We often show a tendency to wallow about the specifications and punch capabilities of our personal computers. But when it comes to supercomputers, the computing reaches astronomical figures leaving us think minimal about our PCs.
TOP500, which took the project of listing top 500 supercomputers in the world, updates its list 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. Read on to know the 10 fastest super computers existing in the world now.
#10 DARPA
Site: IBM Development Engineering
Manufacturer: IBM
Country: United States
Processor: POWER7 8C 3.836GHz,
Cores: 63360
Power: 3575.63 kW
Interconnect: Custom Interconnect
Operating System: Linux
Speed: 1.52 petaflops
Defense Advanced Research Projects Agency (DARPA) is an agency of United States Department of Defense responsible for the development of new technologies for use by the military. IBM's DARPA Trial Subset machine is new to the Top 10 list. It was No. 23 when it was ranked in June this year.
Manufacturer: IBM
Country: United States
Processor: POWER7 8C 3.836GHz,
Cores: 63360
Power: 3575.63 kW
Interconnect: Custom Interconnect
Operating System: Linux
Speed: 1.52 petaflops
Defense Advanced Research Projects Agency (DARPA) is an agency of United States Department of Defense responsible for the development of new technologies for use by the military. IBM's DARPA Trial Subset machine is new to the Top 10 list. It was No. 23 when it was ranked in June this year.
#9 Fermi
Site: Cineca
Manufacturer: IBM
Country: Italy
Architecture: BlueGene/Q
Processor: Power BQC 16C 1.60GHz
Cores: 163840
Power: 821.88 kW
Interconnect: Custom Interconnect
Operating System: Linux
Speed: 1.73 petaflops
Date Created: 2012
Manufacturer: IBM
Country: Italy
Architecture: BlueGene/Q
Processor: Power BQC 16C 1.60GHz
Cores: 163840
Power: 821.88 kW
Interconnect: Custom Interconnect
Operating System: Linux
Speed: 1.73 petaflops
Date Created: 2012
The Fermi supercomputer is owned by Cineca, Italy's computing consortium of 54 universities. The supercomputer is based on IBM's BlueGene/Q architecture. It will be used for computational science of scale, and will allow Italian and European teams of researchers to perform computationally intensive, large-scale research projects attacking fundamental problems in science and engineering that require massive calculations, as said on ceneca.it web site.
#8 Tianhe-1A
Site: National Supercomputing Center in Tianjin
Manufacturer: NUDT
Country: China
Architecture: NUDT YH MPP
Processor: Xeon X5670 6C 2.93 GHz
Cores: 186368
Power: 4040.00 kW
Memory: 229376 GB
Interconnect: Proprietary
Compiler: icc
Operating System: Linux
Speed: 2.56 petaflops per second
Date Created: 2010
Tianhe in English means "Milky Way Number One”, it is Located at the National Supercomputing Center in Tianjin, China. It was the fastest computer in the world from October 2010 to June 2011 and is one of the few Petascale supercomputers in the world. The supercomputer is useful in carrying out researches in petroleum exploration, solar energy, and performs aircraft simulation.
Manufacturer: NUDT
Country: China
Architecture: NUDT YH MPP
Processor: Xeon X5670 6C 2.93 GHz
Cores: 186368
Power: 4040.00 kW
Memory: 229376 GB
Interconnect: Proprietary
Compiler: icc
Operating System: Linux
Speed: 2.56 petaflops per second
Date Created: 2010
Tianhe in English means "Milky Way Number One”, it is Located at the National Supercomputing Center in Tianjin, China. It was the fastest computer in the world from October 2010 to June 2011 and is one of the few Petascale supercomputers in the world. The supercomputer is useful in carrying out researches in petroleum exploration, solar energy, and performs aircraft simulation.
#7 Stampede
Site: Texas Advanced Computing Center/ university of Texas
Manufacturer: Dell
Country: United States of America
Architecture: PowerEdge C8220
Processor: Xeon E5-2680 8C 2.700GHz,
Cores: 204900
Memory: 184800 GB
Interconnect: Infiniband FDR
Compiler: Intel
Operating System: Linux
Speed: 2.6 petaflops
Date Created: 2012
The Texas Advanced Computing Center (TACC) at The University of Texas at Austin is all gearing up to manufacture the next version of Stampede, by January 2013. This would be world-class supercomputer with comprehensive computing and visualization capabilities as part of a National Science Foundation grant, as posted on TACC site.
Manufacturer: Dell
Country: United States of America
Architecture: PowerEdge C8220
Processor: Xeon E5-2680 8C 2.700GHz,
Cores: 204900
Memory: 184800 GB
Interconnect: Infiniband FDR
Compiler: Intel
Operating System: Linux
Speed: 2.6 petaflops
Date Created: 2012
The Texas Advanced Computing Center (TACC) at The University of Texas at Austin is all gearing up to manufacture the next version of Stampede, by January 2013. This would be world-class supercomputer with comprehensive computing and visualization capabilities as part of a National Science Foundation grant, as posted on TACC site.
#6 SuperMUC
Site: Leibniz Rechenzentrum
Manufacturer: IBM
Country: Germany
Architecture: iDataPlex DX360M4
Processor: Xeon E5-2680 8C 2.70GHz
Cores: 147456
Interconnect: Infiniband FDR
Power: 3422.67 kW
Operating System: Linux
Speed: 2.89 petaflops
Date Created: 2012
The supercomputer is to strengthen the position of Germany's Gauss Centre for Supercomputing in Europe by delivering outstanding compute power and integrating it into the European High Performance Computing ecosystem. With the operation of SuperMUC, LRZ will act as an European Centre for Supercomputing and will be Tier-0 centre of PRACE, the Partnership for Advanced Computing in Europe.
Manufacturer: IBM
Country: Germany
Architecture: iDataPlex DX360M4
Processor: Xeon E5-2680 8C 2.70GHz
Cores: 147456
Interconnect: Infiniband FDR
Power: 3422.67 kW
Operating System: Linux
Speed: 2.89 petaflops
Date Created: 2012
The supercomputer is to strengthen the position of Germany's Gauss Centre for Supercomputing in Europe by delivering outstanding compute power and integrating it into the European High Performance Computing ecosystem. With the operation of SuperMUC, LRZ will act as an European Centre for Supercomputing and will be Tier-0 centre of PRACE, the Partnership for Advanced Computing in Europe.
The supercomputer is available to all European researchers to expand the frontiers of science and engineering, as stated in LRZ website.
#5 JUQUEEN
Site: Forschungszentrum Juelich (FZJ)
Manufacturer: IBM
Country: Germany
Architecture: BlueGene/Q
Processor: Power BQC 16C 1.600GHz
Cores: 393216
Power: 1970.00 kW
Memory: 393216 GB
Interconnect: Custom Interconnect
Operating System: Linux
Speed: 4.14 petaflops
Date Created: 2012
Manufacturer: IBM
Country: Germany
Architecture: BlueGene/Q
Processor: Power BQC 16C 1.600GHz
Cores: 393216
Power: 1970.00 kW
Memory: 393216 GB
Interconnect: Custom Interconnect
Operating System: Linux
Speed: 4.14 petaflops
Date Created: 2012
The Jülich Research Centre in Germany is home to the JuQUEEN, which is used for computational science, engineering, climatology, physics, and materials science. The super computer was Ranked No. 8 in June, JUQEEN was upgraded and is now the most powerful system in Europe.
# 4 Mira
Manufacturer: IBM
Country: United States
Architecture: BlueGene/Q
Processor: Power BQC 16C 1.60GHz
Cores: 786432
Power: 3945.00 kW
Operating system: Linux
Speed: 8.16 petaflops per second
Date Created: 2011
Country: United States
Architecture: BlueGene/Q
Processor: Power BQC 16C 1.60GHz
Cores: 786432
Power: 3945.00 kW
Operating system: Linux
Speed: 8.16 petaflops per second
Date Created: 2011
Mira was constructed by IBM for Argonne National Laboratory's Argonne Leadership Computing Facility with the support of the United States Department of Energy, and partially funded by the National Science Foundation. The supercomputer is useful for scientific research, including studies in the fields of material science, climatology, seismology, and computational chemistry.
#3 K Computer
Manufacturer: Fujitsu
Country: Japan
Processor: SPARC64 VIIIfx 2.0GHz
Cores: 705024
Power: 12659.89 kW
Memory: 1410048 GB
Operating system: Linux
Speed: 10.51 petaflops per second
Date Created: 2011
The K computer is named for Japanese word "kei", meaning 10 quadrillion (1016). The supercomputer is currently installed at the RIKEN Advanced Institute for Computational Science campus in Kobe, Japan. The K computer is based on distributed memory architecture, with over 80,000 computer nodes. It is intended to have a variety of applications, including climate research, disaster prevention and medical research.
Country: Japan
Processor: SPARC64 VIIIfx 2.0GHz
Cores: 705024
Power: 12659.89 kW
Memory: 1410048 GB
Operating system: Linux
Speed: 10.51 petaflops per second
Date Created: 2011
The K computer is named for Japanese word "kei", meaning 10 quadrillion (1016). The supercomputer is currently installed at the RIKEN Advanced Institute for Computational Science campus in Kobe, Japan. The K computer is based on distributed memory architecture, with over 80,000 computer nodes. It is intended to have a variety of applications, including climate research, disaster prevention and medical research.
Site: Lawrence Livermore National Laboratory, United States
Manufacturer: IBM
Country: United States
Architecture: BlueGene/Q
Processor: Power BQC 16C 1.60 GHz
Cores: 1572864
Power: 7890.00 kW
Memory: 1572864 GB
Operating system: Linux
Speed: 16.32 petaflops per second
Date Created: 2011
Manufacturer: IBM
Country: United States
Architecture: BlueGene/Q
Processor: Power BQC 16C 1.60 GHz
Cores: 1572864
Power: 7890.00 kW
Memory: 1572864 GB
Operating system: Linux
Speed: 16.32 petaflops per second
Date Created: 2011
The supercomputer is manufactured by IBM for the National Nuclear Security Administration as part of the Advanced Simulation and Computing Program (ASC). It was delivered to the Lawrence Livermore National Laboratory (LLNL) in 2011 and was fully deployed in June 2012.
Sequoia will be used primarily for nuclear weapons simulation, and also plays important role for scientific purposes such as astronomy, energy, study of the human genome, and climate change.
#1 Titan
Manufacturer: Cray Inc
Country: United States
Architecture: Cray XK7
Processor: Opteron 6274 16C 2.200GHz+ NVIDIA K20x
Cores: 560640
Power: 8209.00 kW
Memory: 710144 GB
Interconnect: Cray Gemini interconnect
Operating system: Cray Linux Environment
Speed: 17.59 petaflops
Date Created: 2012
Titan is developed by Cray Inc at Oak Ridge National Laboratory for the purpose of science projects. Titan is an upgrade of Jaguar, with addition NVIDIA K20x GPU to its CPU, gained more computational power. It was announced in October 2011 and became operational in October 2012. Titan will use its extraordinary computing power for study alternative and efficient energy, efficient engines, climate change, and identifying new materials.
Country: United States
Architecture: Cray XK7
Processor: Opteron 6274 16C 2.200GHz+ NVIDIA K20x
Cores: 560640
Power: 8209.00 kW
Memory: 710144 GB
Interconnect: Cray Gemini interconnect
Operating system: Cray Linux Environment
Speed: 17.59 petaflops
Date Created: 2012
Titan is developed by Cray Inc at Oak Ridge National Laboratory for the purpose of science projects. Titan is an upgrade of Jaguar, with addition NVIDIA K20x GPU to its CPU, gained more computational power. It was announced in October 2011 and became operational in October 2012. Titan will use its extraordinary computing power for study alternative and efficient energy, efficient engines, climate change, and identifying new materials.
Source: http://www.siliconindia.com
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