Bibliographic Details
| Title: |
Quantum SoC and On-Chip Circuit Synthesis in the NISQ Era. |
| Authors: |
Wu, Nan, Hu, Yucheng, Song, Fangmin, Li, Xiangdong |
| Source: |
Quantum Engineering; 7/12/2023, p1-10, 10p |
| Subject Terms: |
QUANTUM computing, QUANTUM computers, COMPUTER organization, ALGORITHMS, COMPUTER science |
| Abstract: |
In recent years, fueled by the breakthroughs in the technology in quantum computation, there has been a rising interest in the noisy intermediate-scale quantum (NISQ) era. In addition to a large number of qubits, the study of error correction and quantum algorithms has made great progress. However, as a primary goal of quantum computation, making practicable quantum computers in the NISQ era still needs further study, mainly focusing on quantum computer organization, architecture, and circuit synthesis. This paper studies the quantum circuit synthesis in a small-scale universal quantum computing device called a "quantum system-on-chip" (QSoC). We analyze the quantum compilation of the hybrid architecture for a small-scaled universal quantum computational device with a specific size (quantum chip). Two kinds of on-chip circuit synthesis algorithms are proposed and discussed. [ABSTRACT FROM AUTHOR] |
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