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Overview of Power 7 Servers and LM Coverage team
Citation preview
© 2010 IBM Corporation
IBM Systems & Technology Group
IBM Power SystemsTM
Power your planet
Enterprise Power Systems Transition to POWER7 technology
…the next generation
© 2010 IBM Corporation
IBM Power Systems
2 Power your planet
Agenda
IntroductionsJim McGuire, IBM Client Executive – Lockheed Martin AccountTom Lambert, IBM Hardware Sales Leader – Lockheed Martin AccountLarry Mills, IBM IT Architect – Lockheed Martin AccountBill Linn, IBM Power Technical Specialist – Lockheed Martin AccountJeff Fier, IBM Computational Scientist Marc West (on phone), IBM HPC Sales
Power 7 Introduction – focus on 32 way and higher systemsPower 7 750/755Power 7 770Power 7 780 IBM HPC solutions
Open Discussion on Lockheed Martin’s MM3D Application Server
© 2010 IBM Corporation
IBM Power Systems
3 Power your planet
IBM Power Systems continues to grow…gaining market share and outselling HP and Sun
Industry’s most popular UNIX enterprise servers
Sustained performance leadership
Leadership virtualization with PowerVM
Innovative modular flexibility
Application availability through Live Partition Mobility
Non-disruptive growth with CoD
Broad application support through AIX, IBM i, Linux for Power and Lx86
© 2010 IBM Corporation
IBM Power Systems
4 Power your planet
IBM POWER Processor Roadmap - 3 Year Revolution - 18 month “+” evolution
2004 2001 2007 2010
POWER4/4+
Dual Core Chip Multi Processing Distributed Switch Shared L2 Dynamic LPARs (32)180nm,
POWER5/5+
Dual Core & Quad Core MdEnhanced Scaling2 Thread SMTDistributed Switch +Core Parallelism +FP Performance +Memory bandwidth +130nm, 90nm
POWER6/6+
Dual Core High Frequencies Virtualization + Memory Subsystem + Altivec Instruction Retry Dyn Energy Mgmt 2 Thread SMT + Protection Keys 65nm
POWER7/7+
4,6,8 Core 32MB On-Chip eDRAM Power Optimized Cores Mem Subsystem ++ 4 Thread SMT++ Reliability + VSM & VSX Protection Keys+ 45nm, 32nm
POWER8
Future
First Dual Corein Industry
HardwareVirtualizationfor Unix & Linux
FastestProcessorIn Industry
MostPOWERful &ScalableProcessor inIndustry
IBM is the leaderin Processorand Serverdesign
4
© 2010 IBM Corporation
IBM Power Systems
5 Power your planet
POWER7 Processor Chip
Physical Design:567mm2 Technology: 45nm
lithography, Cu, SOI, eDRAM1.2B transistors
Equivalent function of 2.7B eDRAM efficiency
* Statements regarding SMP servers do not imply that IBM will introduce a system with this capability.
Features:Eight processor cores
12 execution units per core 4 Way SMT per core 32 Threads per chip 256KB L2 per core
32MB on chip eDRAM shared L3
Dual DDR3 Memory Controllers 100GB/s Memory bandwidth per chip
sustained
Scalability up to 32 Sockets 360GB/s SMP bandwidth/chip 20,000 coherent operations in flight
Two I/O Mezzanine (GX++) System Buses
Binary Compatibility with POWER6
© 2010 IBM Corporation
IBM Power Systems
6 Power your planet
POWER7 Core
64-bit Power ISA Architecture v2.06
Out of Order Execution
Wider Dispatch & Issue Capability 6 Wide Dispatch (2 branches per group) 8 Wide issue
12 Execution Units• 2 Fixed Point Units• 2 Load Store Units also do Simple FX ops• 4 Double Precision Floating Point Units• 1 Vector Unit• 1 Branch• 1 Condition Register• 1 Decimal Floating Point Unit
Units include distributed Recovery Function
Cache Design:• L1 32KB 4-way set associative I-Cache• L1 32KB 8-way set associative D-Cache
• L1 cache latency reduced from 4 to 2 cycles• L2 256KB 8-way associative (i & d combined)
• Tightly coupled to core. 8 cycles away
Add Boxes
256KB L2
IFUCRU/BRU
ISU
DFU
FXU
VSXFPU
LSU
© 2010 IBM Corporation
IBM Power Systems
7 Power your planet
The CompetitionNehalem-EP (Xeon 5570) for 2 socket servers45nm, 269mm2, 4 cores, 8MB cache
Westmere-EP (Xeon 5680) for 2 socket servers32nm, 240mm2, 6 cores, 12MB cache
Nehalem-EX (Xeon 7560) for up to 8 socket servers45nm, 684mm2, 8 cores, 24MB cache
Tukwila (Itanium 9350)65nm, 700mm2, 4 cores, 30MB cache
© 2010 IBM Corporation
IBM Power Systems
8 Power your planet
Core
L1I-cache
L1D-cache
L2 Cache
Core
L1I-cache
L1D-cache
L2 Cache
Core
L1I-cache
L1D-cache
L2 Cache
Core
L1I-cache
L1D-cache
L2 Cache
Core
L1I-cache
L1D-cache
L2 Cache
Core
L1I-cache
L1D-cache
L2 Cache
Core
L1I-cache
L1D-cache
L2 Cache
L3 Cache
Core
L1I-cache
L1D-cache
L2 Cache
Memory Controller Fabric Controller
Fundamental Computer ArchitecturePOWER7 (Intel Nehalem)
8 cores X
4w SMT(8 core 2w SMT)
32MB L3EDRAM
(24MB SRAM)
360GB/s(103GB/s)
105GB/sMemory BW
(32GB/s)
3.86 Ghz(2.26 Ghz)
7 8B SMP interconnect buses8 DDR3 buffered memory channels
980GB/sCache BW
© 2010 IBM Corporation
IBM Power Systems
9 Power your planet
Core
L1I-cache
L1D-cache
L2 Cache
Core
L1I-cache
L1D-cache
L2 Cache
Core
L1I-cache
L1D-cache
L2 Cache
Core
L1I-cache
L1D-cache
L2 Cache
Core
L1I-cache
L1D-cache
L2 Cache
Core
L1I-cache
L1D-cache
L2 Cache
Core
L1I-cache
L1D-cache
L2 Cache
L3 Cache
Core
L1I-cache
L1D-cache
L2 Cache
Memory Controller Fabric Controller
Fundamental Computer ArchitecturePOWER7 Edge
2X coresin SMT
1.3X largerL3 Cache
3.5X IO B/W
3.3X LargerMemory B/W
1.7X higherfrequency
7 8B SMP interconnect buses8 DDR3 buffered memory channels
980GB/sCache BW
© 2010 IBM Corporation
IBM Power Systems
Power your planet
“Mainframe-class”, a term used by Intel to describe processor enhancements, is derived from the IBM innovations that built the legendary RAS mainframes provide
RAS Feature POWER7™ SPARC Integrity Xeon Application/Partition RAS Live Partition Mobility Yes No No Yes Live Application Mobility Yes No No No Partition Availability priority Yes No No No System RAS OS independent First Failure Data Capture Yes No No No Memory Keys Yes No No No Processor RAS Processor Instruction Retry Yes Yes No No Alternate Processor Recovery Yes No No No Dynamic Processor Deallocation Yes Yes Yes No Dynamic Processor Sparing Yes Yes2 Yes2 No Memory RAS Chipkill Yes Yes Yes Yes Survives Double Memory Failures Yes No No No Selective Memory Mirroring Yes No No No Redundant Memory Yes Yes Yes Yes
I/O RAS Extended Error Handling Yes No No No
#1,2,3 - See “POWER6 RAS” in backup; See the following URLs for addition details:http://www-03.ibm.com/systems/migratetoibm/systems/power/availability.htmlhttp://www-03.ibm.com/systems/migratetoibm/systems/power/virtualization.html
The same people who develop mainframes develop Power Systems
© 2010 IBM Corporation
IBM Power Systems
Power your planet
0.008
0.316
0.010
1.000
0.006
0.542
0.0
0.2
0.4
0.6
0.8
1.0
Norm
alize
d Co
smic
Soft
Erro
r Sen
sitivi
ty
Linpack Bzip2 SpecJbb
Benchmark Exerciser
Soft Error Rate Comparison (Cosmic)Rate of system crashes, measured with proton beam
IBM's p7 chip
Competitor's chip
Alpha Particle Emission Testing
IBM’s SOI SRAM cells 9x more robust than bulk SRAM cells*
IBM’s SOI latches are 6x more robust than bulk latches*
P7 is IBM’s 4th POWER generation where emission testing was part of the design process to go beyond baseline technology advantages
* Statements based on comparisons of IBM’s 65nm SIO and bulk technologies.
© 2010 IBM Corporation
IBM Power Systems
Power your planet
Power Systems with AIX deliver 99.997% uptime- 54% of IT executives and managers say that they require 99.99% or better availability for their applications
Power Systems with AIX® Best availability of UNIX,
Linux®, Windows choices Only 15 minutes of
downtime per year Best reliability
No severe outages Best serviceability
Systems with Call Home have 1/3 the unscheduled repair actions
Source: ITIC 2009 Global Server Hardware & Server OS Reliability Survey Results, July 7, 2009
Minutes of downtime per year
0
15
30
45
60
75
90
AIX / Pow er Solaris /SPARC
HP-UX /PA_RISC
HP-UX /Integrity
SuSE on x86 RHEL on x
Power Systems have 2/3 the number of incidents as other UNIX systems and < 1/2 the incidents of
x86 systems
0
0.5
1
1.5
2
Inc
ide
nts
pe
r y
ea
r
Tier 1 Incidents 0.42 0.8 0.78 0.59 0.65
Tier 2 Incidents 0.34 0.475 0.68 0.49 0.48
Tier 3 incidents 0 0.195 0.395 0.1 0.14
PowerLinux on
x86Windows
on x86Solaris on SPARC
HP-UX on Itanium
© 2010 IBM Corporation
IBM Power Systems
13 Power your planet
Security
PowerVM has never had a single reported security vulnerability.
Source: National Vulnerability Database, http://nvd.nist.gov/
119
61
22
2 1 0
0
20
40
60
80
100
120
Number of reported security vulnerabilities
VMWare Xen KVM Sun LDoms Hyper-V PowerVM
© 2010 IBM Corporation
IBM Power Systems
14 Power your planet
POWER7 Has Clear Performance Leadership On Major Workloads
PER SOCKET vs. Best Published (4/18/2010) Intel Offering
0
100
200
300
400
500
600
700
No
rma
lize
d U
nit
s
SAP SD SpecIntRate SpecFPrate SpecJbb2005 TPCC
POWER 7
Nehalem-EX
Nehalem-EP
Westmere-EP
Itanium
* Source: http://www.spec.org/ IBM p570 POWER6 results to be submitted on 5/21/07: All other results as of 04/27/07; ** Source: www.tpc.org/ IBM p570 POWER6 result to be submitted on5/21/07; All other results as of 04/27/07See next page for full detail
© 2010 IBM Corporation
IBM Power Systems
15 Power your planet
POWER 7 Workload Optimization Intelligent threads pick ST/SMT2/SMT4 mode of operation
Automatic, dynamic movement of thread vs. throughput performance across 2x range Intelligent Cache technology optimizes cache utilization flowing it from core to core Turbo Core Mode enables max core performance for databases
Active Cores have a 2X increase in L3 Cache size per core Chips run at increased frequency 3.86 vs 4.14Ghz Provides up to 1.5X per core to core performance gain over P6.
Unused core
SMT4 SMT2 SMT1
Co
re
Per
form
ance
Th
read 1
1
Th
read 1
Th
read 2
1.56T
hre
ad 1
Th
read 2
Th
read 3
Th
read 4
2.27
Max core Mode
Throughput Orientationincredible parallelization
SMT4 SMT1SMT2Thre
ad
1
1.19
Thre
ad
1
1.92
Thre
ad
2
Th
read 1
Th
read 2
Th
read 3
Th
read 4
2.84
Turbo Core Mode
max per core performance for databases
20-25% per core
gain
© 2010 IBM Corporation
IBM Power Systems
16 Power your planet
POWER 7 Dominates Intel’s Offerings
POWER 7 vs. Nehalem-EX
(Xeon 7560)
POWER 7 vs. Westmere-EP
(Xeon 5680)
POWER 7 vs. Nehalem-EP
(Xeon 5570)
POWER 7 vs. Tukwila
(Itanium 9350)
Core Count = 1.33x 2x 2x
Micro-Architecture ++ ++ ++ ++++
Frequency 1.7x 1.16x 1.3x 2.25x
# of Threads / Core 2x 2x 2x 2x(+ SMT vs. HMT)
Cache 1.33x(+ DRAM advantage)
2.67x(+ DRAM advantage)
4x(+ DRAM advantage)
1.1x(+ DRAM advantage)
Memory Bandwidth 3x 5x 5x 3x
SMP Bandwidth 3.5x (+coherency
advantage)
7x (+coherency
advantage)
7x (+coherency
advantage)
3.5x (+coherency
advantage)
Max Glueless SMP 4x(32 vs. 8)
16x(32 vs. 2)
16x(32 vs. 2)
4x(32 vs. 8)
© 2010 IBM Corporation
IBM Power Systems
17 Power your planet
Power is the innovation that will fuel the growthThe future of UNIX provides virtualization without limits and exponential ROI
Virtualization without Limits increases flexibility and reduces costs
Workload-optimizing systems improve service levels with assured performance
Consolidation that delivers exponential ROI
Dynamic Energy Optimization that balances performance and efficiency
Resiliency without Downtime
© 2010 IBM Corporation
IBM Systems & Technology Group
IBM Power SystemsTM
Power your planet
IBM Power 755 ServerHigh Performance Computing with POWER7
Smarter Systems for a Smarter Planet
© 2010 IBM Corporation
IBM Power Systems
19 Power your planet
Weather & Environmental models
Focus Application Areas for IBM Power HPC Systems
Medical and Life Sciences
Basic Research
Engineering / Scientific and emerging technologies
Predicting the path of the next hurricane
Modeling the Human Brain
Discovering the secrets of the Universe
Tomorrow’s technologies today
BRINGING OUR STRENGTH TO BEAR
© 2010 IBM Corporation
IBM Power Systems
20 Power your planet
HPC Market Opportunity
Source: IDC Worldwide Technical Computing Server 2009 – 2013 Forecast Update – March, 2009
IDC Segment DefinitionsSuperComputing: Systems configured for large problems and high throughput, >$500KDivisional: Systems for throughput environments, $250K>ASP>$499KDepartmental: Systems for throughput environments, $100K<$250KWorkgroup: Systems for throughput environments, ASP<$100K
0
2,000
4,000
6,000
8,000
10,000
12,000
14,000
$M
2010 2011 2012 2013
Revenue Opportunity
SupercomputerDivisionalDepartmentalWorkgroup
© 2010 IBM Corporation
IBM Power Systems
21 Power your planet
Power 755 Market Opportunity
HPC has been traditional strength for Power Architecture™:
Blue Gene®/P debuted at #2 in Nov, 2007 with 5 systems in the TOP500
Power® 575 debuted at #18 in June, 2008 with 7 POWER6™ systems in the TOP500
Cell/BE debuted at #1 in June, 2008 with 3 Cell/BE systems in the TOP500
Power 755 targets broader market opportunity in Divisional and Departmental Computing segments
Source: IDC Worldwide Technical Computing Server 2009 – 2013 Forecast Update – March, 2009
$1,871
$3,840
$1,378
$2,757
$0
$2,000
$4,000
$6,000
$8,000
$10,000
$12,000
$14,000
($M
)
2010
© 2010 IBM Corporation
IBM Power Systems
22 Power your planet
Power Systems HPC RoadmapPower 755, Blue Gene, Power 575
Mid Range Departmental & Divisional Systems
Extreme Scaling
Mid to High-end Capability
2010 20122011
Blue Gene/Q
Power 575 (POWER6™)
Blue Gene/P
POWER7 (P7 IH)
Power 755
Power 755
For information only – subject to change without notice
© 2010 IBM Corporation
IBM Power Systems
23 Power your planet
Performance per node
• 2X improvement in Single Instruction Multiple Data (SIMD) acceleration
− Full AltiVec™ (VMX) instruction set support
− Extended VSX instruction set
• Up to 8.4 TFlops per Rack (10 nodes per Rack) • Cluster Interconnect
− 2-Port InfiniBand 12X DDR
• IBM HPC software stack • Boost frequency for better performance & performance/watt
IBM Power 755
IBM Power 755(8236-E8C)
4-socket, 4U server
8-core POWER7 processors
32-core 3.3GHz configuration
Up to 256GB of memory
Up to 64 clustered nodes
Energy Star-qualified
GA: 2/19/2010
© 2010 IBM Corporation
IBM Power Systems
24 Power your planet
1.7 TimesMore floating point operations per watt performed by the
Power 755 compared to Sun Blade X6440*
1.55 TimesMore performance than Sun X6270 Blades with Intel’s fastest Xeon X5570 processor on NAMD molecular dynamics simulation
The fastest, most energy efficient 4-socket system on the planet
* Based on Little Green500. http://www.green500.org* Based on Little Green500. http://www.green500.org
IBM Power 755
© 2010 IBM Corporation
IBM Power Systems
25 Power your planet
Power 755 boosts NAMD performance over Sun X6275 - Xeon X5570 results
• The Power 755 increases performance by over 55% on NAMD’s molecular dynamics simulations.
IBM Power 755
61.9% 65.0%
55.9%
-10%
0%
10%
20%
30%
40%
50%
60%
70%
% F
aste
r th
an S
un
x62
75
16-c 64-c 128-c
Number of Physical Cores
NAMD V2.7 b1 Benchmark - STMV
All results are current as of 2/8/2010. IBM Power 7555 with POWER7; 4/32c/32t; 1 -4 nodes results: http://www-03.ibm.com/systems/power/hardware/reports/system_perf.htmlSUN X6275 with Intel Xeon X5570; 4p/16c/16t 1 – 8 nodes results: http://blogs.sun.com/BestPerf/entry/sun_blade_6048_and_sun1
Four Power 755 nodes versus eight X6275 nodes
© 2010 IBM Corporation
IBM Power Systems
26 Power your planet
Power 755 delivers superior SPECint_rate2006 performance compared to 4-socket HP x86 servers
Pow er 750 - 3.3GHz HP DL585 G6 -2.8GHz
HP DL580 G5 -2.66GHz
PerformanceSPECint_rate2006
• 2.4X more performance than HP DL585 G6
• 3.4X more performance than HP DL580 G5IBM Power 755
© 2010 IBM Corporation
IBM Power Systems
27 Power your planet
Power 755 delivers superior SPECfp_rate2006 performance compared to 4-socket HP x86 servers
• 2.9X more performance than HP DL585 G6
• 5X more performance than HP DL580 G5
IBM Power 755
Pow er 750 - 3.3GHz HP DL585 G6 - 2.8GHz HP DL580 G5 - 2.66GHz
PerformanceSPECfp_rate2006
© 2010 IBM Corporation
IBM Power Systems
28 Power your planet
Power 755 Rack w/ 8 Nodes (6.8TF) and 76.8 TB (Usable)
Power 755 Rack w/8 Nodes (6.8 TF) & 76.8 TB (Usable)
Power 755 Compute& IB Rack
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
7874-024 IB Switch
IB MS
200-240VAC Quad Cust Power
Air Cooled
Blank
IB MS7874-024 IB Switch
Management &Network Rack
2960-24 Ethernet Switch2960-24 Ethernet Switch
KEYBOARD/DISPLAYKEYBOARD/DISPLAY
200-240VAC Dual Customer Power
Air Cooled
EMS 8236-E8C 8W
EMS 8236-E8C 8W
Blank
HMCHMC
Blank
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Storage Rack
200-240VAC Quad Cust Power
Air Cooled
Blank
Storage Exp Drawer
Storage Exp Drawer
Storage Exp Drawer
Storage Exp Drawer
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Storage Exp Drawer
Storage Exp Drawer
Storage Exp Drawer
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© 2010 IBM Corporation
IBM Power Systems
29 Power your planet
Power 755 Cluster w/ 34 Nodes (28.7 TF) & 326.4TB (Usable)
Power 755 Cluster w/34 Nodes (28.7 TF) & 326.4 TB (Usable)
Storage Rack
200-240VAC Quad Cust Power
Air Cooled
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
7874-040 IB Switch
Blank
Power 755 ComputeRack
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Blank
200-240VAC Quad Cust Power
Air Cooled
Blank
Compute Node8236-E8C
Power 755 ComputeRack
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Blank
200-240VAC Quad Cust Power
Air Cooled
Blank
Compute Node8236-E8C
IB MS
Power 755 Compute& IB Rack
200-240VAC Quad Cust Power
Air Cooled
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
Compute Node8236-E8C
7874-040 IB Switch
Blank
200-240VAC Quad Cust Power
Air Cooled
IB MS
Power 755 Compute& IB Rack
Management &Network Rack
2960-48 Ethernet Switch2960-48 Ethernet Switch
KEYBOARD/DISPLAYKEYBOARD/DISPLAY
200-240VAC Dual Customer Power
Air Cooled
EMS 8236-E8C 8W
EMS 8236-E8C 8W
Blank
HMCHMC
Blank
Blank
Blank
Storage Exp Drawer
Storage Exp Drawer
Storage Exp Drawer
Storage Exp Drawer
Storage Exp Drawer
Storage Exp Drawer
Storage Exp Drawer
Storage Exp Drawer
Storage Exp Drawer
Storage Exp Drawer
Storage Exp Drawer
Storage Exp Drawer
Storage Exp Drawer
Storage Exp Drawer
Storage Exp Drawer
Storage Exp Drawer
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Storage Exp Drawer
Storage Rack
200-240VAC Quad Cust Power
Air Cooled
Storage Exp Drawer
Storage Exp Drawer
Storage Exp Drawer
Storage Exp Drawer
Storage Exp Drawer
Storage Exp Drawer
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© 2010 IBM Corporation
IBM Power Systems
30 Power your planet
Scaling64 nodes (32 Cores/node)
54 TFlops
Operating Systems
AIX 6.1 H
Linux
HPC Stack Levels
xCAT v2.3.x
GPFS v3.3
PESSL v3.3
LL v4.1
PE v5.2.x
ESSLBeta (GA 06/2010)
ESSL v5.1
Compilers
GA Levels
XLF v13.1
VAC/C++ v11.1
Power 755 HPC Cluster Node Support
IB-DDR Interconnect
Up to 10 Nodes per Rack
© 2010 IBM Corporation
IBM Power Systems
31 Power your planet
Power 755 – Performance and Energy Efficiency
Power 755 targets the growing Divisional and Departmental HPC Segments Weather Reservoir modeling Financial Services Selected Computational Chemistry/Molecular Dynamics
Power 755 offers leadership performance 1.7X greater floating point operations per watt performed
by the IBM Power 755 compared to Sun Blade X6440 1.55X better NAMD performance than Sun Blade X6275 Greater than 2.9X SPECfp_rate2006 versus HP DL580
and DL585
Power 755 compared to Power 575 delivers: 40% better performance per node 1/3rd less power consumption per node 37% less floor space for a 64 node configuration
© 2010 IBM Corporation
IBM Power Systems
Power your planet44
Power your planet.Smarter Systems for a Smarter Planet.
© 2010 IBM Corporation
IBM Power Systems
33 Power your planet
POWER7 Vector/Scalar Unit
64 Entry Vector/Scalar Register File 128-bit wide registers Used for 32b/64b scalar as well as
4x32B/2x64b SIMD instructionsFour floating-point execution units
Each FP unit capable of single or double precision
Each FP unit can complete a multiply-add instruction per cycle (2FLOPS)
Maximum throughput 2 FLOPS x 4 = 8FLOPS/cycle
Each FPU can also execute FP divide and sqrt
Floating Point Operations are ANSI/IEEE standard 754-1985 Compliant
© 2010 IBM Corporation
IBM Power Systems
34 Power your planet
IBM Power 770 with POWER7 processorsEnhancing the industry’s most popular mid-range server with more performance, energy efficiency and scalability
Modular scalability
Upgrades from POWER6
Capacity on Demand
Live Partition Mobility
PowerVM
Energy Efficiency
IBM extends performance leadership with POWER7 Multi-core delivers more total system AND per core performance
Over 4x total system aggregate throughput than 16 core 570’sMore performance per core than the 5.0 GHz 570 system
Similar portfolio of modular, scalable offerings as POWER6
New workload optimizing features expand flexibility Intelligent Threads™ utilize more threads when workloads benefit Active Memory Expansion™ provides more effective memory
The Roadmap to Continuous Availability Redundant system clocks with dynamic fail-over Hot-node Repair available for all nodes*
Upgrades available for POWER6 570 systems (9117-MMA)
Increased Energy Control and Automation Over 3X improvement in performance per watt Dynamic Energy Optimization maximizes performance or energy
efficiency as thermal conditions and policy allow
* Hot Node Repair planned for 4Q 2010
© 2010 IBM Corporation
IBM Power Systems
35 Power your planet
IBM Power 780 with POWER7 processorsA new option for growth supporting the highest performance per core and per system with enterprise class features
Extreme scalability TurboCore flexibilityCapacity on DemandPowerCare ServicePowerVM
IBM extends performance leadership EVEN MORE Multi-core delivers more total system AND per core performance
Over 4.8X total system aggregate throughput than the 5.0 GHz 16 core 570 system
Over 2X the performance per core than today’s 32 core 570New workload optimizing features expand flexibility
TurboCore™ for max per core performance for databases Intelligent Threads™ utilize more threads when workloads benefit Active Memory Expansion™ provides more effective memory
Enterprise Features24 x 7 standard warranty
PowerCare included with every system Upgrades available for POWER6 570 systems (9117-MMA)
The Roadmap for Continuous Availability Redundant system clocks with dynamic fail-over Hot-node Repair available for all nodes*
* Hot Node Repair planned for 4Q 2010
© 2010 IBM Corporation
IBM Power Systems
36 Power your planet
POWER7 Innovations available with Power Modular Systems
Technology / Performance for Faster ROIOptions for 4-cores, 6 cores, & 8 cores per socketSupport for up to 2 TB* DDR3 memory per systemDual memory controllers for increased memory bandwidth
Frequency boost for increased performance eDRAM technology for on-chip L3 cache
Workload Optimizing Features for Added FlexibilityExclusive new TurboCore mode available with Power 780
Intelligent Threads (SMT-4) for additional capacity Active Memory ExpansionTM for increased effective memory
Integrated split back plane for dedicated partition support Integrated, separate media controller for partition flexibility
Availability Features for Today’s 24 X 7 Workloads Integrated RAID support
Redundant clock failoverHot Node Repair for all nodes**
Hot Repair for GX adapters GX++ support for pureScale availability
Dynamic Energy Optimization for Increased Efficiency Enhanced TPMD chip for thermal/energy monitoring and control Frequency reduction during low demand for energy reduction SFF SAS drives for increased energy efficiency
* Large DIMM planned for 4Q 2010** Hot Node Repair planned for 4Q 2010
© 2010 IBM Corporation
IBM Power Systems
37 Power your planet
IBM Power 780 delivers performance with efficiency
780 delivers over 3X the performance per core of HP Superdome and Sun M9000780 delivers over 5.8X the performance per watt of HP Superdome and Sun M9000
System Chip/Core/Thread Date SPECint_rate2006 Per core
Maximum energy
requirement (WATTs)
Per KWatt
IBM Power 780 (3.8 GHz POWER7) 8/64/256 February 2010 2530 39.5 6,400 395 IBM Power 570 (4.2 GHz POWER6) 16/32/64 October 2008 832 26 5,600 148Sun SPARC Enterprise M9000 64/256/512 October 2009 2586 10.1 44,800 58HP Integrity Superdome (1.6 GHz Itanium 2)
64/128/128 September 2006 1648 12.875 24,392 68
Performance Per Core Performance Per Watt
Source: http://www.spec.org IBM results available at announcement. All other results as of 01/27/10. Not all results listed. Performance per KWatt is calculated by dividing the performance by the recommended maximum power usage for site planning. This defines the requirement for the power infrastructure. Actual power used by the systems will be less than this value for all of the systems. For HP systems, this information is contained in the QuickSpecs available through www.hp.com. For Sun systems, this information is available through the respective Site Planning Guides available through www.sun.com.
POWER6HPSuperdome
SunM9000
POWER7 POWER6HPSuperdome
SunM9000
POWER7
© 2010 IBM Corporation
IBM Power Systems
38 Power your planet
Why TurboCore?
TurboCore mode extends per core performance Clock speed increases from 3.8 to 4.1 GHz L3 cache doubles from 4 MB per core to 8 MB per core Memory bandwidth per core doubles I/O bandwidth per core doubles Physical memory per core doubles
TurboCore mode provides the best option for minimizing software costs Provides over 2X the rPerf per core as the POWER6 32 core 570
TurboCore mode allows clients choice and minimizes risk Clients purchase the system with identical components Clients choose the mode they wish to run Clients can change the mode at any time
TurboCore mode eases the transition to highly parallel multi-core systems Start with TurboCore mode when transitioning from POWER6 systems Turn off and grow system when application environment is ready to leverage greater levels of parallel
computing
© 2010 IBM Corporation
IBM Power Systems
39 Power your planet
What is TurboCore?
Technology Four of the eight cores and L2 cache are turned off Shared L3 cache is now doubled for remaining cores Remaining cores run at 4.1 GHz frequency Remaining cores share memory and I/O bandwidth Provides up to 22% per core performance gain
compared to having all eight cores turned on Unused cores are powered off to improve energy
efficiency
Implementation 3.8 GHz processors are purchased with Power 780
system as needed Required number of activations are purchased with
Power 780 system System is configured by user for TurboCore mode
operations System is powered on and cores are made available in
TurboCore mode (up to 4 cores per processor) System can be reconfigured by user with a reboot The entire system is either in TurboCore mode or
MaxCore mode Unused Core
TurboCoreCores
P7Core
L2
P7Core
L2
Memory Interface
P7Core
L2
P7Core
L2
P7Core
L2
P7Core
L2
P7Core
L2
P7Core
L2
GX
SMP
FABRIC
POWER
BUS
L3 Cache
© 2010 IBM Corporation
IBM Power Systems
40 Power your planet
POWER7 TurboCore Example
Unused Core
TurboCoreCores
Single Node Power 780 system (TurboCore mode)
One processor feature #4982 (0 of 16)Two POWER7 processors64 MB internal L3 cacheSystem is configured for TurboCore mode8 POWER7 cores @ 4.1 GHz availableUp to 8 CoD processor core activation features #5469Best performance per core configuration
Single Node Power 780 system (MaxCore mode)One processor feature #4982 (0 of 16)Two POWER7 processors64 MB internal L3 cacheSystem is configured for MaxCore mode16 POWER7 cores @ 3.8 GHz availableUp to 16 CoD processor core activation features #5469Best total system capacity configuration
X X
X X
X X
X X
© 2010 IBM Corporation
IBM Power Systems
41 Power your planet
POWER7 TurboCore Pricing Example
Unused Core
TurboCoreCores
Single Node Power 780 system System configured for TurboCore mode
Eight cores are made available @ 4.1 GHz
One processor feature #4982 (0 of 16) @ $6.00
Eight CoD activation features #5469 @ $1.00 each
1 x $6.00 + 8 x $1.00 = $14.00
$14.00 / 8 = $1.75 per core
X X
X X
X X
X X
Single Node Power 780 system
System configured for MaxCore mode
Sixteen cores are made available @ 3.8 GHz
One processor feature #4982 (0 of 16) @ $6.00
16 CoD activation features #5469 @ $1.00 each
1 x $6.00 = 16 x $1.00 = $22.00
$22.00 / 16 = $1.375 per core
Pricing examples are for illustrative purposes only and do not reflect actual pricing
© 2010 IBM Corporation
IBM Power Systems
42 Power your planet
Designed with the capacity for consolidation
= 4X memory per core than HP SD
> 15X memory bandwidth per core than HP SD
> 5.4X I/O bandwidth per core than HP SD
You can use the tremendous capacity of the IBM Power™ 780 to run challenging applications in every virtual server.
System data for HP from the HP Superdome Datasheet available at www.hp.com. System data for Sun from the Sun SPARC Enterprise M9000 Datasheet available at www.sun.com. Both are current as of 1/27/2010
Memory per core
Memory bandwidthper core
I/O bandwidth per core
Capacity per core relative to the Power 780
IBM Power 780 HP SuperDome Sun M9000
Cores 32 128 256 Memory (GB) 2,048 2,048 4096 Memory Bandwidth (GB/s) 1,088 273 737 I/O Bandwidth (GB/s) 236 173 234
Memory (GB) per core 64 16 16 Memory Bandwidth (GB/s) per core 34 2.13 2.88 I/O Bandwidth (GB/s) per core 7.3 1.35 0.91
Per
Co
reP
er S
yste
m
© 2010 IBM Corporation
IBM Power Systems
43 Power your planet
Save up to 93% in annual energy costs!By consolidating nine 64-core HP Superdomes into ONE Power 780 system --Reduce floor space required by 91%
--Reduce processing cores by 88%
One Power 780 (@ 75% utilization)
576 total cores @ 1.6 GHz
9 HP Superdomes(@ 25% utilization)
64 total cores @ 3.8 GHz Only 1 Rack – 7.6 sq. ft of floor space
Up to $139k in energy savings per year!
See Power 780 comparisons in backup for full substantiation details.
© 2010 IBM Corporation
IBM Power Systems
44 Power your planet
POWER7 continues to deliver more Performance per Watt
POWER4™p670
1.1 GHzrPerf: 24.46KWatts: 6.71
POWER4+™ p670
1.5 GHzrPerf: 46.79KWatts: 6.71
POWER5™p5-570
1.65 GHzrPerf: 68.4KWatts: 5.2
POWER5+™ p570
1.9 GHzrPerf: 85.20KWatts: 5.2
POWER6™ Power 570
4.7 GHzrPerf: 134.35KWatts: 5.6
POWER6™ Power 570
4.2 GHzrPerf: 193.25KWatts: 5.6
POWER7™ Power 780
3.8 GHzrPerf: 685.09KWatts: 6.4
rPer
f p
er K
Wat
t
>3X increase in performance per watt over POWER6+>30X increase in performance per watt since POWER4 >10 years of changing the UNIX landscape
© 2010 IBM Corporation
IBM Power Systems
45 Power your planet
Go Green and Save with IBM EnergyScale TechnologyManage your energy costs as never before
IBM Systems Director Active Energy Manager™ for POWER exploits POWER7 processor-based EnergyScale™ technology to help you reduce energy consumption
>3X improvement in performance per
watt over POWER6 570
TPMD chip in every 770/780 system for
monitoring and controlling thermal
output and energy efficiency
Dynamic Energy Optimization reduces
energy usage up to 50% when
workload or policy allows
© 2010 IBM Corporation
IBM Power Systems
46 Power your planet
Growth you don’t have to wait on @ $16/day!
Enterprise Power Systems offer Capacity on Demand for growth, flexibility and availability
Growth• Start your system with as few as four cores• Grow to 64 cores without disruption
Most importantly, grow when you want to: quickly and without disruption to your operation
Flexibility• Activate resources in increments of one core and one GB memory• Chose between permanent activations (purchase) or temporary activations
(by the day or by the minute)• Prices start as low as $8 per day (per core) and $1 per day (per GB)
Try out that new application today for as little as $16* ($8 for one core and $8 for 8 GB memory for one day)
Availability• Inactive resources are used for processor and memory sparing• Inactive resources can be used for free trials of new applications• Inactive resources can be used with temporary activations for emergency backup
http://www.ohdeedoh.com/ohdeedoh/flickr-finds/flickr-
finds-diy-growth-chart-040628
* US list price at announce for Power 770 with 3.1 GHz processors and AIX
© 2010 IBM Corporation
IBM Power Systems
47 Power your planet
Move up to Enterprise Class Features
Power 750
Power 770
IBM Installed
Two dedicated high speed GX++ adapter slots
Six dedicated PCI Express adapter slots
Up to 32 GB POWER7 memory per core
Up to 16 GB standard memory per core
Five PCI adapter slots (two PCI X and three PCI Express - two shared)
One high speed GX++ adapter and one standard GX adapter slots shared with two PCI Express slots
Integrated split backplane support and dedicated media controller
Client Installed
Capacity on Demand processors start at four cores
© 2010 IBM Corporation
IBM Power Systems
48 Power your planet
Power Systems Commercial Portfolio – Enterprise and Express
BladeCenter
Power 750/755Express
Power 770
Power 520Express
Power 595 Enterprise systems• Extreme Performance and Scalability• Highest memory and I/O bandwidths• Capacity on Demand• Hot-node Add & Repair• Greatest Redundancy• POWER7 Memory• System Upgrades• CE setup & service• Granularity of capacity
Express systems• Choice – AIX, i, and/or Linux• Flexibility – Rack, Tower, Blades• Industrial Strength Virtualization
Power 780
© 2010 IBM Corporation
IBM Power Systems
49 Power your planet
RAS Item Power 750 Power 770 Power 780
Redundant / Hot Swap Fans & Blowers
Hot Swap DASD / Media / PCI Adapters
Concurrent Firmware Update
Redundant / Hot Swap Power Supplies
Dual disk controllers (split backplane)
Processor Instruction Retry
Alternate Processor Recovery
Storage Keys
PowerVM™/Live Partition Mobility/Live Application Mobility
Redundant Service Processors * *
Redundant System Clocks * *
Redundant / Hot Swap Power Regulators
Dynamic Processor Sparing
Memory Sparing
Hot GX Adapter Add and Cold Repair
Hot-node Add / Cold-node Repair * *
Hot-node Repair / Hot-memory Add * *
POWER7 Enhanced Memory
Dynamic Service Processor and System Clock Failover * *
Hot-node Repair / Hot-memory Add for all nodes** * *
Hot GX Adapter Repair
Move up to enterprise class RAS OptionalStandard
Not available
* Requires two or more nodes** Planned for 4Q 2010
© 2010 IBM Corporation
IBM Power Systems
50 Power your planet
Two really are better than one!
Availability with two nodes• Redundant service processors with dynamic failover• Redundant system clocks with dynamic failover• Additional inactive processors for sparing• Additional inactive memory for sparing• Allows for continued use if one node fails• Hot-node Repair available
Performance with two nodes• More memory bandwidth• More I/O bandwidth• Easier growth with CoD• Use for balancing workload from other systems• Dynamic Energy Optimization assists in maintaining energy efficiency
High-availability with two systems• Use two systems with PowerHA SystemMirror for high-availability• Use Live Partition Mobility for workload balancing and availability during
service or upgrades
x2 2
© 2010 IBM Corporation
IBM Power Systems
51 Power your planet
“…we would have a disk go bad on a Friday night. No one would have known
it had happened except for the fact that Electronic Service Agent™ called out
and we got a call back from IBM alerting us to
the problem. That protection alone, the risk prevention factor, makes
the product hugely valuable to us."
Hang up your phone and let your systems do the talking
Benefits: System contacts IBM Support for you Immediately uploads error logs Faster diagnosis and time to repair Improved availability for your systems Customized maintenance information End to end, automated, closed loop support
process Complimentary installation for P6 570 and P6 595
Features: Automatic reporting for your IBM Systems Secure, encrypted transmission to IBM Support Inventory at your fingertips Enables IBM Electronic Services Built into the HMC, AIX and IBM i for easy
installation
Nick Gimben,Sr. Systems Admin,Fossil Inc.
Power = Support + Automation
© 2010 IBM Corporation
IBM Power Systems
52 Power your planet
What’s in it for me?
High availabilitySecure, 24x7 proactive monitoring: downtime avoidance
Less personnel time gathering information and reporting problems
Accurate fixesFaster on-site response with parts, location, and problem information
Automatic sending of system logs for problem determination and resolution
Enables proactive toolsMy Notifications: customized, proactive recommendations
Performance Management: manage system capacityMy Systems: compare firmware levels across your datacenter
© 2010 IBM Corporation
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53 Power your planet
“We recently completed an analysis of ESA onPOWER6 processor-based Power 595 systems.One finding was dramatic: clients who didn’tactivate ESA account for 70 percent of unexpectedmachine outages.”
Ross MauriGeneral ManagerIBM Power Systems
© 2010 IBM Corporation
IBM Power Systems
54 Power your planet
“ESA and Call Home follow the industry norms for protecting data during network transport by using the Transport Layer Security (TLS) protocol. It also protects Call Home / IBM Support accounts by generating unique passwords for these accounts.
Call Home uses protected channels (e.g. TLS, VPN) to transfer data from the HMC to IBM Support. The channels provide confidentiality and integrity protection of the data sent between the two entities.”
Proven SecurityNo customer business data transmitted to IBMConnectivity Methods
Internet, VPN, Dial-up Proxy & authenticating firewall support
Security Protocols https (SSL and TLS) 128 bit encryption; uses
keys, certificates and tokens Secure storage
System information stored in secure database behind 2 firewalls accessible by you with a protected password
Accessible only by authorized IBM Support Representatives
Atsec Information Security Corp.
Oct 2008 assessment
Did you know?
3,344 banks worldwide use Electronic Service Agent… because it’s secure.
•11 million+ secure transactions per month
•300 million+ total transactions
© 2010 IBM Corporation
IBM Power Systems
55 Power your planet
Power 750 Power 755 Power 770 Power 780
Nodes One One Up to four Up to fourCores
(single system image)6, 12, 18, 24 or
8, 16, 24, 3232 4 – 64 4 – 64
Frequency3.0, 3.3, 3.55
GHz3.3 GHz 3.1, 3.5 GHz 3.8, 4.1 GHz
SMP buses 4 byte 4 byte 8 byte 8 byte
System memory Up to 512 GB Up to 256GB Up to 2 TB* Up to 2 TB*
Memory per core 16 or 21 GB 8GB 32 or 42 GB 32 or 64 GB
Memory Bandwidth (peak) 273 GB/s 273 GB/s 1088 GB/s 1088 GB/s
Memory Bandwidth per core (peak)
8.5 GB/s 8.5 GB/s 17 or 22 GB/s 17 or 34 GB/s
Memory controllers 1 per processor 1 per processor 2 per processor 2 per processor
I/O Bandwidth (peak) 30 GB/s 30 GB/s 236 GB/s 236 GB/s
I/O Bandwidth per core (peak)
0.9GB/s 0.9GB/s 3.6 or 4.9 GB/s 3.6 or 7.3 GB/s
rPerf per core Up to 11 Up to 11 Up to 11 Up to 13
Maximum LPARs Up to 320* 1 Up to 640* Up to 640*
RAS Standard Standard
P7 Enhanced Memory
Dynamic FSP & clocks
P7 Enhanced Memory
Dynamic FSP & clocks
Warranty 9 x 5 9 x 5 9 x 5 24 x 7
PowerCare No No No Yes
IBM Power Systems Comparisons
* Planned availability in 4Q 2010
© 2010 IBM Corporation
IBM Power Systems
56 Power your planet
POWER7 High-end Server
Massive throughput, performance and scalability in a new POWER7 high-end system with up to 256 POWER7 processors and support for up to 1,000 partitions
Large-scale consolidation of energy-wasting, under-utilized servers onto an energy-efficient high-end POWER7 system running AIX, i and/or Linux applications
Improve infrastructure resilience – Enterprise Power Systems & Software are engineered to deliver the highest levels of Power Architecture™ reliability, availability & serviceability
Enable rapid service delivery – Industry-leading virtualization and Capacity on Demand for processors and memory help provide seamless, non-disruptive growth
Upgrades from Power 595 will enable clients to leverage their investment in POWER6 systems to deploy POWER7 performance, scalability and efficiency within their enterprise
Delivering extraordinary scalability, performance and availability for Data Centers with the most demanding Unix, Linux and i applications
© 2010 IBM Corporation
IBM Power Systems
57 Power your planet
Power is the innovation that will fuel the growth in 2010
Power is effortlessly balancing hundreds of workloads
Power is operating at over 90% utilization
Power is Management with Automation
Power is Intelligent Energy Optimization
Power is Virtualization without Limits
Power is Resiliency without Downtime
© 2010 IBM Corporation
IBM Power Systems
58 Power your planet
Backup
© 2010 IBM Corporation
IBM Power Systems
59 Power your planet
IBM Power 780 comparisons
System Name Cores ChipsCores /
ChipThreads /
Core Peak Published WattagePerformance
per wattPerformance
per coreIBM Power 780 64 8 8 4 2530 February 2010 6,400 395.31 39.53HP Integrity Superdome 64 32 2 1 824 October 2006 12,196 67.56 12.88HP Integrity Superdome 128 64 2 1 1648 September 2006 24,392 67.56 12.88Sun SPARC Enterprise M9000 256 64 4 4 2586 October 2009 44,800 57.72 10.10
SPECint_rate2006 Results
Performance per watt is calculated by dividing the performance in the table above by the recommended maximum power for site planning. Actual power used by the systems will be less than this value for all of the systems. The maximum power requirement for the Power 780 is 6,400 Watts and is available at http://www-01.ibm.com/common/ssi/index.wss - search for Power 780.
Power consumption figures of 6400 W for the IBM Power 780, 12,196 W / 24,392 W for the HP Superdome and 44,800 W for the Sun SPARC Enterprise M9000 were based on the maximum rates published by IBM, HP and Sun Microsystems, respectively. The information for the HP Integrity Superdome is in “QuickSpecs HP Integrity Superdome Servers 16- processor, 32-processor, and 64- processor Systems” available at www.hp.com. The information for the Sun SPARC Enterprise M9000 is in the "Sun SPARC Enterprise M9000 Servers Site Planning Guide" available at www.sun.com.
© 2010 IBM Corporation
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IBM Power 780 comparisons
The virtualized system count and energy savings were derived from several factors:
A performance ratio factor was applied to the virtualization scenario based on SPECint_rate2006. The performance factor is simply the SPECint_rate2006 result per core of the Power 780 divided by the per core result of the HP or Sun system.
Power 780 (64-core, 8 chips, 8 cores per chip, 3.8 GHz) SPECint_rate2006 2,530 peak as of 2/8/2010. HP Superdome (64-core, 32 chips, 2 cores per chip) 1.6 GHz, SPECint_rate2006 824 peak published October 2006.Sun SPARC Enterprise M9000 (256-core, 64 chips, 4 cores per chip) 2.88 GHz, SPECint_rate2006 2,586 peak published October 2009. SPEC® results available at: www.spec.org
A virtualization factor of 3.157X was applied to the virtualization scenario using utilization assumptions derived from an Alinean white paper on server consolidation. The tool assumes 19% utilization of existing servers and 60% utilization of new servers. Source - www.ibm.com/services/us/cio/optimize/opt_wp_ibm_systemp.pdf.
Air conditioning power requirement estimated at 50% of system power requirement.
Energy cost of $.1031 per kWh is based on 2009 YTD US Average Retail price to commercial customers per US DOE at http://www.eia.doe.gov/cneaf/electricity/epm/table5_6_b.html as of 1/27/2010.
The reduction in floor space, power, cooling and software costs depends on the specific customer, environment, application requirements, and the consolidation potential. Actual numbers of virtualized systems supported will depend on workload levels for each replaced system.
System data for HP from the HP Superdome Datasheet and HP Integrity Superdome Server — specifications both available at www.hp.com. System data for Sun from the Sun SPARC Enterprise M9000 Tech Specs available at www.sun.com. Data is current as of January 27, 2010.
© 2010 IBM Corporation
IBM Power Systems
61 Power your planet
This document was developed for IBM offerings in the United States as of the date of publication. IBM may not make these offerings available in other countries, and the information is subject to change without notice. Consult your local IBM business contact for information on the IBM offerings available in your area.
Information in this document concerning non-IBM products was obtained from the suppliers of these products or other public sources. Questions on the capabilities of non-IBM products should be addressed to the suppliers of those products.
IBM may have patents or pending patent applications covering subject matter in this document. The furnishing of this document does not give you any license to these patents. Send license inquires, in writing, to IBM Director of Licensing, IBM Corporation, New Castle Drive, Armonk, NY 10504-1785 USA.
All statements regarding IBM future direction and intent are subject to change or withdrawal without notice, and represent goals and objectives only.
The information contained in this document has not been submitted to any formal IBM test and is provided "AS IS" with no warranties or guarantees either expressed or implied.
All examples cited or described in this document are presented as illustrations of the manner in which some IBM products can be used and the results that may be achieved. Actual environmental costs and performance characteristics will vary depending on individual client configurations and conditions.
IBM Global Financing offerings are provided through IBM Credit Corporation in the United States and other IBM subsidiaries and divisions worldwide to qualified commercial and government clients. Rates are based on a client's credit rating, financing terms, offering type, equipment type and options, and may vary by country. Other restrictions may apply. Rates and offerings are subject to change, extension or withdrawal without notice.
IBM is not responsible for printing errors in this document that result in pricing or information inaccuracies.
All prices shown are IBM's United States suggested list prices and are subject to change without notice; reseller prices may vary.
IBM hardware products are manufactured from new parts, or new and serviceable used parts. Regardless, our warranty terms apply.
Any performance data contained in this document was determined in a controlled environment. Actual results may vary significantly and are dependent on many factors including system hardware configuration and software design and configuration. Some measurements quoted in this document may have been made on development-level systems. There is no guarantee these measurements will be the same on generally-available systems. Some measurements quoted in this document may have been estimated through extrapolation. Users of this document should verify the applicable data for their specific environment.
Revised September 26, 2006
Special notices
© 2010 IBM Corporation
IBM Power Systems
62 Power your planet
IBM, the IBM logo, ibm.com AIX, AIX (logo), AIX 6 (logo), AS/400, Active Memory, BladeCenter, Blue Gene, CacheFlow, ClusterProven, DB2, ESCON, i5/OS, i5/OS (logo), IBM Business Partner (logo), IntelliStation, LoadLeveler, Lotus, Lotus Notes, Notes, Operating System/400, OS/400, PartnerLink, PartnerWorld, PowerPC, pSeries, Rational, RISC System/6000, RS/6000, THINK, Tivoli, Tivoli (logo), Tivoli Management Environment, WebSphere, xSeries, z/OS, zSeries, AIX 5L, Chiphopper, Chipkill, Cloudscape, DB2 Universal Database, DS4000, DS6000, DS8000, EnergyScale, Enterprise Workload Manager, General Purpose File System, , GPFS, HACMP, HACMP/6000, HASM, IBM Systems Director Active Energy Manager, iSeries, Micro-Partitioning, POWER, PowerExecutive, PowerVM, PowerVM (logo), PowerHA, Power Architecture, Power Everywhere, Power Family, POWER Hypervisor, Power Systems, Power Systems (logo), Power Systems Software, Power Systems Software (logo), POWER2, POWER3, POWER4, POWER4+, POWER5, POWER5+, POWER6, POWER7, pureScale, System i, System p, System p5, System Storage, System z, Tivoli Enterprise, TME 10, TurboCore, Workload Partitions Manager and X-Architecture are trademarks or registered trademarks of International Business Machines Corporation in the United States, other countries, or both. If these and other IBM trademarked terms are marked on their first occurrence in this information with a trademark symbol (® or ™), these symbols indicate U.S. registered or common law trademarks owned by IBM at the time this information was published. Such trademarks may also be registered or common law trademarks in other countries. A current list of IBM trademarks is available on the Web at "Copyright and trademark information" at www.ibm.com/legal/copytrade.shtml
The Power Architecture and Power.org wordmarks and the Power and Power.org logos and related marks are trademarks and service marks licensed by Power.org.UNIX is a registered trademark of The Open Group in the United States, other countries or both. Linux is a registered trademark of Linus Torvalds in the United States, other countries or both.Microsoft, Windows and the Windows logo are registered trademarks of Microsoft Corporation in the United States, other countries or both.Intel, Itanium, Pentium are registered trademarks and Xeon is a trademark of Intel Corporation or its subsidiaries in the United States, other countries or both.AMD Opteron is a trademark of Advanced Micro Devices, Inc.Java and all Java-based trademarks and logos are trademarks of Sun Microsystems, Inc. in the United States, other countries or both. TPC-C and TPC-H are trademarks of the Transaction Performance Processing Council (TPPC).SPECint, SPECfp, SPECjbb, SPECweb, SPECjAppServer, SPEC OMP, SPECviewperf, SPECapc, SPEChpc, SPECjvm, SPECmail, SPECimap and SPECsfs are trademarks of the Standard Performance Evaluation Corp (SPEC).NetBench is a registered trademark of Ziff Davis Media in the United States, other countries or both.AltiVec is a trademark of Freescale Semiconductor, Inc.Cell Broadband Engine is a trademark of Sony Computer Entertainment Inc.InfiniBand, InfiniBand Trade Association and the InfiniBand design marks are trademarks and/or service marks of the InfiniBand Trade Association. Other company, product and service names may be trademarks or service marks of others.
Revised February 9, 2010
Special notices (cont.)
© 2010 IBM Corporation
IBM Power Systems
63 Power your planet
The IBM benchmarks results shown herein were derived using particular, well configured, development-level and generally-available computer systems. Buyers should consult other sources of information to evaluate the performance of systems they are considering buying and should consider conducting application oriented testing. For additional information about the benchmarks, values and systems tested, contact your local IBM office or IBM authorized reseller or access the Web site of the benchmark consortium or benchmark vendor.
IBM benchmark results can be found in the IBM Power Systems Performance Report at http://www.ibm.com/systems/p/hardware/system_perf.html .
All performance measurements were made with AIX or AIX 5L operating systems unless otherwise indicated to have used Linux. For new and upgraded systems, AIX Version 4.3, AIX 5L or AIX 6 were used. All other systems used previous versions of AIX. The SPEC CPU2006, SPEC2000, LINPACK, and Technical Computing benchmarks were compiled using IBM's high performance C, C++, and FORTRAN compilers for AIX 5L and Linux. For new and upgraded systems, the latest versions of these compilers were used: XL C Enterprise Edition V7.0 for AIX, XL C/C++ Enterprise Edition V7.0 for AIX, XL FORTRAN Enterprise Edition V9.1 for AIX, XL C/C++ Advanced Edition V7.0 for Linux, and XL FORTRAN Advanced Edition V9.1 for Linux. The SPEC CPU95 (retired in 2000) tests used preprocessors, KAP 3.2 for FORTRAN and KAP/C 1.4.2 from Kuck & Associates and VAST-2 v4.01X8 from Pacific-Sierra Research. The preprocessors were purchased separately from these vendors. Other software packages like IBM ESSL for AIX, MASS for AIX and Kazushige Goto’s BLAS Library for Linux were also used in some benchmarks.
For a definition/explanation of each benchmark and the full list of detailed results, visit the Web site of the benchmark consortium or benchmark vendor.
TPC http://www.tpc.org SPEC http://www.spec.org LINPACK http://www.netlib.org/benchmark/performance.pdf Pro/E http://www.proe.com GPC http://www.spec.org/gpc VolanoMark http://www.volano.com STREAM http://www.cs.virginia.edu/stream/ SAP http://www.sap.com/benchmark/ Oracle Applications http://www.oracle.com/apps_benchmark/ PeopleSoft - To get information on PeopleSoft benchmarks, contact PeopleSoft directly Siebel http://www.siebel.com/crm/performance_benchmark/index.shtm Baan http://www.ssaglobal.com Fluent http://www.fluent.com/software/fluent/index.htm TOP500 Supercomputers http://www.top500.org/ Ideas International http://www.ideasinternational.com/benchmark/bench.html Storage Performance Council http://www.storageperformance.org/results
Revised March 12, 2009
Notes on benchmarks and values
© 2010 IBM Corporation
IBM Power Systems
64 Power your planet
Revised March 12, 2009
Notes on HPC benchmarks and values
The IBM benchmarks results shown herein were derived using particular, well configured, development-level and generally-available computer systems. Buyers should consult other sources of information to evaluate the performance of systems they are considering buying and should consider conducting application oriented testing. For additional information about the benchmarks, values and systems tested, contact your local IBM office or IBM authorized reseller or access the Web site of the benchmark consortium or benchmark vendor.
IBM benchmark results can be found in the IBM Power Systems Performance Report at http://www.ibm.com/systems/p/hardware/system_perf.html .
All performance measurements were made with AIX or AIX 5L operating systems unless otherwise indicated to have used Linux. For new and upgraded systems, AIX Version 4.3 or AIX 5L were used. All other systems used previous versions of AIX. The SPEC CPU2000, LINPACK, and Technical Computing benchmarks were compiled using IBM's high performance C, C++, and FORTRAN compilers for AIX 5L and Linux. For new and upgraded systems, the latest versions of these compilers were used: XL C Enterprise Edition V7.0 for AIX, XL C/C++ Enterprise Edition V7.0 for AIX, XL FORTRAN Enterprise Edition V9.1 for AIX, XL C/C++ Advanced Edition V7.0 for Linux, and XL FORTRAN Advanced Edition V9.1 for Linux. The SPEC CPU95 (retired in 2000) tests used preprocessors, KAP 3.2 for FORTRAN and KAP/C 1.4.2 from Kuck & Associates and VAST-2 v4.01X8 from Pacific-Sierra Research. The preprocessors were purchased separately from these vendors. Other software packages like IBM ESSL for AIX, MASS for AIX and Kazushige Goto’s BLAS Library for Linux were also used in some benchmarks.
For a definition/explanation of each benchmark and the full list of detailed results, visit the Web site of the benchmark consortium or benchmark vendor.SPEC http://www.spec.org LINPACK http://www.netlib.org/benchmark/performance.pdf Pro/E http://www.proe.com GPC http://www.spec.org/gpc STREAM http://www.cs.virginia.edu/stream/ Fluent http://www.fluent.com/software/fluent/index.htm TOP500 Supercomputers http://www.top500.org/ AMBER http://amber.scripps.edu/ FLUENT http://www.fluent.com/software/fluent/fl5bench/index.htm GAMESS http://www.msg.chem.iastate.edu/gamess GAUSSIAN http://www.gaussian.com ANSYS http://www.ansys.com/services/hardware-support-db.htm
Click on the "Benchmarks" icon on the left hand side frame to expand. Click on "Benchmark Results in a Table" icon for benchmark results.ABAQUS http://www.simulia.com/support/v68/v68_performance.php ECLIPSE http://www.sis.slb.com/content/software/simulation/index.asp?seg=geoquest& MM5 http://www.mmm.ucar.edu/mm5/ MSC.NASTRAN http://www.mscsoftware.com/support/prod%5Fsupport/nastran/performance/v04_sngl.cfm STAR-CD www.cd-adapco.com/products/STAR-CD/performance/320/index/html NAMD http://www.ks.uiuc.edu/Research/namd HMMER http://hmmer.janelia.org/
http://powerdev.osuosl.org/project/hmmerAltivecGen2mod
© 2010 IBM Corporation
IBM Power Systems
65 Power your planet
Revised April 2, 2007
Notes on performance estimatesrPerf for AIX
rPerf (Relative Performance) is an estimate of commercial processing performance relative to other IBM UNIX systems. It is derived from an IBM analytical model which uses characteristics from IBM internal workloads, TPC and SPEC benchmarks. The rPerf model is not intended to represent any specific public benchmark results and should not be reasonably used in that way. The model simulates some of the system operations such as CPU, cache and memory. However, the model does not simulate disk or network I/O operations.
rPerf estimates are calculated based on systems with the latest levels of AIX and other pertinent software at the time of system announcement. Actual performance will vary based on application and configuration specifics. The IBM eServer pSeries 640 is the baseline reference system and has a value of 1.0. Although rPerf may be used to approximate relative IBM UNIX commercial processing performance, actual system performance may vary and is dependent upon many factors including system hardware configuration and software design and configuration. Note that the rPerf methodology used for the POWER6 systems is identical to that used for the POWER5 systems. Variations in incremental system performance may be observed in commercial workloads due to changes in the underlying system architecture.
All performance estimates are provided "AS IS" and no warranties or guarantees are expressed or implied by IBM. Buyers should consult other sources of information, including system benchmarks, and application sizing guides to evaluate the performance of a system they are considering buying. For additional information about rPerf, contact your local IBM office or IBM authorized reseller.
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CPW for IBM i
Commercial Processing Workload (CPW) is a relative measure of performance of processors running the IBM i operating system. Performance in customer environments may vary. The value is based on maximum configurations. More performance information is available in the Performance Capabilities Reference at: www.ibm.com/systems/i/solutions/perfmgmt/resource.html