Intel® Xeon® Processor E7 2800/4800/8800 v2 Family

World Record Benchmark Performance

Intel® Xeon® processor E7 family

Intel® Xeon® Processor E7 Family

Boost your business intelligence with double the performance, triple the memory capacity, and quadruple the I/O bandwidth.1,2,3,4,5 Rapidly process and analyze large amounts of data in real time with the Intel® Xeon® processor E7-8800/4800/2800 v2 product families.

Keep data local with up to 1.5 TB of memory per socket to handily manage data-demanding, transaction-intensive workloads. Intel® Run Sure Technology increases system uptime and data integrity for your business-critical solutions.6 Hardware-embedded security features provide a safer environment and better protect data.

Make business intelligence your competitive advantage. The Intel Xeon processor E7-8800/4800/2800 v2 product families—unlock the potential of your data. It’s incredible what you can find when you know where to look.

Leadership performance

With performance in mind, IT can save millions on hardware acquisition costs alone by reducing the number of servers needed to meet business performance and SLA requirements, cutting the total cost of ownership significantly.

  • Up to 80% higher performance than IBM POWER7+* (Power 750 Express*) at up to 80% lower 4-year total cost of ownership (TCO)7Learn more >
  • Up to 2.1x faster general purpose compute power than AMD Opteron* 6386 SE (Abu Dhabi)6

A new way of doing business

  • Up to 148x faster medium to complex queries when moving from older database software and previous generation Intel Xeon processor E7 to the latest in-memory database solution with the next generation Intel Xeon processor E7 v2.8

All benchmarks results for the Intel Xeon processor E7-8800/4800/2800 v2 product family can be found in our benchmark library.

Platform Performance Highlights

20 world record performance benchmark results with Intel Xeon processor E7-8800/4800/2800 v2 product family-based platforms (as of 18 February 2014)

 

Cisco*
Segment - Benchmark Partner/Platform Absolute Result
Relative Improvement Importance
Data center virtualization: VMmark* 2.5.1
2-processor Cisco UCS
B260 M4* using Intel®
Xeon® processor E7-4890
v2 (37.5M cache, 2.8GHz)
19.18 @ 16 tiles 2x performance over Intel Xeon processor E7-2870 World Record 2-socket result

Enterprise computing: SPECint*_rate_base2006

2-processor Cisco UCS
B260 M4 using Intel Xeon processor E7-2890 v2
(37.5M cache, 2.8 GHz)

1170 baseline score

2.1x performance over Intel Xeon processor E7-2870

World Record 2-socket result

Technical computing: SPECfp*_rate_base2006

 

2-processor Cisco UCS
B260 M4 using Intel Xeon processor E7-4890 v2
(37.5M cache, 2.8 GHz)

865 baseline score

2.3x performance over Intel Xeon processor E7-2870

World Record 2-socket result

Shared-memory parallel processing: SPECompG*_base2012

2-processor Cisco UCS
B260 M4 using Intel Xeon processor E7-4890 v2
(37.5M cache, 2.8 GHz)

8.91baseline score

 

60 OpenMP* threads

1.3x performance over Intel Xeon processor E5-2697 v2

World Record 2-socket result

Enterprise computing: SPECint*_rate_base2006

4-processor Cisco UCS
C460 M4 using Intel Xeon processor E7-4890 v2
(37.5M cache, 2.8 GHz)

2320 baseline score

2.1x performance over Intel Xeon processor E7-4870

World Record 4-socket result (Tie)

Server-side Java*:
SPECjbb*2005 (Retired Benchmark)

4-processor Cisco UCS
C460 M4 using Intel Xeon processor E7-4890 v2
(37.5M cache, 2.8 GHz)

5,071,464 SPECjbb2005 bops

1,267,866 bops/JVM

1.8x performance over Intel Xeon processor E7-4870

World Record
4-socket result

Shared-memory parallel processing: SPECompG*_base2012

4-processor Cisco UCS
C460 M4 using Intel Xeon processor E7-4890 v2
(37.5M cache, 2.8 GHz)

17.9 baseline score

120 OpenMP threads

3.6x performance over Intel Xeon processor L7555

World Record 4-socket result

 

Segment - Benchmark
Partner/Platform
Absolute Result
Relative Improvement
Importance
Enterprise computing: SPECint*_rate_base2006 4-processor Dell PowerEdge* R920 using Intel® Xeon® processor E7-4890 v2 (37.5M cache, 2.8 GHz) 2320 baseline score 2.1x performance over Intel Xeon processor E7-4870 World Record
4-socket result (Tie)
Enterprise compute speed: SPECint*_base2006

4-processor Dell PowerEdge R920 using Intel Xeon processor E7-8891 v2 (37.5M cache, 3.2 GHz)

59.5 baseline score

1.5x performance over Intel Xeon processor E7-4870

World Record
4-socket result
Technical compute speed: SPECfp*_base2006

4-processor Dell PowerEdge R920 using Intel Xeon processor E7-8891 v2 (37.5M cache, 3.2 GHz)

107 baseline score

1.6x performance over Intel Xeon processor E7-4870

World Record
4-socket result

Sales and distribution ERP: Two-Tier SAP* SD

4-processor Dell PowerEdge R920 using Intel Xeon processor E7-4890 v2 (37.5M cache, 2.8 GHz)

24,150 Benchmark Users

(Linux*)

1.9x performance over Intel Xeon processor E7-4870

World Record
4-socket Linux result

 

Fujitsu
Segment - Benchmark
Partner/Platform
Absolute Result
Relative Improvement Importance
Sales and distribution ERP: Two-Tier SAP* SD 8-processor Fujitsu PRIMEQUEST* 2800E using Intel® Xeon® processor E7-8890 v2 (37.5M cache, 2.8 GHz)
47,500 benchmark users 1.8x performance over Intel Xeon processor E7-8870 World Record
8-socket result

Enterprise computing: SPECint*_rate_base2006

8-processor Fujitsu PRIMEQUEST 2800E using Intel Xeon processor E7-8890 v2 (37.5M cache, 2.8 GHz)

4570 baseline result

2.2x performance over Intel Xeon processor E7-8870

World Record
8-socket result

Technical computing: SPECfp*_rate_base2006

8-processor Fujitsu PRIMEQUEST 2800E using Intel Xeon processor E7-8890 v2 (37.5M cache, 2.8 GHz)

3240 baseline result

2.3x performance over Intel Xeon processor E7-8870

World Record
8-socket result

 

HP
Segment - Benchmark Partner/Platform Absolute Result1 Relative Improvement Importance
Data center virtualization: VMmark* 2.5.1 4-processor HP ProLiant DL580 Gen8* using Intel® Xeon® processor E7-4890 v2 (37.5M cache, 2.8 GHz) 34.47 @ 28 tiles 1.7x performance over Intel Xeon processor E7-4870 World Record
4-socket result

 

Huawei
Segment - Benchmark
Partner/Platform
Absolute Result
Relative Improvement Importance

Technical computing: SPECfp*_rate_base2006

4-processor Huawei RH5885H* v3 using Intel® Xeon® processor E7-4890 v2 (37.5M cache, 2.8 GHz)

1730 baseline result

2.3x performance over Intel Xeon processor E7-4870

World Record
4-socket result

Enterprise computing: SPECint*_rate_base2006

4-processor Huawei RH5885H v3 using Intel Xeon processor E7-4890 v2 (37.5M cache, 2.8 GHz)

2320 baseline score

2.1x performance over Intel Xeon processor E7-4870

World Record
4-socket result (Tie)

 

IBM
Segment - Benchmark Partner/Platform Absolute Result Relative Improvement Importance

Brokerage database online transaction processing (OLTP): TPC Benchmark* E

4-processor IBM System X3850* X6 using Intel® Xeon® processor E7-4890 v2 (37.5M cache, 2.8 GHz)

5576 tpsE

$188.69 / tpsE

Available 4/15/2014

2.7x performance over Intel Xeon processor E7-4870

World Record

Virtualized consolidation:
SPECvirt_sc*2013

4-processor IBM System X3850 X6 using Intel Xeon processor E7-4890 v2 (37.5M cache, 2.8 GHz)

2,081 @ 116VMs

2.1x performance over Intel Xeon processor E5-2697 v2

World Record

Sales and Distribution ERP: Two-Tier SAP* SD

4-processor IBM System X3850 X6 using Intel Xeon processor E7-4890 v2 (37.5M cache, 2.8 GHz)

25,000 benchmark users

(Microsoft Windows*)

1.7x performance over Intel Xeon processor E7-4870

World Record
4-socket Microsoft Windows result

NEC

 

Segment - Benchmark

Partner/Platform

Absolute Result

Relative Improvement

Importance

Server-side Java*1:
SPECjbb*2013 Multi-JVM

4-processor NEC Express5800*/A2040b using Intel® Xeon® processor E7-4890 v2 (37.5M cache, 2.8 GHz)

177,753 max jOPS

 

65,529 critical-jOPS

 

 

2.7x performance over Intel Xeon processor E7-4870

World Record
4-socket result

 

ORACLE

Segment – Benchmark

Partner/Platform

Absolute Result

Relative Improvement

Importance

Server-side Java*1:
SPECjbb*2013 Multi-JVM

8-processor Sugon I980-G10* using Intel® Xeon® processor E7-8890 v2 (37.5M cache, 2.8 GHz)

214,961 max jOPS

 

23,058 critical-jOPS

2.0x performance over 8-socket Intel Xeon processor E7-4870

World Record
8-socket result

 

Configuration details for VMmark* v2.5.1

Best publications as of February 2014. 

 

Intel® Xeon® Processor E7-2870-based Platform

Intel Xeon Processor E7-4890 v2-based Platform

Platform manufacturer

HP

Cisco

System

HP ProLiant BL620c G7*

Cisco UCS B260 M4*

Number of processors

2

2

Number of cores / threads

10/20 per processor

15/30 per processor

Processor speed

2.4 GHz

2.8 GHz

System memory

256 GB

256 GB

Operating System

Microsoft Windows* 2008 R2 Enterprise SP1 (64bit)

Microsoft Windows Server* 2008 R2 Enterprise 64-bit

Hypervisor

VMware ESX* 4.1 U1 Build 260247

VMware ESX 5.1 U1 Build 1065491

Source

http://www.vmware.com/
a/assets/vmmark/pdf/2011-04-19-HP-BL620cG7.pdf

Results self-published at http://www.cisco.com/c/
dam/en/us/products/
collateral/servers-unified-computing/ucs-b260-m4-blade-server/vmmark_b260m4
_140212.pdf
.

 

Configuration details for SPECint*_rate_base2006

Best publications as of February 2014. 

 

Intel® Xeon® Processor X7460-based Platform

Intel Xeon Processor X7560-based Platform

Intel Xeon Processor E7-2870-based Platform Intel Xeon Processor E5-2697 v2-based Platform Intel Xeon Processor E7-2890 v2-based Platform

Platform manufacturer

Acer

Bull SAS

Cisco

Huawei

Cisco

System

Acer Altos R920*

NovaScale R480 F2*

Cisco UCS C260 M2*

Huawei E9000 CH121*

Cisco UCS B260 M4*

Number of processors

2

2

2

2

2

Number of cores / threads

6/6 per processor

8/16 per processor

10/20 per processor

12/24 per processor

15/30 per processor

Processor speed

2.66 GHz

2.27 GHz

2.4 GHz

2.7 GHz

2.8 GHz

System memory

32 GB

256 GB

512 GB

128 GB

256 GB

Operating System

SUSE Linux Enterprise Server 10 (x86_64) SP1, with Intel® Compiler 11.0

Red Hat Enterprise Linux* 6.0 (x86_64), with Intel Compiler 12.0.1.116

Red Hat Enterprise Linux Server release 6.2
(Santiago) with Intel Compiler 12.1.0.225

Red Hat Enterprise Linux Server release 6.4
(Santiago) with Intel Compiler 14.0.0.080

Red Hat Enterprise Linux Server release 6.5 (Santiago) with Intel Compiler 14.0.0.080

Source

http://www.spec.
org/cpu2006/results/
res2008q4/
cpu2006-20080924
-05400.html
http://www.spec.
org/cpu2006/results/
res2011q2/
cpu2006-20110510
-16364.html
http://www.spec.
org/cpu2006/results/
res2012q4/
cpu2006-20121012
-24726.html
http://www.spec.
org/cpu2006/results/
res2013q4/
cpu2006-20130904
-26209.html
Self-published at Cisco.

 

Configuration details for SPECfp*_rate_base2006

Best publications as of February 2014. 

  Intel® Xeon® Processor X7460-based Platform Intel Xeon Processor X7560-based Platform Intel Xeon Processor E7-2870-based Platform Intel Xeon Processor E5-2697 v2-based Platform Intel Xeon Processor E7-4890 v2-based Platform

Platform manufacturer

HP

IBM

IBM

Cisco

Cisco

System

ProLiant DL580 G5*

 

IBM System x3690 X5 + MAX5*

Cisco UCS C220 M3*

Cisco UCS B260 M4*

Number of processors

2

 

2

2

2

2

Number of cores / threads

6/6 per processor

8/16 per processor

10/20 per processor

12/24 per processor

15/30 per processor

Processor speed

2.66 GHz

2.26 GHz

2.4 GHz

2.7 GHz

2.8 GHz

System memory

64 GB

256 GB

256 GB

128 GB

256 GB

Operating System

SUSE Linux Enterprise Server 10 (x86_64) SP1, with Intel® Compiler 11.0

SUSE Linux Enterprise Server 11 (x86_64), with Intel Compiler 11.1

Red Hat Enterprise Linux Server* release 6.2
(Santiago) with Intel Compiler 12.1.0.225

Red Hat Enterprise Linux Server release 6.4
(Santiago) with Intel Compiler 14.0.0.080

Red Hat Enterprise Linux Server release 6.4
(Santiago) with Intel Compiler 14.0.0.080

Source

http://www.spec.
org/cpu2006/results/
res2008q4/
cpu2006
-20080911
-05252.html

http://www.spec.
org/cpu2006/results/
res2010q4/
cpu2006
-20101119
-13810.html

http://www.spec.
org/cpu2006
/results/
res2012q3/
cpu2006
-20120716
-23705.html

http://www.spec.
org/cpu2006/results/
res2013q4/
cpu2006
-20130923
-26455.html

Self-published at Cisco.

 

Configuration details for SPECompG*_base2012

Best publications as of February 2014. 

  Intel® Xeon® Processor E5-2697 v2-based Platform Intel Xeon Processor E7-4890 v2-based Platform

Platform manufacturer

Intel

Cisco

System

Intel® Server System R2208GZ4GC

Cisco UCS B260 M4*

Number of processors

2

2

Number of cores / threads

12/24 per processor

15/30 per processor

Processor speed

2.7 GHz

2.8 GHz

System memory

64 GB

256 GB

Operating System

Red Hat Enterprise Linux* server release 6.4

Red Hat Enterprise Linux server release 6.4

OpenMP* threads

48

60

Source

http://www.spec.org/omp2012/results/res2013q4/omp2012-20130920-00039.html

Self-published at Cisco.

 

Configuration details for SPECint*_rate_base2006

Best publications as of February 2014. 

  Intel® Xeon® Processor X7460-based Platform Intel Xeon Processor X7560-based Platform Intel Xeon Processor E7-4870-based Platform Intel Xeon Processor E7-4890 v2-based Platform Intel Xeon Processor E7-4890 v2-based Platform Intel Xeon Processor E7-4890 v2 based Platform

Platform manufacturer

IBM

Cisco

Cisco

Cisco

Dell Huawei

System

IBM System x3850 M2*

Cisco UCS C460 M1*

Cisco UCS C460 M2*

Cisco UCS C460 M4*

Dell PowerEdge R920* Huawei RH5885H v3*

Number of processors

4

4

4

4

4
4

Number of cores / threads

6/6 per processor

8/16 per processor

10/20 per processor

15/30 per processor

15/30 per processor 15/30 per processor

Processor speed

2.66 GHz

2.27 GHz

2.40 GHz

2.80 GHz

2.80 GHz 2.80 GHz

System memory

64 GB

1 TB

1 TB

512 GB

512 GB 512 GB

Operating System

SUSE Linux Enterprise Server* 10 (x86_64) SP2, with Intel® Compiler 11.0

Red Hat Enterprise Linux Server* release 6.1 Beta, with Intel Compiler 12.0.1.116

Red Hat Enterprise Linux Server
release 6.1
(Santiago), with Intel Compiler 12.1.0.225

Red Hat Enterprise Linux Server release 6.4 (Santiago) with Intel Compiler 14.0.0.080

 

Red Hat Enterprise Linux Server release 6.5 (Santiago) with Intel Compiler 14.0.0.080
Red Hat Enterprise Linux Server release 6.5 (Santiago) with Intel Compiler 14.0.0.080

Source

http://www.
spec.org
cpu2006/
results/
res2008q4/
cpu2006-
20080915-
05319.html

http://www.
spec.org/
cpu2006/
results/
res2011q3/
cpu2006-
20110523-
16565.html

http://www.
spec.org/
cpu2006/
results/
res2012q1/
cpu2006-
20111223-
19278.html

 

Self-published at Cisco.

http://en.
community.
dell.com/
techcenter/
benchmarking
-performance
/

Self-published at Huawei.

 

Configuration details for SPECjbb*2005 (Retired Benchmark)

Best publications as of February 2014. 

Note: SPECjbb2005 has been retired and SPEC is no longer reviewing or publishing results with that benchmark. We are providing this result as a comparison to older hardware that may still be in use at some customer sites.

  Intel® Xeon® Processor X7460-based Platform Intel Xeon Processor X7560-based Platform
Intel Xeon Processor E7-X870-based Platform
Intel Xeon Processor E7-4890 v2-based Platform

Platform manufacturer

Fujitsu

Cisco

Cisco

Cisco

System

PRIMERGY RX600 S4*

Cisco UCS* C460 M1

Cisco UCS B440 M2

Cisco UCS C460 M4

Number of processors

4

4

4

4

Number of cores / threads

6/6 per processor

8/16 per processor

10/20 per processor

15/30 per processor

Processor speed

2.66 GHz

2.2 GHz

2.4 GHz

2.8 GHz

System memory

64 GB

512 GB

512 GB

512 GB

Operating System

Microsoft Windows* Server 2003 R2 Enterprise x64 Edition

Microsoft Windows Server 2008 Enterprise x64 Edition R2

Microsoft Windows Server 2008 R2 Enterprise Edition SP1

Microsoft Windows Server 2012 R2 Datacenter

JVM Instances

4

16

4

4

JVM Version

Oracle JRockit(R) 6 P28.0.0*

IBM J9 VM*

Oracle Java HotSpot* 64-bit Server VM on Windows, version 1.6.0_27

Oracle Java HotSpot 64-bit Server VM on Windows, version 1.6.0_45

Source

http://www.spec.
org/osg/jbb2005/
results/res2009q1
/jbb2005-20090305-
00663.html

http://www.spec.
org/osg/jbb2005/
results/res2010q2
/jbb2005-20100331-
00838.html
http://www.spec.
org/osg/jbb2005/
results/res2011q4
/jbb2005-20111004-
01018.html

Self-published at Cisco.

 

Configuration details for SPECompG*base2012

Best publications as of February 2014. 

  Intel® Xeon® Processor L7555-based Platform Intel Xeon Processor E7-4890 v2-based Platform

Platform manufacturer

HP

Cisco

System

HP ProLiant DL580 G7 Server* series

Cisco UCS C460 M4*

Number of processors

4

4

Number of cores / threads

8/8 per processor

15/30 per processor

Processor speed

2.533 GHz

2.8 GHz

System memory

512 GB

512 GB

Operating System

Red Hat Enterprise Linux* 6.3 with Intel® Compiler version 13.0.0.079

Red Hat Enterprise Linux server release 6.4

OpenMP* threads

32

120

Source

http://spec.org/omp2012/results/res2012q4/omp2012-20121004-00014.html

Self-published by Cisco.

 

Configuration details for SPECint*_base2006

Best publications as of February 2014. 

  Intel® Xeon® Processor E7-4870-based Platform Intel Xeon Processor E7-8891 v2-based Platform (running in 4-chip configuration)

Platform manufacturer

Huawei

Dell

System

Huawei E9000 CH242*

Dell Inc. PowerEdge R920*

Number of processors

4

4

Number of cores / threads

10/20 per processor

10/20 per processor

Processor speed

2.4 GHz

3.2 GHz

System memory

256 GB

1 TB

Operating System

Red Hat Enterprise Linux Server* release 6.4
(Santiago)

SUSE Linux Enterprise Server* 11 (x86_64)

Source

http://www.spec.org/cpu2006/results/res2013q3/cpu2006-20130904-26214.html

Self-published at http://en.community.dell.com/techcenter/benchmarking-performance/

 

Configuration details for SPECfp*_base2006

Best publications as of February 2014. 

  Intel® Xeon® Processor E7-4870-based Platform Intel Xeon Processor E7-8891 v2-based Platform (running in 4-chip configuration)

Platform manufacturer

Huawei

Dell

System

Huawei E9000 CH242*

Dell Inc. PowerEdge R920*

Number of processors

4

4

Number of cores / threads

10/20 per processor

10/20 per processor

Processor speed

2.4 GHz

3.2 GHz

System memory

256 GB

1 TB

Operating System

Red Hat Enterprise Linux Server* release 6.4
(Santiago)

SUSE Linux Enterprise Server* 11 (x86_64)

Source

http://www.spec.org/cpu2006/results/res2013q3/cpu2006-20130904-26216.htm

Self-published at http://en.community.dell.com/techcenter/benchmarking-performance/

 

Configuration details for SAP-SD* 2T on Sybase* and LINUX

Best publications as of February 2014. 

  Intel® Xeon® Processor X7460-based Platform Intel Xeon Processor E7-4870-based Platform Intel Xeon Processor E7-4890 v2-based Platform

Platform manufacturer

Sun Microsystems

IBM

Dell

System

Sun Fire X4450*

IBM System x3850 X5*

PowerEdge R920*

Number of processors

4

4

4

Number of cores / threads

6/6 per processor

10/20 per processor

15/30 per processor

Processor speed

2.66 GHz

2.4 GHz

2.8 GHz

System memory

80 GB

512 GB

1 TB

Operating System

Solaris* 10

Red Hat Enterprise Linux* 6.2

SuSE Linux Enterprise Edition* 11 (x86_64)

SAP* Business Suite Software

SAP ECC* Release 6.0 (Unicode)

SAP enhancement package 4 for SAP ERP 6.0

SAP enhancement package 5 for SAP ERP 6.0

Source

Certification Number 2008051

Certification Number 2012006

The SAP certification number was not available at press time and can be found at the following Web page: www.sap.com/benchmark.

 

 

Configuration details for SAP-SD* 2T

Best publications as of February 2014. 

  Intel® Xeon®  Processor X7460-based Platform  Intel Xeon Processor X7560-based Platform Intel Xeon Processor E7-8870-based Platform Intel Xeon Processor E7-8890 v2-based Platform

Platform manufacturer

IBM

IBM

IBM

Fujitsu

System

IBM System x3950 M2*

IBM System x3850 X5*

IBM System x3850 X5

PRIMEQUEST 2800E*

Number of processors

8

8

8

8

Number of cores / threads

6/6 per processor

8/16 per processor

10/20 per processor

15/30 per processor

Processor speed

2.66 GHz

2.26 GHz

2.4 GHz

2.8 GHz

System memory

128 GB

512 GB

1 TB

1 TB

Operating System

Windows Server 2003 Datacenter Edition*

Windows Server 2008 R2 Enterprise Edition*

Windows Server 2008 R2 Enterprise Edition*

Windows Server 2012*

SAP* Business Suite Software

SAP ERP 6.0

 

SAP enhancement package 4 for SAP ERP 6.0

SAP enhancement package 4 for SAP ERP 6.0

SAP enhancement package 5 for SAP ERP 6.0

Source

Certification Number 2008046

Certification Number 2010044

Certification Number 2011034

The SAP certification number was not available at press time and can be found at the following Web page: www.sap.com/benchmark

 

Configuration details for SPECint*_rate_base2006

Best publications as of February 2014. 

  Intel Xeon Processor X7460-based Platform Intel Xeon Processor X7560-based Platform Intel Xeon Processor E7-4870-based Platform Intel Xeon Processor E7-8890 v2-based Platform

Platform manufacturer

Unisys Corporation

HP

HP

Fujitsu

System

Unisys ES7000 Model 7600R*

ProLiant DL980 G7*

ProLiant DL980 G7

 

PRIMEQUEST 2800E*

Number of processors

8

8

8

8

Number of cores / threads

6/6 per processor

8/16 per processor

10/20 per processor

15/30 per processor

Processor speed

2.66 GHz

2.27 GHz

2.4 GHz

2.8 GHz

System memory

64 GB

1 TB

1 TB

2 TB

Operating System

SUSE Linux Enterprise Server* 10
(x86_64) SP2, with Intel® Compiler 11.0

SUSE Linux Enterprise Server 11 (x86_64) SP1, with Intel® Compiler 12.0.1.116

SUSE Linux Enterprise Server 11 (x86_64) SP1, with Intel® Compiler 12.0.5

Red Hat Enterprise Linux Server* release 6.5 with Intel® Compiler 14.0.0.080

Source

http://www.spec.
org/cpu2006/
results/res2008q4
/cpu2006-20081208
-06231.html

http://www.spec.
org/cpu2006/
results/res2011q1
/cpu2006-20110128-
14145.html

http://www.spec.
org/cpu2006/
results/res2011q4
/cpu2006-20110923-
18595.html

Self-published at http://docs.ts.fujitsu.com/dl.aspx?id=c39e20bc-034f-4204-b7e4-095e20cc8ccb

 

Configuration details for SPECfp*_rate_base2006

Best publications as of February 2014. 

  Intel® Xeon® Processor X7560-based Platform Intel Xeon Processor E7-4870-based Platform Intel Xeon Processor E7-8890 v2-based Platform

Platform manufacturer

HP

HP

Fujitsu

System

ProLiant DL980 G7*

ProLiant DL980 G7

 

PRIMEQUEST 2800E*

Number of processors

8

8

8

Number of cores / threads

8/16 per processor

10/20 per processor

15/30 per processor

Processor speed

2.27 GHz

2.4 GHz

2.8 GHz

System memory

1 TB

1 TB

2 TB

Operating System

SUSE Linux Enterprise Server
11 (x86_64) SP1, with Intel® Compiler 12.0.1.116

SUSE Linux Enterprise Server
11 (x86_64) SP1, with
Intel® Compiler 12.0.1.116

Red Hat Enterprise Linux Server* release 6.5 with Intel® Compiler 14.0.0.080

Source

http://www.spec.org/
cpu2006/results
/res2011q1/cpu2006-20110128-
14146.html

http://www.spec.org/
cpu2006/results
/res2011q2/cpu2006-20110523-
16583.html

Self published at http://docs.ts.fujitsu.com
/dl.aspx?id=7dc037e0-
46b0-4b5b-
aa20-053d51e114f0

 

Configuration details for SPECfp*_rate_base2006

Best publications as of February 2014. 

  Intel® Xeon® Processor X7460-based Platform Intel Xeon Processor X7560-based Platform Intel Xeon Processor E7-4870-based Platform Intel Xeon Processor E7-4890 v2-based Platform

Platform manufacturer

HP

Cisco

Huawei

Huawei

System

ProLiant DL580 G5*

Cisco UCS C460 M1*

Tecal RH5885 V2*

 

Huawei RH5885H v3*

Number of processors

4

4

4

4

Number of cores / threads

6/6 per processor

8/16 per processor

10/20 per processor

15/30 per processor

Processor speed

2.66 GHz

2.27 GHz

2.40 GHz

2.80 GHz

System memory

64 GB

512 GB

1 TB

512 GB

Operating System

SUSE Linux Enterprise Server* 10 (x86_64) SP1, with Intel® Compiler 11.0

SUSE Linux Enterprise Server 11 (x86_64), with Intel® Compiler 11.1

Red Hat Enterprise Linux Server* release 6.2
(Santiago), with Intel® Compiler 13.0.0.079

Red Hat Enterprise Linux Server release 6.5 with Intel® Compiler 14.0.0.080

Source

http://www.spec.org/
cpu2006/results/
res2008q4/cpu2006-
20080911-05253.html

http://www.spec.org/
cpu2006/results/
res2010q2/cpu2006-
20100510-10870.html

http://www.spec.org/
cpu2006/results/
res2012q4/cpu2006-
20121030-24904.html

Self-published at Huawei.

 

Configuration details for TPC Benchmark* E

Best publications as of February 2014. 

  Intel® Xeon® Processor X7460-based Platform Intel Xeon Processor X7560-based Platform Intel Xeon Processor E7-4870-based Platform Intel Xeon Processor E7-4890 v2-based Platform

Platform manufacturer

IBM

Fujitsu

IBM

IBM

System

IBM System x3850 M2* PRIMERGY RX600 S5* IBM System x3850 X5* IBM System x3850 X6*

Number of processors

4

4

4

4

Number of cores / threads

6/6 per processor

8/16 per processor

10/20 per processor

15/30 per processor

Processor speed

2.66 GHz

2.26 GHz

2.4 GHz

2.8 GHz

System memory

128 GB

512 GB

2 TB

2 TB

Operating System

Microsoft Windows Server 2008 Enterprise Edition x64*

Microsoft Windows Server 2008 R2 Enterprise Edition x64*

Microsoft Windows Server 2012 Standard Edition*

Windows Server 2012 Standard Edition*

Database Manager

Microsoft SQL Server 2008 Enterprise Edition x64*

Microsoft SQL Server 2008 Enterprise Edition R2*

Microsoft SQL Server 2012 Enterprise Edition*

Microsoft SQL Server 2014 Enterprise Edition*

Price/tpsE

457.27 USD 

193.68 USD 

225.30 USD 

188.69 USD

System availability date

10/10/08 

09/01/10 

11/28/12 

4/15/2014

Source

http://www.tpc.org/
tpce/results/tpce
_result_detail
.asp?id=108091502

http://www.tpc.org/
tpce/results/tpce
_result_detail
.asp?id=110061801

http://www.tpc.org/
tpce/results/tpce
_result_detail
.asp?id=112112801

Results published to http://www.tpc.org  as of Feb. 2014

 

Configuration details for SPECvirt_sc*2013

Best publications as of February 2014. 

  Intel® Xeon® Processor E5-2697 v2-based Platform Intel Xeon Processor E7-4890 v2-based Platform

Platform manufacturer

IBM

IBM

System

IBM System x3650* M4

IBM System x3650 X6

Number of processors

2

4

Number of cores / threads

12/24 per processor

15/30 per processor

Processor speed

2.7 GHz

2.8 GHz

System memory

512 GB

1 TB

Operating System

Red Hat Enterprise Linux* 6.4 KVM

Red Hat Enterprise Linux 6.5 KVM

Source

http://www.spec.org/virt_sc2013/results/res2013q3/virt_sc2013-20130820-00004-perf.html

Results submitted to http://spec.org/virt_sc2013/results/specvirt_sc2013_perf.html as of Feb. 2014

 

Configuration details for SAP-SD* 2T on Microsoft Windows Server*

Best publications as of February 2014. 

  Intel® Xeon® Processor X7460-based Platform  Intel Xeon Processor X7560-based Platform Intel Xeon Processor E7-4870-based Platform Intel Xeon Processor E7-4890 v2-based Platform

Platform manufacturer

IBM

HP

IBM

IBM

System

IBM System x3850 M2*

HP ProLiant BL680c G7*

IBM System x3850 X5*

IBM System x3850 X6*

Number of processors

4

4

4

4

Number of cores / threads

6/6 per processor

8/16 per processor

10/20 per processor

15/30 per processor

Processor speed

2.66 GHz

2.26 GHz

2.4 GHz

2.8 GHz

System memory

64 GB

256 GB

512 GB

1 TB

Operating System

Windows Server 2003 Datacenter Edition*

Windows Server 2008 R2 Enterprise Edition*

Windows Server 2008 R2 Enterprise Edition*

Windows Server 2012*

SAP* Business Suite Software

SAP ERP 6.0*

 

SAP enhancement package 4 for SAP ERP 6.0

SAP enhancement package 4 for SAP ERP 6.0

SAP enhancement package 5 for SAP ERP 6.0

Source

Certification Number 2008067

Certification Number 2011003

Certification Number 2011015

The SAP certification number was not available at press time and can be found at the following Web page: www.sap.com/benchmark.

 

Configuration details for SPECjbb*2013 Multi-JVM

Best publications as of February 2014. 

  Intel® Xeon® Processor E7-4870-based Platform
Intel Xeon Processor E7-4890 v2-based Platform

Platform manufacturer

Oracle

NEC Corporation

System

Oracle Corporation Sun Server X2-4*

NEC Express5800/A2040b*

Number of processors

4

4

Number of cores / threads

10/20

15/30 per processor

Processor speed

2.4 GHz

2.8 GHz

System memory

128 GB

1 TB

Operating System

Oracle Solaris 11.1*

Red Hat Enterprise Linux* Server release 6.4 (Santiago)

JVM* version

Java HotSpot* 64-bit Server VM, version 1.7.0_17

Java HotSpot 64-bit Server VM, version 1.8.0

Source

http://spec.org/jbb2013/results/res2013q2/jbb2013-20130326-00021.html

Self-published at http://www.nec.com/en
/global/prod/express/collateral/salessheet
/nec_express5800_A2040b_specjbb2013_
140218.pdf
or
http://www.necam.com/docs/?id=9ce64b18-e7af-4d37-
af35-9e67a9bff9da
.

 

Configuration details for SPECjbb*2013 Multi-JVM

Best publications as of February 2014. 

  Intel® Xeon® Processor E7-4870-based Platform Intel Xeon Processor E7-8890 v2-based Platform

Platform manufacturer

HP

Sugon Corporation

System

HP ProLiant* DL980 G7

Sugon Corporation I980*

Number of processors

8

8

Number of cores / threads

10/20 per processor

15/30 per processor

Processor speed

2.4 GHz

2.8 GHz

System memory

1 TB

2 TB

Operating System

Red Hat Enterprise Linux* Server release 6.3, (Santiago)

SUSE 11 SP2*

OpenMP* threads

Oracle JDK* 7 update 17

Oracle JDK-7u51-linux-x64*

Source

http://www.spec.org/jbb2013/results/res2013q2/jbb2013-20130319-00017.html

Self-published at http://www.sugon.com/product/detail/productid/141.html.

Additional information: 1293451011676812131415161718

Informacje o produktach i wydajności

open

1. Oprogramowanie i obciążenia wykorzystane w testach wydajności mogły zostać zoptymalizowane do wydajnego działania tylko na mikroprocesorach Intel®. Testy wydajności, takie jak SYSmark* i MobileMark*, mierzą wydajność określonych systemów komputerowych, podzespołów, oprogramowania i funkcji. Jakakolwiek zmiana wyżej wymienionych czynników może spowodować, że uzyskiwane wyniki będą się różnić. Aby wszechstronnie ocenić planowany zakup, w tym wydajność danego produktu w porównaniu z konkurencyjnymi, należy zapoznać się z informacjami z innych źródeł oraz z innymi testami wydajności.

2. Wyniki oszacowano na podstawie wewnętrznych pomiarów firmy Intel, przedstawiając je wyłącznie w celach informacyjnych. Jakiekolwiek różnice w sprzęcie, oprogramowaniu lub konfiguracji mogą mieć wpływ na wyniki aktualnie mierzonej wydajności.

3. Wydajność względna jest obliczana poprzez przydzielenie punktu odniesienia o wartości 1,0 do jednego wyniku testu wydajności, a następnie podzielenie aktualnego wyniku testu platformy odniesienia przez poszczególne wyniki testu każdej z pozostałych platform i przydzielenie im wartości wydajności względnej odpowiadającej wzrostowi zmierzonej wydajności.

4. Numery procesorów Intel nie są miarą wydajności tych procesorów. Numery procesorów służą do różnicowania cech procesorów w obrębie jednej rodziny, a nie do porównywania w obrębie różnych rodzin. Więcej informacji można uzyskać pod adresem www.intel.com/content/www/us/en/processors/processor-numbers.html.

5. Średni wzrost do 2x wydajności procesora najnowszej generacji na podstawie wyników sześciu kluczowych zadań w standardzie branżowych – SPECint*_rate_base2006+ (oszacowanie), SPECfp*_rate _base2006+ (oszacowanie), zadania obciążania bazy danych (OLTP) dotyczącego przetwarzania transakcji maklerskich online, zadania obciążania bazy danych (OLTP) dotyczącego łańcucha dostaw, przepustowość pamięci STREAM oraz LINPACK GFLOPS. Konfiguracje: 4-gniazdowy serwer z procesorem Intel® Xeon® E7-4890 v2 (najnowszy procesor) wzg. procesora Intel Xeon E7-4870 (procesor poprzedniej generacji). Źródło: Wewnętrzne testy firmy Intel z listopada 2013 r.

6. Technologia Intel® Run Sure: żaden system komputerowy nie jest w stanie zapewnić całkowitej niezawodności, dostępności czy łatwości serwisowania. Wymaga komputera z procesorem rodzin Intel® Xeon® E7-8800/4800/2800 v2 (lub kolejnej generacji). Wbudowane funkcje zwiększające niezawodność dostępne w wybranych procesorach Intel® mogą wymagać dodatkowego oprogramowania, sprzętu, usług i/lub połączenia internetowego. Wyniki mogą być różne w zależności od konfiguracji. Aby uzyskać szczegółowe dane, skontaktuj się z producentem komputera.

7. Procesory Xeon E7 v2 oferują wzrost wydajności do 80% względem IBM Power* 7+ przy obniżeniu o ~80% całkowitego kosztu utrzymania. Wyniki zostały oszacowane przez firmę Intel na podstawie testu SPECint*_rate_base2006 i porównania cen 4-gniazdowego serwera do zabudowy typu rack z procesorem Intel® Xeon® E7-4890 v2 (37,5 MB Cache, 2,8 GHz, 15 rdzeni) i serwera IBM POWER*750 z procesorem POWER7+ (80 MB Cache, 4,0 GHz, 8 rdzeni) w grudnia 2013 r. a. Wyniki testu SPECint_rate_base2006: i. 4-układowy procesor IBM POWER7+ (wynik bazowy 1230), źródło: http://www.spec.org/cpu2006/results/res2013q3/cpu2006-20130805-26129.html ii. 4-układowy procesor Intel Xeon E7-4890 v2 (wynik bazowy 2280) b. Szacowana cena detaliczna: i. Oszacowana przez firmę Intel cena platformy 4-układowego procesora Intel Xeon E7-4890 v2 wynosi 51 237 USD z 4 x procesorami Intel Xeon E7-4890 v2, 256 GB pamięci, 2 dyski HDD.  ii. Cena platformy 4-układowej IBM Power 750 Express wynosi 177 290 USD: 4 x procesory 4,0 GHz POWER7+*, 256 GB pamięci, 2 dyski HDD.   Źródło: IBM United States Prices 113-026, z 5 lutego 2013 r. (ceny katalogowe sprzętu). http://www-01.ibm.com/common/ssi/rep_ca/6/897/ENUS113-026/ENUS-113-026-LIST_PRICES_2013_02_05.PDF.  c. Lepszy do 80% 4-letni okres całkowitych kosztów utrzymania ze względu na niższe koszty oprogramowania oszacowane na podstawie wewnętrznego narzędzia firmy Intel całkowitego kosztu utrzymania normalizującego całkowitą wydajność przesyłania danych pomiędzy dwoma opcjami. i. Obliczenia obejmują analizę w oparciu o wydajność, zapotrzebowanie na moc, chłodzenie, stawki energii elektrycznej, system operacyjny i koszt rocznej pomocy technicznej/licencji dla serwera Red Hat* Enterprise LINUX z procesorem POWER* lub 32-/64-bitowym procesorem x86 na stronie https://www.redhat.com/apps/store/server/ oraz koszty szacunkowe serwera. ii. Założenia dotyczą obudowy 42U typu rack, 0,10 USD za 1 kWh, kosztów chłodzenia wynoszących podwojonym średnim kosztom zużycia energii serwera, analizy Alinean*, w której zakłada się koszt 500 USD na utrzymanie jednego serwera i 30 USD za serwer sieci, średniego rocznego kosztu nieruchomości według narzędzia planowania VMware*, który wynosi 310 USD za stopę kw. * 10 stóp kw. na obudowę typu rack podzielone przez liczbę serwerów w tej zabudowie, wykorzystania procesora na poziomie 60% i wskaźnika efektywności zużycia energii rzędu 2,0. 

8. Procesory Intel® Xeon® E7 v2 oferują wzrost do 2,1x wydajności względem procesora AMD Opteron* 6386 SE. Deklarowane wyniki zostały oszacowane na podstawie testu SPECint_rate_base2006 porównania 4-gniazdowego serwera do zabudowy typu rack ogólnego przeznaczenia do celów komercyjnych z procesorem Intel Xeon E7-4890 v2 (37,5 MB Cache, 2,8 GHz, 15 rdzeni) względem procesora AMD Opteron 6386 SE (2,8 GHz, 16 rdzeni) w grudniu 2013 r. a. 4-układowy procesor AMD Opteron 6386 SE (wynik bazowy 1070). Źródło: http://www.spec.org/cpu2006/results/res2013q3/cpu2006-20130804-26125.html b. 4-układowy procesor Intel Xeon E7-4890 v2 (szacowany wynik bazowy 2280).

9. Firma Intel nie ma wpływu i nie weryfikuje projektu ani zastosowania testów wydajności innych firm ani witryn wspomnianych w tym dokumencie Firma Intel zachęca swoich klientów do odwiedzenia wymienionych lub innych stron internetowych, w których ogłaszane są podobne testy wydajności i do potwierdzenia, czy testy wydajności są dokładne i odzwierciedlają parametry systemów dostępnych w sprzedaży.

10. Wzrost do 3x wielkości pamięci w oparciu o 4-gniazdową platformę połączoną natywnie: procesor rodziny Intel® Xeon® E7 obsługuje 64 moduły DIMM, 32-GB RDIMM maks. pamięci na moduł DIMM; procesor rodziny Intel Xeon E7 v2 obsługuje 96 modułów DIMM, 64-GB RDIMM maks. pamięci na moduł DIMM. Konfiguracja ta zapewnia 3x wzrost wielkości pamięci.

11. Deklarowany maks. 4x wzrost przepustowości operacji I/O oszacowany na podstawie wewnętrznych pomiarów znormalizowanej wydajności procesora Intel® Xeon® E7-4890 v2 względem rozszerzonej konfiguracji dual-IOH procesora Intel Xeon E7-4870 na podstawie testu 1R1W przeprowadzonego za pomocą narzędzia do pomiaru wewnętrznej przepustowości.

12. Środowisko IBM DB2* with BLU Acceleration* zapewnia wzrost do 148x wydajności przetwarzania bazy danych w pamięci Źródło: Wewnętrzne testy firmy Intel z lutego 2014 r. Szczegóły konfiguracji: a. Wspólne: SUSE Linux Enterprise Server* 11 SP3 x86-64, IBM DB2 10.1 FP1 GA lub 10.5 FP1 with BLU b. IBM DB2 10.1 + procesor Intel® Xeon® E7-4870 z rozwiązaniem IBM Gen3 XIV* FC SAN c. IBM DB2 10.5 with BLU Acceleration + procesor Intel Xeon E7-4870 w zadaniu przetwarzania tabel w pamięci (łącznie 1 TB) d. IBM DB2 10.5 with BLU Acceleration + procesor Intel Xeon E7-4890 v2 w zadaniu przetwarzania tabel w pamięci (łącznie 1 TB)

13. Jeśli nie zaznaczono inaczej, relatywny wzrost jest oparty na 8-, 4- lub 2-gniazdowych serwerach z procesorami Intel® Xeon® E7-8890 v2, 4890 v2 lub 2890 v2 (wszystkie z 15 rdzeniami, 2,8 GHz) względem porównywalnych procesorów rodzin Intel Xeon E7-8870, 4870 lub 2870 poprzedniej generacji (wszystkie z 10 rdzeniami, 2,4 GHz). Najlepsze wyniki testów opublikowane na stronach internetowych SAP*, SPEC.org*, TPC.org* i VMware.com* zostały porównane ze wszystkimi innymi serwerami i procesorami o podobnej liczbie (układów/gniazd) na stan z 12 lutego 2014 r. Rekord świata

14. SPEC, SPECint, SPECfp, SPECrate, SPECvirt_sc, SPECjbb, SPECompM, SPECompL, SPECompG, SPEC MPI i SPECjEnterprise są znakami towarowymi firmy Standard Performance Evaluation Corporation. Więcej informacji na stronie http://www.spec.org.

15. TPC Benchmark, TPC-C, tpmC, TPC-H, QphH, TPC-E i tpsE są znakami towarowymi organizacji Transaction Processing Council. Więcej na stronie www.tpc.org.

16. SAP i SAP NetWeaver są zastrzeżonymi znakami towarowymi firmy SAP AG w Niemczech i kilku innych krajach. Więcej informacji można znaleźć pod adresem www.sap.com/benchmark.

17. VMware jest zastrzeżonym znakiem towarowym, a VMmark znakiem towarowym firmy VMware, Inc.

18. Comparisons are based on the maximum number of processor sockets available in the competitive systems, which may be different than the number of processors/chips listed in the benchmark results. Comparisons to competitive 8-socket systems were done using systems supporting more than 8-processor sockets.