Salvato in:
Dettagli Bibliografici
Autori principali: Kakuko, Norihiro, Gokita, Shun, Masumoto, Naoyuki, Matsumoto, Keita, Miyaji, Kosuke, Miyanaga, Takafumi, Mori, Toshio, Nakayama, Haruki, Sasada, Keita, Takamiya, Yasuhito, Tsukano, Satoyuki, Uchida, Ryo, Yamaguchi, Masaomi
Natura: Preprint
Pubblicazione: 2025
Soggetti:
Accesso online:https://arxiv.org/abs/2507.23165
Tags: Aggiungi Tag
Nessun Tag, puoi essere il primo ad aggiungerne!!
_version_ 1866909762401075200
author Kakuko, Norihiro
Gokita, Shun
Masumoto, Naoyuki
Matsumoto, Keita
Miyaji, Kosuke
Miyanaga, Takafumi
Mori, Toshio
Nakayama, Haruki
Sasada, Keita
Takamiya, Yasuhito
Tsukano, Satoyuki
Uchida, Ryo
Yamaguchi, Masaomi
author_facet Kakuko, Norihiro
Gokita, Shun
Masumoto, Naoyuki
Matsumoto, Keita
Miyaji, Kosuke
Miyanaga, Takafumi
Mori, Toshio
Nakayama, Haruki
Sasada, Keita
Takamiya, Yasuhito
Tsukano, Satoyuki
Uchida, Ryo
Yamaguchi, Masaomi
contents Since the late 2010s, quantum computers have become commercially available, and the number of services that users can run remotely via cloud servers is increasing. In Japan, several domestic superconducting quantum computing systems, including our own, began operation in 2023. However, the design of quantum computing systems, especially in the most critical areas near quantum computers, remains largely undisclosed, creating a significant barrier to entry into the quantum computing field. If this situation continues, progress toward standardization, which is essential for guiding quantum computer development, will stall, and it will be difficult to develop a practical quantum computing system that can perform calculations on a supercomputer scale. To address this issue, we propose Open Quantum Toolchain for OPerators and USers (OQTOPUS), a full-stack quantum computing system developed from research with real quantum computers. OQTOPUS is one of the world's largest open-source software projects, covering operational software from cloud-based execution environment construction to system operation. Furthermore, to perform quantum computing effectively and efficiently, it implements key features, such as transpilers, multiprogramming, and error mitigation, in an area as close as possible to a quantum computer, an area that system vendors rarely disclose. Finally, this study presents experimental results of applying OQTOPUS to a real quantum computer. OQTOPUS is publicly available on GitHub and will notably lower the barrier to entry into the quantum computing field, contributing to the formation of a quantum computing developer community through open discussion.
format Preprint
id arxiv_https___arxiv_org_abs_2507_23165
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Practical Open-Source Software Stack for a Cloud-Based Quantum Computing System
Kakuko, Norihiro
Gokita, Shun
Masumoto, Naoyuki
Matsumoto, Keita
Miyaji, Kosuke
Miyanaga, Takafumi
Mori, Toshio
Nakayama, Haruki
Sasada, Keita
Takamiya, Yasuhito
Tsukano, Satoyuki
Uchida, Ryo
Yamaguchi, Masaomi
Quantum Physics
Since the late 2010s, quantum computers have become commercially available, and the number of services that users can run remotely via cloud servers is increasing. In Japan, several domestic superconducting quantum computing systems, including our own, began operation in 2023. However, the design of quantum computing systems, especially in the most critical areas near quantum computers, remains largely undisclosed, creating a significant barrier to entry into the quantum computing field. If this situation continues, progress toward standardization, which is essential for guiding quantum computer development, will stall, and it will be difficult to develop a practical quantum computing system that can perform calculations on a supercomputer scale. To address this issue, we propose Open Quantum Toolchain for OPerators and USers (OQTOPUS), a full-stack quantum computing system developed from research with real quantum computers. OQTOPUS is one of the world's largest open-source software projects, covering operational software from cloud-based execution environment construction to system operation. Furthermore, to perform quantum computing effectively and efficiently, it implements key features, such as transpilers, multiprogramming, and error mitigation, in an area as close as possible to a quantum computer, an area that system vendors rarely disclose. Finally, this study presents experimental results of applying OQTOPUS to a real quantum computer. OQTOPUS is publicly available on GitHub and will notably lower the barrier to entry into the quantum computing field, contributing to the formation of a quantum computing developer community through open discussion.
title A Practical Open-Source Software Stack for a Cloud-Based Quantum Computing System
topic Quantum Physics
url https://arxiv.org/abs/2507.23165