The most advanced quantum computers have already gone beyond the proof-of-concept stage—but that doesn’t mean they are ready for practical use cases. We have entered the performance evaluation era, where the goal is to measure the gap between the current state-of-the-art and quantum utility (QU).
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New computing paradigms will require appropriate programming, verification, and code analysis tools.
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The purpose of this research program is to create quantum architecture and software stacks to connect algorithms and hardware so that tomorrow’s quantum computers can be programmed, and applications executed on them.
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The advent of the quantum computer is creating the need for new approaches to algorithm design. CEA-List is investigating these approaches.
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CEA-List is connecting the dots between quantum hardware, software, and algorithms so that tomorrow’s quantum computers can be programmed.
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