Long-term continuous operation of an AMO platform for neutral atom quantum computing
ORAL
Abstract
Building a scalable individually-trapped neutral atom quantum computing platform is both a scientific and engineering challenge. Typically involving multiple laser systems, many optical paths, and miscellaneous electronic systems, providing and improving uptime of an entire platform can be an arduous task involving costly labor in a typical laboratory environment.
In order to quantify and improve stability and uptime for our commercial quantum computing platform we have developed and implemented an environmental monitoring system. This server-client-based system integrates both decentralized hardware for physical monitoring and software for data analysis and software-defined feedback loops. We will discuss the environmental monitoring system including uptimes and applications, and our ongoing development to provide more extensive long-term feedback along various hardware branches in our quantum computing platform.
In order to quantify and improve stability and uptime for our commercial quantum computing platform we have developed and implemented an environmental monitoring system. This server-client-based system integrates both decentralized hardware for physical monitoring and software for data analysis and software-defined feedback loops. We will discuss the environmental monitoring system including uptimes and applications, and our ongoing development to provide more extensive long-term feedback along various hardware branches in our quantum computing platform.
*This work was supported under NSF Grant Numbers 1951188 and 1843926.
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Presenters
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Remy P Notermans
- Atom Computing, Inc
- Atom Computing