Exploiting More ILP

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Exploiting More ILP
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Slide Set #20:
Advanced Pipelining, Multiprocessors,
and El Grande Finale
Chapter 6
ILP = __________________ _________________ ________________
(parallelism within a single program)
How can we exploit more ILP?
1. ________________________
(Split execution into many stages)
2. ___________________________
(Start executing more than one instruction each cycle)
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Multiple Issue Processors
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Multi-processing in SOME form… (chapter 6)
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Key metric: CPI  IPC
1. Multi-processors – multiple CPUs in a system
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Key questions:
1. What set of instructions can be issued together?
2. Multi-core – multiple CPUs on a single chip
Processor
Processor
Processor
Cache
Cache
Cache
Single bus
3. Clusters – machines on a network working together
Memory
I/O
Idea: create powerful computers by connecting many smaller ones
good news: works for timesharing (better than supercomputer)
2. Who decides which instructions to issue together?
– Static multiple issue
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bad news: its really hard to write good concurrent programs
many commercial failures
Dynamic multiple issue
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Who? When? Why?
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Multiprocessor/core: How do processors SHARE data?
1. Shared variables in memory
“For over a decade prophets have voiced the contention that the
organization of a single computer has reached its limits and that truly
significant advances can be made only by interconnection of a
multiplicity of computers in such a manner as to permit cooperative
solution…. Demonstration is made of the continued validity of the
single processor approach…”
OR
“Symettric Multiprocessor”
“Uniform Memory Access”
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“Non-Uniform Memory
Access” Multiprocessor
2. Send explicit messages between processors
“…it appears that the long-term direction will be to use increased
silicon to build multiple processors on a single chip.”
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Flynn’s Taxonomy of multiprocessors(1966)
Multiprocessor/core: How do processors COORDINATE?
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synchronization
1. Single instruction stream, single data stream
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built-in send / receive primitives
2. Single instruction stream, multiple data streams
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operating system protocols
3. Multiple instruction streams, single data stream
4. Multiple instruction streams, multiple data streams
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Example Multi-Core Systems (part 1)
Example Multi-Core Systems (part 2)
2 × quad-core
Intel Xeon e5345
(Clovertown)
2 × oct-core
Sun UltraSPARC
T2 5140 (Niagara 2)
2 × quad-core
AMD Opteron X4 2356
(Barcelona)
2 × oct-core
IBM Cell QS20
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Clusters
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Constructed from whole computers
Independent, scalable networks
Strengths:
– Many applications amenable to loosely coupled machines
– Exploit local area networks
– Cost effective / Easy to expand
Weaknesses:
– Administration costs not necessarily lower
– Connected using I/O bus
Highly available due to separation of memories
Approach taken by Google etc.
A Whirlwind tour of
Chip Multiprocessors and Multithreading
Slides from Joel Emer’s talk at
Microprocessor Forum
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Instruction Issue
Superscalar Issue
Time
Time
Reduced function unit utilization due to….
Superscalar leads to more performance, but lower utilization
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Chip Multiprocessor
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Fine Grained Multithreading
Time
Time
Limited utilization when only running one thread
Intra-thread dependencies still limit performance
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Looking Forward With Parallelism
Simultaneous Multithreading
• Goal: higher performance by using multiple processors /
cores
• Difficulties
– Developing parallel software
– Devising appropriate architectures
• Many reasons for optimism
– Changing software and application environment
– Chip-level multiprocessors with lower latency, higher
bandwidth interconnect
• An ongoing challenge!
Time
Maximum utilization of function units by independent operations
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Finally: a recent computer spec…
System
Processor
Memory
Hard Drive
DVD-ROM Drive
LCD Monitor
Video / TV Card
Ethernet (on-board)
Wireless LAN
Ports
Operating System
Dell Latitude E6440
Intel Core™ i74600M Processor (4M Cache,
up to 3.60 GHz)
8.0GB, DDR3-1600MHz
256GB Solid State Hard Drive
8X DVD+/-RW
14” WXGA, 1366 x 768, Antiglare
2 GB AMD Radeon HD 8690M
Graphics Card
Integrated 100/1000 Gigabit
Ethernet Controller
Integrated 802.11 a/b/g/n, 2x2,
Dual Band (2.4Ghz and 5GHz) +
Bluetooth 4.0
4x USB3.0, VGA, HDMI, stereo
global headset jack, RJ-45, VGA,
HDM
MS Windows 7 Enterprise with
SP1 64Bit
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