Top 10 Super Computer that exist today 2020

Top 10 Compilations of Super Computer that exist today 2016 DECLAIMER : we don't own any rights of these video used in the clip .. all credit Goes to original owners ! Computer #10: Vulcan, United States of America The American supercomputer code named Vulcan is one of four supercomputers that run on IBM’s BlueGene/Q platform. The latter is equipped with power BQC 16 core 1.6 Ghz processors. The Vulcan supercomputer has 400,000 cores that perform at 4.3 petaflops. Computer #9: JuQUEEN, Germany The German supercomputer JuQUEEN is the eighth most powerful supercomputer. This computer was built to replace the JUGENE supercomputer, which was ranked ninth on the 2010 TOP 500 supercomputers list. The JuQUEEN runs on IBM’s BlueGene/Q platform and has a maximum performance of 5 petaflops courtesy of 459,000 cores. Computer #8: Stampede, United States In November 2012, Stampede became the ninth most powerful supercomputer. This is after occupying position 6 on the list in June 2013. The building of this American supercomputer resulted from an award from the National Science Foundation. Housed in the Texas Advanced Computing Center, this supercomputer runs on Intel Xeon E5 8-core 2.7GHz processors backed up by Intel Xeon Phi coprocessors. Computer #7: Piz Daint, Switzerland The Piz Daint supercomputer is responsible for dethroning JuQUEEN from position six on the list of the most powerful supercomputers in Europe. This Swiss supercomputer runs on Intel Xeon E5 processors. For added performance the Piz Daint supercomputer features the NVIDIA graphical processing units. Therefore, though it has 116,000 cores it is capable of 6.3 petaflops of performance. Computer #6: Mira, United States Another supercomputer that uses IBM’s BlueGene/Q platform is the Mira supercomputer, which is found in the Argonne National Laboratory. The Mira replaced the intrepid supercomputer, which was ranked fourth on the list of the most powerful supercomputers of 2008. The supercomputer has a performance of 8.6 petaflops and 786,000 cores. The uses of this supercomputer can be broken down in to three percentages. 60% of the computer’s capacity is utilized by researchers who submit proposals through the INCITE program, which is an imitative by the US Department of Energy’s office of science. 30% of the computer’s capacity Computer #5: K computer, Japan The Japanese K supercomputer is the only supercomputer in Japan and was ranked position one on the 2011 list of most powerful computers. The K computer has since been relegated to position four. This supercomputer earns position four thanks to its 10.5 petaflops of performance and 705,000 cores. Computer #4: Sequoia, United States Top ranked in June 2012, the Sequoia supercomputer has since dropped to position three. This supercomputer has 1.6 million processing cores that give it 17.2 petaflops of performance. The Sequoia is 17 times faster than the IBM roadrunner which was the first computer in history to run at 1 petaflop of performance. The latter is the equivalent of 1,000 trillion operations per second. Computer #3: Titan, United States The Titan supercomputer is one that lives up to its name. This supercomputer operates on the Cray system and runs on an Opteron 6274 16-core 2.2GHz processor. This processor is boosted by NVIDIA GPUs, which when combined with 561,000 cores delivers 17.6 petaflops of performance. Computer #2: Tianhe-2 China The China National University of Defense Technology is the institution behind the most powerful computer in the world, the Tianhe-2, whose name translates to the milk-way 2. This supercomputer has a performance of 33.9 petaflops and runs on a mixture of Intel Xeon E5 processors, custom processors and Intel Xeon Phi coprocessors. Behind the computer’s amazing performance are 3,120,000 cores. Computer #1: D-Wave Quantam Computer 10,000 Years Of Computing Reduced To Mere Seconds On Dec. 8, Google and NASA announced that the D-Wave 2X turned up with an answer for an optimization problem within mere seconds, a processing speed that is 100 million times faster than that of average computer chips. Google Director of Engineering Hartmut Neven said that what the D-Wave 2X can process in a span of a second is something that a single-core classical computer can solve in a span of 10,000 years. if you like this video hit like and share ..let us know what you think of this video by comment .. For more top10 ..two Video Every week Hit Subscribe now ..!! Like us on Facebook : https://goo.gl/8tqiJ5 Follow us on Google+: https://goo.gl/3drjTY Follow us On Twitter : https://goo.gl/hJsNw4 Music By: Tresspass Everything10s (c)