Fujitsu PRIMERGY TX150 Torre Bedienungsanleitung
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Version 5.1
November 2008
Pages 33
Performance Report
PRIMERGY TX150 S6
Abstract
This document contains a summary of the benchmarks executed for the PRIMERGY TX150 S6.
The PRIMERGY TX150 S6 performance data are compared with the data of other PRIMERGY models and discussed. In
addition to the benchmark results, an explanation has been included for each benchmark and for the benchmark envi-
ronment.
Contents
Technical Data ........................................................................................................................................................2
SPECcpu2006.........................................................................................................................................................3
SPECjbb2005..........................................................................................................................................................8
SPECpower_ssj2008 ............................................................................................................................................12
SPECweb2005......................................................................................................................................................17
StorageBench .......................................................................................................................................................21
OLTP-2..................................................................................................................................................................30
Literature...............................................................................................................................................................33
Contact..................................................................................................................................................................33
White Paper ⏐Performance Report PRIMERGY TX150 S6 Version: 5.1, November 2008
Technical Data
The PRIMERGY TX150 S6 is a mono -socket tower server. It includes the Intel 3210 chipset, one Celeron, Pentium
Dual-Core, Core 2 Duo, Dual-Core Xeon or Quad-Core Xeon processor, up to 8 GB PC2-6400 DDR2-SDRAM, depend-
ing on the processor used a 800 MHz, 1067 MHz or 1333 MHz front-side bus, a Broadcom BCM5755 1-GBit LAN con-
troller, six PCI slots (2 x PCI-Express x8, 1 x PCI-Express x4, 3 x PCI 32-bit/33 MHz) and space for four 3.5” SAS or
SATA hard disks or up to 10 2.5” SAS hard disks. The SAS version of the PRIMERGY TX150 S5 has an 8-port SAS
controller with RAID 0, 1 and RAID-1E functionality or - alternatively - an 8-port SAS controller with RAID 0, 1, 10, 5, 50,
6 and RAID-60 functionality. The SATA version has a 6-port SATA controller with RAID 0, 1, 10 and optionally RAID 5
functionality.
As well as its predecessors the PRIMERGY TX150 S6 can be converted quickly and easily into a rack system with 5
height units for integration in 19-inch racks.
See http://docs.ts.fujitsu.com/dl.aspx?id=af1d8493-dfbb-478e-89c9-92e917929234 for detailed technical information.
© Fujitsu Technology Solutions 2009 Page 2 (33)
White Paper ⏐Performance Report PRIMERGY TX150 S6 Version: 5.1, November 2008
SPECcpu2006∗
∗
∗
∗∗
Benchmark description
SPECcpu2006 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 which 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.
SPECcpu2006 is not bound to a specific operating system. The benchmark is available as source code and is compiled
before the actual benchmark. Therefore, the compiler version used and its optimization settings have an influence on the
measurement result.
SPECcpu2006 contains two different methods of performance measurement: The first method (SPECint2006 and
SPECfp2006) determines the time required to complete a single task. The second method (SPECint_rate2006 and
SPECfp_rate2006) determines the throughput, i.e. how many tasks can be completed in parallel. Both methods are addi-
tionally 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, the "peak" values are optional.
Benchmark Arithmetic Type Compiler
optimization Measuring result Application
SPECint2006 integer peak aggressive
SPECint_base2006 integer base conservative speed single threaded
SPECint_rate2006 integer peak aggressive
SPECint_rate_base2006 integer base conservative throughput multithreaded
SPECfp2006 floating point peak aggressive
SPECfp_base2006 floating point base conservative speed single threaded
SPECfp_rate2006 floating point peak aggressive
SPECfp_rate_base2006 floating point base conservative throughput multithreaded
The results represent the geometric mean of normalized ratios determined for the individual benchmarks. Compared with
the arithmetic mean, the geometric mean results in the event of differingly high single results in a weighting in favor of the
lower single results. “Normalized“ means measuring how fast the test system runs in comparison to a reference system.
The value of “1“ was determined for the SPECint_base2006, SPECint_rate_base2006, SPECfp_base2006 and
SPECfp_rate_base2006 results of the reference system. Thus a SPECint_base2006 value of 2 means for example that
the measuring system has executed this benchmark approximately twice as fast as the reference system. A
SPECfp_rate_base2006 value of 4 means that the measuring system has executed this benchmark about 4/[# base
copies] times as fast as the reference system. “# base copies“ here specifies how many parallel instances of the bench-
mark have been executed.
We do not submit all SPECcpu2006 measurements for publication at SPEC. So not all results appear on SPEC’s web
sites. As we archive the log data for all measurements, we are able to prove the correct realization of the measurements
any time.
Benchmark results
The PRIMERGY TX150 S6 was measured with eight different processor versions:
• Celeron 440
(Conroe-L, 1 core per chip, ½ MB L2 cache per chip)
• Pentium Dual-Core E2140, E2160 and E2200
(Allendale, 2 cores per chip, 1 MB L2 cache per chip)
• Core 2 Duo E4500 and E4600
(Allendale, 2 cores per chip, 2 MB L2 cache per chip)
• Core 2 Duo E7200
(Wolfdale, 2 cores per chip, 3 MB L2 cache per chip)
• Xeon 3065
(Conroe, 2 cores per chip, 4 MB L2 cache per chip)
∗ SPEC®, SPECint®, SPECfp® and the SPEC logo are registered trademarks of the Standard Performance Evaluation
Corporation (SPEC).
© Fujitsu Technology Solutions 2009 Page 3 (33)
Produktspezifikationen
Marke: | Fujitsu |
Kategorie: | Server |
Modell: | PRIMERGY TX150 Torre |
Prozessorhersteller: | Intel |
Anzahl Prozessorkerne: | 4 |
Breite: | 205 mm |
Tiefe: | 605 mm |
Gewicht: | 28000 g |
Höhe: | 444 mm |
Anzahl USB 2.0 Anschlüsse: | 8 |
Betriebstemperatur: | 10 - 35 °C |
Relative Luftfeuchtigkeit in Betrieb: | 10 - 85 % |
Zertifizierung: | GS, CE, CSAc/us, ULc/us, FCC Class A, CB, RoHS, WEEE, VCCI, C-Tick, BSMI |
Anzahl Ethernet-LAN-Anschlüsse (RJ-45): | 1 |
Stromversorgung: | 350 W |
Energiebedarf: | AC 100 - 240V@50 - 60Hz |
Intel® Wireless-Display (Intel® WiDi): | Nein |
Prozessor-Taktfrequenz: | 2.4 GHz |
Prozessorfamilie: | Intel® Xeon® |
Prozessor: | X3220 |
Kompatible Betriebssysteme: | Microsoft Windows Server 2008,\nMicrosoft Windows Server 2003,\nNovell SUSE Linux Enterprise Server,\nRed Hat Enterprise Linux |
RAID Level: | 1,10 |
RAM-Speicher: | 1 GB |
Gehäusetyp: | Tower |
Prozessor-Cache: | 8 MB |
Konfliktloser-Prozessor: | Nein |
Frontsidebus des Prozessors: | 1066 MHz |
Prozessor Cache Typ: | L2 |
Prozessor-Code: | SL9UP |
Prozessor Codename: | Kentsfield |
Prozessor Lithografie: | 65 nm |
Prozessorbetriebsmodi: | 64-Bit |
Prozessor-Paketgröße: | 37.5 x 37.5 mm |
Prozessor-Threads: | 4 |
Stepping: | B3 |
Systembus-Rate: | - GT/s |
Thermal Design Power (TDP): | 105 W |
Prozessor-Serien: | Intel Xeon 3200 Series |
Prozessorsockel: | LGA 775 (Socket T) |
ARK Prozessorerkennung: | 28034 |
Interner Speichertyp: | DDR2-SDRAM |
Intel® Turbo-Boost-Technologie: | Nein |
Eingebettete Optionen verfügbar: | Nein |
Intel® 64: | Ja |
Intel® Virtualization Technologie (VT-X): | Ja |
Anzahl VGA (D-Sub) Anschlüsse: | 1 |
Maximale Anzahl an SMP-Prozessoren: | 1 |
Motherboard Chipsatz: | Intel® 3210 |
ECC: | Ja |
RAM-Speicher maximal: | 8 GB |
Anzahl PS/2 Anschlüsse: | 2 |
Anzahl serielle Anschlüsse: | 1 |
Gesamtspeicherkapazität: | 0 GB |
Intel® Hyper-Threading-Technik (Intel® HT Technology): | Nein |
Verbesserte Intel SpeedStep Technologie: | Ja |
Anzahl installierter Prozessoren: | 1 |
Speichertaktfrequenz: | 800 MHz |
Speicherkartensteckplätze: | 4x DIMM |
Speicherlayout: | 1 x 1 GB |
Optisches Laufwerk - Typ: | DVD-ROM |
Intel® Quick-Sync-Video-Technik: | Nein |
Intel® InTru™ 3D Technologie: | Nein |
Intel® Clear Video HD Technology für (Intel® CVT HD): | Nein |
Intel® AES New Instructions (Intel® AES-NI): | Nein |
Execute Disable Bit: | Ja |
Leerlauf Zustände: | Ja |
Thermal-Überwachungstechnologien: | Ja |
Intel® Trusted-Execution-Technik: | Nein |
Intel® VT-x mit Extended Page Tables (EPT): | Nein |
Intel® Virtualisierungstechnik für direkte I/O (VT-d): | Nein |
Intel® Clear Video Technologie: | Nein |
PCI-Slots: | 3 |
Bus Typ: | FSB |
ECC vom Prozessor unterstützt: | Nein |
FSB Gleichwertigkeit: | Nein |
HDD Schnittstelle: | SATA |
Intel® My-WiFi-Technik (Intel® MWT): | Nein |
Intel® Anti-Theft Technologie (Intel® AT): | Nein |
Intel® Insider™: | Nein |
Intel® Flex Memory Access: | Nein |
Intel® Enhanced Halt State: | Ja |
Intel® Demand Based Switching: | Nein |
Intel® Clear Video Technology für Mobile Internet Devices (Intel® CVT for MID): | Nein |
Intel® Dual Display Capable Technology: | Nein |
Intel® FDI-Technik: | Nein |
Intel® Rapid-Storage-Technik: | Nein |
Intel® Fast Memory Access: | Nein |
CPU-Multiplikator (Bus-/Kernverhältnis): | 9 |
Bildertypenkarte: | <div><img src="https://ark.intel.com/inc/images/diagrams/diagram-5.gif" title="Block Diagram" /></div> |
Tcase: | 62.2 °C |
Anzahl der Processing Die Transistoren: | 582 M |
Processing die Größe: | 286 mm² |
Netzwerkfunktionen: | Gigabit Ethernet |
Physical Address Extension (PAE): | 32 Bit |
Unterstützung für redundantes Netzteil: | Ja |
Hot-Swap: | Ja |
Lesegeschwindigkeit CD: | 48 x |
Lesegeschwindigkeit DVD: | 16 x |
Laufwerkseinschübe: | 3x 5.25", 1x 3.5", 6/8x 3.5" |
PCI-Express x4-Slots: | 1 |
PCI-Express x8-Slots: | 2 |
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