Hybrid Control Unlocking Quantum Supercomputers
ORAL · EVW-P52 · ID: EVW-P52
Quantum computation at useful scales requires tight integration between real-time quantum control systems and high-throughput classical accelerators. This work presents Quantum Machines' vision for a heterogeneous, distributed architecture that spans multiple latency regimes and diverse classical resources. We illustrate example of workflows enabled by this novel system, for optimization and large-scale calibration routines based on reinforcement learning, together with a quantum error correction decoding on classical accelerators. Together, these components define a practical roadmap to utility-grade, fault-tolerant quantum supercomputers grounded in hybrid control.
Presentations
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Hybrid Control Unlocking Quantum Supercomputers
Oral-In-person
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Presenters
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Jonathan Reiner
Authors
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Jonathan Reiner
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