Intel® Xeon® Processor E7-4800 Product Family

Intel® Xeon® processor E7-4800 product family

These top-of-the-line processors deliver performance that is ideal for your most data-demanding workloads with improved scalability, and increased memory and I/O capacity, allowing you to handily adapt to changes in short-term business demands, and address requirements for longer-term business growth.

Socket scaling

2- to 4-Socket performance scaling

Consider using fewer servers to lower the total cost of ownership (TCO) with fewer license costs, lower maintenance and cooling, plus smaller datacenter footprint. All driven by the better performance of the next generation Intel® Xeon® processor E7 platforms.

Benchmark description for 2- to 4-socket performance scaling

Across a variety of workloads listed, moving from a 2-socket volume server to the top-of-the-line 4-socket Intel® Xeon® processor E7-4800 product family not only may double your performance, but also brings additional reliability features for mission critical needs. This chart shows several industry benchmarks ran in Intel Labs to highlight the great scalability of the expandable servers.

Configuration details Intel® Xeon® processor E7-4800 product family

2- to 4-Socket performance scaling as of 1 April 2011.

Performance comparison across a representative benchmark workload as of 24 February 2011. The comparison presented above is based on two-socket (2S) servers using Intel® Xeon® processor X5690 and four-socket (4S) E7-4870 (codenamed "Westmere-EX") series.

2-socket Intel® Xeon® processor X5690 based platform details (baseline 1.0)

Intel® 5500 Chipset reference platform with two Intel® Xeon® processors X5690 (3.46 GHz, 12MB L3, 6.4 GT/s, 6-core, 130W TDP). Memory and storage varied based on workload.

ERP: 4-socket Intel® Xeon® processor E7-4870 based platform details

Intel® 7500 chipset server system with four Intel® Xeon® processor E7-4870 (30M cache, 2.40GHz, 6.4GT/s Intel® QPI), 256GB memory, SUSE* Enterprise LINUX 11 SP1, SAN CLARiiON CX3-80 RAID0*, SAP ECC 6.0 EHP4. Source: Intel SSG TR#1117.

Integer Throughput: 4-socket Intel® Xeon® processor E7-4870 based platform details

Intel® 7500 chipset server system with four Intel® Xeon® processor E7-4870 (30M cache, 2.40GHz, 6.4GT/s Intel® QPI), 256GB memory, SUSE* Enterprise LINUX 11 SP1, Intel® C++ Compiler XE2011. Source: Intel SSG TR#1131.

Floating-Point Throughput: 4-socket Intel® Xeon® processor E7-4870 based platform details

OLTP Warehouse Database: 4-socket Intel® Xeon® processor E7-4870 based platform details

Intel® 7500 chipset server system with four Intel® Xeon® processor E7-4870 (30M cache, 2.40GHz, 6.4GT/s Intel® QPI), 512GB memory, Red Hat* Enterprise LINUX 5.4 w/ 5.5 kernel, 576x X25 SSDs (JBOD) + 144x 36GB FC 15K RPM storage solution, leading database vendor. Source: Intel SSG TR#1120.

Additional information: ¹ ²

Vidéos

Plus de vidéos

Intel and AIC at NAB 2010
Intel® Xeon® technology in broadcast equipment and servers at the National Association of Broadcasters. (2:20)
Intel and Data Direct Networks at NAB 2010
Showcases Intel technology in broadcast equipment and servers at the National Association of Broadcasters. (2:32)
Intel and EMC at NAB 2010
Video: Intel and EMC at the National Association of Broadcasters Show, 2010 (6:09)
Intel and IBM at NAB 2010
Showcases Intel technology in broadcast equipment and servers at the National Association of Broadcasters. (2:06)

Intel and Isilon at NAB 2010
Showcases Intel technology in broadcast equipment and servers at the National Association of Broadcasters. (2:15)
Intel and Isilon at VM World 2009
Nicholas Kirsch, Isilon Systems, gives a virtualization chalk talk at VMWorld 2009. (8:12)
Cisco and Intel Video: Leading Server Innovation with Cisco UCS*
Leading server innovation with the Intel® Xeon® processor E7 family for higher speed and capacity. (8:30)
Red Hat and Intel: Rock-Solid Mission-Critical Computing
Pauline Nist (Intel) and Jim Totton (Red Hat) discuss their collaborative value to enterprise computing. (1:50)

Intel® Xeon® Processor 7400 Series: Product Brief Video
Diane Bryant, Intel CIO, and VMware executive Brian Byun discuss the Intel® Xeon® Processor 7400 Series. (1:52)
Intel® Intelligent Power Node Manager Enables Server Power Capping
Intel® Intelligent Power Node Manager enables server power capping to increase rack density, and facilitate load balancing. (2:27)
Intel® RAID: World Class Performance
Video: Intel® 6Gb/s RAID controllers features, benefits, and technical specs outlined. (2:56)
Intel and Active Storage at NAB 2010
Showcases Intel technology in broadcast equipment and servers at the National Association of Broadcasters. (2:01)

Jasper Forest From Intel Animation
Introducing Jasper Forest: the newest addition to the Intel® Xeon® processor family. (1:23)
Reduce Latency, Improve Data Throughput with Intel® Integrated I/O
Intel® Integrated I/O merges the I/O controller onto the processor for reduced latency.
Intel® Node Manager Ecosystem at IDF 2009
Using Intel® Intelligent Power Node Manager on Intel® Xeon® 5500 Processor Series Platforms. Energy Efficiency, Power Capping included. (2:16)

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Infos sur le produit et ses performances

1. Les tests et les indices de performances portent sur des configurations spécifiques, leurs éléments ou les deux. Ils rendent compte approximativement des performances des produits Intel® mesurées par ces tests. Une différence dans la configuration matérielle ou logicielle est ainsi susceptible d’avoir une incidence sur les performances effectives. Il est donc conseillé aux acheteurs de consulter d’autres sources d’informations pour évaluer les performances des configurations ou des éléments de configuration dont ils envisagent l’acquisition. Pour davantage d’informations sur les tests de performances et sur les performances des produits d’Intel, consultez www.intel.com/content/www/us/en/benchmarks/resources-benchmark-limitations.html.

2. Les résultats en performances relatives pour chaque banc d’essai sont établis par rapport aux résultats effectifs à ce banc d’essai de la première plate-forme testée, auxquels est attribuée la valeur indiciaire 1.0. Les performances relatives des autres plates-formes testées sont calculées en divisant le résultat effectif de chaque banc d'essai de la plate-forme de référence par celui des autres plates-formes et en leur attribuant un coefficient de performances relatif qui est en corrélation avec le différentiel de performances trouvé.

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