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第179行: − 基于门的近期超导量子计算机上的蓄水池计算 +
→Reservoir computing on gate-based near-term superconducting quantum computers
The most prevalent model of quantum computing is the gate-based model where quantum computation is performed by sequential applications of unitary quantum gates on qubits of a quantum computer. A theory for the implementation of reservoir computing on a gate-based quantum computer with proof-of-principle demonstrations on a number of IBM superconducting noisy intermediate-scale quantum (NISQ) computersJohn Preskill. "Quantum Computing in the NISQ era and beyond." Quantum 2,79 (2018) has been reported in.
The most prevalent model of quantum computing is the gate-based model where quantum computation is performed by sequential applications of unitary quantum gates on qubits of a quantum computer. A theory for the implementation of reservoir computing on a gate-based quantum computer with proof-of-principle demonstrations on a number of IBM superconducting noisy intermediate-scale quantum (NISQ) computersJohn Preskill. "Quantum Computing in the NISQ era and beyond." Quantum 2,79 (2018) has been reported in.
基于门的近期超导量子计算机上的储备池计算
量子计算最流行的模型是基于门的模型,量子计算是通过量子计算机量子比特上的幺正量子门顺序应用来执行的。在基于栅极的量子计算机上实现蓄电池计算的理论,并在 IBM 超导带噪中级量子计算机(NISQ)上进行了原理论证。“量子计算在 NISQ 时代和以后。”量子2,79(2018)已于。
量子计算最流行的模型是基于门的模型,量子计算是通过量子计算机量子比特上的幺正量子门顺序应用来执行的。在基于栅极的量子计算机上实现蓄电池计算的理论,并在 IBM 超导带噪中级量子计算机(NISQ)上进行了原理论证。“量子计算在 NISQ 时代和以后。”量子2,79(2018)已于。