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Comparison of Cloud-Based Ion Trap and Superconducting Quantum Computer Architectures
arXiv - CS - Emerging Technologies Pub Date : 2021-01-31 , DOI: arxiv-2102.00371 S. Blinov, B. Wu, C. Monroe
arXiv - CS - Emerging Technologies Pub Date : 2021-01-31 , DOI: arxiv-2102.00371 S. Blinov, B. Wu, C. Monroe
Quantum computing represents a radical departure from conventional approaches
to information processing, offering the potential for solving problems that can
never be approached classically. While large scale quantum computer hardware is
still in development, several quantum computing systems have recently become
available as commercial cloud services. We compare the performance of these
systems on several simple quantum circuits and algorithms, and examine
component performance in the context of each system's architecture.
中文翻译:
基于云的离子阱和超导量子计算机体系结构的比较
量子计算代表了从传统方法到信息处理的根本性偏离,为解决经典无法解决的问题提供了潜力。尽管大规模量子计算机硬件仍在开发中,但是近来已经有几种量子计算系统可用作商业云服务。我们在几个简单的量子电路和算法上比较了这些系统的性能,并在每个系统的体系结构中检查了组件的性能。
更新日期:2021-02-02
中文翻译:
基于云的离子阱和超导量子计算机体系结构的比较
量子计算代表了从传统方法到信息处理的根本性偏离,为解决经典无法解决的问题提供了潜力。尽管大规模量子计算机硬件仍在开发中,但是近来已经有几种量子计算系统可用作商业云服务。我们在几个简单的量子电路和算法上比较了这些系统的性能,并在每个系统的体系结构中检查了组件的性能。