Issue #4/2021
N.L.Istomina
Will Quantum Computers Replace Classic and is There an Alternative to Parallel Computers?
Will Quantum Computers Replace Classic and is There an Alternative to Parallel Computers?
DOI: 10.22184/1993-7296.FRos.2021.15.4.348.351
Will Quantum Computers Replace Classic, and is There an Alternative to Parallel Computers?
One of the most dynamically developing areas of technology has become modern quantum technologies, the main areas of development of which are: quantum information processing, quantum cryptography, quantum metrology and quantum sensorics. The mature quantum applications markets (optical fibers, lasers, magnetic resonance imaging (MRI) and GPS devices) are large, established markets of around US $ 100 billion with attractive growth rates of ~ 10%. But let’s move away from these markets towards the expected breakthrough in the creation of quantum computers.
Will Quantum Computers Replace Classic, and is There an Alternative to Parallel Computers?
One of the most dynamically developing areas of technology has become modern quantum technologies, the main areas of development of which are: quantum information processing, quantum cryptography, quantum metrology and quantum sensorics. The mature quantum applications markets (optical fibers, lasers, magnetic resonance imaging (MRI) and GPS devices) are large, established markets of around US $ 100 billion with attractive growth rates of ~ 10%. But let’s move away from these markets towards the expected breakthrough in the creation of quantum computers.
Теги: quantum computers quantum cryptography quantum inertial navigation and gravimetry quantum sensing quantum technologies квантовая инерциальная навигация и гравиметрия квантовая криптография квантовое зондирование квантовые компьютеры квантовые технологии
Will Quantum Computers Replace Classic, and is There an Alternative to Parallel Computers?
One of the most dynamically developing areas of technology has become modern quantum technologies, the main areas of development of which are: quantum information processing, quantum cryptography, quantum metrology and quantum sensorics. The mature quantum applications markets (optical fibers, lasers, magnetic resonance imaging (MRI) and GPS devices) are large, established markets of around US $ 100 billion with attractive growth rates of ~ 10%. But let’s move away from these markets towards the expected breakthrough in the creation of quantum computers.
Keywords: Quantum technologies, Quantum computers, Quantum sensing, Quantum cryptography, Quantum inertial navigation and gravimetry
One of the most dynamically developing areas of technology has become modern quantum technologies, the main areas of development of which are: quantum information processing, quantum cryptography, quantum metrology and quantum sensorics. The mature quantum applications markets (optical fibers, lasers, magnetic resonance imaging (MRI) and GPS devices) are large, established markets of around US $ 100 billion with attractive growth rates of ~ 10%. But let’s move away from these markets towards the expected breakthrough in the creation of quantum computers.
Keywords: Quantum technologies, Quantum computers, Quantum sensing, Quantum cryptography, Quantum inertial navigation and gravimetry
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