Intel® Xeon® processor E7-8800/4800/2800 product families overall summary

Server Performance Summary

Intel Xeon

Intel® Xeon® Processor E7 Family

Top-of-the-line, scalable performance with advanced reliability for your most business-critical applications, the Intel® Xeon® processor E7-8800/4800/2800 product families increase business productivity allowing you to confidently run business-class applications. The next generation platforms enable faster responses to customers, new trends, and competitors. Your employees can get more done and respond to customers faster with less downtime and easier access to information. Get more computing power when you need it with performance that adapts to spikes in your workload1 [with Intel® Turbo Boost Technology 2.0].

Cisco*
General Purpose Computing - SPECint*_rate_base2006 UCS* C260 M2 / 2-socket Intel® Compiler XE2011; Red Hat* 6 Linux OS 526 base score (+44%) Top 2-socket x86 result2
High-Performance Computing – SPECompM*_base20013 UCS* C460 M2 / 4-socket Intel® Compiler XE2011; Red Hat* 5.5 Linux OS 115,176 base score (+15%) Top 4-chip result4
High-Performance Computing – SPECompL*_base2001** UCS* C460 M2 / 4-socket Intel® Compiler XE2011; Red Hat* 5.5 Linux OS 727,635 base score (+18%) Top 4-chip result4
High-Performance Computing – SPECompM*_base20013 UCS* B230 M2 / 2-socket Intel® Compiler XE2011; SUSE* 11 Linux OS 67,926 base score (+30% over 2-socket Intel Xeon processor X5680) Top 2-chip x86 result4
High-Performance Computing – SPECompL*_base20013 UCS* B230 M2 / 2-socket Intel® Compiler XE2011; SUSE* 11 Linux OS 378,522 base score (+36% over 2-socket Intel Xeon processor X5680) Top 2-chip result4
Technical Computing - SPECfp*_rate_base2006 UCS* C260 M2 / 2-socket Intel® Compiler XE2011; SUSE* 11 Linux OS 365 base score (+33%) Top 2-socket x86 result4
Dell*
Application Server – SPECjEnterprise*2010 PowerEdge* R910 / 4-socket Oracle Weblogic* Server Standard Edition Release 10.3.4 11,946.60 SPECjEnterprise2010 EjOPS(2.3x) Top 4-socket single-node result4
Business Intelligence – TPC Benchmark* H @ 300GB PowerEdge* R910 / 4-socket VectorWise 1.6; Red Hat* Enterprise Linux 6.0 400,931.8 QphH @ $0.35/QphH @ 300GB (N/A) World Record non-clustered columnar database result5
Business Intelligence – TPC Benchmark* H @ 1,000GB PowerEdge* R910 / 4-socket VectorWise 1.6; Red Hat* Enterprise Linux 6.0 436,788.9 QphH @ $0.88/QphH @ 1000GB (N/A) World Record non-clustered columnar database result5
General Purpose Computing – SPECint*_rate_base2006 PowerEdge* R910 / 4-socket Intel® Compiler XE2011; Red Hat* Enterprise Linux 6.0 1030 (+42%) Tied Top 4-socket x86 result2
Server-side Java* Middle-ware – SPECjbb*2005 PowerEdge* R910 / 4-socket Oracle Java* 6 Update 25 JVM 2,760,858bops; 690,214 bops/JVM (+36%) Top 4-socket result4
Server-side Java* Middle-ware – SPECjbb*2005 PowerEdge* R910 / 2-socket Oracle Java* 6 Update 25 JVM 1,383,773bops; 691,887 bops/JVM (+36%) Top 2-socket result4
Technical Computing - SPECfp*_rate_base2006 PowerEdge* R910 / 4-socket Intel® Compiler XE2011; SUSE* 11 Linux OS 724 base score (+32%) Top 4-socket x86 result2
Fujitsu*
Business Processing OLTP – TPC Benchmark* E PRIMERGY* RX900 S2 / 8-sockets Microsoft SQL Server* 2008 R2 4,200 tpsE @ $287.42/tpsE (+11%) World Record5
Enterprise Resource Planning – SAP* SD 2-Tier PRIMEQUEST* 1800E2 / 8-sockets SAP enhancement package 4 for SAP ERP 6.0; Microsoft SQL Server* 2008 R2 24,000 benchmark users (+22%) Top 8-socket x86 result2
General Purpose Computing – SPECint*_rate_base2006 PRIMEQUEST* 1800E2 and PRIMERGY* RX900 S2 / 8-sockets Intel® Compiler XE2011; Red Hat* Enterprise Linux 6.0 1770 (+17%) Top 8-socket x86 result2
Server-side Java* Middle-ware – SPECjbb*2005 PRIMERGY* RX900 S2 / 8-sockets Oracle Java* 6 Update 25 JVM 4,964,457bops; 620,807 bops/JVM (+30%) Top 8-socket x86 result2
HP*
Business Processing OLTP – TPC Benchmark* E ProLiant* DL580 G7 / 4-socket Microsoft SQL Server* 2008 R2 2,454 tpsE @ $291/tpsE (+21%) Top 4-socket result4
Enterprise Resource Planning – SAP* SD 2-Tier ProLiant* BL620c G7 / 2-socket SAP enhancement package 4 for SAP ERP 6.0; Microsoft SQL Server* 2008 R2 6,703 benchmark users (+25%) Top 2-socket x86 result2
Virtualized Consolidation – SPECvirt_sc*2010 ProLiant* DL580 G7 / 4-socket VMware* ESX 4.1 U1 3,724 score @ 228 VMs (+35%) Top 4-socket result4
Virtualized Consolidation – SPECvirt_sc*2010 ProLiant* BL620c G7 / 2-socket Red Hat* Enterprise LINUX 6.1 (KVM) 1,820 score @ 114 VMs (+33%) Top 2-socket result4
Datacenter virtualized server management – VMmark* 2.1 ProLiant* DL580 G7 / 4-socket VMware* ESX 4.1 U1 17.11 score @ 21 tiles (2.4x scale over 2-socket Intel® Xeon® processor X5690) World Record5
Datacenter virtualized server management – VMmark* 2.1 ProLiant* BL620c G7 / 2-socket VMware* ESX 4.1 U1 9.29 score @ 11 tiles (+30% over 2-socket Intel® Xeon® processor X5690) Top 2-socket result4
IBM*
Business Intelligence – TPC Benchmark* H @ 1,000GB System x* 3850 X5 / 8-socket Microsoft SQL Server* 2008 R2 173,961.8 QphH @ $1.37/QphH @ 1000GB (N/A) World Record non-clustered result5
Enterprise Resource Planning – SAP* SD 2-Tier System x* 3850 X5 / 4-socket SAP enhancement package 4 for SAP ERP 6.0; IBM DB2 9.7 14,000 benchmark users (+33%) Top 4-socket x86 result2
Virtualized Consolidation – SPECvirt_sc*2010 System X* 3850 X5 / 8-socket VMware* ESX 4.1 U1 7,067 score @ 432 VMs (+29%) World Record5
SGI*
General Purpose Computing - SPECint*_rate_base2006 Altix* UV1000 / 128-socket Intel® Compiler XE2011; SUSE* Linux OS 27,900 base score (+35%) World Record5
Technical Computing - SPECfp*_rate_base2006 Altix* UV1000 / 128-socket Intel® Compiler XE2011; SUSE* Linux OS 20,500 base score (+28%) World Record5
Server-side Java* Middle-ware – SPECjbb*2005 Altix* UV1000 / 64-socket Oracle Java* 6 Update 24 JVM 32,643,008 bops; 510,047 bops/JVM (+24%) World Record5
Memory Bandwidth – STREAM Altix* UV1000 / 192-sockets E7-4870 + 64-sockets E7-8837 Intel® Compiler XE2011; SUSE* Linux OS 5.8 TB/s TRIAD (+32%) World Record5

Record Performance Summary Configuration Details

Intel® Xeon® Processor E7 Family As of May 6, 2011

Cisco

General Purpose Computing: Integer throughput performance on SPECint*_rate_base2006 benchmark

SPECint* is a trademark of the Standard Performance Evaluation Corp. (SPEC). See www.spec.org for more information. 2-socket (2S) x86 Record SPECint*_rate_Base2006 Score claim based on submitted result using Cisco UCS* C260 M2 server compared with all other 2S x86 results.

  • 2-socket Intel® Xeon® processor E7-2870 based platform details: Cisco UCS* C260 M2 server platform with two Intel Xeon processors E7-2870 (30M cache, 2.40GHz, 6.40GT/s Intel® QuickPath Interconnect (Intel® QPI)), 512GB memory, Intel® C++ Compiler XE2011, Red Hat* Enterprise LINUX 6. Referenced as submitted base score of 526. Source: submitted to www.spec.org. See performance charts at www.intel.com/performance/server/xeonE7-2800/server.htm for more information on scaling comparisons.

High-Performance Computing: OpenMP* and shared-memory systems performance using SPEComp*2001

SPEC® and the benchmark name SPEComp® are registered trademarks of the Standard Performance Evaluation Corporation. For the latest SPEC OMP benchmark results, visit www.spec.org/omp/results. SPEComp* results on Intel® Xeon® processor E7-4800 series-based server were obtained using 80 OpenMP threads over four sockets and on Intel® Xeon® processor E7-2800 series-based server were obtained using 40 OpenMP threads over two sockets. Top 4-chips and 2-chips Record SPEComp*base2001 claims based on published result using Cisco UCS servers with all other 4- or 2-chips results, respectively. All results are marked estimates until published on www.spec.org.

  • 4-socket SPECompMbase2001:
    Single-node 4-socket Intel® Xeon® processor E7-4870 based platform details: Cisco UCS C460 M2 server platform with four Intel® Xeon® processors E7-4870 (30M cache, 2.40GHz, 6.40GT/s Intel® QuickPath Interconnect (Intel® QPI)), 1TB memory, binaries built with Intel® Compiler XE2011, Red Hat* Enterprise LINUX 5.5. Referenced as submitted SPECompMbase2001 score of 115,176. Source: submitted to www.spec.org. See performance charts at www.intel.com/performance/server/xeonE7-4800/hpc.htm for more information on scaling comparisons.
  • 4-socket SPECompLbase2001:
    Single-node 4-socket Intel® Xeon® processor E7-4870 based platform details: Cisco UCS C460 M2 server platform with four Intel® Xeon® processors E7-4870 (30M cache, 2.40GHz, 6.40GT/s Intel® QuickPath Interconnect (Intel® QPI)), 1TB memory, binaries built with Intel® Compiler XE2011, Red Hat* Enterprise LINUX 5.5. Referenced as submitted base score of 727,635. Source: submitted to www.spec.org. See performance charts at www.intel.com/performance/server/xeonE7-2800/hpc.htm for more information on scaling comparisons.
  • 2-socket SPECompMbase2001:
    Single-node 2-socket Intel® Xeon® processor E7-2870 based platform details: Cisco UCS B230 M2 server platform with two Intel® Xeon® processors E7-2870 (30M cache, 2.40GHz, 6.40GT/s Intel® QuickPath Interconnect (Intel® QPI)), 128GB memory, binaries built with Intel® Compiler XE2011, SUSE* Enterprise LINUX 11. Referenced as submitted SPECompMbase2001 score of 67,926. Source: submitted to www.spec.org. See performance charts at www.intel.com/performance/server/xeonE7-2800/hpc.htm for more information on scaling comparisons.
  • 2-socket SPECompLbase2001:
    Single-node 2-socket Intel® Xeon® processor E7-2870 based platform details: Cisco UCS B230 M2 server platform with two Intel® Xeon® processors E7-2870 (30M cache, 2.40GHz, 6.40GT/s Intel® QuickPath Interconnect (Intel® QPI)), 128GB memory, binaries built with Intel® Compiler XE2011, SUSE Enterprise Linux 11.0 SP1. Referenced as submitted base score of 378,522. Source: submitted to www.spec.org. See performance charts at www.intel.com/performance/server/xeonE7-2800/hpc.htm for more information on scaling comparisons.

Technical Computing: Floating-point performance on SPECfp*_rate_base2006

SPECfp* is a trademark of the Standard Performance Evaluation Corp. (SPEC). See www.spec.org for more information. Top 2-socket (2S) x86 Record SPECfp*_rate_Base2006 Score claim based on submitted result using Cisco UCS* C260 M2 server compared with all other 2S x86 results.

  • 2-socket Intel® Xeon® processor E7-2870 based platform details: Cisco UCS* C260 M2 server platform with two Intel Xeon processors E7-2870 (30M cache, 2.40GHz, 6.40GT/s Intel® QuickPath Interconnect (Intel® QPI)), 512GB memory, Intel® C++ Compiler XE2011, SUSE* Linux Enterprise Server 11 SP1. Referenced as submitted base score of 365. Source: submitted to www.spec.org. See performance charts at www.intel.com/performance/server/xeonE7-2800/server.htm for more information on scaling comparisons.

Dell

Application Server performance using SPECjEnterprise*2010

SPECjEnterprise* is a trademark of the Standard Performance Evaluation Corp. (SPEC). See www.spec.org for more information. Top 4-socket (4S) single-node Record SPECjEnterprise*2010 Score claim based on published result using Dell PowerEdge* R910 server compared with all other 4S single-node results.

Business Intelligence Database Query performance on TPC Benchmark* H @ 300GB and 1,000GB scale factor

TPC Benchmark*, TPC-H, and QphH are trademarks of the Transaction Processing Performance Council. World Record non-clustered, columnar database TPC Benchmark* H (TPC-H @ 300GB and TPC-H @ 1000GB) claim based on published result using Dell PowerEdge* R910 server compared with all other non-clustered results at 300GB or 1,000GB scale factor. For more information, see www.tpc.org/tpch/results/tpch_perf_results.asp?resulttype=noncluster&version=2%¤cyID=0.

  • 4-socket Intel® Xeon® processor E7-4870 based platform details: Dell PowerEdge* R910 server platform with four Intel Xeon processors E7-4870 (30M cache, 2.40GHz, 6.40GT/s Intel® QuickPath Interconnect (Intel® QPI)), Ingres VectorWise* 1.6 database, Red Hat* Enterprise LINUX 6.0. Referenced as published score of 400,931.8 QphH@300GB; $0.35 USD/QphH@300GB; availability date 30 June 2011. Source: www.tpc.org/tpch/results/tpch_result_detail.asp?id=111050401.
  • 4-socket Intel® Xeon® processor E7-4870 based platform details: Dell PowerEdge* R910 server platform with four Intel Xeon processors E7-4870 (30M cache, 2.40GHz, 6.40GT/s Intel® QuickPath Interconnect (Intel® QPI)), Ingres VectorWise* 1.6 database, Red Hat* Enterprise LINUX 6.0. Referenced as published score of 436,789 QphH@1000GB; $0.88 USD/QphH@1000GB; availability date 30 June 2011. Source: www.tpc.org/tpch/results/tpch_result_detail.asp?id=111050402.

General Purpose Computing: Integer throughput performance on SPECint*_rate_base2006 benchmark

SPECint* is a trademark of the Standard Performance Evaluation Corp. (SPEC). See www.spec.org for more information. 4-socket (4S) x86 Record SPECint*_rate_Base2006 Score claim based on submitted result using Dell PowerEdge* R910 server compared with all other 4S x86 results.

  • 4-socket Intel® Xeon® processor E7-4870 based platform details: Dell PowerEdge* R910 server platform with four Intel Xeon processors E7-4870 (30M cache, 2.40GHz, 6.40GT/s Intel® QuickPath Interconnect (Intel® QPI)), Intel® C++ Compiler XE2011, Red Hat* Enterprise LINUX 6.0. Referenced as submitted base score of 1030 and peak score of 1100. Source: submitted to www.spec.org. See performance charts at www.intel.com/performance/server/xeonE7-4800/server.htm for more information on scaling comparisons.

Server-side Java* Middleware: Java* middle-tier performance on SPECjbb*2005 benchmark

SPECjbb* is a trademark of the Standard Performance Evaluation Corp. (SPEC). See www.spec.org for more information. Top 2-socket (2S) Record SPECjbb*2005 claim based on submitted result using Dell PowerEdge* R910 server compared with all other 2S results and top 4-socket (4S) SPECjbb*2005 claim based on submitted result using Dell PowerEdge* R910 server compared with all other 4S results.

  • 2-socket Intel® Xeon® processor E7-2870 based platform details: Dell PowerEdge* R910 server platform with two Intel Xeon processors E7-2870 (30M cache, 2.40GHz, 6.40GT/s Intel® QuickPath Interconnect (Intel® QPI)), 256GB memory, Microsoft Windows Server* 2008 R2 Enterprise Edition SP1, Oracle Java* 6 Update 25 JVM. Referenced as submitted at 1,383,773 bops and 691,887 bops/JVM SPECjbb2005 bops/JVM. Source: submitted to www.spec.org. See performance charts at www.intel.com/performance/server/xeonE7-2800/server.htm for more information on scaling comparisons.
  • 4-socket Intel® Xeon® processor E7-4870 based platform details: Dell PowerEdge* R910 server platform with four Intel Xeon processors E7-4870 (30M cache, 2.40GHz, 6.40GT/s Intel® QuickPath Interconnect (Intel® QPI)), 512GB memory, Microsoft Windows Server* 2008 R2 Enterprise Edition SP1, Oracle Java* 6 Update 25 JVM. Referenced as submitted at 2,760,848 bops and 690,215 bops/JVM SPECjbb2005 bops/JVM. Source: submitted to www.spec.org. See performance charts at www.intel.com/performance/server/xeonE7-4800/server.htm for more information on scaling comparisons.

Technical Computing: Floating-point throughput performance using SPECfp*_rate_base2006

SPECfp* is a trademark of the Standard Performance Evaluation Corp. (SPEC). See www.spec.org for more information. Top 4-socket (4S) x86 Record SPECfp*_rate_Base2006 Score claim based on submitted result using Dell PowerEdge* R910 server compared with all other 4S x86 results.

Fujitsu

Business Processing OLTP: Database performance on TPC Benchmark* E

TPC Benchmark*, TPC-E, and tpsE are trademarks of the Transaction Processing Performance Council. World Record TPC Benchmark* E (TPC-E) claim based on submitted result using Fujitsu PRIMERGY* RX900 S2 server compared with all other results. For more information, see www.tpc.org/tpce/results/tpce_perf_results.asp.

  • 8-socket Intel® Xeon® processor E7-8870 based platform details: Fujitsu PRIMERGY* RX900 S2 server platform with eight Intel Xeon processors E7-8870 (30M cache, 2.40GHz, 6.40GT/s Intel® QuickPath Interconnect (Intel® QPI)), 2048GB memory, Microsoft SQL Server* 2008 R2 Datacenter Edition database, Microsoft Windows Server* 2008 R2 Datacenter Edition. Referenced as published score of 4555.54 tpsE @ $217.27 USD/tpsE available 1 July 2011. Source: www.tpc.org/tpce/results/tpce_result_detail.asp?id=111050601. See performance charts at www.intel.com/performance/server/xeonE7-8800/server.htm for more information on scaling comparisons.

Enterprise Resource Planning performance on SAP* SD 2-Tier

SAP and SAP NetWeaver are the registered trademarks of SAP AG in Germany and in several other countries. See www.sap.com/solutions/benchmark/sd2tier.epx for more information. Top 8-socket (8S) x86 Record SAP SD* 2-tier claim based on published result using Fujitsu PRIMEQUEST* 1800E2 server compared with all other 8S x86 results.

  • 8-socket Intel® Xeon® processor E7-8870 based platform details: Fujitsu PRIMEQUEST* 1800E2 server platform with eight Intel Xeon processors E7-8870 (30M cache, 2.40GHz, 6.40GT/s Intel® QuickPath Interconnect (Intel® QPI)), Microsoft SQL Server* 2008 database, Microsoft Windows Server* 2008 R2 Datacenter Edition, SAP* Enhancement package 4 for SAP* ERP 6.0. Referenced as published score of 24,000 benchmark users. Certificate #2011017. See performance charts at www.intel.com/performance/server/xeonE7-8800/server.htm for more information on scaling comparisons.

General Purpose Computing: Integer throughput performance on SPECint*_rate_base2006 benchmark

SPECint* is a trademark of the Standard Performance Evaluation Corp. (SPEC). See www.spec.org for more information. 8-socket (4S) x86 Record SPECint*_rate_Base2006 Score claim based on published result using Fujitsu PRIMEQUEST* 1800E2 server compared with all other 8S x86 results.

Server-side Java* middleware: Java* middle-tier performance on SPECjbb*2005 benchmark

SPECjbb* is a trademark of the Standard Performance Evaluation Corp. (SPEC). See www.spec.org for more information. Top 8-socket (8S) x86 SPECjbb*2005 claim based on published result using Fujitsu PRIMERGY* RX900 S2 server compared with all other 8S x86 results.

Hewlett-Packard

Business Processing OLTP: Database performance on TPC Benchmark* E

TPC Benchmark™, TPC-E, and tpsE are trademarks of the Transaction Processing Performance Council. Top 4-socket (4S) Record TPC Benchmark* E (TPC-E) claim based on published result using Hewlett-Packard ProLiant* DL580 G7 server compared with all other 4S results. For more information, see www.tpc.org/tpce/results/tpce_perf_results.asp.

  • 4-socket Intel® Xeon® processor E7-4870 based platform details: Hewlett-Packard ProLiant* DL580 G7 server platform with four Intel Xeon processors E7-4870 (30M cache, 2.40GHz, 6.40GT/s Intel® QuickPath Interconnect (Intel® QPI)), 512GB memory, Microsoft SQL Server* 2008 R2 Enterprise x64 Edition database, Microsoft Windows Server* 2008 R2 Enterprise x64 Edition. Referenced as published score of 2454.51 tpsE @ $291 USD/tpsE available June 20, 2011. Source: www.tpc.org/tpce/results/tpce_result_detail.asp?id=111040508. See performance charts at www.intel.com/performance/server/xeonE7-4800/server.htm for more information on scaling comparisons.

Enterprise Resource Planning performance on SAP* SD 2-Tier

SAP and SAP NetWeaver are the registered trademarks of SAP AG in Germany and in several other countries. See www.sap.com/solutions/benchmark/sd2tier.epx for more information. Top 2-socket (2S) x86 Record SAP SD* 2-tier claim based on published result using Hewlett-Packard ProLiant* BL620c server compared with all other 2S x86 results.

  • 2-socket Intel® Xeon® processor E7-2870 based platform details: Hewlett-Packard ProLiant* BL620c G7 server platform with two Intel Xeon processors E7-2870 (30M cache, 2.40GHz, 6.40GT/s Intel® QuickPath Interconnect (Intel® QPI)), 256GB memory, Microsoft SQL Server* 2008 database, Microsoft Windows Server* 2008 R2 Enterprise x64 Edition, SAP* Enhancement package 4 for SAP* ERP 6.0. Referenced as published score of 6,703 benchmark users. Certificate #2011014. See performance charts at www.intel.com/performance/server/xeonE7-2800/server.htm for more information on scaling comparisons.

Virtualized Consolidation performance on SPECvirt_sc*2010

SPEC® and the benchmark name SPECvirt_sc® are registered trademarks of the Standard Performance Evaluation Corporation. Competitive benchmark results stated above reflect results published on www.spec.org. Top 4-socket (4S) SPECvirt_sc*2010 result claim based on published result using Hewlett-Packard ProLiant* DL580 G7 server compared with all other 4S results and top 2-socket (2S) Record SPECvirt_sc*2010 claim based on published result using Hewlett-Packard ProLiant* BL620c G7 server compared with all other 2S results. For the latest SPECvirt_sc2010 benchmark results, visit www.spec.org/virt_sc2010.

Datacenter virtualized server management: consolidation performance on VMmark* 2.1

VMmark is a trademark of the VMware. 4-socket (4S) World Record VMmark* 2 claim based on published result using Hewlett Packard ProLiant* DL580 G7 server compared with all other results and top 2-socket (2S) Record VMmark* 2 claim based on published result using Hewlett-Packard ProLiant* BL620c G7 server compared with all other 2S results. For more information, see www.vmware.com/a/vmmark.

IBM

Business Intelligence Database Query performance on TPC Benchmark* H @ 1,000GB scale factor

TPC Benchmark™, TPC-H, and QphH are trademarks of the Transaction Processing Performance Council. World Record non-clustered TPC Benchmark* H (TPC-H @ 1,000GB) claim based on published result using IBM System x* 3850 X5 8P server compared with all other non-clustered results at 1,000GB scale factor. For more information, see www.tpc.org/tpch/results/tpch_perf_results.asp?resulttype=noncluster&version=2%&currencyID=0.

  • 8-socket Intel® Xeon® processor E7-8870 based platform details: IBM System x* 3850 X5 server platform with eight Intel Xeon processors E7-8870 (30M cache, 2.40GHz, 6.40GT/s Intel® QuickPath Interconnect (Intel® QPI)), 2TB memory, Microsoft SQL Server 2008 R2 Enterprise x64 Edition database, Microsoft Windows Server* 2008 R2 Enterprise x64 Edition. Referenced as published score of 173,961.8 QphH@1000GB; $1.37 USD/QphH@1000GB; availability date 20 May 2011. Source: www.tpc.org/tpch/results/tpch_result_detail.asp?id=111040509.

Enterprise Resource Planning performance on SAP* SD 2-Tier

SAP and SAP NetWeaver are the registered trademarks of SAP AG in Germany and in several other countries. See www.sap.com/solutions/benchmark/sd2tier.epx for more information. Top 4-socket (4S) x86 Record SAP SD* 2-tier claim based on published result using Hewlett-Packard ProLiant* DL580 G7 server compared with all other 4S x86 results. For more information, see www.sap.com/benchmark.

  • 4-socket Intel® Xeon® processor E7-4870 based platform details: IBM System x* 3850 X5 server platform with four Intel Xeon processors E7-4870 (30M cache, 2.40GHz, 6.40GT/s Intel® QuickPath Interconnect (Intel® QPI)), 512GB memory, IBM DB2 9.7 database, Microsoft Windows Server* 2008 R2 Enterprise x64 Edition, SAP* Enhancement package 4 for SAP* ERP 6.0. Referenced as published score of 14,000 benchmark users. Certificate #2011015. See SAP SD 2-Tier performance charts at www.intel.com/performance/server/xeonE7-4800/server.htm for more information on scaling comparisons.

Virtualized Consolidation performance on SPECvirt_sc*2010

SPEC® and the benchmark name SPECvirt_sc® are registered trademarks of the Standard Performance Evaluation Corporation. Competitive benchmark results stated above reflect results published on www.spec.org. Top 8-socket (8S) SPECvirt_sc*2010 result claim based on published result using IBM System x* 3850 X5 8P server compared with all other 8S results. For the latest SPECvirt_sc2010 benchmark results, visit www.spec.org/virt_sc2010.

SGI

General Purpose Computing: Integer throughput performance on SPECint*_rate_base2006 benchmark

SPECint* is a trademark of the Standard Performance Evaluation Corp. (SPEC). See www.spec.org for more information. World Record SPECint*_rate_Base2006 Score claim based on published result using SGI Altix* UV1000 server compared with all other published results.

  • 128-socket Intel® Xeon® processor E7-4870 based platform details: SGI Altix* UV1000 server platform with 128 Intel Xeon processors E7-4870 (30M cache, 2.40GHz, 6.40GT/s Intel® QuickPath Interconnect (Intel® QPI)), 4TB memory, Intel® C++ Compiler XE2011, SUSE* Linux Enterprise Server 11 SP1 (x86_64). Referenced as published base score of 27,900. Source: www.spec.org/cpu2006/results/res2011q2/cpu2006-20110326-15188.html.

Technical Computing: Floating-point throughput performance using SPECfp*_rate_base2006

SPECfp* is a trademark of the Standard Performance Evaluation Corp. (SPEC). See www.spec.org for more information. World Record SPECfp*_rate_Base2006 Score claim based on published result using SGI Altix* UV1000 server compared with all other results.

  • 128-socket Intel® Xeon® processor E7-4870 based platform details: SGI Altix* UV1000 server platform with 128 Intel Xeon processors E7-4870 (30M cache, 2.40GHz, 6.40GT/s Intel® QuickPath Interconnect (Intel® QPI)), 4TB memory, Intel® C++ and Fortran Compiler XE2011, SUSE* Linux Enterprise Server 11 SP1 (x86_64). Referenced as published base score of 20,500. Source: www.spec.org/cpu2006/results/res2011q2/cpu2006-20110326-15189.html.

Server-side Java* middleware: Java* middle-tier performance on SPECjbb*2005 benchmark

SPECjbb* is a trademark of the Standard Performance Evaluation Corp. (SPEC). See www.spec.org for more information. World Record SPECjbb*2005 claim based on submitted result using SGI Altix* UV1000 server compared with all other results.

  • 64-socket Intel® Xeon® processor E7-4870 based platform details: SGI Altix* UV1000 server platform with 64 Intel Xeon processors E7-4870 (30M cache, 2.40GHz, 6.40GT/s Intel® QuickPath Interconnect (Intel® QPI)), 2TB memory, Oracle Java* 6 Update 24 JVM, SUSE* LINUX Enterprise Server 11 SP1. Referenced as published score of 32,643,008 bops and 510,047 bops/JVM. Source: www.spec.org/jbb2005/results/res2011q2/jbb2005-20110322-00960.html.

High-Performance Computing: Memory Bandwidth performance on STREAM TRIAD benchmark

World Record STREAM benchmark result claim based on published result using SGI Altix* UV1000 server compared with all other published results at www.cs.virginia.edu/stream/standard/Bandwidth.html.


  • McCalpin, John D., 1995: "Memory Bandwidth and Machine Balance in Current High Performance Computers", IEEE Computer Society Technical Committee on Computer Architecture (TCCA) Newsletter, December 1995.
  • McCalpin, John D.: "STREAM: Sustainable Memory Bandwidth in High Performance Computers", a continually updated technical report (1991-2007), available at: www.cs.virginia.edu/stream.
  • World Record STREAM platform details: SGI Altix* UV1000 server platform with 192x Intel Xeon processors E7-4870 (30M cache, 2.40GHz, 6.40GT/s Intel® QuickPath Interconnect (Intel® QPI)) and 64x Intel Xeon processors E7-8837 (24M cache, 2.66GHz, 6.40GT/s Intel® QPI), 8TB memory, Intel® C++ Compiler XE2011, SUSE* Linux Enterprise Server 11 SP1 (x86_64). Referenced as published STREAM Triad result of 5.8TB/s. Source: www.cs.virginia.edu/stream/top20/Bandwidth.html.

 

Optimization Notice

Intel® compilers, associated libraries, and associated development tools may include or utilize options that optimize for instruction sets that are available in both Intel® and non-Intel microprocessors (for example SIMD instruction sets), but do not optimize equally for non-Intel microprocessors. In addition, certain compiler options for Intel compilers, including some that are not specific to Intel® microarchitecture, are reserved for Intel microprocessors. For a detailed description of Intel compiler options, including the instruction sets and specific microprocessors they implicate, please refer to the “Intel® Compiler User and Reference Guides” under “Compiler Options." Many library routines that are part of Intel® compiler products are more highly optimized for Intel microprocessors than for other microprocessors. While the compilers and libraries in Intel® compiler products offer optimizations for both Intel and Intel-compatible microprocessors, depending on the options you select, your code and other factors, you likely will get extra performance on Intel microprocessors.

Intel® compilers, associated libraries, and associated development tools may or may not optimize to the same degree for non-Intel microprocessors for optimizations that are not unique to Intel microprocessors. These optimizations include Intel® Streaming SIMD Extensions 2 (Intel® SSE2), Intel® Streaming SIMD Extensions 3 (Intel® SSE3) and Supplemental Streaming SIMD Extensions 3 (SSSE3) instruction sets, and other optimizations. Intel does not guarantee the availability, functionality, or effectiveness of any optimization on microprocessors not manufactured by Intel. Microprocessor-dependent optimizations in this product are intended for use with Intel microprocessors.

While Intel believes our compilers and libraries are excellent choices to assist in obtaining the best performance on Intel® and non-Intel microprocessors, Intel recommends that you evaluate other compilers and libraries to determine which best meet your requirements. We hope to win your business by striving to offer the best performance of any compiler or library; please let us know if you find we do not.
Notice revision #20101101

Additional information: 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21

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1. Consulte nuestro aviso sobre la optimización (http://software.intel.com/en-us/articles/optimization-notice) para obtener más información sobre las opciones de rendimiento y optimización disponibles en los productos de software Intel®.


2. Consulte nuestro aviso sobre la optimización (http://software.intel.com/en-us/articles/optimization-notice) para obtener más información sobre las opciones de rendimiento y optimización disponibles en los productos de software Intel®.


3. Estimación marcada hasta ser enviada, aceptada y publicada en www.spec.org.


4. La afirmación presentada anteriormente se basa en los servidores de mejor rendimiento enviados y ordenados por recuento de chips o zócalos. Para obtener los últimos resultados de los análisis de rendimiento, visite www.spec.org, www.tpc.org, www.sap.com/benchmark o www.vmware.com.


5. La afirmación presentada anteriormente se basa en todos los servidores enviados actualmente. Para obtener los últimos resultados de los análisis de rendimiento, visite www.spec.org, www.tpc.org, www.sap.com/benchmark o www.vmware.com.


6. A menos que se observe lo contrario, la ganancia relativa es E7-8870, E7-4870 o E7-2870 (30 MB de caché, 2,40 GHz, 6,4 GT/seg. Intel® QuickPath Interconnect (Intel® QPI)) sobre X7560 (24 MB de caché, 2,26 GHz, 6,4 GT/seg. Intel® QuickPath Interconnect (Intel® QPI)) en varios zócalos, es decir 2Z = 2P/16C/32T, 4Z = 4P/32C/64T, 8Z = 8P/64C/128T.


7. Los resultados de SPECompM* y SPECompL* sobre el servidor basado en el procesador Intel® Xeon® E7-4870 se obtuvieron utilizando 80 hilos de OpenMP sobre cuatro zócalos o 40 hilos de OpenMP sobre dos zócalos.


8. El software y las cargas de trabajo utilizadas en las pruebas de rendimiento han sido optimizados para el rendimiento solamente en microprocesadores Intel®. Las pruebas de rendimiento, como SYSmark* y MobileMark*, se han medido utilizando sistemas, componentes, software, operaciones y funciones informáticas específicas.  Cualquier cambio realizado a cualquiera de estos factores puede hacer que los resultados varíen.  Es conveniente consultar otras fuentes de información y pruebas de rendimiento que le ayudarán a evaluar a fondo sus posibles compras, incluyendo el rendimiento de un producto concreto en combinación con otros. Configuraciones: Para obtener más información y resultados detallados del rendimiento sobre todas las afirmaciones relativas a récords mundiales, consulte los detalles de las configuraciones. Para obtener más información, visite www.intel.com/performance.


9. Intel no ejerce control ni inspección algunos sobre el diseño o la implementación de análisis de rendimiento o sitios web de terceros a los que se hace referencia en este documento. Intel recomienda a todos sus clientes visitar los sitios Web mencionados u otros donde se informe sobre análisis de rendimiento similares, así como confirmar si los análisis mencionados son precisos y reflejan el rendimiento de los sistemas que se pueden comprar.


10. El rendimiento relativo de cada análisis de rendimiento se calculó tomando el resultado real del análisis para la primera plataforma y asignándole un valor de 1,0 como referencia. El rendimiento relativo de las demás plataformas, objeto de la prueba, se calculó dividiendo el resultado real del análisis para la plataforma de referencia entre cada uno de los resultados de los análisis específicos de cada una de las demás plataformas y, asignándoles un número de rendimiento relativo correspondiente a las mejoras de rendimiento observadas.


11. SAP y SAP NetWeaver son marcas comerciales registradas de SAP AG en Alemaina y en otros países. Consulte www.sap.com/benchmark para obtener más información.


12. SPEC, SPECint, SPECfp, SPECrate, SPECvirt_sc, SPECjbb, SPECompM, SPECompL, SPEC MPI, SPECjEnterprise son marcas comerciales de Standard Performance Evaluation Corporation. Consulte www.spec.org para obtener más información.


13. TPC Benchmark, TPC-C, tpmC, TPC-H, QphH, TPC-E y tpsE son marcas comerciales de Transaction Processing Council. Consulte www.tpc.org para obtener más información.


14. VMware es una marca comercial registrada y VMmark es una marca comercial de VMware, Inc.


15. Intel® AES-NI requiere un sistema informático con un procesador habilitado para el mismo así como un software que no es de Intel para ejecutar las instrucciones en la secuencia correcta. Intel® AES-NI está disponible en algunos procesadores Intel®. Para conocer la disponibilidad, consulte con su distribuidor o fabricante de sistemas. Para obtener más información, consulte software.intel.com/en-us/articles/intel-advanced-encryption-standard-instructions-aes-ni/


16. Requiere un sistema equipado con la tecnología Intel® Hyper-Threading (Intel® HT), consulte con el fabricante de su PC. El rendimiento variará dependiendo del hardware y software específicos que utilice. La tecnología Intel® HT está disponible en algunos procesadores Intel®. Si desea obtener más información, incluyendo detalles sobre los procesadores compatibles con la tecnología Intel® HT, visite www.intel.com/content/www/us/en/architecture-and-technology/hyper-threading/hyper-threading-technology.html.


18. La tecnología de virtualización Intel® requiere un sistema informático equipado con un procesador Intel®, una BIOS y un monitor de máquina virtual (VMM). La funcionalidad, el rendimiento y otras ventajas variarán en función de las configuraciones de hardware y software. Puede que determinadas aplicaciones de software no sean compatibles con todos los sistemas operativos. Consulte con el fabricante del ordenador. Si desea obtener más información, visite www.intel.com/content/www/us/en/virtualization/virtualization-technology/hardware-assist-virtualization-technology.html.


19. Los números de procesador Intel® no son una medida del rendimiento. Los números de procesador diferencian características dentro de cada familia de procesadores, pero no a través de las diferentes familias de procesadores. Si desea obtener más información, consulte www.intel.com/content/www/us/en/processors/processor-numbers.html.


20. Ningún sistema informático puede ofrecer una seguridad absoluta bajo todo tipo de condiciones. La tecnología Intel® Trusted Execution (Intel® TXT) requiere un sistema informático con tecnología de virtualización Intel® así como un procesador habilitado para Intel TXT, un chipset, una BIOS, módulos de código autentificados y un entorno iniciado y que se pueda medir (MLE) compatible con Intel TXT. Intel TXT también requiere que el sistema incluya un módulo TPM v1.s. Si desea obtener más información, visitewww.intel.com/content/www/us/en/data-security/security-overview-general-technology.html. Además, Intel TXT requiere que el fabricante de equipos originales proporcione la funcionalidad TPM, que requiere una BIOS que soporte TPM. La funcionalidad TPM debe ser inicializada y puede que no esté disponible en todos los países.


21. Los productos Intel® no están diseñados para utilizarse en aplicaciones médicas, de emergencia, de mantenimiento de constantes vitales, de sistemas de control o de seguridad críticos ni en aplicaciones de instalaciones nucleares. Todos los productos y fechas especificados se facilitan exclusivamente con fines de planificación y están sujetos a modificación sin previo aviso.