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Testování hardwaru pro firmu Intel

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(Srovnávací test CPU Conroe E6400, 2128 MHz (8 x 266) VS CPU 2x QuadCore Intel Xeon E5320, 1866 MHz (7 x 267))
 
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== Server configuration ==
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== QuadCore Xeon E5320 ==
* OS: Microsoft Windows Server 2003 x64, Enterprise Edition
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* Autodesk 3D Studio MAX 9 x64
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* V-Ray Adv for 3dsmax R9 for x64
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*CPU 2x QuadCore Intel Xeon E5320, 1866 MHz (7 x 267)
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[[Soubor:Cpu-Z Clovertown.PNG|thumb|right|CPU-Z]]
*Motherboard [http://www.supermicro.com/products/motherboard/Xeon1333/5000P/X7DB8.cfm Supermicro X7DB8](3 PCI-E x8, 3 PCI-X, 1 SEPC, 8 FB-DIMM, Video, Dual Gigabit LAN, SCSI), Chipset Intel Blackford 5000P
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* OS: Microsoft Windows Server R2 2003 x64, Enterprise Edition
*8GB RAM DDR2-667 (333 MHz)
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* OS: Debian x64
  
  
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* CPU 2x QuadCore Intel Xeon E5320, 1866 MHz (7 x 267)
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* Motherboard [http://www.supermicro.com/products/motherboard/Xeon1333/5000P/X7DB8.cfm Supermicro X7DB8](3 PCI-E x8, 3 PCI-X, 1 SEPC, 8 FB-DIMM, Video, Dual Gigabit LAN, SCSI), Chipset Intel Blackford 5000P
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* 8GB RAM ECC DDR2-667 (333 MHz)
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* 3x HDD Seagate [http://www.seagate.com/cda/products/discsales/marketing/detail/0,1596,650,00.html ST373207LC], 73GB, 10k, Ultra320 SCSI
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* [http://www.wdc.com/en/products/Products.asp?DriveID=138 WD Caviar SE 120GB]
  
  
== Rendering ==
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== DualCore Xeon E5150 ==
  
In Healthcare is rendering also important, because of CT (and other) scan results. On this server we are now testing speed of most used rendering algorithms.
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* OS: Debian x64
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* CPU 2x [http://processorfinder.intel.com/details.aspx?sSpec=SL9RU DualCore Xeon E5150], 2,66GHz
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* Motherboard [http://www.supermicro.com/products/motherboard/Xeon1333/5000P/X7DB8.cfm Supermicro X7DB8](3 PCI-E x8, 3 PCI-X, 1 SEPC, 8 FB-DIMM, Video, Dual Gigabit LAN, SCSI), Chipset Intel Blackford 5000P
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* 8GB RAM ECC DDR2-667 (333 MHz)
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* [http://www.wdc.com/en/products/Products.asp?DriveID=138 WD Caviar SE 120GB]
  
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== QuadCore Xeon X3210 ==
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[[Soubor:Braccia2.PNG|thumb|right|CPU-Z]]
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* OS: Debian x64
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* OS: Microsoft Windows Server R2 2003 x64, Enterprise Edition
  
== Srovnávací test 1x Dualcore CPU Conroe E6400, 2128 MHz (8 x 266)  VS  CPU 2x QuadCore Intel Xeon E5320, 1866 MHz (7 x 267) ==
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* CPU [http://processorfinder.intel.com/details.aspx?sspec=sl9uq QuadCore Xeon X3210]
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* Motherboard [http://www.tyan.com/product_board_detail.aspx?pid=349 Tyan S5197]
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* 2GB RAM DDR2-667 (333 MHz)
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* [http://www.seagate.com/ww/v/index.jsp?vgnextoid=d1ae99f4fa74c010VgnVCM100000dd04090aRCRD&locale=en-US Seagate Barracuda 7200.9 SATA 300-GB Hard Drive]
  
[[Soubor:Test1 - Octa.jpg|thumb|right|2x Quadcore Xeon E5320.  Time 20min 18s]]
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==[[Synthetic tests E5320|Synthetic tests]] ==
[[Soubor:Test1 - C2D.jpg|thumb|right|1x Dualcore Conroe E6400. Time 64 min 33,9s]]
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Test byl proveden za pomocí renderovacího systému [http://www.chaoticdimension.com/ Vray render 1.5 RC3 x64] pod [http://usa.autodesk.com/adsk/servlet/index?id=5659302&siteID=123112 3D Studiem MAX]. Tento renderovací systém je plně multitredový. To znamená, že dokáže využít libovolný počet procesorů či jader. V podstatě se tato úloha řeší prostým rozdělením počítaného obrázku na díly - buckety. Ty mají zpravidla velikost 64 x 64 pix. Jeden bucket = 1 jádro či procesor. V tomto testu byly použity algoritmy, které jsou plně multitredové.
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K testování byla vytvořena jednoduchá scéna, za použití populárního pluginu [http://www.maxplugins.de/max9.php?search=&sort=Author Greeble 1.5]k vytvoření "Star Wars" geometrie. Tráva vespod scény je tvořena integrovaným vlasovým systémem pod 3DS MAX 9.0 - Hair and  Fur
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Some screenshots from SiSoftware Sandra
  
K výpočtu byla zvolena jedna z Hybridních metod stínování a to QMC/Ligtcache.
 
QMC - Quasi Monte Carlo - je přímá metoda, která počíta osvětlení zvlášť pro každý pixel
 
Lightcache - metoda, která spočte osvětlení pro virtuální plochu na 3d objektu. Vznikla z metody Path tracingu.
 
Jako první je spočteno hrubé osvětlení pomocí Lightcache. Toto hrubé osvětlení je následně přepočteno metodou QMC pro každý pixel. Ve výsledku je tedy stínování velice detailní.
 
  
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==[[VUCAKO results|Task-oriented benchmark results]] ==
  
Vray zatím jako jediný systém umožňuje Výpočet Lightcache. Ostatní renderovací systémy, jako Brazil či MentalRay nahrazují lightcache zastaralejší Photonovou mapou.
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Results of task-oriented benchmark suite [http://cgg.ms.mff.cuni.cz/~pepca/bench/ VUCAKO Bench].
  
  
Více o renderovacích metodách: [http://www.rhino3d.cz/clanky/renderovani/gi-metody-a-jejich-implementace-ve-v-rayi.html Česky] [http://www.spot3d.com/vray/help/150R1/gimethods.htm Englisch]
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==[[BRACCIA project | BRACCIA project]]==
  
== Testing on [http://www.microsoft.com/cze/windowsserversystem/virtualserver/default.mspx Virtual Server 2005 R2] ==
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The project BRACCIA (Brain, Respiration And Cardiac Causalities In Anaesthesia) is a part of the 6th Research Framework program of the Europian Union (NEST: New and Emerging Science and Technology ). The goal of the project is to uncover the complex interactions between brain waves, heart and respiratory rhythms and how these change during anaesthesia. Focus is directed at the examination of control flows between the systems - directionality influences (in special cases referred to as causalities).
  
Because of easy migration between tested servers seems to be simpliest way to test on the Virtual servers. We plan to try servers in many configurations and (infrastructure server, rendering server, streaming server...)
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==[[MedV3D|MedV3D project]]==
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[[Soubor:Atlasscene.jpg|thumb|right|Volume segmentation]]
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One part of this project aims at measuring volumes of body organs (kidney, liver, spleen) from volumetric data. Our implementation is able to utilise multi-core CPUs. [[MedV3D|This]] page describes some results measured on 8-core computer (2x QuadCore Intel Xeon E5320).
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[[Category:Projekty]]

Aktuální verze z 19. 3. 2012, 23:15

Obsah

[editovat] QuadCore Xeon E5320

CPU-Z
  • OS: Microsoft Windows Server R2 2003 x64, Enterprise Edition
  • OS: Debian x64


  • CPU 2x QuadCore Intel Xeon E5320, 1866 MHz (7 x 267)
  • Motherboard Supermicro X7DB8(3 PCI-E x8, 3 PCI-X, 1 SEPC, 8 FB-DIMM, Video, Dual Gigabit LAN, SCSI), Chipset Intel Blackford 5000P
  • 8GB RAM ECC DDR2-667 (333 MHz)
  • 3x HDD Seagate ST373207LC, 73GB, 10k, Ultra320 SCSI
  • WD Caviar SE 120GB


[editovat] DualCore Xeon E5150

  • OS: Debian x64

[editovat] QuadCore Xeon X3210

CPU-Z
  • OS: Debian x64
  • OS: Microsoft Windows Server R2 2003 x64, Enterprise Edition

[editovat] Synthetic tests

Some screenshots from SiSoftware Sandra


[editovat] Task-oriented benchmark results

Results of task-oriented benchmark suite VUCAKO Bench.


[editovat] BRACCIA project

The project BRACCIA (Brain, Respiration And Cardiac Causalities In Anaesthesia) is a part of the 6th Research Framework program of the Europian Union (NEST: New and Emerging Science and Technology ). The goal of the project is to uncover the complex interactions between brain waves, heart and respiratory rhythms and how these change during anaesthesia. Focus is directed at the examination of control flows between the systems - directionality influences (in special cases referred to as causalities).


[editovat] MedV3D project

Volume segmentation

One part of this project aims at measuring volumes of body organs (kidney, liver, spleen) from volumetric data. Our implementation is able to utilise multi-core CPUs. This page describes some results measured on 8-core computer (2x QuadCore Intel Xeon E5320).

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