職種Position |
技術職 (AI・データ)
R&D / Engineer /Technician (AI, Data) |
会社概要Company profile |
This is with a deep-tech startup developing and commercializing world-leading neutral-atom quantum computing systems, one of the most promising next-generation computing architectures.
The company was established in collaboration with leading quantum physics research groups in Japan and is working toward the practical realization of quantum computers as a next-generation computational platform. Through joint research initiatives with universities, national laboratories, and global technology partners, the team is advancing quantum hardware development for future industrial applications and international markets.
Quantum computing is expected to transform industries such as:
drug discovery
advanced materials design
artificial intelligence
financial optimization
energy systems
Among multiple quantum architectures, the company focuses on neutral-atom quantum computing, widely considered one of the most scalable and promising approaches for large-scale quantum processors.
This role offers a rare opportunity to contribute not only to research infrastructure but also to the real-world deployment and industrialization of next-generation computing technology.
This is with a deep-tech startup developing and commercializing world-leading neutral-atom quantum computing systems, one of the most promising next-generation computing architectures.
The company was established in collaboration with leading quantum physics research groups in Japan and is working toward the practical realization of quantum computers as a next-generation computational platform. Through joint research initiatives with universities, national laboratories, and global technology partners, the team is advancing quantum hardware development for future industrial applications and international markets.
Quantum computing is expected to transform industries such as:
drug discovery
advanced materials design
artificial intelligence
financial optimization
energy systems
Among multiple quantum architectures, the company focuses on neutral-atom quantum computing, widely considered one of the most scalable and promising approaches for large-scale quantum processors.
This role offers a rare opportunity to contribute not only to research infrastructure but also to the real-world deployment and industrialization of next-generation computing technology. |
仕事内容Job description |
This role involves determining which quantum error correction codes, decoders and fault-tolerant strategies are best suited for neutral atom hardware by quantifying logical performance under experimental constraints. This includes collaboration with Engineering teams to develop high-performance decoders and implement them in hardware. We are looking for candidates to actively engage in quantum error correction research and contribute to the wider research community through publication, while also engaging with real devices in collaboration with our Control Systems, Engineering and Software teams to realise the potential of fault-tolerant neutral atom quantum computers.
[Responsibilities]
-Perform numerical simulations to assess and compare the performance of state-of-the-art designs for quantum architectures.
-Develop practical decoders and work together with other teams to implement them in hardware, including real-time or low-latency decoding.
-Develop and maintain software tools for the performance analysis of fault-tolerant protocols.
-Implement quantum error correction on neutral atom hardware.
This role involves determining which quantum error correction codes, decoders and fault-tolerant strategies are best suited for neutral atom hardware by quantifying logical performance under experimental constraints. This includes collaboration with Engineering teams to develop high-performance decoders and implement them in hardware. We are looking for candidates to actively engage in quantum error correction research and contribute to the wider research community through publication, while also engaging with real devices in collaboration with our Control Systems, Engineering and Software teams to realise the potential of fault-tolerant neutral atom quantum computers.
[Responsibilities]
-Perform numerical simulations to assess and compare the performance of state-of-the-art designs for quantum architectures.
-Develop practical decoders and work together with other teams to implement them in hardware, including real-time or low-latency decoding.
-Develop and maintain software tools for the performance analysis of fault-tolerant protocols.
-Implement quantum error correction on neutral atom hardware. |
応募資格Requirement |
[Required Qualifications]
-PhD or equivalent in Quantum Information, Physics, Computer Science or Mathematics.
-Experience programming in Python, Rust, Julia, C++ or similar languages, and familiarity with collaborative programming using Git version control.
-Experience using and/or contributing to quantum software tools such as Stim, sinter, PyMatching, and other performance analysis tools used by the QEC community.
-Experience with numerically simulating and analysing the performance of error correction protocols under circuit-level noise.
-Experience with decoding schemes such as BP, MWPM, union-find, tensor-network, or neural decoders.
-Ability to work alongside and collaborate with people across the diverse disciplines of engineering, experimental physics and software.
[Preferred Qualifications]
-Experience collaborating with experimental teams.
-Experience in developing high-performance software for hardware.
-Experience applying machine learning for quantum information, such as decoding, calibration or noise modelling.
[Required Qualifications]
-PhD or equivalent in Quantum Information, Physics, Computer Science or Mathematics.
-Experience programming in Python, Rust, Julia, C++ or similar languages, and familiarity with collaborative programming using Git version control.
-Experience using and/or contributing to quantum software tools such as Stim, sinter, PyMatching, and other performance analysis tools used by the QEC community.
-Experience with numerically simulating and analysing the performance of error correction protocols under circuit-level noise.
-Experience with decoding schemes such as BP, MWPM, union-find, tensor-network, or neural decoders.
-Ability to work alongside and collaborate with people across the diverse disciplines of engineering, experimental physics and software.
[Preferred Qualifications]
-Experience collaborating with experimental teams.
-Experience in developing high-performance software for hardware.
-Experience applying machine learning for quantum information, such as decoding, calibration or noise modelling. |
日本語力Japanese level |
不問
None |
雇用形態Employment type |
正社員
Full-time |
勤務エリアLocation |
京都府
Kyoto |
勤務時間Working hours |
Working Hours: Discretionary Labor System
Working Hours: Discretionary Labor System |
想定年収Salary |
¥10M - ¥15M
¥10M - ¥15M |
条件・待遇Condition |
Employment Type: Full-time
Compensation: We offer globally competitive compensation packages ( including stock options ) benchmarked against leading companies in the quantum computing sector
Work Schedule: Discretionary Labor System for Professional Work (R&D)
Probation Period: 2 months (no changes to employment conditions during probation)
Working Hours: Discretionary Labor System (deemed working hours: 8 hours/day). Standard office hours: 9:00–18:00
Work Location: 1F Room 104, International Science Innovation Building East Wing, Kyoto University, Yoshida-Honmachi 36, Sakyo-ku, Kyoto 606-8501, Japan
Days Off: Complete two-day weekend (Saturday and Sunday), national holidays, summer holidays, year-end/New Year holidays
Paid Leave: 10 days granted after 6 months of employment
Benefits: Annual health check-up
Insurance: Health Insurance, Employees' Pension Insurance, Employment Insurance
Smoking Policy: Non-smoking indoors
Employment Type: Full-time
Compensation: We offer globally competitive compensation packages ( including stock options ) benchmarked against leading companies in the quantum computing sector
Work Schedule: Discretionary Labor System for Professional Work (R&D)
Probation Period: 2 months (no changes to employment conditions during probation)
Working Hours: Discretionary Labor System (deemed working hours: 8 hours/day). Standard office hours: 9:00–18:00
Work Location: 1F Room 104, International Science Innovation Building East Wing, Kyoto University, Yoshida-Honmachi 36, Sakyo-ku, Kyoto 606-8501, Japan
Days Off: Complete two-day weekend (Saturday and Sunday), national holidays, summer holidays, year-end/New Year holidays
Paid Leave: 10 days granted after 6 months of employment
Benefits: Annual health check-up
Insurance: Health Insurance, Employees' Pension Insurance, Employment Insurance
Smoking Policy: Non-smoking indoors |
選考についてProcess |
Application Review → First Interview → Second Interview → Final Interview
Depending on the position, candidates may be asked to complete a technical assignment after the first interview.
We place a strong emphasis on mutual understanding throughout the hiring process. Depending on the role and evaluation process, additional interviews, informal meetings with team members, or offer discussions may be arranged.
Application Review → First Interview → Second Interview → Final Interview
Depending on the position, candidates may be asked to complete a technical assignment after the first interview.
We place a strong emphasis on mutual understanding throughout the hiring process. Depending on the role and evaluation process, additional interviews, informal meetings with team members, or offer discussions may be arranged. |