Which is the super computer platform?
The IBM Blue Gene/P supercomputer “Intrepid” at Argonne National Laboratory runs 164,000 processor cores using normal data center air conditioning, grouped in 40 racks/cabinets connected by a high-speed 3D torus network….The TOP500 list.
| Year | 2018 |
|---|---|
| Supercomputer | Fujitsu ABCI |
| Rmax (TFlop/s) | 19,880.0 |
| Location | Tokyo, Japan |
What are examples of super computers?
Examples of supercomputer
- Summit Supercomputer.
- Sierra Supercomputer.
- Sunway TaihuLight Supercomputer.
- Tianhe-2 Supercomputer.
- Frontera Supercomputer.
- Cray-1.
- Fugaku.
- PARAM-Siddhi.
What are supercomputers used for?
Common applications for supercomputers include testing mathematical models for complex physical phenomena or designs, such as climate and weather, evolution of the cosmos, nuclear weapons and reactors, new chemical compounds (especially for pharmaceutical purposes), and cryptology.
What Linux distro do supercomputers use?
Supercomputer Operating Systems The Cray Linux Environment is the Linux made specially by Cray for its computers. Since Most Supercomputers are built for specific tasks, the makers want to be able to design them specifically as per their requirements and Linux fits right in.
Who developed the supercomputer Param?
Vijay Pandurang Bhatkar
Vijay Pandurang Bhatkar is an Indian computer scientist, IT leader and educationalist. He is best known as the architect of India’s national initiative in supercomputing where he led the development of Param supercomputers. He is a Padma Bhushan, Padma Shri and Maharashtra Bhushan awardee.
What is super computer Short answer?
A supercomputer is a computer with great speed and memory. They are usually thousands of times faster than ordinary personal computers made at that time. Supercomputers can do arithmetic jobs very fast, so they are used for weather forecasting, code-breaking, genetic analysis and other jobs that need many calculations.
What are the three types of supercomputer?
General purpose supercomputers can be further divided into three subcategories: vector processing supercomputers, tightly connected cluster computers, and commodity computers.
How do super computers work?
A supercomputer is not simply a fast or very large computer: it works in an entirely different way, typically using parallel processing instead of the serial processing that an ordinary computer uses. Instead of doing one thing at a time, it does many things at once.
Can supercomputers run games?
Originally Answered: Can you play video games on a supercomputer? No. Super computers are designed for science and other processes. and would not have a GPU or a very small GPU to run the GUI on.
Do supercomputers run Windows?
Over 94.2% of supercomputers are Linux based. So far, only two supercomputers are found to have Windows OS. Even more surprising may be that the faster of the two systems is a China-based system at #94, which runs Windows HPC Server 2008 R2.
Why do all supercomputers use Linux?
Linux rules supercomputers because of its open source nature The main reason for this growth is the open source nature of Linux. Supercomputers are specific devices built for specific purposes. Engineering teams can easily customize a Linux-based operating system for each of the supercomputers.
Who is father of Indian supercomputer?
Vijay Pandurang Bhatkar is an Indian computer scientist, IT leader and educationalist. He is best known as the architect of India’s national initiative in supercomputing where he led the development of Param supercomputers.
Where are the headquarters of T Platforms company?
T-Platforms is a Russian supercomputer company. Founded in 2002, T-Platforms Group is headquartered in Moscow, Russia with regional offices in Hanover, Germany, Hong Kong, China and Taipei, Taiwan.
What kind of Patents does T Platforms have?
T-Platforms owns patents on a number of supercomputer technologies and electronic components.
What can t platforms be used for in science?
T-Platforms’ solutions are used for fundamental and applied research in various fields of science, including life sciences, physics, chemistry and mathematics, as well as for calculation-intensive tasks in engineering, computer graphics and many other disciplines.