![]() In the last ~15 years though, distributed computing programs have seen moderate to substantial success. This would normally entail buying, maintaining, and running massive supercomputers. Scientists normally use supercomputers to simulate and analyze a variety of situations pertaining to protein folding, protons colliding in CERN, universe expansion, theoretical astrophysics, and so on. ![]() In contrast, is run by Stanford and is a singular program that simulates protein folding.įirst we’ll discuss what distributed computing is (and its relation to traditional supercomputers), then we’ll cover some noteable projects we’re fond of. BOINC allows for users to support a variety of programs (including searching for extraterrestrial life, simulating molecular simulations, predicting the climate, etc.). are well known, but one lesser known use is contributing to distributed computation programs such as BOINC and īOINC (Berkeley Open Infrastructure for Network Computing) and (also sometimes referred to as FAH and ) are research programs that utilize distributed computing to provide researchers large amounts of computational power without the need of supercomputers. Many uses such as design, communication, servers, etc. Despite this, the computational power in modern PCs can be used for a variety of applications. In gaming PCs, these power increases have often been used to ensure higher FPS, faster game mechanics, and more immersive graphics settings. Since then, computers have become almost incomprehensibly more powerful and accessible to the point at which the concept of virtual reality headsets aren’t even science fiction. ![]() Some of the first computers (built by the military) used electromagnets to calculate torpedo trajectories. Computers have come a long way since their inception.
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