Microsoft partners with NASA to take quantum computing into space

The innovations in quantum computing that are occurring are, in some ways, identical to the place race: big financial investment by big entities in futuristic technological know-how created to choose humanity to the following level. 

Today, NASA and Microsoft are getting that to the following level with a partnership that will hopefully assist the US space agency additional effortlessly coordinate its spacecraft, a hard system as any on earth. The best intention? Minimizing the time it can take to transmit guidance from several hours to just minutes, driven by quantum technological know-how. 

“As NASA launches much more frequent and complex missions into area, controlling communications with the increasing quantity of spacecraft is turning out to be significantly demanding,” says Microsoft in a blog put up. “NASA’s Jet Propulsion Laboratory (JPL) has turned to Azure Quantum to explore methods to converse additional competently with spacecraft discovering our photo voltaic technique and

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How Quantum Computers Can Make Batteries Better

Whilst device finding out has been close to a extensive time, deep discovering has taken on a life of its possess lately. The explanation for that has mainly to do with the escalating amounts of computing electricity that have come to be broadly available—along with the burgeoning quantities of knowledge that can be simply harvested and applied to teach neural networks.

The sum of computing electricity at people’s fingertips started escalating in leaps and bounds at the turn of the millennium, when graphical processing units (GPUs) started to be
harnessed for nongraphical calculations, a development that has come to be increasingly pervasive above the past decade. But the computing demands of deep discovering have been rising even a lot quicker. This dynamic has spurred engineers to produce digital components accelerators particularly qualified to deep finding out, Google’s Tensor Processing Device (TPU) remaining a key instance.

Here, I will describe a

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