Top 10 Most Powerful Supercomputer in the World
Here is the list of Top 10 Most Powerful Supercomputer in the World, Today, we meet the top ten most powerful supercomputers in the world in 2021. The term supercomputer refers to a class of extremely powerful computers, but what is considered powerful changes as technology evolves, and the specific workloads for which they are deployed change as enterprise and government needs evolve from MBs to GBs. what is your computer’s maximum power or have you heard of someone.
We can bet it will be in gigabytes only a high-performance computer is called a supercomputer performance of the supercomputers is measured in floating-point operations per second flops instead of million instructions per second MIPS there is a fun fact did you know if our brain was a computer it could perform 38 trillion operations per second that is 500 times more than the world’s fastest supercomputer the world’s supercomputers are now not only faster but also smarter
List of Top 10 Most Powerful Supercomputer in the World
10. Frontera ( Powerful Supercomputer )
Frontera, which will be deployed at the University of Texas at Austin’s Texas Advanced Computing Center in 2020, currently achieves 23.5 petaflops using 448 448 of its intel platinum Xeon cores. Like the other supercomputers on this list, it uses Mellanox hdr to transmit data at speeds of up to 200 gigabits per second.
It has been employed in a variety of studies, including binary black hole mergers, brain cancer therapy, and chemical problem solving using machine learning, modular modeling, and quantum physics.
9. HPC5 ( Powerful Supercomputer )
produced by the international oil and gas business enis.p.a The top performance of the HPC5 is 51.7 petaflops. This output is made possible by 1820 dell EMC PowerEdge c4140 nodes, each of which is outfitted with two intel gold 62 5224 core CPUs and four Nvidia v 100 GPUs. The nodes are linked via an Infiniband Mellanox hdr network technology with a speed of 200 gigabits per second and more than ten kilometers of fiber optic cable. The HPC 5 includes a 15-petabyte storage system with aggregate read and write capabilities of 200 gigabytes per second.
Ap stated that it uses the supercomputer for a variety of technological environmental and research purposes, including processing subsoil data and developing subsoil models, which is how the company discovered the xor gas field in the Mediterranean Sea. The company has also made the hpc5 available for coronavirus research.
8. Juwels Boaster Module ( Powerful Supercomputer )
The autos manufactured supercomputer joules booster module, which is situated at the Forshang Centre Mulet Research Center in Germany, is capable of producing 85 petaflops, which is comparable to the processing capacity of almost 300,000 current PCs. The joules booster module is powered by AMD epyc processors and Nvidia a100 graphics processors, making it Europe’s most powerful supercomputer. joules is currently participating in a number of initiatives.
for example, investigating drug binding across clinically relevant time periods Deep learning-based high-resolution weather forecasts and plasma simulations for next-generation particle accelerators
7. Tianhe-2A ( Powerful Supercomputer )
also known as the Milky Way 2a The tianha 2a is a 33.86 petaflop supercomputer built by the China’s National University of Defense Technology and installed at the National Supercomputer Center in Guangzhou.
According to nudt tianhe2a, it contains 16 000 computer nodes, each with two intel iv Bridge Xeon processors and three Xeon Phi coprocessor chips. It has a variety of applications, including computational fluid dynamics modeling, business opinion analysis, and government security.
6. Selene ( Powerful Supercomputer )
Selene is an Nvidia-built supercomputer outfitted with competitive advanced micro devices amd epyc processors 100 GPUs and Mellanox hdr InfiniBand networking technologies. Celine has the ability to perform 63.60 petaflops.
Celine is used by Nvidia in a variety of research, development, and production applications, including large-scale language modeling, driverless cars, graphics rendering, and tools for quantum chemistry and genomics.
5. Perlmutter ( Powerful Supercomputer )
the lone new addition to the top ten list This system reached 64.6 petaflops per second and is built on the HP cray Shasta platform. It is a heterogeneous system with both AMD epyc based nodes and 1536 Nvidia a100 accelerated nodes.
4. Sunway Taihulight ( Powerful Supercomputer )
built by China’s National Parallel Computer Engineering and Technology Research Center The Sunway Taihulight is outfitted with 40 nodes of sw26010 many core 64-bit risk processors, each of which contains 256 processing cores and four auxiliary cores for system administration, for a total of 10 million 649,600 CPU cores.
This allows the supercomputer to handle data at a rate of 93 petaflops. Tahoe light is currently in operation at the National Supercomputing Center in Waikiki, where it is used for research and engineering work, specifically in fields such as advanced manufacturing and climate data analytics. Modeling of Earth Systems and Life Science Research
3. Sierra ( Powerful Supercomputer )
Sierra was designed for the Lawrence Livermore National Laboratory in California and is largely used for predictive applications in stockpile stewardship, a u.s. program for testing and maintaining the reliability of its nuclear weapons.
The summit and sierra architectures are very similar, with each of its four thousand four hundred and seventy-four nodes outfitted with two power nine CPUs and four Nvidia tesla v100 GPUs, allowing the sierra computer to perform at a maximum of one hundred and twenty-five petaflops.
2. Summit ( Powerful Supercomputer )
Summit, developed by tech giant IBM at the Oak Ridge National Laboratory in Tennessee, is the fastest supercomputer in the world, capable of achieving 148.8 petaflops. It now has 4 356 nodes, each with 222 core power, 9 central processing units (CPUs), and 6 Nvidia tesla v100 graphics processing units. According to ORNL computational scientist Wayne Zubair, GPUs weighing over 340 tons and occupying 5 600 square feet of floor space summit can execute 200 quadrillion flops and store 250 petabytes of data.
According to Tom Ross Amelia, Senior Vice President of IBM Cloud and Cognitive Software, the summit is so fast that researchers can solve a problem that would take 30 years on a desktop computer in just one hour. Summit is designed for ai workloads and seeks to address challenges such as climate change, understanding genetic factors that influence opioid addiction, and predicting extreme weather before it happens.
1. Fugaku Supercomputer – the king of supercomputer ( Powerful Supercomputer )
Fugaku is a supercomputer created in collaboration between the Reikin Center for Computational Science and the Fujitsu Corporation. It has a 512-bit arm architecture, seven million six hundred thirty thousand eight hundred forty-eight cores, and five million eighty-seven thousand two hundred thirty-two gigabytes of memory. Its benchmark results demonstrate why Fugaku is ranked first among the top 500. On the high-performance conjugate gradient benchmark, it scored 16.00 petaflops, while on the high-performance Linpack for acceleration introspection, it scored 442.01 petaflops.
It received 2.004 exaflops. Fugaku’s current studies are mostly focused on covid19-related topics, such as drug discovery, forecasting the conformational dynamics of proteins on the sars cov2 virus, and performing fragment molecular orbital fmo calculations for covid19 proteins. According to reichen Fugaku director satoshi Matsuoka, he has also contributed to the formulation of covid 19 safety criteria for the government and private sector, as well as helping to drive a digital change in the field of infectious illnesses. Matsuoka additionally emphasized
The speed of the supercomputer in a real-world application scenario references to research on the covid 19s spike protein Matsuoka stated that on the k computer Fugaku’s predecessor fmo calculations to investigate it would have taken days weeks multiple weeks it took Fugaku three hours naopi Shinjo corporate executive officer at Fujitsu revealed that Fugaku has begun shared use with other researchers beginning March 2021 in the future we anticipate that Fugaku’s use will continue to play an important role in contributing to the realization of the Japanese government’s plan for society 5.0 a smart society program aimed in areas such as drug discovery and ensuring a secure and safe society.
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