De browserversie die u gebruikt, wordt niet aangeraden voor deze site.
Overweeg up te graden naar de nieuwste versie van uw browser door op een van deze koppelingen te klikken.

Intel® Xeon Phi™ Product Family

Power your breakthrough innovations with the highly parallel processing of the Intel® Xeon Phi™ coprocessor. We have packed over a teraFLOPS of double-precision peak performance into every chip.

Life science applications

Life sciences is one of the largest commercial market segments for high-performance computing. Life sciences includes many disciplines, such as chemistry, bio-chemistry, molecular modeling, protein folding, genomics, and statistical analysis to name a few. Quick simulation and analysis leads to breakthroughs in all areas of the life sciences. BWA maps human genomes. Gromacs simulates particle molecular dynamics. LAMMPS is a versatile large scale atomic simulation package. MPI-HMMER is an open source MPI implementation of the HMMER protein sequence analysis suite. NAMD is a parallel molecular dynamics code for large bio molecular systems.

Developer starter kits >

Configuration Details:

BLASTp & BLASTn : (v.30) (Heterogeneous)

Platform hosting the coprocessor and platform for two-socket Intel® Xeon® processor baseline:

Two-socket Intel® Software Development Platform: two Intel Xeon processors E5-2697v2 (12Core, 30M cache, 2.7GHz, 8.0GT/s Intel QPI, 130W TDP, Intel® Turbo Boost Technology on, Intel® Hyper-Threading Technology on) 64GB Memory at 1600 MHz, RHEL 6.4

Coprocessor details:

Intel® Xeon Phi™ coprocessor 7120A: 61cores, 1.238GHz, 16 memory channels, 16GB Memory at 5.5GT/s, 300W TDP C-step (Intel Turbo Boost Technology off, error-correcting code (ECC) on)

Software Stack (Intel Xeon Phi coprocessor):

MPSS 3.3.1, Intel® Compiler 15.0.0

 

  BLASTp

BLASTn

Two-socket Intel Xeon processor score:

56.0 sec

52.5 sec (lower is better)

Two-socket Intel Xeon processor + Intel® Xeon Phi™ coprocessor score:

48.5 sec 

41.8 sec (lower is better)

Source: Intel Internal Testing TR 2110

 

Soft Sphere Simulation (Pre Beta version) (3D Molecular Dynamic application of CAS IPC (Institute of Process Engineering, Chinese Academy of Sciences): Workload 90*90*90 (NDA Result) (Native)

Platform hosting the coprocessor and platform for two-socket Intel Xeon processor baseline:

Two-socket Intel Software Development Platform: two Intel Xeon processors E5-2697v2 (12Core, 30M cache, 2.7GHz, 8.0GT/s Intel QPI, 130W TDP, Intel Turbo Boost Technology on, Intel Hyper-Threading Technology on) 64GB Memory at 1600MHz, RHEL 6.2

Coprocessor Details:

Intel Xeon Phi coprocessor 7120A: 61cores, 1.238GHz, 16 memory channels, 16GB Memory at 5.5GT/s, 300W TDP C-step (Turbo on, ECC on)

Software Stack (Intel Xeon Phi coprocessor):

MPSS 2.1.6720-19, Intel Composer XE sp1.1.106, Intel MPI 4.1.0.030
Two-socket Intel® Xeon® processor score: 14.6 seconds (lower is better)
Two-socket Intel Xeon processor + Intel® Xeon Phi™ coprocessor score: 8.75 seconds (lower is better)

Source: Intel Internal Testing TR 2103

 

BWA:  (Burrow-Wheeler Aligner Release bwa-0.5.10)

Platform hosting the coprocessor and platform for two-socket Intel Xeon processor baseline:

Two-socket Intel Software Development Platform: two Intel Xeon processors E5-2697v2 (12Core, 30M cache, 2.7GHz, 8.0GT/s Intel QPI, 130W TDP, Intel Turbo Boost Technology on, Intel® Hyper-Threading Technology on) 64GB Memory at 1600MHz, RHEL 6.4

Coprocessor Details:

Intel® Xeon Phi™ coprocessor 7120A: 61cores, 1.238GHz, 16 memory channels, 16GB Memory at 5.5GT/s, 300W TDP C-step (Intel Turbo Boost Technology off, ECC on)

Software Stack (Intel Xeon Phi coprocessor):

MPSS 2.1.6720-16 (Flash: 2.1.03.0386; coprocessor OS: 2.6.38.8-gefd324e)

Intel Composed XE 13.1.3 163.0, Intel MPI 4.1.1.030

Two-socket Intel® Xeon® processor score Xeon Score: 178.73 seconds (lower is better)

Two-socket Intel Xeon processor + Intel® Xeon Phi™ coprocessor score: 119.17 seconds (lower is better)

Two-socket Intel Xeon processor + two Intel® Xeon Phi™ coprocessor score: 87.83 seconds (lower is better)

Source: Intel Internal Testing TR 2093

 

NAMD : ( STMV single node, 23ppn, 2.10 Pre-Release)

Platform hosting the coprocessor and platform for two-socket Intel® Xeon® processor baseline:

Two-socket Intel Software Development Platform: two Intel Xeon processors E5-2697v2 (12Core, 30M cache, 2.7GHz, 8.0GT/s Intel QPI, 130W TDP, Intel Turbo Boost Technology on, Intel® Hyper-Threading Technology on) 64GB Memory at 1600MHz, RHEL 6.2

Coprocessor Details:

Intel® Xeon Phi™ coprocessor 7120A: 61cores, 1.238GHz, 16 memory channels, 16GB Memory at 5.5GT/s, 300W TDP C-step (Intel Turbo Boost Technology, ECC on)

Software Stack (Intel Xeon Phi coprocessor):

MPSS 2.1.6720-21 (Flash: 2.1.03.0386; coprocessor OS: 2.6.38.8-gefd324e)

Intel Compiler 13.1.3 20130607

Two-socket Intel Xeon processor score Xeon Score: 0.158 ns/day (higher is better)
Two-socket Intel Xeon processor + two Intel Xeon Phi coprocessor score: 0.513 ns/day (higher is better)

Source: Intel Internal Testing TR 2100A

 

AMBER 14: ( Cellulose NPT, 408K Atoms) (Sept 2014)

Platform hosting the coprocessor and platform for two-socket Intel Xeon processor baseline:

Two-socket Intel Software Development Platform: two Intel Xeon processors E5-2697v2 (12Core, 30M cache, 2.7GHz, 8.0GT/s Intel QPI, 130W TDP, Intel Turbo Boost Technology on, Intel Hyper-Threading Technology on) 64GB Memory at 1600MHz, RHEL 6.5

Coprocessor Details:

Intel Xeon Phi coprocessor 7120A: 61cores, 1.238GHz, 16 memory channels, 16GB Memory at 5.5GT/s, 300W TDP C-step (Intel Turbo Boost Technology off, ECC on)

Software Stack (Intel Xeon Phi coprocessor):

MPSS 2.1.6720-19 (Flash: 2.1.03.0386)

Intel Compiler 14.0 U1 , Intel MPI 4.1.1.036

Two-socket Intel Xeon processor score Xeon Score: 1.55 ns/day (higher is better)

Two-socket Intel Xeon processor + Intel Xeon Phi coprocessor score:  1.98 ns/day (higher is better)

Source: Intel Internal Testing TR 2108A

 

MPIHammer:

Platform hosting the coprocessor and platform for two-socket Intel® Xeon® processor baseline:

Two-socket Intel Software Development Platform: two Intel Xeon processors E5-2670 (8Core, 20M cache, 2.6GHz, 8.0GT/s Intel QPI, 115W TDP, Intel Turbo Boost Technology on, Intel Hyper-Threading Technology on) 64GB Memory @ 1600MHz, RHEL 6.4

Coprocessor Details:

Intel Xeon Phi coprocessor 7120A: 61cores, 1.238GHz, 16 memory channels, 16GB Memory at 5.5GT/s, 300W TDP C-step (Intel Turbo Boost Technology off, ECC on)

Software Stack (Intel Xeon Phi coprocessor):

MPSS 2.1.6720-13 (Flash: 2.1.02.0386; coprocessor OS: 2.6.38.8-g5f2543d)

Intel Composed XE 2013.3.163

Two-socket Intel Xeon processor score Xeon Score: 89 seconds

Two-socket Intel Xeon processor + Intel Xeon Phi coprocessor score: 57 Seconds

Source: Intel Internal Testing TR 2051

 

Bowtie 2 (John Hopkins – version 2.2.3)  (workload = TGen)  (Jan 2015) (Heterogeneous)

Platform hosting the coprocessor and platform for two-socket Intel Xeon processor baseline:

Two-socket Intel Software Development Platform: two Intel Xeon processors E5-2697v2 (2 x 12Core, 30M cache, 2.7GHz, 8.0GT/s Intel QPI, 135W TDP, Intel Turbo Boost Technology on, Intel Hyper-Threading Technology on)  64GB Memory at 1600MHz, RHEL 6.4

Coprocessor Details:

Intel Xeon Phi coprocessor 7120A: 61cores, 1.238GHz, 16 memory channels, 16GB Memory at 5.5GT/s, 300W TDP C-step (Intel Hyper-Threading Technology off, ECC on)

Software Stack (Intel Xeon Phi coprocessor):

MPSS 3.4.1, Intel Compiler 15.0.09

Two-socket Intel Xeon processor score Xeon Score: 1721.78 Seconds (run time) lower is better

Two-socket Intel Xeon processor + Intel Xeon Phi coprocessor score: 1253.78 Seconds (run time) lower is better

Source: Intel Internal Testing TR 2118

 

LAMMPS (Rhodopsin Benchmark, 512K atoms, August 2014 Main LAMMPS repository) (Sept 2014)

Platform hosting the coprocessor and platform for two-socket Intel® Xeon® processor baseline:

Two-socket Intel Software Development Platform: two Intel Xeon processors E5-2697v2 (2 x 12Core, 30M cache, 2.7GHz, 8.0GT/s Intel QPI, 135W TDP, Intel Turbo Boost Technology on, Intel Hyper-Threading Technology on)  64GB Memory at 1600MHz, RHEL 6.5

Coprocessor Details:

Intel Xeon Phi coprocessor 7120A: 61cores, 1.238GHz, 16 memory channels, 16GB Memory at 5.5GT/s, 300W TDP C-step (Intel Turbo Boost Technology off, ECC on)

Software Stack (Intel Xeon Phi coprocessor):

MPSS 2.1.6720-13, Flash 2.1.03.0386

Intel Compiler 14.0.1; Intel MPI5.0.028

Two-socket Intel Xeon processor score: 16.94 Seconds (simulation time) lower is better

Two-socket Intel Xeon processor + Intel Xeon Phi coprocessor score: 11.40 seconds (lower is better)

Source: Intel Internal Testing TR 2104B

 

Quantum Espresso (QE) DEISA Benchmark – AUSRUF112 (version 5.0.3 - July 2014)

(http://qe-forge.org/gf/download/frsrelease/45/78/AUSURF112.tgz)

 http://www.quantum-espresso.org

Platform hosting the coprocessor and platform for two-socket Intel Xeon processor baseline:

Two-socket Intel Software Development Platform: two Intel Xeon processors E5-2697v2 (2 x 12Core, 30M cache, 2.7GHz, 8.0GT/s Intel QPI, 135W TDP, Intel Turbo Boost Technology on, Intel Hyper-Threading Technology on) 64GB Memory at 1600MHz, RHEL 6.4

Coprocessor Details:

Intel Xeon Phi coprocessor 7120A: 61cores, 1.238GHz, 16 memory channels, 16GB Memory at 5.5GT/s, 300W TDP C-step (Intel Turbo Boost Technology off, ECC on)

Software Stack (Intel Xeon Phi coprocessor):

MPSS 2.1.6720-16 (Flash:  2.1.02.0386)

Intel Compiler 14.0.1; Intel MPI 4.1.1.036

 

1 Node

16 Nodes

Two-socket Intel Xeon processor score Xeon Score:

26.84 seconds

4.33 seconds

Two-socket Intel Xeon processor + Intel Xeon Phi coprocessor score:

19.10 seconds

2.63 seconds

Source: Intel Internal Testing TR 2092

 

NWCHEM CCSD(T) (www.nwchem-sw.org / https://svn.pnl.gov/svn/nwchem/trunk ) - Computational chemistry software package (Quantum chemistry  and Molecular dynamics), (code 6.5 in development) July 2014.

Platform hosting the coprocessor and platform for two-socket Intel® Xeon® processor baseline: 

Two-socket Intel Software Development Platform: two Intel Xeon processors E5-2697v2 (2 x 12Core, 30M cache, 2.7GHz, 8.0GT/s Intel QPI, 135W TDP, Intel Turbo Boost Technology on, Intel Hyper-Threading Technology on) 64GB Memory at 1600MHz, RHEL 6.4

Coprocessor Details:

Intel Xeon Phi coprocessor 7120A: 61cores, 1.238GHz, 16 memory channels, 16GB memory at 5.5GT/s, 300W TDP C-step (Intel Turbo Boost Technology, ECC on)

Software Stack (Intel Xeon Phi coprocessor):

MPSS 2.1.6720-16 /Flash Version: 2.1.03.0386

Intel Compiler 14.0.0 U1; Intel MPI 4.1.1.036

Fabrics: FDR Mellanox

Two-socket Intel Xeon processor score: 747.0 sec (lower is better)

Two-socket Intel Xeon processor + two Intel Xeon Phi coprocessors score: 552.6 sec (lower is better)

Source: Intel Internal Testing TR 2105

 

GROMACS (Version 5.0-rc1workload 512K H20 with RF method)

Platform hosting the coprocessor and platform for two-socket Intel Xeon processor baseline:

Two-socket Intel Software Development Platform: two Intel Xeon processors E5-2697v2 (12Core, 30M cache, 2.7GHz, 8.0GT/s Intel QPI, 130W TDP, Intel Turbo Boost Technology on, Intel Hyper-Threading Technology on) 64GB Memory at 1600MHz, RHEL 6.4

Coprocessor Details:

Intel Xeon Phi coprocessor 7120A: 61cores, 1.238GHz, 16 memory channels, 16GB Memory at 5.5GT/s, 300W TDP C-step (Intel Turbo Boost Technology off, ECC on)

Software Stack (Intel Xeon Phi coprocessor):

MPSS 2.1.6720-13 (Flash: 2.1.03.0386; coprocessor OS: 2.6.38.8-gefd324e)

Intel Composed XE 13.3.163.0, Intel MPI 4.1.1.030

Two-socket Intel Xeon processor score:  2.312 ns/day

Two-socket Intel Xeon processor + Intel Xeon Phi coprocessor score:  3.605 ns/day seconds

Source: Intel Internal Testing TR 2101

 

Open LB (Lattice Boltzmann Method) (Release olb-0.8r0)

Platform hosting the coprocessor and platform for two-socket Intel Xeon processor baseline:

Two-socket Intel Software Development Platform: two Intel Xeon processors E5-2697v2 (12Core, 30M cache, 2.7GHz, 8.0GT/s Intel QPI, 130W TDP, Intel Turbo Boost Technology on, Intel Hyper-Threading Technology on)  64GB Memory at 1600MHz, RHEL 6.2

Coprocessor Details:

Intel Xeon Phi coprocessor 7120A: 61cores, 1.238GHz,  16 memory channels, 16GB Memory at 5.5GT/s, 300W TDP C-step (Intel Turbo Boost Technology, ECC on)

Software Stack (Intel Xeon Phi coprocessor):

MPSS 3.3 (Flash: 2.1.02.0390; coprocessor OS: 2.6.38.8)

Intel Composed XE 15.0.0.90, Intel MPI 5.0.1.035

Two-socket Intel Xeon processor score: 0.27 seconds (time/step, lower is better)

Two-socket Intel Xeon processor + Intel Xeon Phi coprocessor score: 0.179 seconds (time/step, lower is better)

Source: Intel Internal Testing TR 2113

Additional information: 1 2 3 4 5

Gerelateerde video's

Product- en prestatiegegevens

1

De software en werkbelasting die in de prestatietests worden gebruikt, zijn mogelijk alleen geoptimaliseerd voor prestaties op Intel® microprocessors. Prestatietests, zoals SYSmark en MobileMark, worden gemeten met specifieke computersystemen, componenten, software, bewerkingen en functies. Wijziging van een van deze factoren kan ervoor zorgen dat de resultaten variëren. Het is raadzaam om andere informatie en prestatietests te raadplegen zodat u een weloverwogen aankoopbesluit kunt nemen op basis van uw evaluatie, inclusief de prestaties van het product in combinatie met andere producten. Voor meer informatie, surf naar www.intel.nl/performance.

2

Intel beheert, noch controleert het ontwerp of de implementatie van benchmarks van derden of websites waar in dit document naar gerefereerd wordt. Intel raadt alle klanten aan om de websites te bezoeken waarnaar wordt verwezen of naar andere sites te gaan waar vergelijkbare prestatiebenchmarks worden gerapporteerd en te controleren of deze benchmarks nauwkeurig zijn en betrekking hebben op systemen die beschikbaar zijn voor aanschaf.

3

Intel-processornummers duiden niet op een prestatieniveau. Processornummers geven de onderscheidende kenmerken binnen een processorfamilie aan, niet binnen meerdere processorfamilies. Surf naar www.intel.com/content/www/nl/nl/processors/processor-numbers.html voor meer informatie.

4

Het is mogelijk dat Intel's compilers de optimalisaties niet op hetzelfde niveau kunnen bewerkstelligen voor niet-Intel microprocessors, indien het optimalisaties betreft die niet uitsluitend voorbehouden zijn aan Intel® microprocessors. Het betreft onder andere de optimalisaties SSE2, SSE3 en SSE3 instructiesets, en andere optimalisaties. Intel kan de beschikbaarheid, functionaliteit of effectiviteit van een optimalisatie niet garanderen indien de microprocessor niet vervaardigd is door Intel.

De optimalisaties in dit product die afhankelijk zijn van de microprocessor, zijn gebaseerd op gebruik van Intel microprocessors. Bepaalde optimalisaties die niet specifiek gericht zijn op de Intel® microarchitectuur, zijn voorbehouden aan Intel microprocessors. Gelieve de hiervoor bestemde gebruiks- en referentiegidsen voor meer informatie betreffende de specifieke instructiesets waar deze opmerking op van toepassing is.

Revisie opmerking #20110804

5

Verschillende hardware architecturen kunnen verschillende sourcecodes vereisen. Resultaten zijn afhankelijk van Intels inspanningen om een code te gebruiken die geoptimaliseerd is om compatibel met alle architecturen te zijn en hetzelfde werk te verrichten. Mogelijke toekomstige optimalisaties aan de code kunnen tot nieuwe resultaten leiden.

De optimalisaties in dit product die afhankelijk zijn van de microprocessor, zijn bedoeld om met Intel® microprocessors te gebruiken. Bepaalde optimalisaties die niet specifiek gericht zijn op de Intel® microarchitectuur, zijn voorbehouden aan Intel microprocessors. Gelieve de hiervoor bestemde gebruiks- en referentiegidsen voor meer informatie betreffende de specifieke instructiesets waar deze opmerking op van toepassing is.

Revisie opmerking #20110804