< IMG SRC = "/Uploads/Blogs/84/B3/IB-FQVAHR53F_C9316240.jpg" Alt = "Quantum Breakthrough Computer Solved the impossible problem in minutes"/> ~ ~ ~ ~ < H2 class = "entry-sub-title" > D-Wave has proved the advantage of quantum calculations, solving a problem that requires classic supercomp & Rsquo; RSQUO; UUTRAPS. This is a new stage in science.
< P > American company D-Wave Quantum Inc. & nbsp; nbsp; nbsp; nbsp; unprecedented efficiency of quantum computing, solving a complex scientific task in a matter of minutes world.
< P > California Startup, specializing in quantum computing for commercial applications, used a quantum computer prototype; RSQUO; RSQUO; This is the world's first practical proof of quantum advantage for real useful tasks.
< p >Compared to the traditional computer; RSQUO; with the power of which increases in accordance with the law of Moore, quantum calculations offer a fundamentally new approach. & Amp; nbsp; < strng > they use quantum mechanics to perform calculation years.
& ldquo; this is a significant day for quantum calculations. Our demonstration of quantum calculations in solving a useful problem is the first in the field & Rdquo ;, & mdash; Dr. Alan Barats, D-Wave CEO, said Dr. Alan Barats. < h2 > Practical application of quantum annealing
< p >D-Wave researchers solved the problem of modeling spin glasses & ndash; A complex computational task in the field of magnetic materials. This field is important for various applications: from medicine to semiconductors, creating sensors and engines.
< p > magnetic minerals play a key role in many technologies, but their microscopic nature has complicated a deep understanding of their interaction. This slowed down the discovery of new materials with advanced properties.
< p > Supercomp & Rsquo; Justice traditionally use graphic processors (GPU) for such calculations. This approach requires considerable energy resources and time.
< p > instead the prototype of quantum computer; Rsquo; Euther for annealing D-Wave Advantage 2 has completed the calculation in a few minutes. For comparison, Supercomp & Rsquo; Frontier's Uuter in the Ovarjan National Laboratory (ORNL) would take a million years and an annual world consumption of electricity to solve the same problem.
~ ~ ~ < H2 > The principle of operation of quantum annealing
< p >Quantum computer; RSQUO; RSEER AWAYS IMPORTANT ACCOUNT TO SOLUTION COMPLETE OPTIMATION TASKS. The system starts with & ldquo; superposition & RDQUO; all possible decisions & ndash; high -energy state.
< p > then the process of annealing & ndash; Slow change of system parameters. The purpose of this process & ndash; reach the minimum or low -energy state that represents the optimal solution of the problem.
< P > Unlike classic computer; RSQUO; RSUTS who take over the options for sequentially, quantum computer, RSQUO; RSQUO; This is a fundamental advantage that allows you to solve complicated tasks for realistic time.
& ldquo; all other statements that quantum systems exceed the classic computer; RSQUO; He emphasized the bar. & ldquo; our achievement, no doubt, shows that the quantum of the quantum computer; Rsquo; Rsquo; D-Wave justice can now solve useful tasks that are not able to be the most powerful supercomp & Rsquo; RBUO; RDQUO; < P > This breakthrough opens new prospects for industries that require complex calculations & ndash; From the development of new medicines to the fight against climate change. & nbsp; < strong > confirmed quantum advantage demonstrates that the practical use of quantum computing has already come.