SDC Server Sao Jose
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Transcript of SDC Server Sao Jose
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Roberto BrandãoAMD Brasil
AMD Technology Update- Servers and Stream Processors -
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Agenda
The Green IT challenge
Stream Processors
Project Shanghai
AMD Opteron on the work
CPU Roadmap
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Notebooks1 and 2 cores
Platform certification
Notebooks1 and 2 cores
Platform certification
Servers2 and 4 cores
Up to 8 processors
FireStream accelerators
Servers2 and 4 cores
Up to 8 processors
FireStream accelerators
DesktopsUp to 4 cores
Native multi-core
DesktopsUp to 4 cores
Native multi-core
AMD computing products
Infrastructure Infrastructure
Chipsets Graphics cards
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The Green IT Challenge
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The Green IT Challenge
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Performance por watt
• US datacenters consume more power than five 1000 megawatt nuclear power plants – at a cost of almost $3 billion• This is 150% more than the consumption in 2001
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AMD CoolCore™ Technology Turns off Blocks of Logic When Not in Use
Coarse Control (Core) Ex, FPU (hottest part of die)
Memory Controller Reads (turn off write logic)
Writes (turn off read logic)
Fine Control (Core) Incrementally Smaller
Sections
FPU
Memory ControllerL3
L1
FPU
Memory ControllerL3
L1
L2L1
Core 1 Core 2
Core 3 Core 4
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AMD Opteron
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8-core system comparison
CS
MEMORYMEMORY
MEMORY
MEMORYM
EMORY
MEMORY
AMD
Twice the number of memory
controllersMoving data affected by FSB
Bottleneck
FSBFSB
HyperTransport
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HPC Performance Advantage
100% = Xeon E5472
13%
19%
The results stated above reflect results published on www.spec.org and www.amd.com as of June 23, 2008. The STREAM, FLUENT, STAR-CD, and LS-DYNA comparisons above are based on results measured in AMD’s performance lab. For the latest results visit http://www.spec.org/ and http://www.amd.com.
62%
33%
25%
14%
11%
2%
0% 20% 40% 60% 80% 100% 120% 140% 160% 180%
STREAM Copy
FLUENT
STAR-CD
LS-DYNA
SPECompMbase®2001
SPECfp®_rate2006
17% Average Performance
Advantage for Opteron 2356
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The Clear Leader for HPC Efficiency
Benchmark Rating(higher is better)
Energy Usage
(lower is better)
Rating per
Energy Usage
(higher is better)
FLUENT (CFD)
sedan_4m, 8 cores133% 86.7% 154%
LS-DYNA (FEA)
3 Vehicle Collision, 8 cores114% 99.6% 115%
STAR-CD (CFD)
A_Class_6m, 8 cores125% 93.9% 133%
Relative to Xeon E5472 processor-based server
Based on measurements at AMD performance labs as of June 23, 2008. FLUENT results based on FLUENT 12 beta release from ANSYS, Inc. Performance on the final software release may vary. LS-DYNA results based on LS-DYNA mpp970 release from LSTC. STAR-CD results based on STAR-CD v4.02 release from CD-adapco.
Higher performance and lower power consumption – the CLEAR leader
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Introducing “Shanghai”
The new price/performance-per-watt leader for x86 servers.
1
Immersion lithography contributes to major power and performance benefits
2
Still the industry’s most manageable and consistent server platform
3
New innovations result in superior virtualization and power management capabilities
4
Unprecedented levels of price/performance for businesses5
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AMD Technology Leadership Roadmap
180nm 130nm 90nm 65nm 45nm 32nm
2000 2002 2004 2006 2008 2010
CuInterconne
ctLow-K
dielectricStrained-Si
Multi-Strain
Transistor
130nm
2003
SOI
2003 AMD Opteron™
2005 Dual-Core
AMD Opteron™
2007Quad-Core
AMD Opteron™
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Independent DynamicCore Technology
Independent DynamicCore Technology
AMD CoolCore™Technology
AMD CoolCore™Technology
Dual Dynamic PowerManagement™
Dual Dynamic PowerManagement™
Low-Power DDR2Memory
Low-Power DDR2Memory
…and these power-efficiency features…and these power-efficiency features
AMD Wide Floating-Point Accelerator
AMD Wide Floating-Point Accelerator
AMD MemoryOptimizer Technology
AMD MemoryOptimizer Technology
Dual Dynamic PowerManagement™
Dual Dynamic PowerManagement™
AMD BalancedSmart Cache
AMD BalancedSmart Cache
These performance-enhancing features…These performance-enhancing features…
Previous-generation innovations that continue
Low-Power DDR2 Memory
Dual Dynamic Power Management™
~150%
100%
Dual-Core*
Quad-Core*
*Stream bandwidth comparison of Second-Generation & Third-Generation AMD Opteron™ processor
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L3 Cache IndexDisable3
L3 Cache IndexDisable3
RASRAS
Enhanced RVIEnhanced RVIAMD Smart FetchAMD Smart Fetch
45nm with ImmersionLithography
45nm with ImmersionLithography
AMD MemoryOptimizer Technology
AMD MemoryOptimizer Technology
AMD BalancedSmart Cache
AMD BalancedSmart Cache
HyperTransport ™ Technology 3.02
HyperTransport ™ Technology 3.02
PerformancePerformance
Innovations new to this generation
DDR2-800
Enhanced Pre-fetching
2x Core Probe Bandwidth1
Up to 21% CPU Power Savings
Greater Frequency1
Core 3 Core 4Core 1 Core 2
L1
L2
Integrated Memory Controller
L3
L2 L2 L2
L1L1 L1
8MB: 2x total cache1
Faster World Switch1 Superior Data Integrity
Core 3 Core 4Core 1 Core 2
L1
L2
Integrated Memory Controller
L3
L2 L2 L2
L1L1 L1
Up to 17.6GB/s
HT3CPU CPU
1. Compared to Quad-Core AMD Opteron™ (“Barcelona” vs. “Shanghai”)2. Available Q2’09 on all new product introduction3. Planned availability in 2009 for select operating systems (to be determined)
45nm with ImmersionLithography
45nm with ImmersionLithography
Power EfficiencyPower Efficiency
Core 3 Core 4Core 1 Core 2
L1
L2
Integrated Memory Controller
L3
L2 L2
L2
L2
L1
L1
L1 L1
VM1 VM2Virtual Memory 1 Virtual Memory 2
Physical Memory
Performance90nm
65nm45nm
Pow
er
~35% Lower Idle Power1
VirtualizationVirtualization
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Record-setting Performance
4P Java Performance
AMD Opteron™ Processor Model 8384
“Shanghai” (2.7 GHz)
Intel Xeon ProcessorModel X7460“Dunnington”
(2,66 GHz)
$2149 $2729
26% better performance for 2P servers with 29% lower processor price 24% better performance for 4P servers with 21% lower processor price
* All results based on SPECjbb®2005. See backup slide 23 for system configuration and details. Pricing reflects 1kU tray pricing published on http://www.amd.com and http://www.intel.com as of October 16, 2008 and/or suggested “Shanghai” 1kU price at launch.
24 cores
16 cores
0%
50%
100%
150%
200%
OLTP Virtualization Java Integer Floating Point
PercentageHigher is better
Dual-Core AMD Opteron™ Processor Model 2224 SEQuad-Core AMD Opteron™ Processor Model 2356Quad-Core AMD Opteron™ "Shanghai" ProcessorQuad-Core Intel Xeon Processors
Relative Performance
Intel = *NEW* X5482 (3.2GHz / 1600 FSB)
0%
50%
100%
150%
200%
OLTP Virtualization Java Integer Floating Point
PercentageHigher is better
Dual-Core AMD Opteron™ Processor Model 2224 SEQuad-Core AMD Opteron™ Processor Model 2356Quad-Core AMD Opteron™ "Shanghai" ProcessorQuad-Core Intel Xeon Processors
Relative Performance
0%
50%
100%
150%
200%
OLTP Virtualization Java Integer Floating Point
PercentageHigher is better
Dual-Core AMD Opteron™ Processor Model 2224 SEQuad-Core AMD Opteron™ Processor Model 2356Quad-Core AMD Opteron™ "Shanghai" ProcessorQuad-Core Intel Xeon Processors
Relative Performance
2P SPECfp
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Accelerated Computing
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Acceleration Concepts
Reduction in Latency
Add-in Chipset “SocketFiller”
PackageIntegration
CoreIntegration
Outside the system Closer to the cores
Chipset
PCI-E
PCIe Accelerator
Acc
eler
ato
r
CPU
Accelerator
AMD OpteronSocket
HTX Accelerator
Accelerator
AMD OpteronSocket
OpteronSocket
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Enhancing GPUs for ComputationRV770 Architecture
AMD FireStream SDKAMD FireStream SDKOpen systems approach to
drive broad customer adoption
AMD MulticoreCPUs
AMD Runtime
Compilers Libraries 3rd Party Tools
Brook+ RapidmindACML/Cobra
Compute Abstraction Layer (CAL)
AMD Stream Processors
750 MHz
800
GDDR5 3.6 Gbps
1.2 teraFLOPS
2GB
160W
Compute PowerCompute Power
Core Clock SpeedCore Clock Speed
Stream ProcessorsStream Processors
Memory TypeMemory Type
MemoryMemory
Peak Board PowerPeak Board Power
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http://developer.amd.com/
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AMD in 7 of the Top10
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Cache L3
AMD native quad-core
PCI-e PCI-e
Chipset
FSB
Chipset
HyperTransport
AMD64
Memorycontroller
Memorycontroller
Hyper TransportInterface
Core1
Core2
Core1
CacheL2
CROSSBAR
Core3
Core4
Cache L2 Cache L2
Core2
CacheL2
Core3
CacheL2
Core4
CacheL2
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2008 GPU – Crossbar
Evolving to enable Fusion
2006 GPU – Ring Bus
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OpenCL Compliance Giving Programmers a Fully Open Cross-Platform Interface
The OpenCL Working Group consists of major industry players like AMD, Apple, IBM, Intel and Nvidia
The Working Group is on track to ratify and publish the specification later this year
OpenCL compliant implementation will begin rolling out next year
AMD is participating in the Khronos OpenCL Working Group to help AMD is participating in the Khronos OpenCL Working Group to help define an industry standard for define an industry standard for GPGPUGPGPU programming programming
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Open Standards:Open Standards:
DirectX, OpenCLDirectX, OpenCL
Gaming Science
Productivity Entertainment
CAL, Brook+
A complete solution based on:-Open Standards-SDK-Usage Scenarios
Ecosystem Model for ATI Stream Computing
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AMD + Tyan + SDC
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Trademark Attribution
AMD, the AMD Arrow logo and combinations thereof are trademarks of Advanced Micro Devices, Inc. in the United States and/or other jurisdictions. Other names used in this presentation are for identification purposes only and may be trademarks of their respective owners.
©2008 Advanced Micro Devices, Inc. All rights reserved.