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== Project history ==
== Project history ==
In the early 1990s, a new definition of supercomputer was needed to produce meaningful statistics. After experimenting with metrics based on processor count in 1992, the idea was born at the [[University of Mannheim]] to use a detailed listing of installed systems as the basis. Early 1993 [[Jack Dongarra]] was persuaded to join the project with his Linpack benchmark. A first test version was produced in May 1993, partially based on data available on the Internet, including the following sources:<ref>[http://www.hpcwire.com/archives/10219.html AN INTERVIEW WITH JACK DONGARRA by Alan Beck, editor in chief HPCwire<!-- Bot generated title -->]</ref><ref>[http://www.netlib.org/benchmark/top500/reports/report93/section2_16_4.html Statistics on Manufacturers and Continents<!-- Bot generated title -->]</ref>
In the early 1990s, a new asian definition of supercomputer was needed to produce meaningful statistics. After experimenting with metrics based on processor count in 1992, the idea was born at the [[University of Mannheim]] to use a detailed listing of installed systems as the basis. Early 1993 [[Jack Dongarra]] was persuaded to join the project with his Linpack benchmark. A first test version was produced in May 1993, partially based on data available on the Internet, including the following sources:<ref>[http://www.hpcwire.com/archives/10219.html AN INTERVIEW WITH JACK DONGARRA by Alan Beck, editor in chief HPCwire<!-- Bot generated title -->]</ref><ref>[http://www.netlib.org/benchmark/top500/reports/report93/section2_16_4.html Statistics on Manufacturers and Continents<!-- Bot generated title -->]</ref>
*"[http://www.hoise.com/primeur/PL/96/pl-top500/ES-PL-11-96-4.html List of the World's Most Powerful Computing Sites]" maintained by Gunter Ahrendt
*"[http://www.hoise.com/primeur/PL/96/pl-top500/ES-PL-11-96-4.html List of the World's Most Powerful Computing Sites]" maintained by Gunter Ahrendt
*David Kahaner, who had an immense amount of data.
*David Kahaner, who had an immense amount of data.

Revision as of 04:18, 2 September 2011

Total computational power of the 500 most powerful computer systems in the world, 1993–2010. Note the logarithmic scale.

The TOP500 project ranks and details the 500 (non-distributed) most powerful known computer systems in the world. The project was started in 1993 and publishes an updated list of the supercomputers twice a year. The first of these updates always coincides with the International Supercomputing Conference in June, the second one is presented in November at the ACM/IEEE Supercomputing Conference. The project aims to provide a reliable basis for tracking and detecting trends in high-performance computing and bases rankings on HPL, a portable implementation of the High-Performance LINPACK benchmark written in Fortran for distributed-memory computers.

The TOP500 list is compiled by Hans Meuer of the University of Mannheim, Germany, Jack Dongarra of the University of Tennessee, Knoxville, and Erich Strohmaier and Horst Simon of NERSC/Lawrence Berkeley National Laboratory.

Project history

In the early 1990s, a new asian definition of supercomputer was needed to produce meaningful statistics. After experimenting with metrics based on processor count in 1992, the idea was born at the University of Mannheim to use a detailed listing of installed systems as the basis. Early 1993 Jack Dongarra was persuaded to join the project with his Linpack benchmark. A first test version was produced in May 1993, partially based on data available on the Internet, including the following sources:[1][2]

The information from those sources was used for the first two lists. Since June 1993 the TOP500 is produced bi-annually based on site and vendor submissions only.

Since 1993, performance of the #1 ranked position steadily grew in agreement with Moore's law, doubling roughly every 14 months. The fastest system as of November 2010 is roughly 36,000 times faster (in terms of peak Tflops) than the fastest system as of June 1993.

Comparison (June 2011)[3]
Country Number of
computers
in TOP500
Top speed (Rmax)
(Tflops)
Sum speed (Rmax)
(Pflops)
 United States 256 1,759 25.28
 Japan 26 8,162 11.182
 China 62 2,566 7.176
 Germany 30 826 3.242
 France 25 1,050 3.18
 United Kingdom 27 280 1.872
 Russia 12 674 1.341

The systems ranked #1 since 1993

Rankings

June 2011

The following table gives the Top 10 positions of the 37th TOP500 List released on June 20, 2011.
Rank Rmax
Rpeak
(Tflops)
Name Computer
Processor cores
Vendor Site
Country, year
Operating system
1 8162.00
8773.63
K computer RIKEN
68,544×8 SPARC64 VIIIfx processors
Fujitsu RIKEN
  Japan, 2011
Linux
2 2566.00
4701.00
Tianhe-1A NUDT YH Cluster
14,336×6 Xeon + 7168×14 Fermi, Arch (Proprietary)[4]
NUDT National Supercomputing Center of Tianjin
  China, 2010
Linux
3 1759.00
2331.00
Jaguar Cray XT5
224,162 Opteron
Cray Oak Ridge National Laboratory
  United States, 2009
Linux (CLE)
4 1271.00
2984.30
Nebulae Dawning TC3600 Blade
55,680 Xeon + 64,960 Tesla, InfiniBand
Dawning National Supercomputing Center in Shenzhen (NSCS)
  China, 2010
Linux
5 1192.00
2287.63
TSUBAME 2.0 HP Cluster Platform 3000SL
73,278 Xeon, Fermi
NEC/HP GSIC Center, Tokyo Institute of Technology
  Japan, 2010
Linux (SLES 11)
6 1110.00
1365.81
Cielo Cray XE6
142,272 Opteron
Cray Los Alamos National Laboratory
  United States, 2010
Linux (CLE)
7 1088.00
1315.33
Pleiades Altix
111,104 Xeon, InfiniBand
SGI Ames Research Center
  United States, 2011
Linux
8 1054.00
1288.63
Hopper Cray XE6
153,408 Opteron
Cray Lawrence Berkeley National Laboratory
  United States, 2010
Linux (CLE)
9 1050.00
1254.55
Tera 100 Bull Bullx
138,368 Xeon, InfiniBand
Bull SA Commissariat à l'énergie atomique (CEA)
  France, 2010
Linux (XBAS)
10 1042.00
1375.78
Roadrunner BladeCenter QS22/LS21
122,400 Cell/Opteron
IBM Los Alamos National Laboratory
  United States, 2009
Linux (Fedora 9)

Legend

  • Rank – Position within the TOP500 ranking. In the TOP500 List table, the computers are ordered first by their Rmax value. In the case of equal performances (Rmax value) for different computers, the order is by Rpeak. For sites that have the same computer, the order is by memory size and then alphabetically.
  • Rmax – The highest score measured using the LINPACK benchmark suite. This is the number that is used to rank the computers. Measured in trillions of floating point operations per second, i.e. teraflops.
  • Rpeak – This is the theoretical peak performance of the system. Measured in Tflops.
  • Name – Some supercomputers are unique, at least on its location, and are therefore christened by its owner.
  • Computer – The computing platform as it is marketed.
  • Processor cores – The number of active processor cores actively used running Linpack. After this figure is the processor architecture of the cores named. If the interconnect between computing nodes is of interest, it's also included here.
  • Vendor – The manufacturer of the platform and hardware.
  • Site – The name of the facility operating the supercomputer.
  • Country – The country in which the computer is situated.
  • Year – The year of installation/last major update.
  • Operating System – The operating system that the computer uses.

See also

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References

  1. ^ AN INTERVIEW WITH JACK DONGARRA by Alan Beck, editor in chief HPCwire
  2. ^ Statistics on Manufacturers and Continents
  3. ^ "TOP500 List - June 2011". TOP500. Retrieved 2010-12-30.
  4. ^ "Top100爆冷门 天河一号力压星云再夺魁". October 28, 2010.