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Despite their massive size, they have unparalleled computing power.
Supercomputers have always been held in the highest respect within the realm of technology. They have discovered several uses for climate prediction, including in fields as diverse as medical analysis and nuclear exploration.
In addition, they are used to running complex simulations. Recent endeavours, high-powered computers have been use. To track how the coronavirus has changed over time.
Supercomputers are often compared and ranked based on their processing speed. One quadrillion (1012) floating-point operations per second is equivalent to one TeraFLOP.
How much power do the most sophisticated computers have? Below are the solutions that you seek.
1. Fugaku
Address: Japanese Computational Science Institute (Riken)
Cores: 7,630,848
5.087 x 102,238 x 232 Bytes
Powered by a 2.2 GHz A64FX 48C processor
As best you can, An output of 537,212 Teraflops
Inventive work is being done at the Riken Research Institute in Japan. The most powerful computer ever built. The institution and Fujitsu Ltd. collaborated to develop this computer. Fugaku, after the mountain it resembles, was construct specifically at the Kobe location. As of right present, the group is investigating potential anti-coronavirus medications.
2. The Pinnacle
The Southern Research Division of the U.S. Department of Energy at Oak Ridge, Tennessee
Cores: 2,414,592
Storage space: 2,801,664 GB
A 3.07GHz IBM POWER9 22C is the CPU.
Maximal performance level achieved: 200,795 teraflops.
The 2018 edition of Summit utilizes a whopping 4,608 processor nodes. Every one of them has many IBM POWER9 CPUs and Nvidia Volta GPUs connected through Nvidia’s blazingly fast NVLink. Each node has access to 500GB of coherent storage space. Complex issues in energy, artificial intelligence, human health, and other areas are resolve by the computing device.
3. Sierra
U.S. Department of Energy/National Nuclear Security Administration/Los Alamos National Laboratory
Cores: 1,572,480
There are 1,382,400 gigabytes of storage space.
An IBM POWER9 22C Processor running at 3.1 GHz
As best you can, Twelve zeros after the one hundred fifth, or 125 teraflops per second
IBM built and powers this massive computer system. via the integration of IBM’s Power 9 CPUs with Nvidia’s Volta GPUs. Specialists in nuclear weapons have opted to use this method instead of conducting tests under the earth’s surface. To play with in virtual nuclear bomb tests.
It’s useful for checking the math behind nuclear weapon manufacturing. The efficiency of nuclear weapon systems may be assessed with its help as well.
4. Sunway TaihuLight
The National Super computing Center of China is in Wuxi.
Cores: 10,649,600
In terms of storage space, we’re talking 1,310,720 GB
The Sunway SW26010 260C, a 1.45GHz processor.
Maximum Effectiveness: 125.436,000 TFlop/s
A total of 40,960 64-bit RISC processors developed by the SW26010 team in China power this Chinese supercomputer. If you want to know different kinds of computing device, check https://perfectpcserver.com/ for more details. Each CPU core on the chip can perform 256 instructions at once.
The name can be translate to mean either “the strength of the gods” or “the brilliance of Taihu Lake.” As of June 2016, it was the world’s fastest supercomputer, and it held that title until June of 2018. Earth system, atmospheric, and climate modelling. Biology studies and state-of-the-art production techniques. All of these uses of data analytics rely on the processing speed of a computer.
- A competitor to Perlmutter would have a tough time in this area.
The National Energy Research Scientific Center and the Lawrence Berkeley National Laboratory, both under the United States’ Department of Energy.
Cores: 706,304
Amount of Memory: 390,176 GB
AMD EPYC 7763 64-core processor, 2.45 GHz
Maximum Performance: 89,794.5 teraflops per second
This supercomputer’s heterogeneous architecture is built on the HPE Cray “Shasta” platform and consists of both GPU-accelerated and CPU-only nodes. This prize was named after Nobel Laureate Saul Perlmutter.
Nuclear fusion reaction modelling, climate prediction, etc. This technique has several potential uses, including but not limited to the investigation of chemical and biological processes.
6. Selene
Headquarters: California, USA; NVIDIA, Inc.
Cores: 555,520
11.2 terabytes of storage space
The 2.25 GHz, 64-core AMD EPYC 7742 CPU features a high-quality design.
Maximum Productivity: It can process data at a rate of 79,215 TFlop/s.
Selene operates on the DGX A100 form factor and is a DGX SuperPOD. And it’s driven by Nvidia’s A100 graphics processing units and AMD’s Epyc Rome central processing units. Mellanox HDR InfiniBand is the fundamental network technology.
Selene is a platform used by a wide variety of businesses and groups. Everything from academia to “big iron A.I.” (Megatron, ASR), even cars.
7. Tianhe-2A.
The National Super computing Center is in Guangzhou, China.
Cores: 4,981,760
Data storage capacity: 2,277,376 GB
Microarchitecture: Intel Xeon Processor E5-2692v2 12C @ 2.2GHz
Maximum performance is achieve at a rate of 100,679 TFlop/s.
Guangzhou, China is home to the National Supercomputer Center. Does it feature a NUDT (China’s National University of Defense Technology)-developed supercomputer?
This is a massive deployment of Intel’s Xeon Phi and Ivy Bridge processors. There were originally 16,000 individual computers. Two Intel Xeon processors and three Xeon Phi coprocessors made up each unit.
The operating system is Kylin Linux, a fork of Linux developed by China’s (NUDT).
