![]() Let's look at example that shows how quantum computers can succeed where classical computers fail:Ī supercomputer might be great at difficult tasks like sorting through a big database of protein sequences. Some complex problems are less obvious: A supercomputer would struggle to find the ideal seating arrangement of even 10 guests at a dinner party if they don't all want to sit next to one another, or to find the prime factors of a big number. Sorting out the ideal routes for a few hundred tankers in a global shipping network is complex too. Modeling the behavior of individual atoms in a molecule is a complex problem, because of all the different electrons interacting with one another. When classical computers fail, it's often due to complexityĬomplex problems are problems with lots of variables interacting in complicated ways. If a supercomputer gets stumped, that's probably because the big classical machine was asked to solve a problem with a high degree of complexity. However, even supercomputers struggle to solve certain kinds of problems. These are very large classical computers, often with thousands of classical CPU and GPU cores. When scientists and engineers encounter difficult problems, they turn to supercomputers. For some problems, supercomputers aren’t that super. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |