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Main Authors: Lau, Mu-Te, Cheng, Chin-Yi, Lu, Cheng-Hua, Chuang, Chia-Hsu, Kuo, Yi-Hsiang, Yang, Hsiang-Chun, Kuo, Chien-Tung, Chen, Hsin-Yu, Tung, Chen-Ying, Tsai, Cheng-En, Chen, Guan-Hao, Lin, Leng-Kai, Wang, Ching-Huan, Wang, Tzu-Hsu, Huang, Chung-Yang Ric
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2405.07197
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author Lau, Mu-Te
Cheng, Chin-Yi
Lu, Cheng-Hua
Chuang, Chia-Hsu
Kuo, Yi-Hsiang
Yang, Hsiang-Chun
Kuo, Chien-Tung
Chen, Hsin-Yu
Tung, Chen-Ying
Tsai, Cheng-En
Chen, Guan-Hao
Lin, Leng-Kai
Wang, Ching-Huan
Wang, Tzu-Hsu
Huang, Chung-Yang Ric
author_facet Lau, Mu-Te
Cheng, Chin-Yi
Lu, Cheng-Hua
Chuang, Chia-Hsu
Kuo, Yi-Hsiang
Yang, Hsiang-Chun
Kuo, Chien-Tung
Chen, Hsin-Yu
Tung, Chen-Ying
Tsai, Cheng-En
Chen, Guan-Hao
Lin, Leng-Kai
Wang, Ching-Huan
Wang, Tzu-Hsu
Huang, Chung-Yang Ric
contents In this paper, we introduce a new quantum circuit synthesis (QCS) framework, Qsyn, for developers to research, develop, test, experiment, and then contribute their QCS algorithms and tools to the framework. Our framework is more developer-friendly than other modern QCS frameworks in three aspects: (1) We design a rich command-line interface so that developers can easily design various testing scenarios and flexibly conduct experiments on their algorithms. (2) We offer detailed access to many data representations on different abstract levels of quantum circuits so that developers can optimize their algorithms to the extreme. (3) We define a rigid developing flow and environment so that developers can ensure their development qualities with the best modern software engineering practices. We illustrate the friendliness of our framework with a showcase of developing a T-Count Optimization algorithm and demonstrate our performance superiority with fair comparisons to other modern QCS frameworks.
format Preprint
id arxiv_https___arxiv_org_abs_2405_07197
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Qsyn: A Developer-Friendly Quantum Circuit Synthesis Framework for NISQ Era and Beyond
Lau, Mu-Te
Cheng, Chin-Yi
Lu, Cheng-Hua
Chuang, Chia-Hsu
Kuo, Yi-Hsiang
Yang, Hsiang-Chun
Kuo, Chien-Tung
Chen, Hsin-Yu
Tung, Chen-Ying
Tsai, Cheng-En
Chen, Guan-Hao
Lin, Leng-Kai
Wang, Ching-Huan
Wang, Tzu-Hsu
Huang, Chung-Yang Ric
Quantum Physics
In this paper, we introduce a new quantum circuit synthesis (QCS) framework, Qsyn, for developers to research, develop, test, experiment, and then contribute their QCS algorithms and tools to the framework. Our framework is more developer-friendly than other modern QCS frameworks in three aspects: (1) We design a rich command-line interface so that developers can easily design various testing scenarios and flexibly conduct experiments on their algorithms. (2) We offer detailed access to many data representations on different abstract levels of quantum circuits so that developers can optimize their algorithms to the extreme. (3) We define a rigid developing flow and environment so that developers can ensure their development qualities with the best modern software engineering practices. We illustrate the friendliness of our framework with a showcase of developing a T-Count Optimization algorithm and demonstrate our performance superiority with fair comparisons to other modern QCS frameworks.
title Qsyn: A Developer-Friendly Quantum Circuit Synthesis Framework for NISQ Era and Beyond
topic Quantum Physics
url https://arxiv.org/abs/2405.07197