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423349484-VNPT-NFVi-Solution-Walkthrough-PA1-pdf

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VNPT NFVi Solution
Walkthrough Presentation
Sharad Gangwar
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 1
ETV
2019/05/22
Agenda
— NFVi Scope
— NFVi Solution Overview
— SDI Architecture
— CEE Architecture
— NFVi Networking
— NFVi HLD Structure
— Integration Points
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 2
NFVi Scope
The following points are considered as in scope:
— Hight level Design Scope covers two sites (Hanoi and Hochiminh) of VNPT’s network.
— Software defined infrastructure design is based on NFVI software release R5.1.
— Designing of Ericsson Cloud execution environment (ECEE) on SDI system.
— Designing of NexentaStor Software Defined Storage solution.
— HW components HP DL360 Gen10 (CCM, compute, Nexenta), HP DL380 Gen10 (Storage), NRU0201
(Network) and EAS0102 (Control network) and related infrastructure have been considered in the
design scope.
— SR-IOV (Single Root I/O Virtualization) for accelerating VM throughput will be used for vEPC.
— NFVi Tenant Networking without SDN
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 3
Agenda
— NFVi Scope
— NFVi Solution Overview
— SDI Architecture
— CEE Architecture
— NFVi Tenant Networking
— NFVi HLD Structure
— Integration Points
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 4
NFVi Hardware
Site
Hanoi
HCM
HW Components
HPE DL360 Gen10
HPE DL380 Gen10
HPE D3610
EAS0102 (Leaf)
EAS0102 (Spine)
NRU0201 (Leaf)
NRU0201 (Spine)
HPE DL360 Gen10
HPE DL380 Gen10
HPE D3610
EAS0102 (Leaf)
EAS0102 (Spine)
NRU0201 (Leaf)
NRU0201 (Spine)
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 5
Qty.
24
2
2
2
2
4
2
21
2
2
2
2
4
2
Comment
SDI Manager HW, CEE controller and VNF compute
NexentaStor compute
NexentaStor JBOD enclosure
Control Network Switch
Control Network Switch
Data Network Switch
Data Network Switch
SDI Manager HW, CEE controller and VNF compute
NexentaStor compute
NexentaStor JBOD enclosure
Control Network Switch
Control Network Switch
Data Network Switch
Data Network Switch
NFVi Software
Component
Version
Software defined Infrastructure
2.10
Ericsson Cloud Execution Environment (VIM)
6.6.2
NexentaStor
5.2.1
NexentaFusion (Management of NexentaStor)
1.2.1
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 6
NFVi High Level Architecture
G
HNI-MPE-MX960-07/08
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 7
HPE
EAC_1
VM
EAC_2
VM
Storage vPOD
vEPC
VNF
vEPC
VNF
vEPC
VNF
HPE
vEPC
VNF
Nexenta Controller 1
HPE
vIMS
VNF
Nexenta Controller 2
HPE
HPE
vEPC
VNF
Nexenta JBOD 1
Nexenta JBOD 2
SDI Manager and all
managed equipment
Cisco ASR 9K
G
CCM
VM
HPE
vIMS
VNF
OAM Network
X
EAC_2
VM
HPE
HPE
HPE
HPE
HPE
HPE
HPE
HPE
HPE
HPE
HPE
vEPC
VNF
vEPC
VNF
EAC_1
VM
Solaris
vEPC
VNF
CCM
VM
Solaris
HPE
vIMS
VNF
HDS default vPOD
Solaris
HPE
vIMS
VNF
NRU leaf cluster
Solaris
X
Control Fabric
vIMS
VNF
CEE UBU
KVM
vEPC
VNF
EAS stack
X
Redundancy
host
vEPC
VNF
X
AZ – vIMS Compute
CEE UBU
KVM
X
vIMS
VNF
AZ – vEPC SR-IOV
SDI Manager and all
managed equipment
EAS stack
vIMS
VNF
CEE UBU
KVM
vEPC
VNF
CEE UBU
KVM
vEPC
VNF
vIMS
VNF
CEE UBU
KVM
vEPC
VNF
AZ – vEPC SR-IOV
vEPC
VNF
CEE
vFuel
CEE UBU
KVM
vEPC
VNF
CEE UBU
KVM
vEPC
VNF
CEE
vCIC3
CEE UBU
KVM
CEE UBU
KVM
vIMS
VNF
CEE
vFuel
X
CEE vPOD – VIM zone for
vEPC & vIMS
AZ – vEPC NON-SRIOV
CEE UBU
KVM
Solaris
vIMS
VNF
CEE
vCIC2
X
Data Fabric
X
AZ nova (Default)
AZ – vEPC NON-SRIOV
CEE UBU
KVM
Nexenta JBOD 2
Redundancy
host
vIMS
VNF
AZ – vIMS Compute
CEE UBU
KVM
Nexenta JBOD 1
Solaris
Nexenta Controller 2
Solaris
Solaris
Nexenta Controller 1
HPE
AZ nova (Default)
vIMS
VNF
CEE
Atlas
X
HPE
CEE
vFuel
vIMS
VNF
CEE
vCIC1
HPE
HPE
CEE
vCIC3
vIMS
VNF
X
AZ – CEE CTRL
HPE
Storage vPOD
HPE
HPE
HPE
EAC_2
VM
vIMS
VNF
NRU spine cluster
G
G
TTI-PE-CI-ASR9K-05/06
EAS stack
X
EAS stack
X
CEE UBU CEE UBU
KVM
KVM
EAC_1
VM
CEE
vFuel
NRU leaf cluster
CEE vPOD – VIM zone for
vEPC & vIMS
vIMS
VNF
O
CEE UBU CEE UBU CEE UBU
KVM
KVM
KVM
CCM
VM
CEE
vCIC2
NRU leaf cluster
CEE UBU CEE UBU CEE UBU
KVM
KVM
KVM
EAC_2
VM
CEE
Atlas
O
TTI-PE-CI-ASR9K-05/06
CEE UBU CEE UBU CEE UBU
KVM
KVM
KVM
EAC_1
VM
CEE UBU CEE UBU
KVM
KVM
CCM
VM
CEE
vCIC1
CEE UBU CEE UBU CEE UBU
KVM
KVM
KVM
HDS default vPOD
HPE
AZ – CEE CTRL
X
Hochiminh/224-TTI
Converter
G
HPE
X
G
HPE
X
HPE
Data Fabric
HPE
X
NRU leaf cluster
G
HNI-MPE-MX960-07/08
X
HPE
X
G
O
HPE
O
NRU spine cluster
MPLS
backbone
HPE
Converter
HPE
Hanoi/030-PHG
Control Fabric
X
X
Agenda
— NFVi Scope
— NFVi Solution Overview
— SDI Architecture
— CEE Architecture
— NFVi Tenant Networking
— Integration Points
— NFVi HLD Structure
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 8
SDI Physical Connectivity – 030-PHG
030-PHG POD
Converter
4x100G
O
O
2x100G
X
1 x Spine Cluster
X
4x100G
8x100G to Leaf
per Spine switch
NRUs
Data fabric
4x100G to Spine
per Leaf switch
2 x Leaf Clusters
X
X
X
X
2x100G
CEE
Compute
Nexenta
compute
2x100G
CEE
Compute
CCM/RTE
Control fabric
100GE
25GE
10GE
1GE
X
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 9
X
EAS
2x10G
X
X
G
HNI-MPEMX960-07
G
HNI-MPEMX960-08
SDI Physical Connectivity – 224-TTI
224-TTI POD
Converter
4x100G
O
O
2x100G
X
1 x Spine Cluster
X
4x100G
8x100G to Leaf
per Spine switch
NRUs
Data fabric
4x100G to Spine
per Leaf switch
2 x Leaf Clusters
X
X
X
X
2x100G
CEE
Compute
Nexenta
compute
2x100G
CEE
Compute
CCM/RTE
Control fabric
100GE
25GE
10GE
1GE
X
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 10
X
EAS
2x10G
X
X
G
TTI-PE-CIASR9K-05
G
TTI-PE-CIASR9K-06
SDI POD/vPOD
Architecture
DC
POD
VPNs
VPNs
CEE vPOD
Nexenta vPOD
vPOD
user
VNF
Nexenta
Stor
— CEE vPOD: VIM to deploy vEPG
and vIMS VNFs
— Nexenta vPOD: provide block
and file storage for vIMS
— HDS Management vPOD: default
vPOD (used by SDI system)
CIC
Atlas
Fuel
HDS
Management
vPOD
RTE
2x
Control
Data/Storage
Compute
for cloud
users
vPOD
user
x3
CEE
control
plane
x1
CCM
EAC
X
EAS
4x
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 11
xN
NRU
x6
X
GG
DC-GW
SDI Networking
SDI Data fabric with L2 VLAN only
IPBN
CORE
Data fabric physical connectivity
L2/L3/
MPLS
G
L3 Gateway
Access port to DC
Gateway
2x100G to DC-GW
per Spine switch
X
8x100G to Leaf
per Spine switch
X
NRUs
100GE
25GE
X
X
2x100G
VLAN
O
Converter
Switch
VLAN
X
X
L2 Fabric
XX
X
L2
VLAN
only
XX
X
X
X
X
X
X
X
X
X
X
X
X
X
NRU LEAF
VLAN
2x100G
vPOD A
Access port to compute systems
vPOD B
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 12
NRU SPINE
VLAN
4x100G to Spine
per Leaf switch
2 x Leaf Clusters L2
DC-GW
R
R
O
2x100G
1 x Spine Cluster L2
G
R
X
L3 Gateway
L2 VLAN Switching
COMPUTE
DC-GW Physical Connectivity – 030-PHG
Physical Perspective
HNI-MPEHNI-MPEMX960-08
MX960-07
1xMLAG to DCGW (2x100GE)
1xMLAG to DC-GW
(2x100GE)
Converter
Switches
G
G
Logical Perspective
HNI-MPE- HNI-MPEMX960-07 MX960-08
G
G
LAG
(2x100G)
LAG
(2x100G)
O
O
1xMLAG to Converter
switches (4x100GE)
O
Logical Converter Switch
LAG
(4x100G)
X
Spine Cluster
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 13
X
X
Logical Spine Switch
DC-GW Physical Connectivity – 224-TTI
Physical Perspective
TTI-PE-CITTI-PE-CIASR9K-05
ASR9K-06
1xMLAG to DCGW (2x100GE)
1xMLAG to DC-GW
(2x100GE)
Converter
Switches
G
G
Logical Perspective
TTI-PE-CI- TTI-PE-CIASR9K-05
ASR9K-06
G
G
LAG
(2x100G)
LAG
(2x100G)
O
O
1xMLAG to Converter
switches (4x100GE)
O
Logical Converter Switch
LAG
(4x100G)
X
Spine Cluster
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 14
X
X
Logical Spine Switch
Agenda
— NFVi Scope
— NFVi Solution Overview
— SDI Architecture
— CEE Architecture
— NFVi Tenant Networking
— Integration Points
— NFVi HLD Structure
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 15
CEE Architecture
Data Center
Gateway
— CIC: Cloud Infrastructure Controller
X
CEE
Traffic
— CEE Portal (Atlas): Management
Interfaces managing the virtual
infrastructure.
— vFuel: Software life cycle
management, adding installation,
update, and equipment
management support for a CEE
instance
— Compute: Compute capabilities to
virtual applications including vCPU,
memory
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 16
Storage
Compute
Network
Hypervisor
Host OS
Software defined
Storage
(NexentaStor)
Switch Fabric
Ericsson
vSwitch
Compute
HW
X
Control
X
Storage
Infrastructure
Management
CEE Management
(atlas)
Cloud
Infrastructure
Controlller (CIC)
OpenStack
Controller
vFuel
CEE Networking Domain
— Control Domain: The Control switching domain is
used for the OpenStack control tasks
— Traffic Domain: forward the internal and external
traffic of the tenant VMs, external OAM traffic of
vCIC/Atlas
— Storage Domain: connect to external storage
system (i.e NexentaStor)
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 17
CEE Host Networking
Non-SRIOV
Compute
VM
VM
vNIC
vNIC
Hypervisor
Nstor Cinder
backend
Linux Bonding
(active/backup)
iLO
OVS
OVS + DPDK
OVS bonding
(active/backup)
OVS bonding
blance-slb
Embedded
NIC
2 Port NIC
Card 1
Migration
Swift
Linux Bonding
(active/backup)
Linux Bonding
(active/backup)
SRIOV Compute
VM
vNIC
2 Port NIC
Card 2
VM
vNIC
vNIC
VF
VF
VF
VF
VF
VF
vNIC
vNIC
vNIC
VF
VF
VF
VF
VF
VF
Hypervisor
Control switching
domain
Traffic switching
domain
Storage switching
domain
iLO
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 18
OVS
OVS + DPDK
OVS bonding
(active/backup)
OVS bonding
blance-slb
Embedded
NIC
Control domain
2 Port NIC
Card 1
Traffic domain
(OVS/DPDK)
2 Port NIC
Card 2
Traffic domain
(SR-IOV)
2 Port NIC
Card 3
Traffic domain
(SR-IOV)
Agenda
— NFVi Scope
— NFVi Solution Overview
— SDI Architecture
— CEE Architecture
— NFVi Tenant Networking
— Integration Points
— NFVi HLD Structure
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 19
NFVi Networking Overview
VNF
Traffic
Types
VM
VM
VM
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 20
vNIC
Access
Edge
vNIC
WAN
Edge
VNF Networking
SRIOV
NIC
WAN
MGMT
Edge
DC Edge
Tenant Traffic Domain
CSS
DC
MGMT
Edge
Data Fabric
VNF Networking
CSS
DC-GW
Functions
Control
Fabric
Tenant
Traffic
Domain
DC-GW NIC
HDS
Physical
Layer
Storage
Network
Domain
NIC
NFVI
Control
Domain
Storage
attachment
VNF
Layer
Tenant Traffic Flows
VM to VM via CSS nodes
X
X
NRU Spine
cluster
NRU Leaf
cluster 1
X
X
X
X
X
CSS
CSS
CSS
vNIC
vNIC
vNIC
vNIC
VM
VM
Compute 1
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 21
VM
Compute 2
VLAN 10
IP: 10.0.0.5
X
VLAN 10
IP: 10.0.0.4
X
VLAN 10
IP: 10.0.0.3
VLAN 10
IP: 10.0.0.2
CEE
VM
Compute 3
NRU Leaf
cluster 2
Tenant Traffic Flows
VM via CSS node to VM with SR-IOV
X
X
NRU Spine
cluster
NRU Leaf
cluster 1
X
X
X
X
CEE
X
VM1
VM2
Compute 1
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 22
vNIC
VM3
Compute 2
VLAN 10
IP: 10.0.0.5
vNIC
VLAN 10
IP: 10.0.0.4
vNIC
VLAN 10
IP: 10.0.0.3
VLAN 10
IP: 10.0.0.2
CSS
vNIC
VM4
Compute 3
NRU Leaf
cluster 2
Tenant Traffic Flows
VM with SR-IOV to VM with SR-IOV
X
NRU Leaf
cluster 1
X
NRU Spine
cluster
X
X
X
X
VM1
VM2
Compute 1
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 23
vNIC
VM3
Compute 2
VLAN 10
IP: 10.0.0.5
vNIC
VLAN 10
IP: 10.0.0.4
vNIC
VLAN 10
IP: 10.0.0.3
VLAN 10
IP: 10.0.0.2
CEE
vNIC
VM4
Compute 3
NRU Leaf
cluster 2
Tenant Traffic Flows
VM via CSS node/VM with SR-IOV to DC-GW L3 VRF
G RX
DC-GW VRFs
X
X
NRU Spine
cluster
NRU Leaf
cluster 1
X
X
X
X
CSS
CSS
vNIC
vNIC
VM1
VM2
Compute 1
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 24
vNIC
VM3
Compute 2
VLAN 20
IP: 10.0.20.5
X
VLAN 12
IP: 10.0.2.4
X
VLAN 11
IP: 10.0.1.3
VLAN 10
IP: 10.0.0.2
CEE
vNIC
VM4
Compute 3
NRU Leaf
cluster 2
Agenda
— NFVi Scope
— NFVi Solution Overview
— SDI Architecture
— CEE Architecture
— NFVi Tenant Networking
— Integration Points
— NFVi HLD Structure
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 25
NFVi Networking – Integration to VNPT
DC-GW
R
vEPC VRFs
R
vIMS VRFs
R
Infra OAM VRF
DC-GW
R
Storage VRFs
Data Fabric
L2 Networks
L2 Networks
CCM access
network
VNPT to provide:
— DC-GW ports to connect to Data and Control Fabric
— Hanoi/030-PHG
— 4 ports 100GE to Data Fabric
— 2 port 10GE (SFP+ SM or MM LC) to Control
Fabric
— HCM/224-TTI
— 4 ports 100GE to Data Fabric
— 2 ports 10GE (SFP+ SM or MM LC) to Control
Fabric
— IP & VLAN in below table
IP & VLAN requirements
vEPC VNFs
vIMS VNFs
CEE Infrastructure
CEE vPOD
NexentaStor
App
Nexenta vPOD
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 26
CCM
HDS Compute Resources
Parameters
030-PHP
224-TTI
Public IPv4
1* /28
1* /28
IPv6
1* /121
1* /121
Private IPv4
1 */19
1 */19
IP UE Pools
- IPv4: 5000000 IPs
- IPv6: 5000000 IPs
- IPv4: 5000000 IPs
- IPv6: 5000000 IPs
VLAN
160 VLANs
158 VLANs
Integration to VNPT NTP
Compute
Systems
— Hanoi VNPT NTP:
— NTP1: 10.149.233.10
— NTP2: 10.149.233.14
— HCM VNPT NTP:
— NTP1: 10.149.7.190
— NTP2: 10.149.7.194
HDS
CCM
EAC
Fabric
Nexenta vPOD
CEE vPOD
Nexenta Compute
CEE CIC
vCIC
Ctrl
Ctrl
Ctrl
Atlas
Traffic Storage
hds-ccm-access-nw
nstor_om_sp
Control
Fabric
cee_om_sp
atlas_nbi_sp
Data
Fabric
DC-GW
R
R
om-stor-vr
om-dco-vr
SS
NTP
server
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 27
DC Infrastructure Service
R
om_vim_vr
R
atlas_sbi_vr
Alarms/Events integration to VNPT SNMP Server
VNPT SNMP
server
— Alarms/Events will be
forwarded as SNMP Trap
6
GUI
9
— SNMPv2c will be used
CCM
— VNPT to provide SNMP
server IP and
community string
GUI
3
Atlas
NRU
2
EAS
Networking Infrastructure
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 28
NexentaFusion
8
EAC
1
GUI
vCIC
11
4
Nexenta
App
7
Compute
node(s)
CEE
CEE vPOD
10
5
Nexenta
Compute(s)
Nexenta vPOD
Integrate to VNPT Log MGMT Server
Interface
Log Type
Protocol
CCM to VNPT Log MGMT server
Audit Logs
Syslog over TCP/
Syslog over UDP/
RELP
CEE to VNPT Log MGMT server
Security and Audit Logs
Syslog over TCP/
RELP
— VNPT to provide Log MGMT server IP and port/protocol
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 29
Agenda
— NFVi Scope
— NFVi Solution Overview
— SDI Architecture
— CEE Architecture
— NFVi Tenant Networking
— Integration Points
— NFVi HLD Structure
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 30
NFVi HLD Structure
1. Executive Summary
1.1 Purpose
1.2 Introduction
1.3 Scope
1.3.1 In Scope
1.3.2 Out-of-Scope
1.4 Assumptions & Considerations
1.5 Intended Audience
1.6 Revision History
1.7 Notation
2 Solution Overview
2.1 NFVi Solution Architecture
2.2 NFVi Solution Components
2.2.1 Software Defined Infrastructure (SDI)
2.2.2 Virtual Infrastructure Management (VIM)
2.2.3 Software Defined Storage (SDS)
2.3 Software Baseline
2.4 Hardware and Software BoQ
2.5 Naming Convention
3 HDS – Software Defined
Infrastructure
3.1 HDS Overview
3.2 Hardware Components
3.2.1 Rack
3.2.2 Computes
3.2.3 Storage
3.2.4 Data Switch: NRU0201
3.2.5 Control Switch: EAS0102
3.3 Run-time Environment (RTE)
3.4 CCM and EAC
3.4.1 Overview
3.4.2 POD and vPODs
3.4.3 User Management and Access Control
3.5 Physical Connectivity
3.5.1 Overview
3.5.2 Host Connectivity
3.5.3 Data Fabric
3.5.4 Control Fabric
3.6 Logical Connectivity
3.6.1 Control and Management
3.6.2 CCM Control Network VLAN Allocation
3.6.3 Data Network
4 Cloud Execution Environment (CEE)
4.1 CEE Architecture
4.1.1 Architecture Overview
4.1.2 OpenStack APIs
4.1.3 VIM Zone (Region)
4.2 Control and Deployment
4.2.1 Resource Management
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 31
4.2.2 CM-HA
4.2.3 Projects (Tenants)
4.2.4 VIM LCM – vFuel
4.2.5 vCICs
4.2.6 CEE Portal (Atlas)
4.3 Compute
4.3.1 Overview
4.3.2 CEE vPOD Compute Usage
4.3.3 Redundancy Compute Usage
4.4 Networking
4.4.1 CEE Networking Domains
4.4.2 CEE Host Networking
4.4.3 CEE Logical Networking
4.5 SR-IOV Design
4.5.1 SR-IOV Concepts
4.5.2 SR-IOV for VIM Zone
4.6 Storage
4.6.1 Block Storage (Cinder)
4.6.2 Image Service (Glance)
4.6.3 Object Storage (Swift)
4.6.4 Local Storage
4.7 Dimensioning Characteristics
4.7.1 Memory Dimensioning
4.7.2 Storage Dimensioning
4.7.3 CPU Dimensioning
NFVi HLD Structure
5 Software Defined Storage
5.1 NexetaStor Design Overview
5.2 NexentaStor HA Cluster Architecture
5.3 Cache Read and Write
5.4 NexentaStor Deployment Model
5.4.1 Storage Hardware Configuration
5.4.2 Storage Software
5.4.3 Storage Pool
5.4.4Data Protection
5.4.5 NFS File Systems
5.5 NexentaStor Connectivity
5.5.1 NexentaStor Physical Connectivity
5.5.2 NexentaStor vPOD
5.5.3 NexentaStor Logical Networks
6 NFVi Tenant Networking
6.1 NFVi Networking Overview
6.2 NFVI Tenant Traffic Domain Layers
6.3 VNF Networking de-activated SDN
6.3.1 Limitation
6.3.2 VNF L2/L3 Service Traffic Flows
7 NFVi Operation and Management
7.1 Fault Management
7.1.1 HDS Infrastructure
7.1.2 CEE vPOD
7.1.3 Nexenta vPOD
7.2 Performance Management
7.2.1 HDS Infrastructure
7.2.2 CEE vPOD
7.2.3 Nexenta vPOD
7.3 Log Management
7.3.1 HDS Infrastructure
7.3.2 CEE vPOD
7.3.3 Nexenta vPOD
7.4 Infrastructure Backup & Restore
7.4.1 Infrastructure Backup
7.4.2 Infrastructure Restore
8 NFVi Security
8.1 Security Management
8.2 Identity and Access Management
(IdAM)
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 32
8.2.1 HDS Identity and Access
Management
8.2.2 CEE Identity and Access
Management
8.2.3 Nexenta Identity and Access
Management
8.3 Certificate Management
8.4 Network Isolation
8.5 Data Protection
8.6 Node Hardening
9 NFVi Services Integration
9.1 NTP
9.1.1 NTP Hierarchy
9.1.2 NFVi External Time Sources
9.1.3 HDS NTP Establishment
9.1.4 CEE vPOD
9.1.5 Nexenta vPOD
Q&A
PA1 | 2019-05-22 | VNPT NFVi Solution | Open | Commercial in Confidence | Page 33
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