Intel® Xeon® Processor E3-1200 v5 Product Family General and Technical Compute Performance
The Intel® Xeon® processor E3-1200 v5 product family-based entry servers are small-business servers based on the Intel® Xeon® processor E3-1200 v5 product family that deliver outstanding performance at a great value, enabling small businesses to manage their IT investments smarter.
The latest family of Intel® Xeon® processors E3 v5 product deliver powerful performance for the best user experiences, high productivity, and great efficiency. Intel ran a series of industry standard benchmarks to demonstrate this gain in performance with the new family. The benchmarks ran include general purpose workloads, such as SPEC CPU* 2006, Stream Triad, and LINPACK characterize compute, memory, and software characteristics, which serve as a yardstick for a very wide variety of server usages such as compression, compilation, AI, gene sequencing, and many other applications workloads. The measured or published results help IT decision makers create a first-level assessment of various server options, analyze consolidation opportunities, do capacity planning, and assess the valuation of the services offered. Scroll to see the results.
Integer Throughput with SPECint*_rate_base2006
SPEC CPU* 2006 is a benchmark to measure system efficiency during integer and floating point operations. It consists of an integer test suite containing 12 applications and a floating-point test suite containing 17 applications that are extremely computing-intensive and concentrate on the CPU and memory. Other components, such as disk I/O and network, are not measured by this benchmark. SPEC CPU* 2006 contains two different methods of performance measurement: The first, "speed," determines the time required to complete a single task; the second, "rate," determines the throughput—that is, how many tasks can be completed in parallel. Both methods are additionally subdivided into two measuring runs: "base" and "peak," which differ in the way the compiler optimization is used. The "base" values are always used when results are published, and the "peak" values are optional. For more information, please visit: http://www.spec.org/cpu2006.
Estimated based on measurements October 2015. View configuration details ›
Floating Point Throughput with SPECfp*_rate_base2006
SPEC CPU* 2006 is a benchmark to measure system efficiency during integer and floating point operations. It consists of an integer test suite containing 12 applications and a floating-point test suite containing 17 applications that are extremely computing-intensive and concentrate on the CPU and memory. Other components, such as disk I/O and network, are not measured by this benchmark. SPEC CPU* 2006 contains two different methods of performance measurement: The first, "speed," determines the time required to complete a single task; the second, "rate," determines the throughput—that is, how many tasks can be completed in parallel. Both methods are additionally subdivided into two measuring runs: "base" and "peak," which differ in the way the compiler optimization is used. The "base" values are always used when results are published, and the "peak" values are optional. For more information, please visit: http://www.spec.org/cpu2006.
Estimated based on measurements October 2015. View configuration details ›
Memory Bandwidth with STREAM
STREAM has become a defacto standard for measuring a platforms memory bandwidth. STREAM performs a series of reads and writes to/from very large arrays to determine memory bandwidth. There are four different outputs of STREAM (Add, Copy, Scale & Triad). Most use the Triad result. For more information, visit: http://www.cs.virginia.edu/stream/.
Performance measurements as of October 2015. View configuration details ›
Floating Point Performance with Intel® Distribution for LINPACK* Benchmark
LINPACK is a benchmark, which performs a series of linear algebra computations. At the heart of LINPACK is DGEMM, a matrix multiply routine. LINPACK is typically used to measure a systems peak floating point capabilities. SMP LINPACK is a version, which only works on a single compute node. For more information, visit: https://software.intel.com/en-us/articles/intel-math-kernel-library-linpack-download.
Performance measurements as of October 2015. View configuration details ›
Configuration Details for General and Technical Compute Performance
| Processor | Intel® Xeon® Processor E3-1280 v2 | Intel® Xeon® Processor E3-1281 v3 | Intel® Xeon® Processor E3-1280 v5 (SPECcpu*2006) | Intel® Xeon® Processor E3-1280 v5 (STREAM, LINPACK) |
|---|---|---|---|---|
| System | Carlow Reference Platform | Supermicro* 813M-3, X10SLM+-LN4f | Supermicro SYS-5019S-M (813MFTQC-350CB) | Greenlow Reference Board |
| Sockets | 1 | 1 | 1 | 1 |
| Memory | 16 GB (4x4GB DDR3-1600MHz ECC UDIMM) | 16 GB (4 x 4GB DDR3-1600MHz ECC UDIMM) | 32 GB (2 x 16 GB DDR4-2133MHz ECC UDIMM) | 16 GB (2 x 8GB DDR4-2133MHz ECC UDIMM) |
| Storage | Western Digital* WD2000FYYZ Hard Disk Drive | Western Digital* WD500GB Hard Disk Drive | Intel® SSD 530 Series 120GB model SSDSC2BW120A4 | Intel® SSD 530 Series 120GB model SSDSC2BW120A4 |
| Operating System | Red Hat Enterprise Linux* v6.3 - 2.6.32-278 | Red Hat Enterprise Linux* 6.5 - 2.6.32-431 | CentOS* 7 - 3.10.0-123.el7.x86_64 | CentOS* 7 - 3.10.0-123.el7.x86_64 |
| BIOS | ACRVMBY1.86C | 1.1a | 1.01.05 | SKLSE2R1.R00.X092.B00.1507130736 |
| Intel Compiler | Intel® C++ Compiler, Extended Memory 64 Technology Edition 13 | Intel® C++ Compiler, Extended Memory 64 Technology Edition 14 | Intel® C++ Compiler, Extended Memory 64 Technology Edition 16 | Intel® C++ Compiler, Extended Memory 64 Technology Edition 16 |
Additional information: 1 2 3 4 5
Produkt- und Leistungsinformationen
Die Benchmark-Ergebnisse wurden vor der Implementierung der neuesten Software-Patches und Firmware-Updates, die als Gegenmaßnahmen gegen die als „Spectre“ und „Meltdown“ bezeichneten Exploits bereitgestellt wurden, ermittelt. Die Implementierung dieser Updates kann dazu führen, dass diese Ergebnisse auf Ihr Gerät oder System nicht zutreffen.
Die Leistung variiert je nach Verwendung, Konfiguration und anderen Faktoren. Ausführliche Informationen erhalten Sie unter www.Intel.com/PerformanceIndex.
Intel hat keinen Einfluss auf und keine Aufsicht über die Entwicklung oder Implementierung von Benchmarktests oder Websites Dritter, auf die in diesem Dokument Bezug genommen wird. Intel empfiehlt seinen Kunden, die genannten Websites oder weitere Websites zu besuchen, auf denen über ähnliche Leistungsbenchmarks berichtet wird, um sich davon zu überzeugen, dass die angeführten Benchmarks zutreffen und sie die Leistung im Handel befindlicher Systeme wiedergeben.
Intel® Prozessornummern sind kein Maß für die Leistung. Prozessornummern unterscheiden Merkmale innerhalb einer jeweiligen Prozessorreihe, nicht jedoch bei verschiedenen Prozessorreihen. Genaue Informationen erhalten Sie unter https://www.intel.de/content/www/de/de/processors/processor-numbers.html.
Die Leistung variiert je nach Verwendung, Konfiguration und anderen Faktoren. Ausführliche Informationen erhalten Sie unter www.Intel.com/PerformanceIndex.
Revisionshinweis: 20110804
SPEC* sowie die Benchmark-Bezeichnungen SPECint*, SPECfp*, SPECjbb*, SPECjEnterprise*, SPECvirt_sc*, SPECpower_ssj*, SPECompM* und SPECompL* sind Marken der Standard Performance Evaluation Corporation.