|
|
| Line 9: |
Line 9: |
| For entries prior to 1993, this list refers to various sources [http://www.computerhistory.org/VirtualVisibleStorage/artifact_main.php?tax_id=03.04.01.00#4 CDC timeline at Computer History Museum]. From 1993 to present, the list reflects the Top500 listing [http://www.top500.org/sublist Directory page for Top500 lists. Result for each list since June 1993], and the "Peak speed" is given as the "Rmax" rating. | | For entries prior to 1993, this list refers to various sources [http://www.computerhistory.org/VirtualVisibleStorage/artifact_main.php?tax_id=03.04.01.00#4 CDC timeline at Computer History Museum]. From 1993 to present, the list reflects the Top500 listing [http://www.top500.org/sublist Directory page for Top500 lists. Result for each list since June 1993], and the "Peak speed" is given as the "Rmax" rating. |
|
| |
|
| {| class="wikitable" | | {| class="wikitable" border = "1" |
| ! Year !! Supercomputer !! [[FLOPS|Peak speed<br>(Rmax)]] !! Location | | ! Year !! Supercomputer !! [[FLOPS|Peak speed<br>(Rmax)]] !! Location |
| |- | | |- |
Revision as of 02:02, 28 January 2010
"Look through the www.top500.org site, and any other relevant material you can find, and write about supercomputer trends since the beginning of top500.org. Specifically, look at how the architectures, operating systems, and programming models have changed. What models were dominant, say, for each generation, or five-year interval? What technological trends caused the changes? Please write an integrated description. You can link to other Web sites, but your description should be self-contained."
Timeline of supercomputers
This is a list of the record-holders for fastest general-purpose supercomputer in the world, and the year each one set the record.
For entries prior to 1993, this list refers to various sources CDC timeline at Computer History Museum. From 1993 to present, the list reflects the Top500 listing Directory page for Top500 lists. Result for each list since June 1993, and the "Peak speed" is given as the "Rmax" rating.
| Year |
Supercomputer |
Peak speed
(Rmax) |
Location
|
| 1938
|
Zuse Z1
|
1 OPS
|
Konrad Zuse, Berlin, Germany
|
| 1941
|
Zuse Z3
|
20 OPS
|
Konrad Zuse, Berlin, Germany
|
| 1943
|
Colossus 1
|
5 kOPS
|
Post Office Research Station, Bletchley Park, UK
|
| 1944
|
Colossus 2 (Single Processor)
|
25 kOPS
|
Post Office Research Station, Bletchley Park, UK
|
| 1946
|
Colossus 2 (Parallel Processor)
|
50 kOPS
|
Post Office Research Station, Bletchley Park, UK
|
1946
|
UPenn ENIAC
(before 1948+ modifications)
|
5 kOPS
|
Department of War
Aberdeen Proving Ground, Maryland, USA
|
| 1954
|
IBM NORC
|
67 kOPS
|
Department of Defense
U.S. Naval Proving Ground, Dahlgren, Virginia, USA
|
| 1956
|
MIT TX-0
|
83 kOPS
|
Massachusetts Inst. of Technology, Lexington, Massachusetts, USA
|
| 1958
|
IBM AN/FSQ-7
|
400 kOPS
|
25 U.S. Air Force sites across the continental USA and 1 site in Canada (52 computers)
|
| 1960
|
UNIVAC LARC
|
250 kFLOPS
|
Atomic Energy Commission (AEC)
Lawrence Livermore National Laboratory, California, USA
|
| 1961
|
IBM 7030 "Stretch"
|
1.2 MFLOPS
|
AEC-Los Alamos National Laboratory, New Mexico, USA
|
| 1964
|
CDC 6600
|
3 MFLOPS
|
AEC-Lawrence Livermore National Laboratory, California, USA
|
| 1969
|
CDC 7600
|
36 MFLOPS
|
| 1974
|
CDC STAR-100
|
100 MFLOPS
|
| 1975
|
Burroughs ILLIAC IV
|
150 MFLOPS
|
NASA Ames Research Center, California, USA
|
| 1976
|
Cray-1
|
250 MFLOPS
|
Energy Research and Development Administration (ERDA)
Los Alamos National Laboratory, New Mexico, USA (80+ sold worldwide)
|
| 1981
|
CDC Cyber 205
|
400 MFLOPS
|
(~40 systems worldwide)
|
| 1983
|
Cray X-MP/4
|
941 MFLOPS
|
U.S. Department of Energy (DoE)
Los Alamos National Laboratory; Lawrence Livermore National Laboratory; Battelle; Boeing
|
| 1984
|
M-13
|
2.4 GFLOPS
|
Scientific Research Institute of Computer Complexes, Moscow, USSR
|
| 1985
|
Cray-2/8
|
3.9 GFLOPS
|
DoE-Lawrence Livermore National Laboratory, California, USA
|
| 1989
|
ETA10-G/8
|
10.3 GFLOPS
|
Florida State University, Florida, USA
|
| 1990
|
NEC SX-3/44R
|
23.2 GFLOPS
|
NEC Fuchu Plant, Fuchū,_Tokyo, Japan
|
| 1993
|
Thinking Machines CM-5/1024
|
59.7 GFLOPS
|
DoE-Los Alamos National Laboratory; National Security Agency
|
| Fujitsu Numerical Wind Tunnel
|
124.50 GFLOPS
|
National Aerospace Laboratory, Tokyo, Japan
|
| Intel Paragon XP/S 140
|
143.40 GFLOPS
|
DoE-Sandia National Laboratories, New Mexico, USA
|
| 1994
|
Fujitsu Numerical Wind Tunnel
|
170.40 GFLOPS
|
National Aerospace Laboratory, Tokyo, Japan
|
| 1996
|
Hitachi SR2201/1024
|
220.4 GFLOPS
|
University of Tokyo, Japan
|
| Hitachi/Tsukuba CP-PACS/2048
|
368.2 GFLOPS
|
Center for Computational Physics, University of Tsukuba, Tsukuba, Japan
|
| 1997
|
Intel ASCI Red/9152
|
1.338 TFLOPS
|
DoE-Sandia National Laboratories, New Mexico, USA
|
| 1999
|
Intel ASCI Red/9632
|
2.3796 TFLOPS
|
| 2000
|
IBM ASCI White
|
7.226 TFLOPS
|
DoE-Lawrence Livermore National Laboratory, California, USA
|
| 2002
|
NEC Earth Simulator
|
35.86 TFLOPS
|
Earth Simulator Center, Yokohama, Japan
|
| 2004
|
IBM Blue Gene/L
|
70.72 TFLOPS
|
DoE/IBM Rochester, Minnesota, USA
|
| 2005
|
136.8 TFLOPS
|
DoE/U.S. National Nuclear Security Administration,
Lawrence Livermore National Laboratory, California, USA
|
| 280.6 TFLOPS
|
| 2007
|
478.2 TFLOPS
|
| 2008
|
IBM Roadrunner
|
1.026 PFLOPS
|
DoE-Los Alamos National Laboratory, New Mexico, USA
|
| 1.105 PFLOPS
|
| 2009
|
Cray Jaguar
|
1.759 PFLOPS
|
DoE-Oak Ridge National Laboratory, Tennessee, USA
|
Processors
Processor Architecture
Hello world
Processor Family
Number of Processors
Operating Systems
Operating Systems Family
Operating Systems Trend