Intel Dual-core Xeon 5080 Box BX805555080 User Manual
Product codes
BX805555080
Performance Results
Mainstream Enterprise Servers
SPECjbb2005*: X5460 vs X5365 - Published/measured results on SPECjbb2005* - Oct 2, 07
Comparison between 5160, X5365 and X5450 based on SPECjbb2005 benchmark result
Quad-Core Intel® Xeon® processor X5365 based platform details: Dell PowerEdge* 1950 platform with two Quad-Core Intel Xeon processor X5365 3.0GHz, 2x4Mb L2 Cache,
1333 MHz system bus, 16GB Memory DDR2-667 FBDIMM, Microsoft Windows Server 2003 Enterprise x64 Edition SP1 (64-bit), BEA JRockit 5.0 P27.2.0. Measured at 238,472
bops and 59,618 bops/JVM. For more information see http://www.spec.org/jbb2005/results/res2007q3/jbb2005-20070810-00346.html
Quad-Core Intel® Xeon® processor X5460 based platform details: Intel Server pre-production platform with two Quad-Core Intel Xeon processor X5460 3.16GHz, 2x6Mb L2
Cache, 1333 MHz system bus, 16GB Memory DDR2-667 FBDIMM, Microsoft Windows Server 2003 Enterprise x64 Edition SP1 (64-bit), BEA JRockit 5.0 P27.2.0. Intel internal
measurement – September 2007
SPECint*_ rate2006: X5460 vs X5365 - Published/measured results on SPECint*_ rate2006 - Oct 2, 07 with 64-Bit SUSE LINUX Enterprise Server 10 16GB (8x2GB). SPEC
binaries built with Intel Compiler 10.1 for 32-bit/64-bit Linux
Quad-Core Intel Xeon 5400 Series based platform (“Bensley/Harpertown”) common configuration details: Intel server pre-production platform with two Quad-Core Intel Xeon
Processor X5460 (3.16GHz) w/ 2x6M L2 Cache, 1333 MHz FSB, 5000p “Blackford” Chipset. All measurements use FB DDR2-667 MHz memory
Quad-Core Intel Xeon 5300 Series based platform (“Bensley/Clovertown”) common configuration details: Intel server pre-production platform with two Quad-Core Intel Xeon
Processor X5365 (3.00GHz) w/ 2x4M L2 Cache, 1333 MHz FSB, 5000p “Blackford” Chipset. All measurements use FB DDR2-667 MHz memory
Workstations: Workstation and Multi-Tasking Enhancements
SPECfp_rate2006
Quad-Core Intel Xeon processor X5365 based platform details: Supermicro* X7DB8 with two Quad-Core Intel Xeon processors X5365 3.0GHz, 16 GB memory (8x2GB), 1333
FSB, O/S 64-Bit SUSE Linux Enterprise Server 10, Kernel 2.6.16.21-0.8-smp for x86_64, Intel C++ Compiler for Linux version 10.1 & Smart Heap Library Version 8.1. Published at
www.spec.org as of September 4th 2007 at 66.9.
45nm Hi-k Intel Xeon Quad-Core processor 3.20Ghz based platform details: Intel pre-production platform with two 45nm Hi-k Intel Xeon Quad-Core processors 3.20GHz, 1600
FSB, 16 GB memory (8x2GB), O/S 64-Bit SUSE Linux Enterprise Server 10, Kernel 2.6.16.21-0.8-smp for x86_64, Intel C++ Compiler for Linux version 10.1 & Smart Heap Library
Version 8.1. Result measured at 89.8.
Manufacturing “Working Differently” scenario SPECapc* SolidWorks* 2005 and Fluent* 6.3.26 L1/L2 workloads running 5x concurrently
2x Quad-Core Intel® Xeon® Processor 5400-series (3.20 GHz, 1600 MHz FSB, 12 MB cache, formerly “Harpertown”) on “SunCity Stoakley” pre-production workstation compared
to 2x Quad-Core Intel Xeon Processor X5365 (3.00 GHz, 1333 MHz FSB, 8 MB cache) on SuperMicro* X7DA8 workstation, COMMON: 8 GB FBD-667 memory, WDC WD740GD
HDD, Windows XP* Professional x64 SP1, NVIDIA* Quadro* FX 4500 PCIe* x16 video card driver 91.36.
Technical Compute Servers
Weather Modeling (National Weather Services Application) and Financial Services (Black-Scholes application) running 8 threads with Red Hat EL4-U4 64-bit; 2.6.9-42.ELsmp
Quad-Core Intel Xeon 5300 Series based platform (“Bensley/Clovertown”) common configuration details: Intel server pre-production platform with two Quad-Core Intel Xeon
Processor X5365 (3.00GHz) w/ 2x4M L2 Cache, 1333 MHz FSB, 5000p “Blackford” Chipset. All measurements use 32GB (16x2GB) FB DDR2-667 MHz memory
Quad-Core Intel Xeon 5400 Series based platform (“Stoakley/Harpertown”) common configuration details: Intel server pre-production platform with two Quad-Core Intel Xeon
Processor X5472 (3.0GHz) w/ 2x6M L2 Cache, 1600 MHz FSB, 5xxx “Seaburg” Chipset. All measurements use 16GB (16x1GB) FB DDR2-800 MHz memory
Performance and competitive information is accurate at the time of document publication. For the latest performance and competitive information,
visit www.intel.com/performance.
Mainstream Enterprise Servers
SPECjbb2005*: X5460 vs X5365 - Published/measured results on SPECjbb2005* - Oct 2, 07
Comparison between 5160, X5365 and X5450 based on SPECjbb2005 benchmark result
Quad-Core Intel® Xeon® processor X5365 based platform details: Dell PowerEdge* 1950 platform with two Quad-Core Intel Xeon processor X5365 3.0GHz, 2x4Mb L2 Cache,
1333 MHz system bus, 16GB Memory DDR2-667 FBDIMM, Microsoft Windows Server 2003 Enterprise x64 Edition SP1 (64-bit), BEA JRockit 5.0 P27.2.0. Measured at 238,472
bops and 59,618 bops/JVM. For more information see http://www.spec.org/jbb2005/results/res2007q3/jbb2005-20070810-00346.html
Quad-Core Intel® Xeon® processor X5460 based platform details: Intel Server pre-production platform with two Quad-Core Intel Xeon processor X5460 3.16GHz, 2x6Mb L2
Cache, 1333 MHz system bus, 16GB Memory DDR2-667 FBDIMM, Microsoft Windows Server 2003 Enterprise x64 Edition SP1 (64-bit), BEA JRockit 5.0 P27.2.0. Intel internal
measurement – September 2007
SPECint*_ rate2006: X5460 vs X5365 - Published/measured results on SPECint*_ rate2006 - Oct 2, 07 with 64-Bit SUSE LINUX Enterprise Server 10 16GB (8x2GB). SPEC
binaries built with Intel Compiler 10.1 for 32-bit/64-bit Linux
Quad-Core Intel Xeon 5400 Series based platform (“Bensley/Harpertown”) common configuration details: Intel server pre-production platform with two Quad-Core Intel Xeon
Processor X5460 (3.16GHz) w/ 2x6M L2 Cache, 1333 MHz FSB, 5000p “Blackford” Chipset. All measurements use FB DDR2-667 MHz memory
Quad-Core Intel Xeon 5300 Series based platform (“Bensley/Clovertown”) common configuration details: Intel server pre-production platform with two Quad-Core Intel Xeon
Processor X5365 (3.00GHz) w/ 2x4M L2 Cache, 1333 MHz FSB, 5000p “Blackford” Chipset. All measurements use FB DDR2-667 MHz memory
Workstations: Workstation and Multi-Tasking Enhancements
SPECfp_rate2006
Quad-Core Intel Xeon processor X5365 based platform details: Supermicro* X7DB8 with two Quad-Core Intel Xeon processors X5365 3.0GHz, 16 GB memory (8x2GB), 1333
FSB, O/S 64-Bit SUSE Linux Enterprise Server 10, Kernel 2.6.16.21-0.8-smp for x86_64, Intel C++ Compiler for Linux version 10.1 & Smart Heap Library Version 8.1. Published at
www.spec.org as of September 4th 2007 at 66.9.
45nm Hi-k Intel Xeon Quad-Core processor 3.20Ghz based platform details: Intel pre-production platform with two 45nm Hi-k Intel Xeon Quad-Core processors 3.20GHz, 1600
FSB, 16 GB memory (8x2GB), O/S 64-Bit SUSE Linux Enterprise Server 10, Kernel 2.6.16.21-0.8-smp for x86_64, Intel C++ Compiler for Linux version 10.1 & Smart Heap Library
Version 8.1. Result measured at 89.8.
Manufacturing “Working Differently” scenario SPECapc* SolidWorks* 2005 and Fluent* 6.3.26 L1/L2 workloads running 5x concurrently
2x Quad-Core Intel® Xeon® Processor 5400-series (3.20 GHz, 1600 MHz FSB, 12 MB cache, formerly “Harpertown”) on “SunCity Stoakley” pre-production workstation compared
to 2x Quad-Core Intel Xeon Processor X5365 (3.00 GHz, 1333 MHz FSB, 8 MB cache) on SuperMicro* X7DA8 workstation, COMMON: 8 GB FBD-667 memory, WDC WD740GD
HDD, Windows XP* Professional x64 SP1, NVIDIA* Quadro* FX 4500 PCIe* x16 video card driver 91.36.
Technical Compute Servers
Weather Modeling (National Weather Services Application) and Financial Services (Black-Scholes application) running 8 threads with Red Hat EL4-U4 64-bit; 2.6.9-42.ELsmp
Quad-Core Intel Xeon 5300 Series based platform (“Bensley/Clovertown”) common configuration details: Intel server pre-production platform with two Quad-Core Intel Xeon
Processor X5365 (3.00GHz) w/ 2x4M L2 Cache, 1333 MHz FSB, 5000p “Blackford” Chipset. All measurements use 32GB (16x2GB) FB DDR2-667 MHz memory
Quad-Core Intel Xeon 5400 Series based platform (“Stoakley/Harpertown”) common configuration details: Intel server pre-production platform with two Quad-Core Intel Xeon
Processor X5472 (3.0GHz) w/ 2x6M L2 Cache, 1600 MHz FSB, 5xxx “Seaburg” Chipset. All measurements use 16GB (16x1GB) FB DDR2-800 MHz memory
Performance and competitive information is accurate at the time of document publication. For the latest performance and competitive information,
visit www.intel.com/performance.
∆
Intel® processor numbers are not a measure of performance. Processor numbers differentiate features within each processor series, not across
different processor sequences. See http://www.intel.com/products/processor_number for details.
different processor sequences. See http://www.intel.com/products/processor_number for details.
1
Intel Virtualization Technology requires a computer system with a processor, chipset, BIOS, virtual machine monitor (VMM) and applications enabled for virtualization technol-
ogy. Functionality, performance or other virtualization technology benefits will vary depending on hardware and software configurations. Virtualization technology-enabled
BIOS and VMM applications are currently in development.
ogy. Functionality, performance or other virtualization technology benefits will vary depending on hardware and software configurations. Virtualization technology-enabled
BIOS and VMM applications are currently in development.
2
Intel internal measurement. Platforms running 4 x Intel® Xeon® Processor X7350, 32GB memory, vConsolidate Beta 2, Virtual Iron 4.0.2 software.
1 CSU configuration, Sept 2007. Boot time improvement measured on Windows XP. vConsolidate measurement conducted by configuring the
system with Windows 2000 SP4
1 CSU configuration, Sept 2007. Boot time improvement measured on Windows XP. vConsolidate measurement conducted by configuring the
system with Windows 2000 SP4
3
Quad-Core Intel® Xeon® Processor 5300 Series (“CTN”)Up to 25% (1.25x) higher Performance for Intel Xeon processor X5460 vs Intel Xeon processor X5365 - Published/mea-
sured results on SPECjbb2005* - Oct 2, 07. Quad-Core Intel® Xeon® processor X5365 based platform details: Dell PowerEdge* 1950 platform with two Quad-Core Intel Xeon
processor X5365 3.0GHz, 2x4Mb L2 Cache, 1333 MHz system bus, 16GB Memory DDR2-667 FBDIMM, Microsoft Windows Server 2003 Enterprise x64 Edition SP1 (64-bit),
BEA JRockit 5.0 P27.2.0. Measured at 238,472 bops and 59,618 bops/JVM. For more information see http://www.spec.org/jbb2005/results/res2007q3/jbb2005-20070810-
00346.html Quad-Core Intel® Xeon® processor X5460 based platform details: Intel Server pre-production platform with two Quad-Core Intel Xeon processor X5460 3.16GHz,
2x6Mb L2 Cache, 1333 MHz system bus, 16GB Memory DDR2-667 FBDIMM, Microsoft Windows Server 2003 Enterprise x64 Edition SP1 (64-bit), BEA JRockit 5.0 P27.2.0. Intel
internal measurement – September 2007
sured results on SPECjbb2005* - Oct 2, 07. Quad-Core Intel® Xeon® processor X5365 based platform details: Dell PowerEdge* 1950 platform with two Quad-Core Intel Xeon
processor X5365 3.0GHz, 2x4Mb L2 Cache, 1333 MHz system bus, 16GB Memory DDR2-667 FBDIMM, Microsoft Windows Server 2003 Enterprise x64 Edition SP1 (64-bit),
BEA JRockit 5.0 P27.2.0. Measured at 238,472 bops and 59,618 bops/JVM. For more information see http://www.spec.org/jbb2005/results/res2007q3/jbb2005-20070810-
00346.html Quad-Core Intel® Xeon® processor X5460 based platform details: Intel Server pre-production platform with two Quad-Core Intel Xeon processor X5460 3.16GHz,
2x6Mb L2 Cache, 1333 MHz system bus, 16GB Memory DDR2-667 FBDIMM, Microsoft Windows Server 2003 Enterprise x64 Edition SP1 (64-bit), BEA JRockit 5.0 P27.2.0. Intel
internal measurement – September 2007
4
Source: Intel measured results Oct 2, 2007 for SPECfp_rate_base2006* comparing Xeon X5472 (3.0GHz/12M L2 Cache/1600 MHz FSB, 5400 Chipset (pre-production
platform) to Xeon X5365 (3.00GHz/8M L2 Cache/1333 MHz FSB). 2 (up to 50%) Source: Intel measured results Oct 2, 2007 for Financial Services (Black-Scholes application)
running 8 threads with Red Hat EL4-U4 64-bit; 2.6.9-42.ELsmp comparing Quad-Core Intel Xeon 5300 Series based platform X5365 (3.00GHz/8M L2 Cache/1333 MHz FSB)
to pre-production Quad-Core Intel Xeon 5400 Series based platform X5472 (3.0GHz/12M L2 Cache/1600 MHz FSB, 5400 Chipset (pre-production platform)
platform) to Xeon X5365 (3.00GHz/8M L2 Cache/1333 MHz FSB). 2 (up to 50%) Source: Intel measured results Oct 2, 2007 for Financial Services (Black-Scholes application)
running 8 threads with Red Hat EL4-U4 64-bit; 2.6.9-42.ELsmp comparing Quad-Core Intel Xeon 5300 Series based platform X5365 (3.00GHz/8M L2 Cache/1333 MHz FSB)
to pre-production Quad-Core Intel Xeon 5400 Series based platform X5472 (3.0GHz/12M L2 Cache/1600 MHz FSB, 5400 Chipset (pre-production platform)
5
Based on measured result on SPECfp*_rate2006 benchmark. SPEC binaries built with Intel Compiler 10.1 for 64-bit Linux. Servers are configured with 64-Bit SUSE LINUX
Enterprise Server 10 and 16GB (8x2GB) of memory.
Enterprise Server 10 and 16GB (8x2GB) of memory.
6
Intel internal measurement as of May 10, 2007 using SPECint_rate_base2000* with Intel Xeon Tigerton Processor 2.93GHz. Results compare Intel measured Quad-Core
Intel Xeon Tigerton Processor (2.66GHz) or (2.93GHz), with 2x4M L2 Cache, 1066 MHz system bus, Clarksboro Chipset vs. published Dual-Core AMD Opteron* Model 8220SE
(2.8SktF).
Intel Xeon Tigerton Processor (2.66GHz) or (2.93GHz), with 2x4M L2 Cache, 1066 MHz system bus, Clarksboro Chipset vs. published Dual-Core AMD Opteron* Model 8220SE
(2.8SktF).
7
Intel Server pre-production platform with two Quad-Core Intel Xeon processor E5450 3.0GHz, 2x6Mb L2 Cache or E5335, 2x4MB L2 Cache, 1333 MHz system bus, 16GB
Memory DDR2-667 FBDIMM, Microsoft Windows Server 2003 Enterprise x64 Edition SP1 (64-bit), BEA JRockit 5.0 P27.2.0. Intel internal measurement – September 2007.
Perf/Watt calculated by dividing the Performance by measured system power during steady state window.
Memory DDR2-667 FBDIMM, Microsoft Windows Server 2003 Enterprise x64 Edition SP1 (64-bit), BEA JRockit 5.0 P27.2.0. Intel internal measurement – September 2007.
Perf/Watt calculated by dividing the Performance by measured system power during steady state window.
8
64-bit computing on Intel architecture requires a computer system with a processor, chipset, BIOS, operating system, device drivers and applications enabled for
Intel® 64 architecture. Performance will vary depending on your hardware and software configurations. Consult with your system vendor for more information.
Intel® 64 architecture. Performance will vary depending on your hardware and software configurations. Consult with your system vendor for more information.
9
Intel® Active Management Technology requires the platform to have an Intel® AMT-enabled chipset, network hardware and software, as well as
connection with a power source and a corporate network connection. With regard to notebooks, Intel AMT may not be available or certain capabilities
may be limited over a host OS-based VPN or when connecting wirelessly, on battery power, sleeping, hibernating or powered off. For more information,
see www.intel.com/technology/platform-technology/intel-amt/
connection with a power source and a corporate network connection. With regard to notebooks, Intel AMT may not be available or certain capabilities
may be limited over a host OS-based VPN or when connecting wirelessly, on battery power, sleeping, hibernating or powered off. For more information,
see www.intel.com/technology/platform-technology/intel-amt/
*Other names and brands may be claimed as the property of others.
Copyright © 2008 Intel Corporation. All rights reserved. Intel, the Intel logo, Intel. Leap ahead., Intel. Leap ahead. logo, Xeon, Intel Core, and
Itanium are trademarks of Intel Corporation in the U.S. and other countries.
Itanium are trademarks of Intel Corporation in the U.S. and other countries.
Printed in USA
0108/HLW/OCG/XX/PDF
Please Recycle
319108-001US