Received by an IKE Peer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460604
VS.IKEPEER.
RespRecvError
Notify
Number of IKE
Error Type
Notify
Messages
Received by an
IKE Peer
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of IKE Error Type Notify messages received by an IKE
peer.
Measurement Points
In a measurement period, when an IKE peer receives an IKE Error Type Notify message, the
value of this counter is incremented by one and the accumulated number within this
measurement period is used as the value of this counter.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
722
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKEPEER.RespRecvErr
orNotify
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.28.1.10 Number of IKE State Type Notify Messages Received by an IKE Peer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460605
VS.IKEPEER.
Resp.Recv.State
Notify.Times
Number of IKE
State Type
Notify
Messages
Received by an
IKE Peer
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of IKE State Type Notify messages received by an IKE
peer.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
723
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
In a measurement period, when an IKE peer receives an IKE State Type Notify message, the
value of this counter is incremented by one and the accumulated number within this
measurement period is used as the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKEPEER.Resp.Recv.St
ateNotify.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.28.1.11 Number of IKE Delete SA Requests Received by an IKE Peer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460606
VS.IKEPEER.
Resp.Recv.DelS
AReq.Times
Number of IKE
Delete SA
Requests
Received by an
IKE Peer
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of IKE Delete SA requests received by an IKE peer.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
724
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
In a measurement period, when an IKE peer receives an IKE Delete SA request, the value of
this counter is incremented by one and the accumulated number within this measurement
period is used as the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKEPEER.Resp.Recv.De
lSAReq.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.28.1.12 Number of Responses Received by an IKE Peer to IKE Delete SA Requests
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460607
VS.IKEPEER.I
nit.Recv.DelSA
Resp.Times
Number of
Responses
Received by an
IKE Peer to
IKE Delete SA
Requests
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
725
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of responses that are received by an IKE peer to IKE
Delete SA requests.
Measurement Points
In a measurement period, when an IKE peer receives a response to an IKE Delete SA request,
the value of this counter is incremented by one and the accumulated number within this
measurement period is used as the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKEPEER.Init.Recv.Del
SAResp.Times
Multi-mode: None
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
NR: FOFD-010080
Issue Draft C (2019-04-10)
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IPsec
IPsec
726
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.28.1.13 Number of Responses Received by an IKE Peer to IKE Configuration
Payload Requests
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460608
VS.IKEPEER.I
nit.Recv.Config
Reply.Times
Number of
Responses
Received by an
IKE Peer to
IKE
Configuration
Payload
Requests
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of responses that are received by an IKE peer to IKE
Configuration Payload requests.
Measurement Points
In a measurement period, when an IKE peer receives a response to an IKE Configuration
Payload request, the value of this counter is incremented by one and the accumulated number
within this measurement period is used as the value of this counter.
Formula
None
Unit
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
727
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.IKEPEER.Init.Recv.Con
figReply.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.28.1.14 Number of IKE Initialization Requests Received by an IKE Peer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460609
VS.IKEPEER.
Resp.Recv.IKEI
nitReq.Times
Number of IKE
Initialization
Requests
Received by an
IKE Peer
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of IKE initialization requests received by an IKE peer.
Measurement Points
In a measurement period, when an IKE peer receives an IKE initialization request, the value
of this counter is incremented by one and the accumulated number within this measurement
period is used as the value of this counter.
Formula
None
Unit
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
728
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.IKEPEER.Resp.Recv.IK
EInitReq.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.28.1.15 Number of Responses Received by an IKE Peer to IKE Initialization
Requests
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460610
VS.IKEPEER.I
nit.Recv.IKEIni
tResp.Times
Number of
Responses
Received by an
IKE Peer to
IKE
Initialization
Requests
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of responses received by an IKE peer to IKE initialization
requests.
Measurement Points
In a measurement period, when an IKE peer receives a response to an IKE initialization
request, the value of this counter is incremented by one and the accumulated number within
this measurement period is used as the value of this counter.
Formula
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
729
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Unit
None
Related Features
Counter Name
Feature ID
VS.IKEPEER.Init.Recv.IKE
InitResp.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.28.1.16 Number of Invalid IKE Packets Received by an IKE Peer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460611
VS.IKEPEER.
Recv.InvalidPac
kets
Number of
Invalid IKE
Packets
Received by an
IKE Peer
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of IKE packets with invalid types, invalid lengths, or
invalid values that are received by an IKE peer.
Measurement Points
The number of invalid IKE packets received by an IKE peer is sampled every five seconds. At
the end of a measurement period, the sum of these sampling results is used as the value of this
counter.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
730
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.IKEPEER.Recv.InvalidP
ackets
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.28.1.17 Number of IKE Authentication Requests Sent by an IKE Peer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460612
VS.IKEPEER.I
nit.Send.AuthR
eq.Times
Number of IKE
Authentication
Requests Sent
by an IKE Peer
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of IKE authentication requests sent by an IKE peer.
Measurement Points
In a measurement period, when an IKE peer sends an IKE authentication request, the value of
this counter is incremented by one and the accumulated number within this measurement
period is used as the value of this counter.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
731
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKEPEER.Init.Send.Aut
hReq.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.28.1.18 Number of Responses Sent by an IKE Peer to IKE Authentication Requests
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460613
VS.IKEPEER.
Resp.Send.Auth
Resp.Times
Number of
Responses Sent
by an IKE Peer
to IKE
Authentication
Requests
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of responses sent by an IKE peer to IKE authentication
requests.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
732
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
In a measurement period, when an IKE peer responds to an IKE authentication request, the
value of this counter is incremented by one and the accumulated number within this
measurement period is used as the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKEPEER.Resp.Send.A
uthResp.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.28.1.19 Number of IKE Create Child SA Requests Sent by an IKE Peer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460614
VS.IKEPEER.I
nit.Send.CrChil
dSAReq.Times
Number of IKE
Create Child
SA Requests
Sent by an IKE
Peer
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of IKE Create Child SA requests sent by an IKE peer.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
733
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
In a measurement period, when an IKE peer sends an IKE Create Child SA request, the value
of this counter is incremented by one and the accumulated number within this measurement
period is used as the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKEPEER.Init.Send.CrC
hildSAReq.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.28.1.20 Number of Responses Sent by an IKE Peer to IKE Create Child SA Requests
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460615
VS.IKEPEER.
Resp.Send.CrC
hildSAResp.Ti
mes
Number of
Responses Sent
by an IKE Peer
to IKE Create
Child SA
Requests
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
734
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of responses sent by an IKE peer to IKE Create Child SA
requests.
Measurement Points
In a measurement period, when an IKE peer responds to an IKE Create Child SA request, the
value of this counter is incremented by one and the accumulated number within this
measurement period is used as the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKEPEER.Resp.Send.Cr
ChildSAResp.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.28.1.21 Number of IKE Error Type Notify Messages Sent by an IKE Peer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460616
VS.IKEPEER.I
nit.Send.ErrorN
otify.Times
Number of IKE
Error Type
Notify
Messages Sent
by an IKE Peer
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
735
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of IKE Error Type Notify messages sent by an IKE peer.
Measurement Points
In a measurement period, when an IKE peer sends an IKE Error Type Notify message, the
value of this counter is incremented by one and the accumulated number within this
measurement period is used as the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKEPEER.Init.Send.Erro
rNotify.Times
Multi-mode: None
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
NR: FOFD-010080
Issue Draft C (2019-04-10)
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IPsec
IPsec
736
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.28.1.22 Number of IKE State Type Notify Messages Sent by an IKE Peer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460617
VS.IKEPEER.I
nit.Send.StateN
otify.Times
Number of IKE
State Type
Notify
Messages Sent
by an IKE Peer
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of IKE State Type Notify messages sent by an IKE peer.
Measurement Points
In a measurement period, when an IKE peer sends an IKE State Type Notify message, the
value of this counter is incremented by one and the accumulated number within this
measurement period is used as the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKEPEER.Init.Send.Stat
eNotify.Times
Multi-mode: None
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
NR: FOFD-010080
Issue Draft C (2019-04-10)
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IPsec
IPsec
737
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.28.1.23 Number of Responses Sent by an IKE Peer to IKE Delete SA Requests
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460618
VS.IKEPEER.I
nit.Send.DelSA
Req.Times
Number of
Responses Sent
by an IKE Peer
to IKE Delete
SA Requests
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of responses sent by an IKE peer to IKE Delete SA
requests.
Measurement Points
In a measurement period, when an IKE peer sends an IKE Delete SA request, the value of this
counter is incremented by one and the accumulated number within this measurement period is
used as the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IKEPEER.Init.Send.Del
SAReq.Times
Multi-mode: None
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
NR: FOFD-010080
Issue Draft C (2019-04-10)
Feature Name
Copyright © Huawei Technologies Co., Ltd.
IPsec
IPsec
738
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.28.1.24 Number of IKE Delete SA Requests Sent by an IKE Peer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460619
VS.IKEPEER.
Resp.Send.DelS
AResp.Times
Number of IKE
Delete SA
Requests Sent
by an IKE Peer
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of IKE Delete SA requests sent by an IKE peer.
Measurement Points
In a measurement period, when an IKE peer responds to an IKE Delete SA request, the value
of this counter is incremented by one and the accumulated number within this measurement
period is used as the value of this counter.
Formula
None
Unit
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
739
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.IKEPEER.Resp.Send.De
lSAResp.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.28.1.25 Number of IKE Configuration Payload Requests Sent by an IKE Peer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460620
VS.IKEPEER.I
nit.Send.Config
Req.Times
Number of IKE
Configuration
Payload
Requests Sent
by an IKE Peer
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of IKE Configuration Payload requests sent by an IKE
peer.
Measurement Points
In a measurement period, when an IKE peer sends an IKE Configuration Payload request, the
value of this counter is incremented by one and the accumulated number within this
measurement period is used as the value of this counter.
Formula
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
740
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Unit
None
Related Features
Counter Name
Feature ID
VS.IKEPEER.Init.Send.Con
figReq.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.28.1.26 Number of IKE Initialization Requests Sent by an IKE Peer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460621
VS.IKEPEER.I
nit.Send.IKEIni
tReq.Times
Number of IKE
Initialization
Requests Sent
by an IKE Peer
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of IKE initialization requests sent by an IKE peer.
Measurement Points
In a measurement period, when an IKE peer sends an IKE initialization request, the value of
this counter is incremented by one and the accumulated number within this measurement
period is used as the value of this counter.
Formula
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
741
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Unit
None
Related Features
Counter Name
Feature ID
VS.IKEPEER.Init.Send.IKE
InitReq.Times
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
NR: FOFD-010080
IPsec
1.2.28.1.27 Number of Responses Sent by an IKE Peer to IKE Initialization Requests
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460622
VS.IKEPEER.
Resp.Send.IKEI
nitResp.Times
Number of
Responses Sent
by an IKE Peer
to IKE
Initialization
Requests
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of responses sent by an IKE peer to IKE initialization
requests.
Measurement Points
In a measurement period, when an IKE peer responds to an IKE initialization request, the
value of this counter is incremented by one and the accumulated number within this
measurement period is used as the value of this counter.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
742
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
Feature Name
VS.IKEPEER.Resp.Send.IK
EInitResp.Times
Multi-mode: None
GSM: None
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
NR: FOFD-010080
IPsec
IPsec
1.2.29 Measurement of DFUML Performance (DFUMLCLIENT)
Overview
The object type Measurement of DFU Management Link Performance consists of function
subsets related to a DFU management link in a base station. It reflects the traffic volume and
quality of a DFU management link.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
Transport.DFUML
DFUML Measurement
1.2.29.1 DFUML Measurement (Transport.DFUML)
Overview
The object type Measurement of DFU Management Link Performance consists of function
subsets related to a DFU management link in a base station. It reflects the traffic volume and
quality of a DFU management link.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
743
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460641
VS.DFUML.RxTot
alPkts
Total Number of
Packets Received by
a DFU Management
Link
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS3900 5G:
V100R002C00
1542460642
VS.DFUML.RxInS
eqPkts
Number of In-Order
Packets Received by
a DFU Management
Link
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS3900 5G:
V100R002C00
1542460643
VS.DFUML.RxWn
dProbePkts
Number of Window
Probe Packets
Received by a DFU
Management Link
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS3900 5G:
V100R002C00
1542460644
VS.DFUML.RxWn
dUpdatePkts
Number of Window
Size Update Packets
Received by a DFU
Management Link
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS3900 5G:
V100R002C00
1542460645
VS.DFUML.RxDu
pPkts
Number of Fully
Duplicate Packets
Received by a DFU
Management Link
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS3900 5G:
V100R002C00
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
744
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460646
VS.DFUML.RxPar
tDupPkts
Number of Partially
Duplicate Packets
Received by a DFU
Management Link
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS3900 5G:
V100R002C00
1542460647
VS.DFUML.RxOut
OfOrderPkts
Number of Out-ofOrder Packets
Received by a DFU
Management Link
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS3900 5G:
V100R002C00
1542460648
VS.DFUML.RxAft
erWndPkts
Number of Packets
Beyond the Receive
Window of a DFU
Management Link
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS3900 5G:
V100R002C00
1542460649
VS.DFUML.RxAft
erClosePkts
Number of Packets
Received by a DFU
Management Link
After the
Connection Is
Released
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS3900 5G:
V100R002C00
1542460650
VS.DFUML.RxAck
Pkts
Number of ACK
Packets Received by
a DFU Management
Link
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS3900 5G:
V100R002C00
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
745
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460651
VS.DFUML.RxDu
pAckPkts
Number of
Duplicate ACK
Packets Received by
a DFU Management
Link
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS3900 5G:
V100R002C00
1542460652
VS.DFUML.RxToo
MuchAckPkts
Number of Received
ACK Packets for
Non-Transmitted
Data by a DFU
Management Link
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS3900 5G:
V100R002C00
1542460653
VS.DFUML.TxTot
alPkts
Total Number of
Packets Transmitted
by a DFU
Management Link
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS3900 5G:
V100R002C00
1542460654
VS.DFUML.TxUrg
entPkts
Number of Urgent
Data Packets
Transmitted by a
DFU Management
Link
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS3900 5G:
V100R002C00
1542460655
VS.DFUML.TxCtrl
Pkts
Number of Control
Packets Transmitted
by a DFU
Management Link
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS3900 5G:
V100R002C00
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
746
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460656
VS.DFUML.TxWn
dProbePkts
Number of Window
Probe Packets
Transmitted by a
DFU Management
Link
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS3900 5G:
V100R002C00
1542460657
VS.DFUML.TxWn
dUpdatePkts
Number of Window
Size Update Packets
Transmitted by a
DFU Management
Link
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS3900 5G:
V100R002C00
1542460658
VS.DFUML.TxDat
aPkts
Number of Data
Packets Transmitted
by a DFU
Management Link
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS3900 5G:
V100R002C00
1542460659
VS.DFUML.TxDat
aRexntPkts
Number of Packets
Retransmitted by a
DFU Management
Link
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS3900 5G:
V100R002C00
1542460660
VS.DFUML.TxAck
OnlyPkts
Number of ACK
Packets Transmitted
by a DFU
Management Link
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS3900 5G:
V100R002C00
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
747
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter Relationship
None
1.2.29.1.1 Total Number of Packets Received by a DFU Management Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460641
VS.DFUML.Rx
TotalPkts
Total Number
of Packets
Received by a
DFU
Management
Link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the total number of TCP packets received by a DFU management link
in a measurement period. The TCP packets include control packets related to TCP link
establishment, removal, and keepalive, and data packets exchanged between TCP connectionbased applications. This counter is used to reflect the traffic volume on the DFU management
link.
Measurement Points
The total number of packets received by the DFU management link is sampled every five
seconds. At the end of a measurement period, the sum of these sampling results is used as the
value of this counter.
Formula
None
Unit
packet
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
748
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.29.1.2 Number of In-Order Packets Received by a DFU Management Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460642
VS.DFUML.Rx
InSeqPkts
Number of InOrder Packets
Received by a
DFU
Management
Link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of in-order TCP packets, of which the data length is not
zero, received by a DFU management link in a measurement period. This counter is used to
reflect the traffic volume on the DFU management link.
Measurement Points
The number of in-order packets received by the DFU management link is sampled every five
seconds. At the end of a measurement period, the sum of these sampling results is used as the
value of this counter.
Formula
None
Unit
packet
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
749
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.29.1.3 Number of Window Probe Packets Received by a DFU Management Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460643
VS.DFUML.Rx
WndProbePkts
Number of
Window Probe
Packets
Received by a
DFU
Management
Link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of window probe packets received by a DFU management
link in a measurement period. This counter is used to reflect the traffic volume on the DFU
management link. When the local end informs the peer end that the receive window size is
zero, the peer end periodically sends window probe packets to check the size of the receive
window at the local end.
Measurement Points
The number of window probe packets received by the DFU management link is sampled
every five seconds. At the end of a measurement period, the sum of these sampling results is
used as the value of this counter.
Formula
None
Unit
packet
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
750
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.29.1.4 Number of Window Size Update Packets Received by a DFU Management
Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460644
VS.DFUML.Rx
WndUpdatePkt
s
Number of
Window Size
Update Packets
Received by a
DFU
Management
Link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of window size update packets received by a DFU
management link in a measurement period. This counter is used to reflect the quality of the
DFU management link. The peer end sends a window size update packet when it receives a
window probe packet from the local end or when the window size changes at the peer end.
Measurement Points
The number of window size update packets received by the DFU management link is sampled
every five seconds. At the end of a measurement period, the sum of these sampling results is
used as the value of this counter.
Formula
None
Unit
packet
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
751
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.29.1.5 Number of Fully Duplicate Packets Received by a DFU Management Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460645
VS.DFUML.Rx
DupPkts
Number of
Fully Duplicate
Packets
Received by a
DFU
Management
Link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of fully duplicate packets received by a DFU management
link in a measurement period. This counter is used to reflect the quality of the DFU
management link. Two packets are fully duplicate if they have the same sequence number and
the same data. If congestion or delay occurs on a network, the ACK packets cannot be
transmitted in time to the peer end. In this case, the peer end retransmits the data packets. This
counter is used to reflect the link quality and the receive capability of the transmit end.
Measurement Points
The number of fully duplicate packets received by the DFU management link is sampled
every five seconds. At the end of a measurement period, the sum of these sampling results is
used as the value of this counter.
Formula
None
Unit
packet
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
752
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.29.1.6 Number of Partially Duplicate Packets Received by a DFU Management Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460646
VS.DFUML.Rx
PartDupPkts
Number of
Partially
Duplicate
Packets
Received by a
DFU
Management
Link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of partially duplicate packets received by a DFU
management link in a measurement period. This counter is used to reflect the quality of the
DFU management link. Two packets are partially duplicate if they have the same data. This
counter is used to reflect the link quality and the receive capability of the transmit end.
Measurement Points
The number of partially duplicate packets received by the DFU management link is sampled
every five seconds. At the end of a measurement period, the sum of these sampling results is
used as the value of this counter.
Formula
None
Unit
packet
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
753
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.29.1.7 Number of Out-of-Order Packets Received by a DFU Management Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460647
VS.DFUML.Rx
OutOfOrderPkt
s
Number of Outof-Order
Packets
Received by a
DFU
Management
Link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of out-of-order packets received by a DFU management
link in a measurement period. Packets may not be received in sequence when they are
transmitted through multiple routes or retransmitted on networks or data link layers. This
counter is used to reflect the quality of the DFU management link.
Measurement Points
The number of out-of-order packets received by the DFU management link is sampled every
five seconds. At the end of a measurement period, the sum of these sampling results is used as
the value of this counter.
Formula
None
Unit
packet
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
754
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.29.1.8 Number of Packets Beyond the Receive Window of a DFU Management Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460648
VS.DFUML.Rx
AfterWndPkts
Number of
Packets Beyond
the Receive
Window of a
DFU
Management
Link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of packets beyond the receive window of a DFU
management link in a measurement period. A packet falls beyond the receive window if its
size is larger than the value indicated by the receive window. This counter is used to reflect
the quality of the DFU management link.
Measurement Points
The number of packets beyond the receive window of a DFU management link is sampled
every five seconds. At the end of a measurement period, the sum of these sampling results is
used as the value of this counter.
Formula
None
Unit
packet
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
755
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.29.1.9 Number of Packets Received by a DFU Management Link After the
Connection Is Released
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460649
VS.DFUML.Rx
AfterClosePkts
Number of
Packets
Received by a
DFU
Management
Link After the
Connection Is
Released
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of FIN packets, which are received after the connection is
released, by a DFU management link from the peer end in a measurement period. This
counter is used to reflect the quality of the DFU management link. Some data is buffered
during transmission and can be received only after the connection is released. This counter is
used to reflect the network quality.
Measurement Points
The number of packets received by the DFU management link after the connection is released
is sampled every five seconds. At the end of a measurement period, the sum of these sampling
results is used as the value of this counter.
Formula
None
Unit
packet
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
756
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.29.1.10 Number of ACK Packets Received by a DFU Management Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460650
VS.DFUML.Rx
AckPkts
Number of
ACK Packets
Received by a
DFU
Management
Link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of ACK packets received by a DFU management link in a
measurement period. The ACK packets are packets with the ACK flags, including packets
carrying only ACK information and packets carrying ACK information and other information.
This counter is used to reflect the quality of the DFU management link.
Measurement Points
The number of ACK packets received by the DFU management link is sampled every five
seconds. At the end of a measurement period, the sum of these sampling results is used as the
value of this counter.
Formula
None
Unit
packet
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
757
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.29.1.11 Number of Duplicate ACK Packets Received by a DFU Management Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460651
VS.DFUML.Rx
DupAckPkts
Number of
Duplicate ACK
Packets
Received by a
DFU
Management
Link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of duplicate ACK packets received by a DFU management
link in a measurement period. If the sequence number of a TCP packet received by the peer
end is not as expected, ACK packets will be retransmitted. This counter is used to reflect the
quality of the DFU management link.
Measurement Points
The number of duplicate ACK packets received by the DFU management link is sampled
every five seconds. At the end of a measurement period, the sum of these sampling results is
used as the value of this counter.
Formula
None
Unit
packet
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
758
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.29.1.12 Number of Received ACK Packets for Non-Transmitted Data by a DFU
Management Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460652
VS.DFUML.Rx
TooMuchAckP
kts
Number of
Received ACK
Packets for
NonTransmitted
Data by a DFU
Management
Link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of received ACK packets for data that has not been
transmitted by a DFU management link in a measurement period. This counter is used to
reflect the quality of the DFU management link.
Measurement Points
The number of received ACK packets for non-transmitted data by the DFU management link
is sampled every five seconds. At the end of a measurement period, the sum of these sampling
results is used as the value of this counter.
Formula
None
Unit
packet
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
759
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.29.1.13 Total Number of Packets Transmitted by a DFU Management Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460653
VS.DFUML.Tx
TotalPkts
Total Number
of Packets
Transmitted by
a DFU
Management
Link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the total number of TCP packets transmitted successfully and
unsuccessfully by a DFU management link in a measurement period. The TCP packets
include control packets related to TCP link establishment, removal, and keepalive, and data
packets exchanged between TCP connection-based applications. This counter is used to
reflect the traffic volume on the DFU management link.
Measurement Points
The total number of packets transmitted by the DFU management link is sampled every five
seconds. At the end of a measurement period, the sum of these sampling results is used as the
value of this counter.
Formula
None
Unit
packet
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
760
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.29.1.14 Number of Urgent Data Packets Transmitted by a DFU Management Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460654
VS.DFUML.Tx
UrgentPkts
Number of
Urgent Data
Packets
Transmitted by
a DFU
Management
Link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of urgent data packets transmitted successfully and
unsuccessfully by a DFU management link in a measurement period. This counter is used to
reflect the traffic volume on the DFU management link. An urgent data packet is a TCP
packet with the URG bit set to 1.
Measurement Points
The number of urgent data packets transmitted by the DFU management link is sampled every
five seconds. At the end of a measurement period, the sum of these sampling results is used as
the value of this counter.
Formula
None
Unit
packet
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
761
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.29.1.15 Number of Control Packets Transmitted by a DFU Management Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460655
VS.DFUML.Tx
CtrlPkts
Number of
Control Packets
Transmitted by
a DFU
Management
Link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of control packets transmitted successfully and
unsuccessfully by a DFU management link in a measurement period. This counter is used to
reflect the traffic volume on the DFU management link. A control packet is a TCP packet
with the SYN, FIN, or RST bit set and with no data carried, which is used for connection
setup and connection release.
Measurement Points
The number of control packets transmitted by the DFU management link is sampled every
five seconds. At the end of a measurement period, the sum of these sampling results is used as
the value of this counter.
Formula
None
Unit
packet
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
762
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.29.1.16 Number of Window Probe Packets Transmitted by a DFU Management Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460656
VS.DFUML.Tx
WndProbePkts
Number of
Window Probe
Packets
Transmitted by
a DFU
Management
Link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of window probe packets transmitted successfully and
unsuccessfully by a DFU management link in a measurement period. This counter is used to
reflect the quality of the DFU management link. If the local end receives an ACK packet
indicating that the receive window size is zero, the local end will send a one-byte TCP packet,
that is, a window probe packet, to the peer end at a certain interval. The transmitted window
probe packets are used to determine whether the receive end can receive packets, that is,
whether the receive window size changes to a non-zero value. The larger the value of this
counter, the larger extent the transmit capability is stronger than the receive capability.
Measurement Points
The number of window probe packets transmitted by the DFU management link is sampled
every five seconds. At the end of a measurement period, the sum of these sampling results is
used as the value of this counter.
Formula
None
Unit
packet
Related Features
None
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.29.1.17 Number of Window Size Update Packets Transmitted by a DFU Management
Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460657
VS.DFUML.Tx
WndUpdatePkt
s
Number of
Window Size
Update Packets
Transmitted by
a DFU
Management
Link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of window size update packets successfully and
unsuccessfully transmitted by a DFU management link in a measurement period. When the
receive window of the local end changes, a window size update packet is sent, which carries
only the window update information, has a data length of 0, and corresponds to the window
probe packet. This counter is used to reflect the quality of the DFU management link.
Measurement Points
The number of window size update packets transmitted by the DFU management link is
sampled every five seconds. At the end of a measurement period, the sum of these sampling
results is used as the value of this counter.
Formula
None
Unit
packet
Related Features
None
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.29.1.18 Number of Data Packets Transmitted by a DFU Management Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460658
VS.DFUML.Tx
DataPkts
Number of Data
Packets
Transmitted by
a DFU
Management
Link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of data packets transmitted successfully and unsuccessfully
by a DFU management link in a measurement period. This counter is used to reflect the traffic
volume on the DFU management link.
Measurement Points
The number of data packets transmitted by the DFU management link is sampled every five
seconds. At the end of a measurement period, the sum of these sampling results is used as the
value of this counter.
Formula
None
Unit
packet
Related Features
None
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.29.1.19 Number of Packets Retransmitted by a DFU Management Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460659
VS.DFUML.Tx
DataRexntPkts
Number of
Packets
Retransmitted
by a DFU
Management
Link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of packets retransmitted successfully and unsuccessfully
by a DFU management link in a measurement period. One end retransmits a packet if it does
not receive an ACK packet for the packet within a specified time. This counter is used to
reflect the quality of the DFU management link.
Measurement Points
The number of packets retransmitted by the DFU management link is sampled every five
seconds. At the end of a measurement period, the sum of these sampling results is used as the
value of this counter.
Formula
None
Unit
packet
Related Features
None
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Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.29.1.20 Number of ACK Packets Transmitted by a DFU Management Link
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460660
VS.DFUML.Tx
AckOnlyPkts
Number of
ACK Packets
Transmitted by
a DFU
Management
Link
BTS3900,
BTS3900 LTE,
L,N
BTS3900 5G,
BTS5900,
BTS5900 LTE,
BTS5900 5G
Description
This counter measures the number of ACK packets successfully and unsuccessfully
transmitted by a DFU management link in a measurement period. The ACK packets include
packets carrying only ACK information (with a data length of 0) and packets carrying ACK
information and other information. This counter is used to reflect the quality of the DFU
management link.
Measurement Points
The number of ACK packets transmitted by the DFU management link is sampled every five
seconds. At the end of a measurement period, the sum of these sampling results is used as the
value of this counter.
Formula
None
Unit
packet
Related Features
None
1.2.30 Measurement of IP Resource Group Performance
(IPRscGroup)
Overview
The object type IP Resource Group Measurement contains the function subset related to the
IP resource group. It represents the traffic volume and service processing capability of the
resource group on the transmission board in the base station.
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Node Performance Counter Reference
1 Node Performance Counter Measurement
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
IPTransport.RscGroup
Resource Group Measurement
IPTransport.AllocatedBW
Allocated Band Measurement
IPTransport.FLOWCTROL
Flow Control Measurement
1.2.30.1 IP Resource Group Measurement (IPTransport.RscGroup)
Overview
The resource group of a base station is a set of data streams. The data streams can be related
to control plane services, user plane services, OM services, IP clock services, or bypass
services (regardless of control plane services or user plane services). The transmission quality
affects the services of the base station. The base station manages bandwidths based on
resource groups. The base station can configure the bandwidth, flow shaping, admission
control, and flow control for the resource group. Multiple resource groups can be configured
on one physical link, the bandwidth of which is shared among these resource groups. Multiple
transport-layer bearers can be configured for one resource group, the configured bandwidth of
which is shared among these bearers. The Transport.RscGroup function subset measures the
number of bytes or packets transmitted by the resource group of the base station. It represents
the service processing capability of the resource group. Figure 1-36 shows the position of the
resource group in the TCP/IP model. The Transport.RscGroup function subset measures only
the data transmitted from a resource group.
Figure 1-36
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Node Performance Counter Reference
1 Node Performance Counter Measurement
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460661
VS.IPRscGroup.Tx
Bytes
Number of bytes in
the packets
successfully
transmitted by the
resource group
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
BTS5900 LTE:
V100R015C00
BTS5900 5G:
V100R015C00
1542460662
VS.IPRscGroup.Tx
Pkts
Number of packets
successfully
transmitted by the
resource group
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
BTS5900 LTE:
V100R015C00
BTS5900 5G:
V100R015C00
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1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460663
VS.IPRscGroup.Tx
DropBytes
Number of bytes in
the packets
discarded by the
resource group due
to transmission
failures
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
BTS5900 LTE:
V100R015C00
BTS5900 5G:
V100R015C00
1542460664
VS.IPRscGroup.Tx
DropPkts
Number of packets
discarded by the
resource group due
to transmission
failures
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
BTS5900 LTE:
V100R015C00
BTS5900 5G:
V100R015C00
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Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460665
VS.IPRscGroup.Tx
MaxSpeed
Maximum transmit
rate of the resource
group
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
BTS5900 LTE:
V100R015C00
BTS5900 5G:
V100R015C00
1542460666
VS.IPRscGroup.Tx
MinSpeed
Minimum transmit
rate of the resource
group
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
BTS5900 LTE:
V100R015C00
BTS5900 5G:
V100R015C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460667
VS.IPRscGroup.Tx
MeanSpeed
Average transmit
rate of the resource
group
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
BTS5900 LTE:
V100R015C00
BTS5900 5G:
V100R015C00
1542460668
VS.IPRscGroup.Tx
FlowOverloadTime
Congestion duration
of transmit data in
the resource group
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS3900 5G:
V100R013C001
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
BTS5900 LTE:
V100R015C00
BTS5900 5G:
V100R015C00
Counter Relationship
None
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1 Node Performance Counter Measurement
1.2.30.1.1 Number of Bytes in the Packets Transmitted by the IP Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460661
VS.IPRscGroup
.TxBytes
Number of
bytes in the
packets
successfully
transmitted by
the resource
group
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542460663
VS.IPRscGroup
.TxDropBytes
Number of
bytes in the
packets
discarded by
the resource
group due to
transmission
failures
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
The counters measure the number of bytes in the packets transmitted by all the queues of a
resource group at the data link layer within a measurement period and the number of bytes in
the packets discarded due to congestion in the queues within a measurement period. They
represent the transmit traffic on the resource group at the data link layer. If the resource group
is carried on an Ethernet port, the counters measure the MAC headers and payloads in the
packets. If the resource group is carried on a port carrying a PPP link or MP link, the counters
measure the data parts of the PPP frames or MP frames. As shown in Figure 1-37. The
measurement of the counters remains unchanged in packet fragment or IPSec scenarios.
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Node Performance Counter Reference
1 Node Performance Counter Measurement
Figure 1-37
Measurement Points
Number of transmitted bytes and discarded bytes in the resource group per second. At the end
of a measurement period, the sum of these sampling results is used as the value of the
corresponding counter.
Formula
None
Unit
byte
Related Features
Counter Name
Feature ID
VS.IPRscGroup.TxBytes
Multi-mode: None
Feature Name
GSM: GBFD-118605
IP QOS
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LOFD-003011
TDLOFD-003011
NR: FOFD-010060
Enhanced Transmission QoS
Management
Enhanced Transmission QoS
Management
Transmission Network
Detection and Reliability
Improvement
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Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter Name
Feature ID
VS.IPRscGroup.TxDropByt
es
Multi-mode: None
Feature Name
GSM: GBFD-118605
IP QOS
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LOFD-003011
TDLOFD-003011
Enhanced Transmission QoS
Management
NR: FOFD-010060
Enhanced Transmission QoS
Management
Transmission Network
Detection and Reliability
Improvement
1.2.30.1.2 Number of Packets Transmitted by the IP Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460662
VS.IPRscGroup
.TxPkts
Number of
packets
successfully
transmitted by
the resource
group
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542460664
VS.IPRscGroup
.TxDropPkts
Number of
packets
discarded by
the resource
group due to
transmission
failures
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
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Description
The counters measure the number of IP packets transmitted by all the queues of a resource
group at the data link layer within a measurement period and the number of packets discarded
due to congestion in the queues within a measurement period. They represent the transmit
traffic on the resource group at the data link layer.
Measurement Points
Number of transmitted and discarded packets in the resource group per second. At the end of
a measurement period, the sum of these sampling results is used as the value of the
corresponding counter.
Formula
None
Unit
packet
Related Features
Counter Name
Feature ID
VS.IPRscGroup.TxPkts
Multi-mode: None
Feature Name
GSM: GBFD-118605
IP QOS
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LOFD-003011
TDLOFD-003011
NR: FOFD-010060
Enhanced Transmission QoS
Management
Enhanced Transmission QoS
Management
Transmission Network
Detection and Reliability
Improvement
VS.IPRscGroup.TxDropPkt
s
Multi-mode: None
GSM: GBFD-118605
IP QOS
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LOFD-003011
TDLOFD-003011
NR: FOFD-010060
Enhanced Transmission QoS
Management
Enhanced Transmission QoS
Management
Transmission Network
Detection and Reliability
Improvement
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1 Node Performance Counter Measurement
1.2.30.1.3 Rates of the IP Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460665
VS.IPRscGroup
.TxMaxSpeed
Maximum
transmit rate of
the resource
group
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542460666
VS.IPRscGroup
.TxMinSpeed
Minimum
transmit rate of
the resource
group
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
1542460667
VS.IPRscGroup
.TxMeanSpeed
Average
transmit rate of
the resource
group
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters measure the transmit rate of one resource group at the data link layer in a
measurement period. This counter measures the MAC frame headers and net payloads when
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1 Node Performance Counter Measurement
the resource group is carried on an Ethernet port. This counter measures the PPP/MP frames
when the resource group is carried on the PPP/MP link.
Measurement Points
The transmit rate of the resource group is sampled per second. At the end of a measurement
period, the maximum, minimum, or average of these sampling results is used as the value of
the corresponding counter.
Formula
None
Unit
bit/s
Related Features
Counter Name
Feature ID
VS.IPRscGroup.TxMaxSpe
ed
Multi-mode: None
Feature Name
GSM: GBFD-118605
IP QOS
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LOFD-003011
TDLOFD-003011
NR: FOFD-010060
Enhanced Transmission QoS
Management
Enhanced Transmission QoS
Management
Transmission Network
Detection and Reliability
Improvement
VS.IPRscGroup.TxMinSpee
d
Multi-mode: None
GSM: GBFD-118605
IP QOS
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LOFD-003011
TDLOFD-003011
NR: FOFD-010060
Enhanced Transmission QoS
Management
Enhanced Transmission QoS
Management
Transmission Network
Detection and Reliability
Improvement
Issue Draft C (2019-04-10)
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1 Node Performance Counter Measurement
Counter Name
Feature ID
VS.IPRscGroup.TxMeanSp
eed
Multi-mode: None
Feature Name
GSM: GBFD-118605
IP QOS
UMTS: WRFD-050402
IP Transmission
Introduction on Iub
Interface
LTE: LOFD-003011
TDLOFD-003011
Enhanced Transmission QoS
Management
NR: FOFD-010060
Enhanced Transmission QoS
Management
Transmission Network
Detection and Reliability
Improvement
1.2.30.1.4 Congestion Duration of Data Transmission in the IP Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460668
VS.IPRscGroup
.TxFlowOverlo
adTime
Congestion
duration of
transmit data in
the resource
group
BTS3900,
BTS3900
WCDMA,
G,U,L,N
BTS3900 LTE,
BTS3900 5G,
BTS5900,
BTS5900
WCDMA,
BTS5900 LTE,
BTS5900 5G
Description
These counters measure the data transmit congestion duration of one resource group within a
measurement period, that is, the duration when the data buffered in a resource group exceeds
the product of the available bandwidth of the resource group multiplying the congestion time
threshold of the resource group. It indicates the state of data buffered in one resource group.
Measurement Points
The sampling period of this counter is 1s. During a sampling period, this counter is increased
by one if the data buffered in a transmission resource group exceeds the product of the
available bandwidth of the transmission resource group multiplying the congestion time
threshold of the transmission resource group. During a sampling period, this counter remains
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1 Node Performance Counter Measurement
unchanged if the data buffered in a transmission resource group is less than or equal to the
product of the available bandwidth of the transmission resource group multiplying the
congestion time threshold of the transmission resource group. The value of this counter equals
the sum of all sampling values in a measurement period. A deviation of one sampling period
may exist in the sampling timer when the timer performs time synchronization. As a result, a
deviation of one sampling period will also be generated in the value of the counters.
Formula
None
Unit
s
Related Features
Counter Name
Feature ID
Feature Name
VS.IPRscGroup.TxFlowOve
rloadTime
Multi-mode: MRFD-121115
Bandwidth sharing of
MBTS Multi-mode CoTransmission (GBTS)
MRFD-121125
MRFD-121135
MRFD-121145
MRFD-151168
GSM: None
UMTS: None
LTE: None
NR: FOFD-010060
Bandwidth sharing of
MBTS Multi-mode CoTransmission (NodeB)
Bandwidth sharing of
MBTS Multi-mode CoTransmission (eNodeB)
Bandwidth sharing of
MBTS Multi-mode CoTransmission (LTE TDD)
Bandwidth sharing of
MBTS Multi-mode CoTransmission (NR)
Transmission Network
Detection and Reliability
Improvement
1.2.30.2 IP Allocated Band Measurement (IPTransport.AllocatedBW)
Overview
The Allocated Band Measurement function subset measures the bandwidth that has been
allocated to each resource group. The bandwidths of all resource groups are measured without
discriminating between interface protocols. Currently, bandwidth allocation is triggered only
over the S1, X2, and eX2 interfaces.
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Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460669
VS.IPRscGroup.Al
locatedBW.TxMax
BW
Maximum transmit
bandwidth that has
been allocated to a
resource group
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS5900:
V100R015C00
BTS5900 LTE:
V100R015C00
1542460670
VS.IPRscGroup.Al
locatedBW.TxAvgB
W
Average transmit
bandwidth that has
been allocated to a
resource group
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS5900:
V100R015C00
BTS5900 LTE:
V100R015C00
1542460671
VS.IPRscGroup.Al
locatedBW.TxMax
Usage
Maximum allocation
rate of the transmit
bandwidth to a
resource group
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS5900:
V100R015C00
BTS5900 LTE:
V100R015C00
1542460672
VS.IPRscGroup.Al
locatedBW.TxAvgU
sage
Average allocation
rate of the transmit
bandwidth to a
resource group
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS5900:
V100R015C00
BTS5900 LTE:
V100R015C00
1542460673
VS.IPRscGroup.Al
locatedBW.RxMax
BW
Maximum receive
bandwidth that has
been allocated to a
resource group
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS5900:
V100R015C00
BTS5900 LTE:
V100R015C00
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Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460674
VS.IPRscGroup.Al
locatedBW.RxAvgB
W
Average receive
bandwidth that has
been allocated to a
resource group
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS5900:
V100R015C00
BTS5900 LTE:
V100R015C00
1542460675
VS.IPRscGroup.Al
locatedBW.RxMax
Usage
Maximum allocation
rate of the receive
bandwidth to a
resource group
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS5900:
V100R015C00
BTS5900 LTE:
V100R015C00
1542460676
VS.IPRscGroup.Al
locatedBW.RxAvg
Usage
Average allocation
rate of the receive
bandwidth to a
resource group
BTS3900:
V100R015C00
BTS3900 LTE:
V100R015C00
BTS5900:
V100R015C00
BTS5900 LTE:
V100R015C00
Counter Relationship
None
1.2.30.2.1 Measurement of Bandwidth Allocated to the IP Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460669
VS.IPRscGroup
.AllocatedBW.T
xMaxBW
Maximum
transmit
bandwidth that
has been
allocated to a
resource group
BTS3900,
BTS3900 LTE,
L
Issue Draft C (2019-04-10)
BTS5900,
BTS5900 LTE
Copyright © Huawei Technologies Co., Ltd.
782
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460670
VS.IPRscGroup
.AllocatedBW.T
xAvgBW
Average
transmit
bandwidth that
has been
allocated to a
resource group
BTS3900,
BTS3900 LTE,
L
Maximum
receive
bandwidth that
has been
allocated to a
resource group
BTS3900,
BTS3900 LTE,
Average receive
bandwidth that
has been
allocated to a
resource group
BTS3900,
BTS3900 LTE,
1542460673
1542460674
VS.IPRscGroup
.AllocatedBW.
RxMaxBW
VS.IPRscGroup
.AllocatedBW.
RxAvgBW
BTS5900,
BTS5900 LTE
L
BTS5900,
BTS5900 LTE
L
BTS5900,
BTS5900 LTE
Description
These counters provide the maximum and average transmit/receive bandwidths in a resource
group in a measurement period. The sampling value depends on the current service access
status. The counters only indicate the bandwidth allocation instead of real-time usage.
Measurement Points
The allocated bandwidth is sampled every 10 seconds. At the end of a measurement period,
the maximum and average of these sampling results are used as the values of the
corresponding counters.
Formula
None
Unit
kbit/s
Related Features
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
783
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.30.2.2 Measurement of Allocated Bandwidth Ratio in the IP Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460671
VS.IPRscGroup
.AllocatedBW.T
xMaxUsage
Maximum
allocation rate
of the transmit
bandwidth to a
resource group
BTS3900,
BTS3900 LTE,
L
Average
allocation rate
of the transmit
bandwidth to a
resource group
BTS3900,
BTS3900 LTE,
Maximum
allocation rate
of the receive
bandwidth to a
resource group
BTS3900,
BTS3900 LTE,
Average
allocation rate
of the receive
bandwidth to a
resource group
BTS3900,
BTS3900 LTE,
1542460672
1542460675
1542460676
VS.IPRscGroup
.AllocatedBW.T
xAvgUsage
VS.IPRscGroup
.AllocatedBW.
RxMaxUsage
VS.IPRscGroup
.AllocatedBW.
RxAvgUsage
BTS5900,
BTS5900 LTE
L
BTS5900,
BTS5900 LTE
L
BTS5900,
BTS5900 LTE
L
BTS5900,
BTS5900 LTE
Description
These counters provide the maximum and average allocated bandwidth ratios in a resource
group in a measurement period. The sampling value depends on the current service access
status. The counters only indicate the bandwidth allocation instead of real-time usage.
Measurement Points
The allocated bandwidth ratio is sampled every 10 seconds. The allocated bandwidth ratio is
calculated by multiplying the allocated bandwidth by the total bandwidth. If the calculated
result is greater than 1, the allocated bandwidth ratio is 100. At the end of a measurement
period, the maximum and average sampling results are used as the values of the
corresponding counters.
Formula
None
Unit
%
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
784
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
None
1.2.30.3 IP Flow Control Measurement (IPTransport.FLOWCTROL)
Overview
The Flow control function subset provides resource-group-related flow control counters,
which indicate the flow control of each resource group.The counters of function subset
Transport.
Figure 1-38
Counters
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460677
VS.IPRscGroup.Fl
owCtrol.UL.AdjB
W.Max
Resource group
maximum UL
available bandwidth
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
785
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460678
VS.IPRscGroup.Fl
owCtrol.UL.AdjB
W.Min
Resource group
minimum UL
available bandwidth
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
1542460679
VS.IPRscGroup.Fl
owCtrol.UL.AdjB
W.Avg
Resource group
average UL
available bandwidth
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
1542460680
VS.IPRscGroup.Fl
owCtrol.DL.AdjB
W.Max
Resource group
maximum DL
available bandwidth
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
1542460681
VS.IPRscGroup.Fl
owCtrol.DL.AdjB
W.Min
Resource group
minimum DL
available bandwidth
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
1542460682
VS.IPRscGroup.Fl
owCtrol.DL.AdjB
W.Avg
Resource group
average DL
available bandwidth
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
786
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460683
VS.IPRscGroup.Fl
owCtrol.UL.UpBW
.Num
Resource group
available UL
bandwidth increase
times
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
1542460684
VS.IPRscGroup.Fl
owCtrol.DL.Delay.
UpBW.Num
Resource group DL
available bandwidth
increase times after
jitter congestion
released
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
1542460685
VS.IPRscGroup.Fl
owCtrol.DL.Drop.
UpBW.Num
Resource group DL
available bandwidth
increase times after
packet loss
congestion released
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
1542460686
VS.IPRscGroup.Fl
owCtrol.UL.Delay
Cong.DownBWNu
m
Resource group
available UL
bandwidth decrease
times for jitter
congestion
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
1542460687
VS.IPRscGroup.Fl
owCtrol.DL.Delay
Cong.DownBWNu
m
Resource group DL
available bandwidth
decrease times for
jitter congestion
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
787
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460688
VS.IPRscGroup.Fl
owCtrol.UL.DropC
ong.DownBWNum
Resource group
available UL
bandwidth decrease
times for packet loss
congestion
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
1542460689
VS.IPRscGroup.Fl
owCtrol.DL.DropC
ong.DownBWNum
Resource group DL
available bandwidth
decrease times for
packet loss
congestion
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
1542460690
VS.IPRscGroup.Fl
owCtrol.UL.SendN
um
Resource group
Number of UL
frames Resource
group sent
successfully
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
1542460691
VS.IPRscGroup.Fl
owCtrol.DL.Receiv
eNum
Resource group
Number of DL
frames Resource
group received
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
1542460692
VS.IPRscGroup.Fl
owCtrol.UL.DropN
um
Resource group
Number of lost UL
frames
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460693
VS.IPRscGroup.Fl
owCtrol.DL.DropN
um
Resource group
Number of lost DL
frames
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
1542460694
VS.IPRscGroup.Fl
owCtrol.UL.Delay
Vara.Max
Resource group
maximum UL delay
jitter
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
1542460695
VS.IPRscGroup.Fl
owCtrol.UL.Delay
Vara.Min
Resource group
minimum UL delay
jitter
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
1542460696
VS.IPRscGroup.Fl
owCtrol.UL.Delay
Vara.Avg
Resource group
average UL delay
jitter
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
1542460697
VS.IPRscGroup.Fl
owCtrol.DL.Delay
Vara.Max
Resource group
maximum DL delay
jitter
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Introduced in
Version...
1542460698
VS.IPRscGroup.Fl
owCtrol.DL.Delay
Vara.Min
Resource group
minimum DL delay
jitter
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
1542460699
VS.IPRscGroup.Fl
owCtrol.DL.Delay
Vara.Avg
Resource group
average DL delay
jitter
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
1542460700
VS.IPRscGroup.Fl
owCtrol.UL.CongT
ime
Resource group UL
congestion duration
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
1542460701
VS.IPRscGroup.Fl
owCtrol.DL.CongT
ime
Resource group DL
congestion duration
BTS3900:
V100R015C00
BTS3900 WCDMA:
V100R015C00
BTS5900:
V100R015C00
BTS5900 WCDMA:
V100R015C00
Counter Relationship
None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
790
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.30.3.1 Maximum UL Available Bandwidth of the IP Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460677
VS.IPRscGroup
.FlowCtrol.UL.
AdjBW.Max
Resource group
maximum UL
available
bandwidth
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the maximum available uplink bandwidth of a resource group within a
measurement period.
1. If the physical port is carried on an MP group, this counter measures the total bandwidth of
the available MP links in the MP group.
2. If the physical port is carried on a PPP link, this counter measures the available bandwidth
on the PPP link.
3. If the physical port is carried on the ETHTRUNK or ETHPORT MO, this counter depends
on the negotiation for the port.
4. If the physical port is carried on the TUNNEL MO, this counter measures the total
available uplink bandwidth on the current TUNNEL MO.
If the uplink rates on the preceding ports are limited, the value of the counter is the smaller
one between the defined upper-limited bandwidth and the measured available bandwidth.
Measurement Points
Based on the flow control algorithm, the base station samples the available uplink bandwidth
of the physical layer every second. At the end of a measurement period, the maximum
sampling value is used as the value of this counter.
Formula
None
Unit
kbit/s
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
791
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.IPRscGroup.FlowCtrol.
UL.AdjBW.Max
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.30.3.2 Minimum UL Available Bandwidth of the IP Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460678
VS.IPRscGroup
.FlowCtrol.UL.
AdjBW.Min
Resource group
minimum UL
available
bandwidth
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the minimum available uplink bandwidth of a resource group within a
measurement period.
1. If the physical port is carried on an MP group, this counter measures the total bandwidth of
the available MP links in the MP group.
2. If the physical port is carried on a PPP link, this counter measures the available bandwidth
on the PPP link.
3. If the physical port is carried on the ETHTRUNK or ETHPORT MO, this counter depends
on the negotiation for the port.
4. If the physical port is carried on the TUNNEL MO, this counter measures the total
available uplink bandwidth on the current TUNNEL MO.
If the uplink rates on the preceding ports are limited, the value of the counter is the smaller
one between the defined upper-limited bandwidth and the measured available bandwidth.
Measurement Points
Based on the flow control algorithm, the base station samples the available uplink bandwidth
of the physical layer every second. At the end of a measurement period, the minimum
sampling value is used as the value of this counter.
Issue Draft C (2019-04-10)
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3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Formula
None
Unit
kbit/s
Related Features
Counter Name
Feature ID
VS.IPRscGroup.FlowCtrol.
UL.AdjBW.Min
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.30.3.3 Average UL Available Bandwidth of the IP Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460679
VS.IPRscGroup
.FlowCtrol.UL.
AdjBW.Avg
Resource group
average UL
available
bandwidth
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the average available uplink bandwidth of a resource group within a
measurement period.
1. If the physical port is carried on an MP group, this counter measures the total bandwidth of
the available MP links in the MP group.
2. If the physical port is carried on a PPP link, this counter measures the available bandwidth
on the PPP link.
3. If the physical port is carried on the ETHTRUNK or ETHPORT MO, this counter depends
on the negotiation for the port.
4. If the physical port is carried on the TUNNEL MO, this counter measures the total
available uplink bandwidth on the current TUNNEL MO.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
793
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
If the uplink rates on the preceding ports are limited, the value of the counter is the smaller
one between the defined upper-limited bandwidth and the measured available bandwidth.
Measurement Points
Based on the flow control algorithm, the base station samples the available uplink bandwidth
of the physical layer every second. At the end of a measurement period, the average value of
all sampling results is used as the value of this counter.
Formula
None
Unit
kbit/s
Related Features
Counter Name
Feature ID
VS.IPRscGroup.FlowCtrol.
UL.AdjBW.Avg
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.30.3.4 Maximum DL Available Bandwidth of the IP Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460680
VS.IPRscGroup
.FlowCtrol.DL.
AdjBW.Max
Resource group
maximum DL
available
bandwidth
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the maximum available downlink bandwidth of a resource group
within a measurement period.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
794
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
If the physical port is carried on an MP group, the value of the counter is the total bandwidth
of the available MP links in the MP group.
If the physical port is carried on a PPP link, the value of the counter is the available
bandwidth on the PPP link.
If the physical port is carried on the ETHTRUNK or ETHPORT MO, the value of the counter
depends on the negotiation for the port.
If the physical port is carried on the TUNNEL MO, the value of the counter is the total
available downlink bandwidth on the current TUNNEL MO.
If the downlink rates on the preceding ports are limited, the value of the counter is the smaller
one between the defined lower-limited bandwidth and the measured available bandwidth.
If the IP path is carried on loopback ports, the value of this counter is the total available
downlink bandwidth on the current loopback port (The default downlink bandwidth on the
loopback port is 1 GHz.)
Note: This counter measures the available downlink bandwidth at the MAC-HS layer. The
measurement is valid only when the configured bandwidth is completely shared. The
following condition must be met when the configured bandwidth is completely shared:
Configuration bandwidth of each type of path (such as RT and NRT) > Total physical
bandwidth x 90%.
Measurement Points
Based on the flow control algorithm, the base station samples the available downlink
bandwidth of the physical layer every second. At the end of a measurement period, the
maximum sampling value is used as the value of this counter.
The calculation methods after the sampling vary with flow control algorithms:
When the dynamic flow control algorithm is used, the base station adjusts the available
HSDPA bandwidth based on the result of internal congestion measurement and it samples the
available HSDPA bandwidth every second.
When the static flow control algorithm is used, the base station calculates the HSDPA
available bandwidth using the following formula: HSDPA available bandwidths = Total
physical bandwidth x Coefficient (0.8 for ATM transmission; 0.9 for IP transmission). The
system sample the HSDPA available bandwidth every second.
When the adaptive flow control algorithm is used, the base station do not sample while in
OFF mode. The system samples the HSDPA available bandwidth every second while on ON
mode.
When the none flow control algorithm is used, the system reports 0 as the sampling value
meaning the HSDPA available bandwidth is insignificant in this case.
Formula
None
Unit
kbit/s
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
795
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.IPRscGroup.FlowCtrol.
DL.AdjBW.Max
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
1.2.30.3.5 Minimum DL Available Bandwidth of the IP Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460681
VS.IPRscGroup
.FlowCtrol.DL.
AdjBW.Min
Resource group
minimum DL
available
bandwidth
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the minimum available downlink bandwidth of a resource group within
a measurement period.
If the physical port is carried on an MP group, the value of the counter is the total bandwidth
of the available MP links in the MP group.
If the physical port is carried on a PPP link, the value of the counter is the available
bandwidth on the PPP link.
If the physical port is carried on the ETHTRUNK or ETHPORT MO, the value of the counter
depends on the negotiation for the port.
If the physical port is carried on the TUNNEL MO, the value of the counter is the total
available downlink bandwidth on the current TUNNEL MO.
If the downlink rates on the preceding ports are limited, the value of the counter is the smaller
one between the defined lower-limited bandwidth and the measured available bandwidth.
If the IP path is carried on loopback ports, the value of this counter is the total available
downlink bandwidth on the current loopback port (The default downlink bandwidth on the
loopback port is 1 GHz.)
Note: This counter measures the available downlink bandwidth at the MAC-HS layer. The
measurement is valid only when the configured bandwidth is completely shared. The
following condition must be met when the configured bandwidth is completely shared:
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
796
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Configuration bandwidth of each type of path (such as RT and NRT) > Total physical
bandwidth x 90%.
Measurement Points
Based on the flow control algorithm, the base station samples the available downlink
bandwidth of the physical layer every second. At the end of a measurement period, the
minimum sampling value is used as the value of this counter.
The calculation methods after the sampling vary with flow control algorithms:
When the dynamic flow control algorithm is used, the base station adjusts the available
HSDPA bandwidth based on the result of internal congestion measurement and it samples the
available HSDPA bandwidth every second.
When the static flow control algorithm is used, the base station calculates the HSDPA
available bandwidth using the following formula: HSDPA available bandwidths = Total
physical bandwidth x Coefficient (0.8 for ATM transmission; 0.9 for IP transmission). The
system samples the HSDPA available bandwidth every second.
When the adaptive flow control algorithm is used, the base station does not sample while in
OFF mode. The system samples the HSDPA available bandwidth every second while on ON
mode.
When the none flow control algorithm is used, the system reports 0 as the sampling value
meaning the HSDPA available bandwidth is insignificant in this case.
Formula
None
Unit
kbit/s
Related Features
Counter Name
Feature ID
VS.IPRscGroup.FlowCtrol.
DL.AdjBW.Min
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
797
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
1.2.30.3.6 Average DL Available Bandwidth of the IP Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460682
VS.IPRscGroup
.FlowCtrol.DL.
AdjBW.Avg
Resource group
average DL
available
bandwidth
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the average available downlink bandwidth of a resource group within a
measurement period.
If the physical port is carried on an MP group, the value of the counter is the total bandwidth
of the available MP links in the MP group.
If the physical port is carried on a PPP link, the value of the counter is the available
bandwidth on the PPP link.
If the physical port is carried on the ETHTRUNK or ETHPORT MO, the value of the counter
depends on the negotiation for the port.
If the physical port is carried on the TUNNEL MO, the value of the counter is the total
available downlink bandwidth on the current TUNNEL MO.
If the downlink rates on the preceding ports are limited, the value of the counter is the smaller
one between the defined lower-limited bandwidth and the measured available bandwidth.
If the IP path is carried on loopback ports, the value of this counter is the total available
downlink bandwidth on the current loopback port (The default downlink bandwidth on the
loopback port is 1 GHz.)
Note: This counter measures the available downlink bandwidth at the MAC-HS layer. The
measurement is valid only when the configured bandwidth is completely shared. The
following condition must be met when the configured bandwidth is completely shared:
Configuration bandwidth of each type of path (such as RT and NRT) > Total physical
bandwidth x 90%.
Measurement Points
Based on the flow control algorithm, the base station samples the available downlink
bandwidth of the physical layer every second. At the end of a measurement period, the
average value of all sampling results is used as the value of this counter.
The calculation methods after the sampling vary with flow control algorithms:
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
798
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
When the dynamic flow control algorithm is used, the base station adjusts the available
HSDPA bandwidth based on the result of internal congestion measurement and it samples the
available HSDPA bandwidth every second.
When the static flow control algorithm is used, the base station calculates the HSDPA
available bandwidth using the following formula: HSDPA available bandwidths = Total
physical bandwidth x Coefficient (0.8 for ATM transmission; 0.9 for IP transmission). The
system samples the HSDPA available bandwidth every second.
When the adaptive flow control algorithm is used, the base station does not sample while in
OFF mode. The system samples the HSDPA available bandwidth every second while on ON
mode.
When the none flow control algorithm is used, the system reports 0 as the sampling value
meaning the HSDPA available bandwidth is insignificant in this case.
Formula
None
Unit
kbit/s
Related Features
Counter Name
Feature ID
VS.IPRscGroup.FlowCtrol.
DL.AdjBW.Avg
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
1.2.30.3.7 UL Available Bandwidth Increase Times of the IP Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460683
VS.IPRscGroup
.FlowCtrol.UL.
UpBW.Num
Resource group
available UL
bandwidth
increase times
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
799
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the available uplink bandwidth increase times of a resource group
within a measurement period. At the end of a measurement period, the sum of the sampling
values is used as the value of this counter. It indicates the statistics of the resource group that
carries PATH.
Measurement Points
The number of attempts to increase the available UL bandwidth of the base station Iub logical
port is sampled every five seconds. All collected values within a measurement period are
accumulated. The base station reports the traffic statistics of logical ports that carry PATH.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IPRscGroup.FlowCtrol.
UL.UpBW.Num
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.30.3.8 DL Available Bandwidth Increase Times of the IP Resource Group Based On
the Delay
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460684
VS.IPRscGroup
.FlowCtrol.DL.
Delay.UpBW.N
um
Resource group
DL available
bandwidth
increase times
after jitter
congestion
released
BTS3900,
BTS3900
WCDMA,
U
Issue Draft C (2019-04-10)
BTS5900,
BTS5900
WCDMA
Copyright © Huawei Technologies Co., Ltd.
800
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of available downlink bandwidth increase times of the Iub
resource group of a base station based on the delay within a measurement period. It indicates
the statistics of the resource group that carries PATH.
Measurement Points
Based on the dynamic flow control algorithm, the base station samples the number of times to
increase the available downlink bandwidth of the base station Iub logical port based on the
delay every second, and uses the sum of the sampling values as the value of this counter.
When other algorithms are used, the system reports 0 as the sampling value.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IPRscGroup.FlowCtrol.
DL.Delay.UpBW.Num
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
1.2.30.3.9 DL Available Bandwidth Increase Times of the IP Resource Group Based On
the Packet Loss
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460685
VS.IPRscGroup
.FlowCtrol.DL.
Drop.UpBW.Nu
m
Resource group
DL available
bandwidth
increase times
after packet loss
congestion
released
BTS3900,
BTS3900
WCDMA,
U
Issue Draft C (2019-04-10)
BTS5900,
BTS5900
WCDMA
Copyright © Huawei Technologies Co., Ltd.
801
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the available downlink bandwidth increase times of the Iub resource
group of a base station based the packet loss within a measurement period. It indicates the
statistics of the resource group that carries PATH.
Measurement Points
Based on the dynamic flow control algorithm, the base station samples the number of times to
increase the available downlink bandwidth of the base station Iub logical port based on the
packet loss every second, and uses the sum of the sampling values as the value of this counter.
When other algorithms are used, the system reports 0 as the sampling value.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IPRscGroup.FlowCtrol.
DL.Drop.UpBW.Num
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
1.2.30.3.10 UL Available Bandwidth Decrease Times of the IP Resource Group Based On
the Delay
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460686
VS.IPRscGroup
.FlowCtrol.UL.
DelayCong.Do
wnBWNum
Resource group
available UL
bandwidth
decrease times
for jitter
congestion
BTS3900,
BTS3900
WCDMA,
U
Issue Draft C (2019-04-10)
BTS5900,
BTS5900
WCDMA
Copyright © Huawei Technologies Co., Ltd.
802
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the available uplink bandwidth decrease times of the Iub logical port of
a base station based the delay within a measurement period. It indicates the statistics of the
resource group that carries PATH.
Measurement Points
The number of attempts to decrease the available UL bandwidth of the base station Iub logical
port is sampled every five seconds. All collected values within a measurement period are
accumulated. The base station reports the traffic statistics of logical ports that carry PATH.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IPRscGroup.FlowCtrol.
UL.DelayCong.DownBWN
um
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.30.3.11 DL Available Bandwidth Decrease Times of the IP Resource Group Based
On the Delay
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460687
VS.IPRscGroup
.FlowCtrol.DL.
DelayCong.Do
wnBWNum
Resource group
DL available
bandwidth
decrease times
for jitter
congestion
BTS3900,
BTS3900
WCDMA,
U
Issue Draft C (2019-04-10)
BTS5900,
BTS5900
WCDMA
Copyright © Huawei Technologies Co., Ltd.
803
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of available downlink bandwidth decrease times of the Iub
resource group of a base station based the delay within a measurement period. It indicates the
statistics of the resource group that carries PATH.
Measurement Points
Based on the dynamic flow control algorithm, the base station samples the number of times to
decrease the available downlink bandwidth of the base station Iub logical port based on the
delay every second, and uses the sum of the sampling values as the value of this counter.
When other algorithms are used, the system reports 0 as the sampling value.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IPRscGroup.FlowCtrol.
DL.DelayCong.DownBWN
um
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
1.2.30.3.12 UL Available Bandwidth Decrease Times of the IP Resource Group Based On
the Packet Loss
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460688
VS.IPRscGroup
.FlowCtrol.UL.
DropCong.Dow
nBWNum
Resource group
available UL
bandwidth
decrease times
for packet loss
congestion
BTS3900,
BTS3900
WCDMA,
U
Issue Draft C (2019-04-10)
BTS5900,
BTS5900
WCDMA
Copyright © Huawei Technologies Co., Ltd.
804
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the available uplink bandwidth decrease times of the Iub resource
group of a base station based the packet loss within a measurement period. It indicates the
statistics of the resource group that carries PATH.
Measurement Points
The number of attempts to decrease the available UL bandwidth of the base station Iub logical
port is sampled every five seconds. All collected values within a measurement period are
accumulated. The base station reports the traffic statistics of logical ports that carry PATH.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IPRscGroup.FlowCtrol.
UL.DropCong.DownBWNu
m
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.30.3.13 DL Available Bandwidth Decrease Times of the IP Resource Group Based
On the Packet Loss
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460689
VS.IPRscGroup
.FlowCtrol.DL.
DropCong.Dow
nBWNum
Resource group
DL available
bandwidth
decrease times
for packet loss
congestion
BTS3900,
BTS3900
WCDMA,
U
Issue Draft C (2019-04-10)
BTS5900,
BTS5900
WCDMA
Copyright © Huawei Technologies Co., Ltd.
805
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the available downlink bandwidth decrease times of the Iub resource
group of a base station based the packet loss within a measurement period. It indicates the
statistics of the resource group that carries PATH.
Measurement Points
Based on the dynamic flow control algorithm, the base station samples the number of times to
decrease the available downlink bandwidth of the base station Iub logical port based on the
packet loss every second, and uses the sum of the sampling values as the value of this counter.
When other algorithms are used, the system reports 0 as the sampling value.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IPRscGroup.FlowCtrol.
DL.DropCong.DownBWNu
m
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
1.2.30.3.14 Number of Successfully Sent UL Frames in the IP Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460690
VS.IPRscGroup
.FlowCtrol.UL.
SendNum
Resource group
Number of UL
frames
Resource group
sent
successfully
BTS3900,
BTS3900
WCDMA,
U
Issue Draft C (2019-04-10)
BTS5900,
BTS5900
WCDMA
Copyright © Huawei Technologies Co., Ltd.
806
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of data frames successfully transmitted in a resource group
within a measurement period. It indicates the statistics of the resource group that carries
PATH.
Measurement Points
The number of frames that are successfully transmitted on a base station Iub logical port is
sampled every five seconds. All collected values within a measurement period are
accumulated. The base station reports the traffic statistics of logical ports that carry PATH.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IPRscGroup.FlowCtrol.
UL.SendNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.30.3.15 Number of Received DL Frames in the IP Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460691
VS.IPRscGroup
.FlowCtrol.DL.
ReceiveNum
Resource group
Number of DL
frames
Resource group
received
BTS3900,
BTS3900
WCDMA,
U
Issue Draft C (2019-04-10)
BTS5900,
BTS5900
WCDMA
Copyright © Huawei Technologies Co., Ltd.
807
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of data frames successfully received by the base station Iub
resource group within a measurement period. It indicates the statistics of the resource group
that carries PATH.
Measurement Points
Based on the dynamic flow control algorithm, the base station samples the number of data
frames successfully received on the base station Iub logical port every second, and uses the
sum of the sampling results as the value of this counter at the end of a measurement period.
When other algorithms are used, the system reports 0 as the sampling value.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IPRscGroup.FlowCtrol.
DL.ReceiveNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
1.2.30.3.16 Number of Lost UL Frames in the IP Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460692
VS.IPRscGroup
.FlowCtrol.UL.
DropNum
Resource group
Number of lost
UL frames
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
808
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the number of discarded uplink data frames in a resource group within
a measurement period. It indicates the statistics of the resource group that carries PATH.
Measurement Points
The number of frames that are lost on a base station Iub logical port is sampled every five
seconds. All collected values within a measurement period are accumulated. The base station
reports the traffic statistics of logical ports that carry PATH.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IPRscGroup.FlowCtrol.
UL.DropNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.30.3.17 Number of Lost DL Frames in the IP Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460693
VS.IPRscGroup
.FlowCtrol.DL.
DropNum
Resource group
Number of lost
DL frames
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the discarded downlink data frames in a base station Iub resource
group (including those discarded on the interface board of the RNC, in the intermediate
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
809
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
transmission link, and within the base station) within a measurement period. It indicates the
statistics of the resource group that carries PATH.
Measurement Points
Based on the dynamic flow control algorithm, the base station samples the number of
discarded data frames on the base station Iub logical port (including those discarded on the
interface board of the RNC, in the intermediate transmission link, and within the base station)
every second, and uses the sum of the sampling results as the value of this counter at the end
of a measurement period.
When other algorithms are used, the system reports 0 as the sampling value.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IPRscGroup.FlowCtrol.
DL.DropNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
NR: None
1.2.30.3.18 Maximum UL Delay Jitter of the IP Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460694
VS.IPRscGroup
.FlowCtrol.UL.
DelayVara.Max
Resource group
maximum UL
delay jitter
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
810
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Description
This counter measures the maximum uplink delay jitter of a resource group within a
measurement period. It indicates the statistics of the resource group that carries PATH.
Measurement Points
The uplink delay jitter is sampled every second. At the end of a measurement period, the
maximum sampling value is used as the value of this counter.
Formula
None
Unit
ms
Related Features
Counter Name
Feature ID
VS.IPRscGroup.FlowCtrol.
UL.DelayVara.Max
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.30.3.19 Minimum UL Delay Jitter of the IP Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460695
VS.IPRscGroup
.FlowCtrol.UL.
DelayVara.Min
Resource group
minimum UL
delay jitter
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the minimum uplink delay jitter of a resource group within a
measurement period. It indicates the statistics of the resource group that carries PATH.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
811
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Measurement Points
The uplink delay jitter is sampled every second. At the end of a measurement period, the
minimum sampling value is used as the value of this counter.
Formula
None
Unit
ms
Related Features
Counter Name
Feature ID
VS.IPRscGroup.FlowCtrol.
UL.DelayVara.Min
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.30.3.20 Average UL Delay Jitter of the IP Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460696
VS.IPRscGroup
.FlowCtrol.UL.
DelayVara.Avg
Resource group
average UL
delay jitter
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the average uplink delay jitter of a resource group within a
measurement period. It indicates the statistics of the resource group that carries PATH.
Measurement Points
The uplink delay jitter is sampled every second. At the end of a measurement period, the
average value of all sampling results is used as the value of this counter.
Issue Draft C (2019-04-10)
Copyright © Huawei Technologies Co., Ltd.
812
3900 Series & 5900 Series Base Station
Node Performance Counter Reference
1 Node Performance Counter Measurement
Formula
None
Unit
ms
Related Features
Counter Name
Feature ID
VS.IPRscGroup.FlowCtrol.
UL.DelayVara.Avg
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061212
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
NR: None
1.2.30.3.21 Maximum DL Delay Jitter of the IP Resource Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
1542460697
VS.IPRscGroup
.FlowCtrol.DL.
DelayVara.Max
Resource group
maximum DL
delay jitter
BTS3900,
BTS3900
WCDMA,
U
BTS5900,
BTS5900
WCDMA
Description
This counter measures the maximum downlink delay jitter of a resource group within a
measurement period. It indicates the statistics o