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1.发明专利
公开(公告)号:AU2021245164A1
公开(公告)日:2021-10-21
申请号:AU2021245164
申请日:2021-10-07
Inventor: WANG XIN , ZHAO XUANQIANG , ZHAO BENCHI , WANG ZIHE , SONG ZHIXIN , LIU RENYU
Abstract: The present disclosure provides a quantum entangled state processing method and apparatus, a device, a storage medium, and a product, which are related to a field of quantum calculation. The specific implementation scheme includes: determining n initial quantum states to be processed; determining at least two nodes associated with the initial quantum state, wherein the first qubit is positioned at a first node of the at least two nodes, and the second qubit is positioned at a second node of the at least two nodes; acquiring at least one first parameterized quantum circuit required by the first node and at least one second parameterized quantum circuit required by the second node matched with a preset processing scenario; controlling, based on an initial quantum operation strategy, the first node to perform a local quantum operation to obtain a first measurement result, controlling the second node to perform a local quantum operation to obtain a second measurement result; obtaining an output quantum state meeting a preset requirement of the preset processing scenario at least based on the first measurement result and the second measurement result. In this way, the processing of a quantum entangled state is realized. (FIG. 1) determining n initial quantum states to be processed, wherein each initial quantum state is at least an entangled quantum state formed by at least one first qubit in a first group of qubits and at least one second qubit in a second group of qubits determining at least two nodes associated with the initial quantum state, wherein the first qubit is positioned at a first node of the at least two nodes, and the second qubit is positioned at a second node of the at least two nodes acquiring at least one first parameterized quantum circuit required by the first node and at least one second parameterized quantum circuit required by the second node matched with a preset processing scenario controlling, based on an initial quantum operation strategy, the first node to perform a local quantum operation on at least a portion of the first qubit in the first group of qubits by using the at least one first parameterized quantum circuit, to obtain a first measurement result S,- 105 controlling, based on the initial quantum operation strategy, the second node to perform a local quantum operation on at least a portion of the second qubit in the second group of qubits by using the at least one second parameterized quantum circuit, to obtain a second measurement result S-106 obtaining an output quantum state meeting a preset requirement of the preset processing scenario at least based on the first measurement result and the second measurement result, wherein the output quantum state is an entangled quantum state formed by qubits associated with at least one initial quantum state in the n initial quantum states after the initial quantum operation strategy is executed
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