From www.techtimes.com

Urian B., Tech Times

Microsoft is taking another big step towards realizing the potential of quantum computing and helping build future hybrid systems. With their new Integrated Hybrid feature, developers, researchers, and businesses will soon be able to use Azure Quantum to drive the classical and quantum processes, allowing them to unlock the potential of quantum computing. 

Combining Quantum and Classical Computing: Exploring the Potential of the Future 

According to the story by Tech Crunch, Microsoft’s dedicated engineering team is leading the charge in building and perfecting the algorithms and software needed to power the business, academic, and research use cases of the future. 

With quantum computing still in its infancy, the potential for what can be achieved is still relatively unknown. For quantum computers to truly realize their potential to solve some of the world’s most pressing problems, they must be combined with classical computing. 

Integrated Hybrid Feature in Azure Quantum: Combining Classical and Quantum Computing 

Microsoft has taken a major step towards this with the launch of the Integrated Hybrid feature in Azure Quantum, which provides developers and researchers with the tools to run a version of the phase estimation algorithm, as explained further in an article by Qiskit

It enables them to see the combination of classical and quantum computing. The importance of classical computing in providing the walls and boundaries essential to controlling a quantum machine with a million qubits, taking failure into account, and withstanding noise and errors cannot be underestimated. 

Making the Most of Cloud Computing to Achieve Quantum Computing Fault Tolerance 

Microsoft estimates that to achieve the necessary fault tolerance, a quantum computer must be integrated with a petascale compute platform that can manage between 10 and 100 terabits per second of data moving between the quantum and classical machine. 

This magnitude of computing power is only really available in the cloud. The combination of classical and quantum computing allows for improved fault-tolerant protocols. 

Exploring New Algorithms and Complex Quantum Computing with Microsoft’s Integrated Hybrid Feature 

With the Integrated Hybrid feature, developers can mix classical and quantum code together, enabling new algorithms and more advanced quantum computing techniques.

Microsoft is also using classical computing to support the creation of algorithms which are then sent over to quantum machines to interpret the data sent back from the machine, taking into account the weeks-long time frame of running a computation. 

Read Also: Alienware Lunar Light: New Gaming Keyboard, Mouse, Headset, and 500Hz Monitor Drops Today-Specs and Prices

Unlocking the Power of Quantum with Microsoft’s Integrated Hybrid Feature 

Combining classical and quantum computing is a necessity for realizing the potential of quantum computing and is key to gaining a further understanding of the enormous power that it can unleash. 

Microsoft’s Integrated Hybrid feature will enable researchers and developers to explore what Quantum can open up and enable. As the quantum computing industry continues to grow, Microsoft’s hybrid technology may become a major player in the race to unlock the power of quantum.

Related Article: Nvidia Emerges as Top Chipmaker in AI Boom, Beats Wall Street Expectations with Quarterly Earnings

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Microsoft Estimates Quantum Computer Capable of 10 to 100 Terabits Per Second Would Make the Tech Easier to Use

The post Microsoft Estimates Quantum Computer Capable of 10 to 100 Terabits Per Second Would Make the Tech Easier to Use first appeared on www.techtimes.com

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Microsoft Estimates Quantum Computer Capable of 10 to 100 Terabits Per Second Would Make the Tech Easier to Use

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