New Intel High-End Xeon Server Processors Raise Performance Bar

Sep 15, 2008
New Intel High-End Xeon Server Processors Raise Performance Bar
Tom Kilroy, vice president and general manager of Intel´s Digital Enterprise Group, displays a wafer from Intel´s new Xeon 7400 Processor family, formerly code-named Dunnington, Monday, September 15, 2008, at a news conference in San Francisco. (Photo for Intel by Court Mast)

Intel has extended its lead in the high-end server segment, setting new standards in virtualization performance with the launch of seven 45 nanometer-manufactured Intel Xeon Processor 7400 Series products. With up to six processing cores per chip and 16MB of shared cache memory, applications built for virtualized environments and data demanding workloads, such as databases, business intelligence, enterprise resource planning and server consolidation, experience dramatic performance increases of almost 50 percent in some cases.

Platforms based on these processors can scale up to 16 processor "sockets" to deliver servers with up to 96 processing cores inside, offering tremendous scalability, ample computing threads, extensive memory resources and uncompromising reliability for enterprise data centers.

"The arrival of these processors extends Intel's lead in the high-end server segment," said Tom Kilroy, Intel vice president and general manager of the Digital Enterprise Group. "This new processor series helps IT manage increasingly complex enterprise server environments, providing a great opportunity to boost the scalable performance of multi-threaded applications within a stable platform infrastructure. With new features such as additional cores, large shared caches and advanced virtualization technologies, the Xeon 7400 series delivers record-breaking performance that will lead enterprises into the next wave of virtualization deployments."

The Intel Xeon processor 7400 series has already set new four-socket and eight-socket world records on key industry benchmarks for virtualization, database, enterprise resource planning and e-commerce. IBM, following the record-setting 1.2 million tpmC result on its eight-socket System x 3950 M2 platform, delivers an all-time high result for four-socket servers on System x 3850 M2 server with a score of 684,508 tpmC on the TPC-C benchmark, which measures database performance in an online transaction processing environment.

An HP ProLiant DL580 G5 server on the SAP-SD benchmark that measures a server's sales and distribution capability on SAP software set a world record with a score of 5155 SD-Users. On the SPECint_rate2006 benchmark, which measures a system's integer throughput performance, a Fujitsu-Siemens PRIMERGY* RX600 S4 server set a record with a score of 291. Several other records were also set on other key enterprise-related benchmarks.

Based on Intel's 45nm high-k process technology and reinvented transistors that use a Hafnium-based, high-k metal gate formula, the new Xeon 7400 series delivers exceptional performance improvements with lower power consumption. This delivers almost 50 percent better performance in some cases, and up to 10 percent reduction in platform power, and has resulted in a world record VMmark (a virtualization benchmark) score for four-socket, 24 processing core servers at 18.49 on a Dell PowerEdge R900 platform using VMware ESX server v3.5.0.

These virtualization performance increases, and advanced virtualization capabilities such as Intel Virtualization Technology (VT) FlexMigration make Xeon® 7400 series-based servers ideal platforms for customers to standardize their virtual infrastructures. FlexMigration enables VM migration from previous-, present- and future-generation Core microarchitecture-based platforms. This ensures investment protection for administrators seeking to establish pools of virtualized systems and using those pools to facilitate failover, disaster recovery, load balancing and optimizing server maintenance and downtime.

These products offer frequencies up to 2.66 GHz and power levels down to 50 watts, including the first 6-core, x86 compatible 65-watt version which translates to just under 11 watts per processor core, with platforms available in rack, tower and highly dense blade form factors.

The Xeon 7400 processor series is compatible with Intel's existing Xeon 7300 series platforms and the Intel 7300 chipset with memory capacity up to 256GB, allowing IT departments to quickly deploy the new processor into a stable platform infrastructure.

Starting today, servers based on the Intel Xeon 7400 processor series are expected to be announced by more than 50 system manufacturers around the world, including four-socket rack servers from Dell, Fujitsu, Fujitsu-Siemens, Hitachi, HP, IBM, NEC, Sun, Supermicro and Unisys; four-socket blade servers from Egenera, HP, Sun and NEC; and servers that scale up to 16-sockets from IBM, NEC and Unisys.

Many software vendors are also supporting Intel Xeon 7400 based platforms with innovative solutions enabling virtualization and scalable performance for the high-end enterprise, including Citrix, IBM, Microsoft, Oracle, Red Hat, SAP and VMware.

Pricing for the Xeon 7000 Sequence processors in quantities of 1,000 ranges from $856 to $2,729.

Provided by Intel

Explore further: Successful read/write of digital data in fused silica glass with high recording density

add to favorites email to friend print save as pdf

Related Stories

HP supercomputer at NREL garners top honor

Oct 21, 2014

A supercomputer created by Hewlett-Packard (HP) and the Energy Department's National Renewable Energy Laboratory (NREL) that uses warm water to cool its servers, and then re-uses that water to heat its building, has been ...

IBM and Intel bring new security features to the cloud

Sep 09, 2014

IBM today announced that SoftLayer it will be the first cloud platform to offer its customers bare metal servers powered by Intel Cloud Technology that provides monitoring and security down to the microchip level.

Intel, SGI test 3M fluids for cooling effects

Apr 10, 2014

(Phys.org) —One area where engineering expertise is always appreciated is in operating the modern-day data center; finding improved cooling techniques for today's powerful servers is one such challenge ...

Intel Previews Xeon 'Nehalem-EX' Processor

May 27, 2009

Intel Corporation today previewed a new Intel Xeon processor codenamed "Nehalem-EX." The processor will be at the heart of the next generation of intelligent and expandable high-end Intel server platforms, ...

UC San Diego launches new research computing program

Jun 11, 2013

The University of California, San Diego has deployed a new high-performance research computing system called the Triton Shared Computing Cluster, or TSCC, serving researchers at UC San Diego and any of the other UC campuses ...

Recommended for you

Intelligent materials that work in space

40 minutes ago

ARQUIMEA, a company that began in the Business Incubator in the Science Park of the Universidad Carlos III de Madrid, will be testing technology it has developed in the International Space Station. The technology ...

How to find a submarine

3 hours ago

Das Boot, The Hunt for Red October, The Bedford Incident, We Dive At Dawn: films based on submariners' experience reflect the tense and unusual nature of undersea warfare – where it is often not how well ...

User comments : 2

Adjust slider to filter visible comments by rank

Display comments: newest first

dirk_bruere
5 / 5 (1) Sep 15, 2008
I replace my PC when the midrange is approx 5x as powerful as the old machine. I've just upgraded to an Intel Quad core. Next stop is 16 cores or equivalent power. Call me back when that happens...
Glis
not rated yet Sep 16, 2008
Agreed, but these are marketed for businesses, where multiple processors actually achieve their potential.

I may be completely wrong, but it seems that the multiple cores don't do much for consumer software. My quad core isn't even twice as fast as my single core PC when it comes to image/video processing/general use.