A. Tianhe-2
Tianhe-2 is a supercomputer built by the National University of Defense Technology in China. It can do more than 33,862 million million operations every second. It is the fastest computer in the world. It uses more than three million processor cores. The supercomputer uses 17.8 million watts of power. The cost of construction was 2.4 billion Yuan.
Architecture: - 32,000 Intel Xeon E5-2692 12C with 2.200 GHz 48,000 Xeon Phi 31S1P
Power: - 17.6 MW (24 MW with cooling)
Operating system: - Kylin Linux
Memory: - 1,375 TiB (1,000 TiB CPU and 375 TiB coprocessor)
Storage: - 12.4 PB
Speed: - 33.86 PFLOPS
B. Titan
Titan is a supercomputer built by Cray at Oak Ridge National Laboratory for use in a variety of science projects. Titan is an upgrade of Jaguar, a previous supercomputer at Oak Ridge that uses graphics processing units (GPUs) in addition to conventional central processing units (CPUs). Titan is the first such hybrid to perform over 10 petaFLOPS.
Architecture: - 18,688 AMD Opteron 6274 16-core CPUs, 18,688 Nvidia Tesla K20X GPUs
Power: - 8.2 MW
Operating system: - Cray Linux Environment
Space: - 404 m2 (4352 ft2)
Memory: - 693.5 TiB (584 TiB CPU and 109.5 TiB GPU)
Storage : - 40 PB, 1.4 TB/s IO Lustre file system
C. IBM Sequoia
IBM Sequoia is a petascale Blue Gene/Q supercomputer constructed 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.
Power: - 7.9 MW
Operating system: - CNK operating system, Red Hat Enterprise Linux
Space: - 3,000 square feet (280 m2)
Memory: - 1.5 PiB
Speed: - 20.13 PFLOPS
D. K Computer
The K computer named for the Japanese word kei, meaning 10 quadrillion (1016) is a supercomputer manufactured by Fujitsu, currently installed at the Riken Advanced Institute for Computational Science campus in Kobe, Hyōgo Prefecture, Japan. The K computer is based on distributed memory architecture with over 80,000 compute nodes. It is used for a variety of applications, including climate research, disaster prevention and medical research.
Architecture: - 88,128 SPARC64 VIIIfx processors, Tofu interconnect
Power: - 12.6 MW
Operating system: - Linux
Speed: - 10.51 petaflops (Rmax)
E. IBM Mira
Mira is a petascale Blue Gene/Q supercomputer. It has a performance of 8.59 petaflops (LINPACK) and consumes 3.9 MW. The supercomputer 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. Mira will be used for scientific research, including studies in the fields of material science, climatology, seismology, and computational chemistry. The supercomputer is being utilized initially for sixteen projects, selected by the Department of Energy.
Power: - 3.9 MW
Operating system: - CNK
Space: - 1,632 sq feet
Memory: - 768 TiB
Speed: - 8.59 petaFLOPS (LINPACK) 10.06 petaFLOPS theoretical peak
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Architecture: - 32,000 Intel Xeon E5-2692 12C with 2.200 GHz 48,000 Xeon Phi 31S1P
Power: - 17.6 MW (24 MW with cooling)
Operating system: - Kylin Linux
Memory: - 1,375 TiB (1,000 TiB CPU and 375 TiB coprocessor)
Storage: - 12.4 PB
Speed: - 33.86 PFLOPS
B. Titan
Titan is a supercomputer built by Cray at Oak Ridge National Laboratory for use in a variety of science projects. Titan is an upgrade of Jaguar, a previous supercomputer at Oak Ridge that uses graphics processing units (GPUs) in addition to conventional central processing units (CPUs). Titan is the first such hybrid to perform over 10 petaFLOPS.
Architecture: - 18,688 AMD Opteron 6274 16-core CPUs, 18,688 Nvidia Tesla K20X GPUs
Power: - 8.2 MW
Operating system: - Cray Linux Environment
Space: - 404 m2 (4352 ft2)
Memory: - 693.5 TiB (584 TiB CPU and 109.5 TiB GPU)
Storage : - 40 PB, 1.4 TB/s IO Lustre file system
C. IBM Sequoia
IBM Sequoia is a petascale Blue Gene/Q supercomputer constructed 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.
Power: - 7.9 MW
Operating system: - CNK operating system, Red Hat Enterprise Linux
Space: - 3,000 square feet (280 m2)
Memory: - 1.5 PiB
Speed: - 20.13 PFLOPS
D. K Computer
The K computer named for the Japanese word kei, meaning 10 quadrillion (1016) is a supercomputer manufactured by Fujitsu, currently installed at the Riken Advanced Institute for Computational Science campus in Kobe, Hyōgo Prefecture, Japan. The K computer is based on distributed memory architecture with over 80,000 compute nodes. It is used for a variety of applications, including climate research, disaster prevention and medical research.
Architecture: - 88,128 SPARC64 VIIIfx processors, Tofu interconnect
Power: - 12.6 MW
Operating system: - Linux
Speed: - 10.51 petaflops (Rmax)
E. IBM Mira
Mira is a petascale Blue Gene/Q supercomputer. It has a performance of 8.59 petaflops (LINPACK) and consumes 3.9 MW. The supercomputer 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. Mira will be used for scientific research, including studies in the fields of material science, climatology, seismology, and computational chemistry. The supercomputer is being utilized initially for sixteen projects, selected by the Department of Energy.
Power: - 3.9 MW
Operating system: - CNK
Space: - 1,632 sq feet
Memory: - 768 TiB
Speed: - 8.59 petaFLOPS (LINPACK) 10.06 petaFLOPS theoretical peak
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