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Что (кто) такое quantum computer - определение

STUDY OF A MODEL OF COMPUTATION

Practical quantum computer; Quantum computation; Quantum computers; Quantum Computer; Quantum indeterminacy in computation; Quantum Computing; Quantum Computers; Quantum Random Access Machine; Quantum processing unit; QPU; Quantum Computation; Qubit computer; Technical challenges of quantum computers; Technical Challenges of Quantum Computers; Quantum parallelism; Quantum parallelisms; Quantum supercomputer; Quantum computer; Quantum speedup; Quantum speed-up; Potential applications of quantum computing; Applications of quantum computing; Practical applications of quantum computing; Quantum database search; Quantum search algorithms; Quantum cryptocurrency; Quantum processor; Nonlinear optics Quantum computer; Quantum computer science; Quantam computing; Quantam computer

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quantum computer

<computer> A type of computer which uses the ability of quantum systems, such as a collection of atoms, to be in many different states at once. In theory, such superpositions allow the computer to perform many different computations simultaneously. This capability is combined with interference among the states to produce answers to some problems, such as factoring integers, much more rapidly than is possible with conventional computers. In practice, such machines have not yet been built due to their extreme sensitivity to noise. Oxford University (http://eve.physics.ox.ac.uk/QChome.html), Stanford University (http://feynman.stanford.edu/qcomp/). A {quantum search algorithm (ftp://parcftp.xerox.com/pub/dynamics/quantum.html)} for constraint satisfaction problems exhibits the phase transition for NP-complete problems. (1997-02-11)

quantum computer

¦ noun a hypothetical computer which makes use of the quantum states of subatomic particles to store information.

Derivatives

quantum computing noun

quantum computing

quantum computer

Quantum computing

Quantum computing is a type of computation whose operations can harness the phenomena of quantum mechanics, such as superposition, interference, and entanglement. Devices that perform quantum computations are known as quantum computers.

https://en.wikipedia.org/wiki/Quantum_computing

QPU

Quick Pascal Units (Reference: MS)

Spin qubit quantum computer

PROPOSED SEMICONDUCTOR IMPLEMENTATION OF QUANTUM COMPUTERS

Loss-Divincenzo; Loss-Divincenzo proposal; Spin-qubit proposal; Spin qubit; Loss-DiVincenzo proposal; Loss-DiVincenzo; Loss-DiVincenzo quantum computer; Quantum Dot Computer; Loss–DiVincenzo quantum computer

The spin qubit quantum computer is a quantum computer based on controlling the spin of charge carriers (electrons and electron holes) in semiconductor devices. The first spin qubit quantum computer was first proposed by Daniel Loss and David P.

https://en.wikipedia.org/wiki/Spin_qubit_quantum_computer

Topological quantum computer

HYPOTHETICAL FAULT-TOLERANT QUANTUM COMPUTER BASED ON TOPOLOGICAL CONDENSED MATTER

Topological Quantum Computing; Topological quantum computing; Topological quantum computation; Quantum topological computation; Topological qubit

A topological quantum computer is a theoretical quantum computer proposed by Russian-American physicist Alexei Kitaev in 1997. It employs two-dimensional quasiparticles called anyons, whose world lines pass around one another to form braids in a three-dimensional spacetime (i.

https://en.wikipedia.org/wiki/Topological_quantum_computer

Adiabatic quantum computation

TYPE OF QUANTUM INFORMATION PROCESSING

Adiabatic Quantum Computing; Quantum adiabatic algorithm; Adiabatic Quantum Computation; Adiabatic quantum computing; Adiabatic Quantum Optimization; Adiabatic quantum computer

Adiabatic quantum computation (AQC) is a form of quantum computing which relies on the adiabatic theorem to do calculations and is closely related to quantum annealing.

https://en.wikipedia.org/wiki/Adiabatic_quantum_computation

Quantum Computation and Quantum Information

BOG BY MICHAEL NIELSEN

Quantum Computing and Quantum Information; Draft:Quantum Computing and Quantum Information (book); Quantum Computation and Quantum Information (book); Quantum Computing and Quantum Information (book); Mike and Ike (book)

Quantum Computation and Quantum Information is a textbook about quantum information science written by Michael Nielsen and Isaac Chuang, regarded as a standard text on the subject. It is informally known as "Mike and Ike", after the candies of that name.

https://en.wikipedia.org/wiki/Quantum_Computation_and_Quantum_Information

Quantum network

NETWORKS FOR INTERCONNECTING QUANTUM PROCESSORS

Quantum Internet; Quantum networks

Quantum networks form an important element of quantum computing and quantum communication systems. Quantum networks facilitate the transmission of information in the form of quantum bits, also called qubits, between physically separated quantum processors.

https://en.wikipedia.org/wiki/Quantum_network

Википедия

Quantum computing

A quantum computer is a computer that exploits quantum mechanical phenomena. At small scales, physical matter exhibits properties of both particles and waves, and quantum computing leverages this behavior using specialized hardware. Classical physics cannot explain the operation of these quantum devices, and a scalable quantum computer could perform some calculations exponentially faster than any modern "classical" computer. In particular, a large-scale quantum computer could break widely used encryption schemes and aid physicists in performing physical simulations; however, the current state of the art is still largely experimental and impractical.

The basic unit of information in quantum computing is the qubit, similar to the bit in traditional digital electronics. Unlike a classical bit, a qubit can exist in a superposition of its two "basis" states, which loosely means that it is in both states simultaneously. When measuring a qubit, the result is a probabilistic output of a classical bit. If a quantum computer manipulates the qubit in a particular way, wave interference effects can amplify the desired measurement results. The design of quantum algorithms involves creating procedures that allow a quantum computer to perform calculations efficiently.

Physically engineering high-quality qubits has proven challenging. If a physical qubit is not sufficiently isolated from its environment, it suffers from quantum decoherence, introducing noise into calculations. National governments have invested heavily in experimental research that aims to develop scalable qubits with longer coherence times and lower error rates. Two of the most promising technologies are superconductors (which isolate an electrical current by eliminating electrical resistance) and ion traps (which confine a single atomic particle using electromagnetic fields).

Any computational problem that can be solved by a classical computer can also be solved by a quantum computer. Conversely, any problem that can be solved by a quantum computer can also be solved by a classical computer, at least in principle given enough time. In other words, quantum computers obey the Church–Turing thesis. This means that while quantum computers provide no additional advantages over classical computers in terms of computability, quantum algorithms for certain problems have significantly lower time complexities than corresponding known classical algorithms. Notably, quantum computers are believed to be able to solve certain problems quickly that no classical computer could solve in any feasible amount of time—a feat known as "quantum supremacy." The study of the computational complexity of problems with respect to quantum computers is known as quantum complexity theory.

https://en.wikipedia.org/wiki/Quantum computing