World Record Benchmark Performance

Bring your business’s best ideas to life by transforming big data and real-time analytics into new business opportunities while ensuring the reliability and uptime of the most business-critical services with the Intel® Xeon® processor E7-8800/4800 v4 product families.

Turn Real-Time Analytics into Real Business Advantage

Leadership Performance

Accelerate performance across the data center to deliver real insights with real value in real time for the largest workloads running on fast, high-performing infrastructure. Faster transaction speeds and accelerated operations mean real-time responsiveness, quick results, and increased productivity. Offering up to 24 cores and 48 threads per processor, a 33 percent increase compared to the prior generation, and up to 60MB last level cache along with core improvements deliver:

  • Up to double the queries-per-hour answered enabling smarter decisions for businesses analyzing their sales and customer data.1 Ad-hoc cost per query has dropped from $21 to just $0.38 in just the past six-years—a 98% cost reduction, while queries-per-hour capability has increased by 19x.2
  • Up to 1.3x average performance across key industry-standard workloads.3
  • Up to 35% more virtual machines (VMs) and infrastructure applications throughput supported with same service-level agreement level to help IT grow line-of-business (LOB) heterogeneous needs.4
  • Use 1/3rd the servers for equivalent performance to lower operational expenses by replacing 4–5 year old installed platforms5, savings include lower network and server maintenance costs by up to 92%, lower utilities costs by up to 73%, and lower annual software licensing fees by up to 67%.

Platform Performance Highlights

Over 40 new world record performance benchmark results with the best Intel® Xeon® processor E7-8800/4800 v4 product families-based platforms (as of 30 March 2017).

Partner Platform Segment - Benchmark Importance
 

Cisco* UCS C460 M4

General Computing:
SPECint*_base2006

4-socket world record

Cisco UCS B260 M4

Technical Computing: 
SPECompG*_2012

2-socket world record

Cisco UCS C460 M4

Big Data Analytics:
TPC Benchmark* H @ 10000GB non-cluster

4-socket world record

Partner Platform Segment - Benchmark

Importance

Dell PowerEdge* R930 Business Processing:
SAP Sales and Distribution 2-tier*
4-socket world record Linux*
Dell PowerEdge R930 Big Data Analytics:
SAP BW-AML* @ 2 billion (2B) initial
records – Adv. Query Nav Steps/Hour
World record (Adv. Query Nav Steps/Hour) @ 2B
Dell PowerEdge R930 Big Data Analytics:
SAP BW-AML* @ 4 billion (4B) initial
records – Adv Query Nav Steps/Hour
and Total Runtime Delta Load/Trans.
Test
World record (Adv Query Nav Steps/Hour
and Total Runtime Delta Load/Trans. Test) @ 4B

Partner Platform Segment - Benchmark Importance
Fujitsu PRIMEQUEST* 2800E3 General Computing:
SPECint*_rate_base2006
2-socket world record
8-socket world record
Fujitsu PRIMEQUEST 2800E3 Technical Computing:
SPECfp*_rate_base2006
8-socket world record
Fujitsu PRIMERGY* RX4770 M3 Technical Computing:
SPECfp*_base2006
4-socket world record tie
Fujitsu PRIMEQUEST 2800E3 Infrastructure/Virtualization:
VMware* VMmark* V2.5.2 Performance 
Overall world record
Fujitsu PRIMERGY* RX4770 M3 Infrastructure/Virtualization:
VMware* VMmark* V2.5.2 Performance (matched pair)
4-socket world record
Fujitsu PRIMERGY RX4770 M3 Infrastructure/Virtualization:
VMware* VMmark* V2.5.2 Performance with Server Power
4-socket world record

Partner Platform Segment - Benchmark Importance
HPE ProLiant* DL580 Gen9 Technical Computing:
SPECfp*_base2006
4-socket world record tie
HPE ProLiant DL580 Gen9 Actian Vector 5.0 Big Data Analytics:
TPC Benchmark* H @ 3000GB non-cluster
4-socket world record
HPE Integrity* Superdome X Business Processing:
SAP* Sales and Distribution 2-tier
16-socket world record
HPE Integrity Superdome X Server-side Java*:
SPECjbb*2015 MultiJVM Max-jOPS
overall world record
16-socket world record
HPE CS500 (DL580 GEN9) Big Data Analytics:
SAP BW-AML* @ 2 billion (2B) initial
records – Normalized Mean Runtime Single
Query Test, Total Runtime Delta Load/Trans. Test
World records (Normalized
Mean Runtime Single Query Test,
Total Runtime Delta Load/Trans. Test)
@ 2B
HPE Integrity Superdome X
HPE Integrity Superdome X
HPE Synergy* 680 Gen 9
Server-side Java*:
SPECjbb*2015 MultiJVM Critical-jOPS
Overall world record
8 & 16-socket world record
4-socket world record

HPE ProLiant DL580 Gen9
HPE Synergy* 680 Gen9
Server-side Java*:
SPECjbb*2015 Composite Max-jOPS
Overall world records (tied)
HPE Synergy 680 Gen9 Server-side Java*:
SPECjbb*2015 Composite Critical-jOPS
Overall world record
HPE Synergy 680 Gen9 Server-side Java*:
SPECjbb*2015 Distributed Max-jOPS
Overall world record
HPE Synergy 680 Gen9 Server-side Java*:
SPECjbb*2015 Distributed Critical-jOPS

Overall world record

HPE Integrity MC990 X Technical Computing:
SPECompG*_2012
8-socket world record

Partner Platform Segment - Benchmark Importance
Hitachi Compute Blade* 520XB3 Big Data Analytics: 
SAP BW-AML* @ 4 billion (4B) initial
records – Normalized Mean Runtime Single Query Test
World record (Normalized Mean
Runtime Single Query Test) @ 4B 

Partner

Platform

Segment - Benchmark

Importance

Huawei* RH5885H V3

General Computing:
SPECint*_rate_base2006
4-socket world record
Huawei* Kunlun 9016 General Computing:
SPECint*_rate_base2006
16-socket world record
Huawei RH5885H V3 Technical Computing:
SPECfp*_rate_base2006
2-socket world record
4-socket world record
Huawei RH8100 V3 Server-side Java*:
SPECjbb*2015 Multi-JVM Max-jOPS
8-socket world record

Partner

Platform

Segment - Benchmark

Importance

Lenovo System* x3950 X6 General Computing:
SPECint*_base2006

8-socket world record

Lenovo System x3950 X6 Technical Computing:
SPECfp*_base2006
8-socket world record
Lenovo System x3950 X6 Business Processing:
SAP Sales and Distribution 2-tier*
8-socket world record Windows*
Lenovo System x3850 X6 Big Data Analytics:
SAP* BW edition for SAP HANA* @
1.3 billion (1.3B) initial records -
(all 3 key performance Indicators)
Overall world record (Total Runtime
of Data Load/Transformation, Query
Executions Per Hour, Total Runtime
of Complex Query Phase) @ 1.3B
Lenovo System x3950 X6 Infrastructure/Virtualization:
SPECvirt_sc*2013
Overall world record
Lenovo System x3850 X6 Infrastructure/Virtualization:
SPECvirt_sc*2013
4-socket world record
Lenovo System x3850 X6 Business Processing:
TPC Benchmark* E
4-socket world record
Lenovo System x3850 X6 Big Data Analytics:
STAC-M3* Shasta Suite
Overall world record
Shasta Suite (15/15 required)

Partner Platform Segment - Benchmark Importance

SGI* UV 300

Technical Computing: 
SPECompG*_2012

Overall world record
32-socket world record
16-socket world record

World Record Configurations

Results and configurations as of 30 March 2017

Cisco:

Claim based on best-published four-socket SPECint*_base2006 result published at https://www.spec.org/cpu2006/results/ as of 30 March 2017. New configuration: 1-Node, 4 x Intel® Xeon® processor E7-8891 v4 on Cisco Systems with 512 GB total memory on SUSE Linux Enterprise Server* 12 using C/C++: Version 16.0.0.101 of Intel® C++ Studio XE for Linux. Source: https://www.spec.org/cpu2006/results/res2016q2/cpu2006-20160517-41361.html, SPECint*_base2006 score: 71.5.

Claim based on best-published two-socket SPECompG*_base2012 result published at https://www.spec.org/omp2012/results as of 30 March 2017. New configuration: 1-Node, 2 x Intel® Xeon® processor E7-8890 v4 on Cisco* Systems UCS B260 M4 with 256 GB total memory on Red Hat Enterprise Linux* 6.7 kernel 2.6.32-573 using C/C++/Fortran: Version 16.0.0.109 of Intel® Composer for Linux Build 20150815. Source: https://www.spec.org/omp2012/results/res2016q2/omp2012-20160511-00073.html, SPECompG*_base2012 score: 13.4 with 96 base OpenMP threads.

Claim based on best-published four-socket TPC Benchmark* H @ 10,000GB non-cluster results published at http://www.tpc.org/tpch/results/tpch_perf_results.asp as of 30 March 2017. New configuration: 1-Node, 4 x Intel® Xeon® processor E7-8890 v4  (4P, 96C, 192T) on Cisco UCS* C460 M4 server with 6 TB total memory running Windows* Server 2016 Standard Edition and Microsoft* SQL Server 2016. Source: http://www.tpc.org/3326, Score: 1,115,298 QphH@10,000GB, $0.87/QphH@10,000GB available 28 November 2016.

Dell:

Claim based on best-published four-socket SAP SD 2-Tier on Linux* result published at http://global.sap.com/solutions/benchmark/sd2tier.epx as of 30 March 2017. New configuration: 2-tier, 4 x Intel® Xeon® processor E7-8894 v4 (96 cores/192 threads) on Dell PowerEdge* R930 with 1024 GB total memory on Red Hat Enterprise Linux* 7.2-kernel 3.10.0-327 using SAP Enhancement Package 5 for SAP ERP 6.0, SAP NetWeaver 7.20 pl510. Benchmark: SAP* SD 2-Tier enhancement package 5 for SAP ERP 6.0, source: Certificate #2017001, http://global.sap.com/solutions/benchmark/sd2tier.epx. Score: 43,300 benchmark users.

Claim based on best-published SAP BW-AML* @ 2 billion initial records result published at http://www.sap.com/solution/benchmark/appbm/netweaver.html as of 30 March 2017. New configuration: 1-Node, 4x Intel® Xeon® processors E7-8890 v4 (96 cores/192 threads) on Dell PowerEdge* R930 with 1024 GB total memory on SUSE Linux Enterprise Server* 12 for SAP Applications using SAP HANA* 1.0, SAP NetWeaver* 7.50. Benchmark: SAP BW Advanced Mixed Load (BW-AML) @ 2 billion initial records, source: SAP Certificate #2016059, http://www.sap.com/solution/benchmark/appbm/netweaver.advanced-mixed-load-bw-aml.html. Score: Best advanced query navigation steps/hour (40,020).

Claim based on best-published SAP BW-AML* @ 4 Billion initial records result published at http://www.sap.com/solution/benchmark/appbm/netweaver.html as of 30 March 2017. 1-Node, 4 x Intel® Xeon® processors E7-8890 v4 (96 cores/192 threads) on Dell PowerEdge* R930 with 1536 GB total memory on SUSE Linux Enterprise Server* 11 SP4 for SAP Applications using SAP HANA* 1.0, SAP NetWeaver* 7.50. Benchmark: SAP BW Advanced Mixed Load (BW-AML) @ 4 Billion initial records. Source: SAP Certificate #2016054, http://www.sap.com/solution/benchmark/appbm/netweaver.advanced-mixed-load-bw-aml.html. Score: Best total advanced query navigation steps/hour (21,580) and best total runtime delta load/transformation test (294 seconds).

Fujitsu:

Claim based on best-published 2-socket SPECint*_rate_base2006 published at https://www.spec.org/cpu2006/results/ as of 30 March 2017. New configuration: 1-Node, 2x Intel® Xeon® processor E7-8894 v4 on Fujitsu PRIMEQUEST* 2800E3 with 256 GB total memory on SUSE Linux Enterprise Server* 12 SP2 4.4.21-68-default using Version 17.0.0.098 of Intel® C/C++ Compiler for Linux, source: https://www.spec.org/cpu2006/results/res2017q1/cpu2006-20170221-46674.pdf SPECint*_rate_base2006 score: 1860.

Claim based on best-published 8-socket SPECint*_rate_base2006 result published at https://www.spec.org/cpu2006/results/ as of 30 March 2017. New configuration: 1-Node, 8x Intel® Xeon® processor E7-8894 v4 on Fujitsu PRIMEQUEST* 2800E3 with 1024 GB total memory on SUSE Linux Enterprise Server* 12 SP2 4.4.21-68-default using Version 17.0.0.098 of Intel® C/C++ Compiler for Linux, source: https://www.spec.org/cpu2006/results/res2017q1/cpu2006-20170221-46671.pdf. SPECint*_rate_base2006 score: 7390.

Claim based on best-published 8-socket SPECfp*_rate_base2006 result published at https://www.spec.org/cpu2006/results/ as of 30 March 2017. New configuration: 1-Node, 8x Intel® Xeon® processor E7-8894 v4 on Fujitsu PRIMEQUEST* 2800E3 with 1024 GB total memory on SUSE Linux Enterprise Server* 12 SP2 4.4.21-68-default using Version 17.0.0.098 of Intel® C/C++ Compiler for Linux, Version 17.0.0.098 of Intel Fortran Compiler, source: https://www.spec.org/cpu2006/results/res2017q1/cpu2006-20170123-46533.pdf. SPECfp*_rate_base2006 score: 4770.

Claim based on best-published four-socket SPECfp*_base2006 result published at https://www.spec.org/cpu2006/results/ as of 30 March 2017. New configuration: 1-Node, 4x Intel® Xeon® processor E7-8891 v4 on Fujitsu Server PRIMERGY* RX4770 M3 with 512 GB total memory on SUSE Linux Enterprise Server* 12 SP1 (X86_64) Kernel 3.12.49-11-default using Version 16.0.0.101 of Intel® C/C++ Studio XE for Linux, Version 16.0.0.101 of Intel Fortran Studio XE for Linux, source: https://www.spec.org/cpu2006/results/res2017q1/cpu2006-20170307-46790.pdf. SPECfp*_base2006 score: 132.

Claim based on best-published VMmark* 2.5.2 performance result published at http://www.vmware.com/a/vmmark as of 30 March 2017. New configuration: Four hosts (realized as completely independent system partitions in two Fujitsu Server PRIMEQUEST 2800E3* systems) with each partition containing 4x Intel® Xeon® processor E7-8890 v4 (96 cores, 192 threads), 2048 GB memory, running VMware* ESXi 6.0.0 U2 Build 3825889 and vCenter Server 6.0.0 U1 Build 3018524, source: http://www.vmware.com/content/dam/digitalmarketing/vmware/en/pdf/vmmark/2016-08-16-Fujitsu-PRIMEQUEST2800E3.pdf. VMmark 2.5.2 Performance score: 114.47 @ 100 Tiles.

Claim based on best-published four-socket VMmark* 2.5.2 performance (matched pair) result published at http://www.vmware.com/a/vmmark as of 30 March 2017. New configuration: Fujitsu Server PRIMERGY RX4770 M3 with 4x Intel® Xeon® processor E7-8890 v4 (96 cores, 192 threads), 1024 GB memory, running VMware* ESXi 6.0.0 U2 Build 3620759 and vCenter Server 6.0.0 Build 3018524. Benchmark: VMmark 2.5.2 Performance, source: http://www.vmware.com/content/dam/digitalmarketing/vmware/en/pdf/vmmark/2016-06-21-Fujitsu-RX4770M3.pdf. VMmark 2.5.2 Performance score: 61.32 @ 52 Tiles.

Claim based on best-published four-socket VMmark* 2.5.2 performance with server power (matched pair) result published at http://www.vmware.com/a/vmmark as of 30 March 2017. New configuration: Fujitsu Server PRIMERGY RX4770 M3 in a matched pair configuration, each with four Intel® Xeon® processor E7-8890 v4 2.2 GHz (96 cores, 192 threads), 1024 GB memory, running VMware* ESXi 6.0.0 U2 Build 3620759 and vCenter Server 6.0.0 Build 3018524; Fibre Channel SAN storage; measured with Hioki* 3334 power meter. Benchmark: VMmark 2.5.2 Performance Server Power. Source: http://www.vmware.com/content/dam/digitalmarketing/vmware/en/pdf/vmmark/2016-06-21-Fujitsu-RX4770M3-serverPPKW.pdf. VMmark 2.5.2 Performance PPKW score: 30.4559 @ 52 Tiles.

HPE:

Claim based on best-published four-socket SPECfp*_base2006 results published at https://www.spec.org/cpu2006/results/ as of 30 March 2017. New configuration: 1-Node, 4x Intel® Xeon® processor E7-8891 v4 on Hewlett Packard Enterprise ProLiant* DL580 Gen9 with 512 GB total memory on SUSE Linux Enterprise Server* 12 SP1 using C/C++: Version 16.0.0.101 of Intel® C++ Studio XE for Linux; Fortran: Version 16.0.0.101 of Intel® Fortran Studio XE for Linux. Source: https://www.spec.org/cpu2006/results/res2016q2/cpu2006-20160517-41419.html, SPECfp_base2006 score: 132.

Claim based on best-published four-socket TPC Benchmark* H @ 3000GB non-cluster results published at http://www.tpc.org/tpch/results/tpch_perf_results.asp as of 30 March 2017. New configuration: 1-Node, 4x Intel® Xeon® processor E7-8890 v4 (4P, 96C, 192T) on Hewlett Packard Enterprise ProLiant* DL580 Gen9 with 3072 GB total memory on Red Hat Enterprise Linux* 7.2-kernel 3.10.0-327 using Actian* Vector Capacity Based VECTOR-PPL VW 5.0. Source: http://www.tpc.org/3323, Scores: 2,140,307 QphH @ 3000GB, $0.38/QphH@3000GB available 6 June 2016.

Claim based on best-published 16-socket SAP SD Standard Application Benchmark* result on Linux* published at http://global.sap.com/solutions/benchmark as of 30 March 2017. New configuration: 1-Node, 16x Intel® Xeon® processor E7-8890 v4 (384 cores/768 threads) on HPE Integrity* Superdome X with 4096 GB total memory on Red Hat Enterprise Linux* 7.2 using SAP Enhancement Package 5 for SAP ERP 6.0, SAP ASE 16. Benchmark: SAP* SD 2-Tier enhancement package 5 for SAP ERP 6.0, Source: Certificate #2016044, http://global.sap.com/solutions/benchmark/sd2tier.epx. Score: 117,611 benchmark users.

Claim based on best-published SAP BW-AML* @ 2 billion initial records results published at http://www.sap.com/solution/benchmark/appbm/netweaver.html as of 30 March 2017. New configuration: 1-Node, 4x Intel® Xeon® processors E7-8894 v4 (96 cores/192 threads) on Hewlett Packard Enterprise CS500 (DL580 Gen9) with 1024 GB total memory on SUSE Linux Enterprise Server* 12 using SAP HANA* 1.0, SAP NetWeaver* 7.50. Benchmark: SAP BW Advanced Mixed Load (BW-AML) @ 2 billion initial records, source: SAP Certificate #2017008, http://www.sap.com/solution/benchmark/appbm/netweaver.advanced-mixed-load-bw-aml.html. Score: Best Normalized Mean Runtime Single Query Test of 6.66 seconds/billion records and Total Runtime Delta Load/Transformation Test of 234 seconds @ 2B.

Claim based on best-published 16-socket SPECjbb*2015 MultiJVM max-jOPS results published at https://www.spec.org/jbb2015/results/jbb2015multijvm.html as of 30 March 2017. New configuration: 1-Node, 16x Intel® Xeon® Processor E7-8890 v4 on Hewlett Packard Enterprise Integrity* Superdome X with 8192 GB total memory on SUSE Linux Enterprise Server* 12 SP1 using Java* HotSpot 64-bit Server VM, version 1.8.0_102. Source: https://www.spec.org/jbb2015/results/res2016q3/jbb2015-20160830-00113.html, SPECjbb2015 MultiJVM scores: 776,269 max-jOPS and 84,557 critical-jOPS.  

Claim based on best-published 16-socket SPECjbb*2015 MultiJVM critical-jOPS results published at https://www.spec.org/jbb2015/results/jbb2015multijvm.html as of 30 March 2017. New configuration: 1-Node, 16x Intel® Xeon® Processor E7-8890 v4 on Hewlett Packard Enterprise Integrity* Superdome X with 8192 GB total memory on SUSE Linux Enterprise Server* 12 SP1 using Java* HotSpot 64-bit Server VM, version 1.8.0_102. Source: https://www.spec.org/jbb2015/results/res2016q3/jbb2015-20160830-00114.html, SPECjbb2015 MultiJVM scores: 439,937 critical-jOPS and 700,536 max-jOPS.

Claim based on best-published 8-socket SPECjbb*2015 MultiJVM critical-jOPS results published at https://www.spec.org/jbb2015/results/jbb2015multijvm.html as of 30 March 2017. New configuration: 1-Node, 8x Intel® Xeon® Processor E7-8890 v4 on Hewlett Packard Enterprise Integrity* Superdome X with 4096 GB total memory on SUSE Linux Enterprise Server* 12 SP1 using Java* HotSpot 64-bit Server VM, version 1.8.0_102. Source: https://www.spec.org/jbb2015/results/res2016q3/jbb2015-20160830-00115.html, SPECjbb2015 MultiJVM scores: 237,725 critical-jOPS and 359,735 max-jOPS.

Claim based on best-published four-socket SPECjbb*2015 MultiJVM critical-jOPS results published at http://www.spec.org/jbb2015/results/jbb2015composite.html as of 30 March 2017. New configuration: 1-Node, 4x Intel® Xeon® Processor E7-8894 v4 on Hewlett Packard Enterprise Synergy 680 Gen9 with 2048 GB total memory on Red Hat Enterprise Linux* Server 7.3 using Java* HotSpot 64-bit Server VM, version 1.8.0_121. Source: http://www.spec.org/jbb2015/results/res2017q1/jbb2015-20170315-00154.html, SPECjbb2015 MultiJVM scores 138,466 critical-jOPS and 194,068 max-jOPS.

Claim based on best-published four-socket SPECjbb*2015 Composite max-jOPS results published at http://www.spec.org/jbb2015/results/jbb2015composite.html as of 30 March 2017. New configuration: 1-Node, 4x Intel® Xeon® Processor E7-8894 v4 on Hewlett Packard Enterprise ProLiant DL580 Gen9 with 512 GB total memory on SUSE Linux Enterprise Server* 12 SP1 using Java* HotSpot 64-bit Server VM, version 1.8.0_121. Source: http://www.spec.org/jbb2015/results/res2017q1/jbb2015-20170315-00150.html, SPECjbb2015 Composite scores 186,337 max-jOPS and 86,878 critical-jOPS.

 

Claim based on best-published four-socket SPECjbb*2015 Composite max-jOPS and critical-jOPS results published at https://www.spec.org/jbb2015/results/jbb2015composite.html as of 30 March 2017. New configuration: 1-Node, 4x Intel® Xeon® Processor E7-8894 v4 on Hewlett Packard Enterprise Synergy 680 Gen9 with 512 GB total memory on SUSE Linux Enterprise Server* 12 SP1 using Java* HotSpot 64-bit Server VM, version 1.8.0_121. Source: https://www.spec.org/jbb2015/results/res2017q1/jbb2015-20170315-00152.html, SPECjbb2015 Composite scores 186,337 max-jOPS and 88,538 critical-jOPS.

 

Claim based on best overall published SPECjbb*2015 Distributed max-jOPS results published at https://www.spec.org/jbb2015/results/jbb2015distributed.html as of 30 March 2017. New configuration: 1-Node, 4x Intel® Xeon® processor E7-8894 v4 on Hewlett Packard Enterprise Synergy 680 Gen9 with 512 GB total memory on SUSE Linux Enterprise Server* 12 SP2 using Java* HotSpot 64-bit Server VM, version 1.8.0_121. Source: https://www.spec.org/jbb2015/results/res2017q1/jbb2015-20170315-00155.html, SPECjbb2015 Distributed scores: 227,634 max-jOPS and 75,399 critical-jOPS.

Claim based on best overall published SPECjbb*2015 Distributed critical-jOPS results published at https://www.spec.org/jbb2015/results/jbb2015distributed.html as of 30 March 2017. New configuration: 1-Node, 4x Intel® Xeon® processor E7-8894 v4 on Hewlett Packard Enterprise Synergy 680 Gen9 with 2048 GB total memory on Rd Hat Enterprise Linux* Server 7.3, kernel 3.10.0-513 using Java HotSpot 64-bit Server VM, version 1.8.0_121. Source: https://www.spec.org/jbb2015/results/res2017q1/jbb2015-20170315-00153.html, SPECjbb2015 Distributed scores: 142,026 critical-jOPS and 196,434 max-jOPS.

Claim based on best-published 8-socket SPECompG*_base2012 results published at https://www.spec.org/omp2012/results as of 30 March 2017. New configuration: 1-Node, 8x Intel® Xeon® processor E7-8890 v4 on HPE Integrity MC990 X with 2048 GB total memory on Red Hat Enterprise Linux* Server 7.2 kernel 3.10.0-327.18.2.el7.x86_64 using Version 16.0.3.210 of Intel® C++ Studio XE for Linux, Version 16.0.3.210 of Intel® Fortran. Source: https://www.spec.org/omp2012/results/res2016q3/omp2012-20160718-00079.pdf. SPECompG_base2012 score: 37.5 with 384 base OpenMP threads.

Hitachi:

Claim based on best-published SAP BW-AML* @ 4 Billion initial records result published at http://www.sap.com/solution/benchmark/appbm/netweaver.html as of 30 March 2017. 1-Node, 4 x Intel® Xeon® processors E7-8890 v4 (96 cores/192 threads) on Hitachi Compute Blade 520XB3, with 1536 GB total memory on SUSE Linux Enterprise Server* 12 for SAP Applications using SAP HANA* 1.0, SAP NetWeaver* 7.50. Benchmark: SAP BW Advanced Mixed Load (BW-AML) @ 4 Billion initial records, Source: SAP Certificate #2016052, http://www.sap.com/solution/benchmark/appbm/netweaver.advanced-mixed-load-bw-aml.html. Score: Best normalized mean runtime single query test (5.56 seconds / billion records).

Huawei:

Claim based on best-published four-socket SPECint*_rate_base2006 result published at https://www.spec.org/cpu2006/results as of 30 March 2017. New configuration: 1-Node, 4x Intel® Xeon® processor E7-8894 v4 (24 cores, 48 threads) on Huawei* RH5885H V3 with 512 GB total memory on SUSE* Linux Enterprise Server 12 (x86_64) SP1, Kernel 3.12.49-11-default, Version 16.0.0.101 of Intel® C++ Studio XE for Linux, source: https://www.spec.org/cpu2006/results/res2017q1/cpu2006-20170123-46508.pdf. SPECint_rate_base2006 score: 3800.

Claim based on best-published 16-socket SPECint*_rate_base2006 result published at https://www.spec.org/cpu2006/results as of 30 March 2017. New configuration: 1-Node, 16x Intel® Xeon® processor E7-8890 v4 (24 cores, 48 threads) on Huawei Kunlun 9016 with 2048 GB total memory on SUSE* Linux Enterprise Server 12 (x86_64) SP1, Kernel 3.12.49-11-default, Version 16.0.0.101 of Intel® C++ Studio XE for Linux*, source: https://www.spec.org/cpu2006/results/res2017q1/cpu2006-20170302-46704.pdf. SPECint_rate_base score: 13800.

Claim based on best-published two-socket SPECfp*_rate_base2006 result published at https://www.spec.org/cpu2006/results as of 30 March 2017. New configuration: 1-Node, 2x Intel® Xeon® processor E7-8890 v4 (24 cores, 48 threads) on Huawei* RH5885H V3 with 256 GB total memory, Red Hat Enterprise Linux Server release 7.2 (Maipo) 3.10.0-327.e17.x86_64, Version 16.0.0.101 of Intel® C++ Studio XE for Linux*, Version 16.0.0.101 of Intel® Fortran Studio XE for Linux, source: https://www.spec.org/cpu2006/results/res2016q2/cpu2006-20160517-41370.pdf. SPECfp_rate_base2006 score: 1240.

Claim based on best-published four-socket SPECfp*_rate_base2006 result published at https://www.spec.org/cpu2006/results as of 30 March 2017. New configuration: 1-Node, 4x Intel® Xeon® processor E7-8894 v4 (24 cores, 48 threads) on Huawei* RH5885H V3 with 512 GB total memory on SUSE* Linux Enterprise Server 12 (x86_64) SP1, Kernel 3.12.49-11-default, Version 16.0.0.101 of Intel® C++ Studio XE for Linux*, Version 16.0.0.101 of Intel® Fortran Studio XE for Linux, source: https://www.spec.org/cpu2006/results/res2017q1/cpu2006-20170123-46525.pdf.. SPECfp_rate_base2006 score: 2460.

Claim based on best-published 8-socket SPECjbb*2015 MultiJVM Critical-jOPS result published at https://www.spec.org/jbb2015/results/ as of 30 March 2017. New configuration: 1-Node, 8x Intel® Xeon® processor E7-8890 v4 (24 cores, 48 threads) on Huawei* RH8100 V3 with 1024 GB total memory on SUSE* Linux Enterprise Server* 12 using Oracle Java* SE 8u92, Java HotSpot 64-bit Server VM, version 1.8.0_92. Source: https://www.spec.org/jbb2015/results/res2016q2/jbb2015-20160511-00092.html. SPECjbb*2015 - MultiJVM score: 411,801 max-jOPS and 119,520 critical-jOPS.

Lenovo:

Claim based on best-published 8-socket SPECint*_base2006 benchmark published at https://www.spec.org/cpu2006/results as of 30 March 2017. New configuration: 1-Node, 8x Intel® Xeon® processor E7-8891 v4 (10 cores, 20 threads) on Lenovo* System x*3950 X6 with 1024 GB memory on SUSE* Linux Enterprise Server 12 SP1, using Version 16.0.0.101 of Intel® C/C++ Studio XE for Linux*, Source: https://www.spec.org/cpu2006/results/res2016q3/cpu2006-20160809-43451.pdf. SPECint_base2006 score: 71.1.

Claim based on best-published 8-socket SPECfp*_base2006 benchmark published at https://www.spec.org/cpu2006/results as of 30 March 2017. New configuration: 1-Node, 8x Intel® Xeon® processor E7-8891 v4 (10 cores, 20 threads) on Lenovo* System x*3950 X6 with 1024 GB memory on SUSE* Linux Enterprise Server 12 SP1, using Version 16.0.0.101 of Intel® C/C++ Studio XE for Linux*, Version 16.0.0.101 of Intel® Fortran Studio XE for Linux, Source: https://www.spec.org/cpu2006/results/res2016q3/cpu2006-20160809-43447.pdf. SPECfp_base2006 score: 129.

Claim based on best-published 8-socket SAP SD Standard Application Benchmark* result on Microsoft Windows* published at http://global.sap.com/solutions/benchmark as of 30 March 2017. New configuration: 2-tier, 8x Intel® Xeon® processor E7-8894 v4 (192 cores/384 threads) on Lenovo System x3950 X6 with 2048 GB total memory on Windows Server* 2012 R2 Standard Edition using SAP Enhancement Package 5 for SAP ERP 6.0 and IBM DB2 10.1. Benchmark: SAP* SD 2-Tier enhancement package 5 for SAP ERP 6.0. Source: Certification #2017002, http://global.sap.com/solutions/benchmark/sd2tier.epx. Score: 77,098 benchmark users.

Claim based on best-published SAP* BW edition for SAP HANA Standard Application Benchmark* @ 1.3 billion initial records result published at http://global.sap.com/solutions/benchmark as of 30 March 2017. New configuration: 4x Intel® Xeon® processor E7-8894 v4 (96 cores/192 threads) on Lenovo System x3850 X6 with 2048 GB total memory on SUSE Linux Enterprise Server 11 using SAP HANA 1.0, SAP NetWeaver 7.50. Benchmark: SAP BW for SAP HANA @ 1.3B initial records, Source: Certification #2017003, http://www.sap.com/solution/benchmark/appbm/netweaver.sap-bw-edition-for-sap-hana-standard-application.html. Score: Runtime of Data Load/Trans (14,939 secs), Query Executions per Hour (4,273), Runtime of Complex Query (154 seconds).

Claim based on best-published 8-socket SPECvirt_sc*2013 results published at https://www.spec.org/virt_sc2013/results/ as of 30 March 2017. New configuration: 1-Node, 8x Intel® Xeon® processor E7-8890 v4 on Lenovo* System x3950 X6 with 4096 GB total memory on Red Hat Enterprise Linux* 7.2 (KVM). Source: https://www.spec.org/virt_sc2013/results/res2016q3/virt_sc2013-20160830-00062-perf.html, SPECvirt_sc2013 score: 8284 @ 462 VMs.

Claim based on best-published SPECvirt_sc*2013 results published at https://www.spec.org/virt_sc2013/results/ as of 30 March 2017. New configuration: 1-Node, 4x Intel® Xeon® processor E7-8890 v4 on Lenovo* System x3850 X6 with 2048 GB total memory on Red Hat Enterprise Linux* 7.2 (KVM). Source: https://www.spec.org/virt_sc2013/results/res2016q3/virt_sc2013-20160913-00063-perf.html, SPECvirt_sc2013 score: 4377 @ 247 VMs.

Claim based on best-published four-socket TPC Benchmark* E results published at http://www.tpc.org/tpce/results/tpce_perf_results.asp as of 30 March 2017. New configuration: 1-Node, 4x Intel® Xeon® processor E7-8890 v4 on Lenovo* System x3850 X6 with 4096 GB total memory on Windows Server* 2012 R2 Standard using SQL Server* 2016 Enterprise Edition. Availability: July 31, 2016. Source: www.tpc.org/4078. Score: 9,068 tpsE, at a price/performance ratio of $139.85 USD/tpsE*.

Claim based on best-published STAC-M3* 15 world records (Shasta Suite) at http://www.stacresearch.com/m3 as of 30 March 2017. New configuration: 1-Node, 4x Intel® Xeon® processor E7-8890 v4 on Lenovo* System x3850 X6 with 6144 GB total memory on Red Hat Enterprise Linux* 7.2-kernel 3.10.0-327 using Kx Systems* kdb+ 3.3 software. STAC-M3 Tick Analytics Benchmarks, Shasta Suite (15 of 15 benchmarks required) source: http://www.STACresearch.com/KDB160425.

SGI:

Claim based on best-published 32-socket SPECompG*_base2012 results published at https://www.spec.org/omp2012/results as of 30 March 2017. New configuration: 1-Node, 32x Intel® Xeon® processor E7-8867 v4 on SGI* UV 300 with 8192 GB total memory on SUSE Linux Enterprise Server* 12 SP1 using C/C++/Fortran: Version 16.0.3.210 of Intel® Composer XE for Linux, Build 20150415. Source: https://www.spec.org/omp2012/results/res2016q3/omp2012-20160613-00077.pdf, SPECompG_base2012 score: 84.5 with 513 base OpenMP threads.

Claim based on best-published 16-socket SPECompG*_base2012 results published at https://www.spec.org/omp2012/results as of 30 March 2017. New configuration: 1-Node, 16x Intel® Xeon® processor E7-8867 v4 on SGI* UV 300 with 4096 GB total memory on SUSE Linux Enterprise Server* 12 SP1 using C/C++/Fortran: Version 16.0.3.210 of Intel® Composer XE for Linux, Build 20160415, source: https://www.spec.org/omp2012/results/res2016q3/omp2012-20160613-00078.pdf, SPECompG_base2012 score: 57.0 with 512 base OpenMP threads. 

Additional information: 6 7 8 9 10 11 12 13 14

Informazioni su prodotti e prestazioni

1

L'affermazione query ad hoc fino a 2,1 volte più veloci si basa su fattore di scala TPC-H @ 3000GB confrontando HPE ProLiant* DL580 Gen9 con processori Intel® Xeon® E7-8890 v4 (4P, 96C, 192T), database Actian* Vector 5.0 con punteggio di 2.140.307 QphH@3000GB, 0,38$/QphH@3000GB disponibile in data 6/6/2016 (fonte: http://www.tpc.org/3323) con processori Intel Xeon E7-8890 v3 (4P, 72C/144T), 1.071.018 QphH@3000GB, $0,60/QphH@3000GB disponibile in data 1/06/2016 (fonte: http://www.tpc.org/3322)

2

Affermazione relativa a fino a 19 volte di query all’ora ad un costo del 98% inferiore per query confrontando un server HPE* DL580 Gen9 con processori Intel Xeon E7-8890 v4 (4P, 96C, 192T), database Actian* con punteggio di 2.140.307 QphH@3000GB, $0,38/QphH@3000GB disponibile in data 06/06/16 (fonte: http://www.tpc.org/3323) con processori Xeon X7460 (16P, 96C, 96T), database SQL Server* 2008 Datacenter Edition R2 con punteggio di 102.778QphH@3000GB, $21,05/QphH@3000GB disponibile in data 5/06/10 (fonte storica: http://www.tpc.org/3245)

3

Prestazioni medie fino a 1,3 volte superiori con i principali benchmark di settore (SPECjbb*2015 Multi-JVM Critical e Max jOPS, SPECint*_rate_base2006, SAP SD* 2-tier, SPECvirt_sc*2013 e TPC-E*) confrontando i migliori risultati pubblicati di server OEM a 4 socket su SPEC.org, SAP.com/benchmarks e TPC.org. Per ulteriori informazioni, visitare il sito Web all'indirizzo www.intel.com/E7v4Record.

4

Affermazione relativa a fino a 1,35 volte VM basata sul benchmark SPECvirt_sc*2013 confrontando 1 nodo, 4 processori Intel® Xeon® E7-8890 v3 con 2 TB di memoria totale su Red Hat Enterprise Linux* 6.6 utilizzando Red Hat Enterprise Linux 6.6 (KVM). Fonte dei dati: http://www.spec.org/virt_sc2013/results/res2016q1/virt_sc2013-20160126-00041-perf.html, Benchmark: SPECvirt_sc* 2013, Punteggio: 3118 con 174 VM 1 nodo, 4 processori Intel® Xeon® E7-8890 v4 su Hewlett Packard Enterprise con 2048 GB di memoria totale con Red Hat Enterprise Linux* 7.2-kernel 3.10.0-327. Fonte: https://www.spec.org/virt_sc2013/results/res2016q2/virt_sc2013-20160517-00050-perf.html, Benchmark: SPECvirt_sc* 2013, Punteggio: 4231 con 237 VM. Un valore superiore indica un risultato migliore.

5

Affermazione fino a 1/3 di server implementati in meno con riduzione delle spese operative basata su ipotesi e stime del Tool per la stima del risparmio derivante dal rinnovo dei server confrontando server a quattro socket con 8 porte GbE per server, costi di supporto per server pari a $1.399 all’anno, costo di validazione per server di $1.000, $0,10/kWh con il 10% di utilizzazione media, costi di manodopera il 50% inferiori, $2.399 di manutenzione all’anno per server e $15 di manutenzione di rete per server all'anno.

  • 100 processori Intel® Xeon® E7-4870 (30 MB di cache, 2,40 GHz, precedentemente noto con nome in codice “Westmere-EX”), punteggio SPECint*_rate_base2006 di 1100 con compilatore Intel 12.1, consumo stimato 392 W idle/692 W attivo
  • rispetto a 33 processori Intel® Xeon® E7-8890 v4 (60 MB di cache, 2,20 GHz, precedentemente noto con nome in codice “Broadwell-EX””), punteggio SPECint*_rate_base2006 di 3380 con compilatore Intel 14, consumo stimato 250 W idle/1200 W attivo.
6

Il software e i carichi di lavoro utilizzati nei test delle prestazioni possono essere stati ottimizzati per le prestazioni solo su microprocessori Intel®. I test delle prestazioni, come SYSmark e MobileMark, sono calcolati utilizzando specifici sistemi computer, componenti, software, operazioni e funzioni. Qualunque variazione in uno di questi fattori può comportare risultati diversi. Consultare altre fonti di informazione e altri test delle prestazioni per una valutazione completa dei prodotti che si desidera acquistare, comprese le prestazioni di tali prodotti se abbinati ad altri prodotti. Per ulteriori informazioni, visitare il sito Web all'indirizzo www.intel.it/benchmarks.

7

Intel non controlla né verifica la progettazione o l'implementazione di benchmark o siti Web di terze parti citati in questo documento. Intel incoraggia tutti i clienti a visitare i siti Web citati o altri siti in cui vengono segnalati benchmark delle prestazioni simili e verificare se i benchmark citati sono accurati e riflettono le prestazioni dei sistemi da acquistare.

8

Avviso sull'ottimizzazione: i compilatori Intel possono o meno garantire lo stesso livello di ottimizzazione per i microprocessori non Intel per quanto riguarda ottimizzazioni non esclusive dei soli microprocessori Intel®. Queste ottimizzazioni includono serie di istruzioni Intel® Streaming SIMD Extensions 2 (Intel® SSE2), Intel® SSE3 e Supplemental Streaming SIMD Extensions 3 (SSSE3) e altre ottimizzazioni. Intel non garantisce la disponibilità, la funzionalità o l'efficacia di qualsiasi ottimizzazione su microprocessori non prodotti da Intel. Le ottimizzazioni dipendenti dai microprocessori in questo prodotto sono pensate per l'uso con microprocessori Intel. Alcune ottimizzazioni non specifiche per la microarchitettura Intel® sono riservate ai microprocessori Intel. Fare riferimento alle Guide dell'utente e alle Guide di riferimento dei prodotti applicabili per ulteriori informazioni sugli specifici set di istruzioni a cui si riferisce questo avviso. Revisione avviso #20110804

9

Le caratteristiche e i vantaggi delle tecnologie Intel® dipendono dalla configurazione di sistema e potrebbero richiedere hardware e software abilitati o l'attivazione di servizi. Le prestazioni variano in base alla configurazione di sistema. Nessun sistema informatico può essere totalmente sicuro. Rivolgersi al fornitore di software, produttore o rivenditore del proprio sistema oppure consultare il sito Web all'indirizzo http://www.intel.com/software/tsx per maggiori informazioni.

10

I processori Intel® con la stessa SKU potrebbero variare a livello di frequenza o potenza a causa della naturale variabilità del processo di produzione.

11

SPEC* e i nomi dei benchmark SPECint*, SPECfp*, SPECjbb*, SPECjEnterprise*, SPECvirt_sc*, SPECpower_ssj*, SPECompM* e SPECompL* sono marchi registrati di Standard Performance Evaluation Corporation.

12

TPC Benchmark, TPC-C, tpmC, TPC-H, QphH, TPC-E e tpsE sono marchi del Transaction Processing Council. Per ulteriori informazioni, visitare www.tpc.org.

13

SAP e SAP NetWeaver sono marchi registrati di SAP AG in Germania e in molti altri Paesi. Per ulteriori informazioni, consultare www.sap.com/benchmark.

14

VMware è un marchio registrato e VMmark è un marchio di VMware, Inc.