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A quantum-classical cloud platform optimized for variational hybrid algorithms

Peter J Karalekas, Nikolas A Tezak, Eric C Peterson, Colm A Ryan, Marcus P da Silva, Robert S Smith

2020Quantum Science and Technology96 citationsDOIOpen Access PDF

Abstract

Abstract In order to support near-term applications of quantum computing, a new compute paradigm has emerged—the quantum-classical cloud—in which quantum computers (QPUs) work in tandem with classical computers (CPUs) via a shared cloud infrastructure. In this work, we enumerate the architectural requirements of a quantum-classical cloud platform, and present a framework for benchmarking its runtime performance. In addition, we walk through two platform-level enhancements, parametric compilation and active qubit reset, that specifically optimize a quantum-classical architecture to support variational hybrid algorithms, the most promising applications of near-term quantum hardware. Finally, we show that integrating these two features into the Rigetti Quantum Cloud Services platform results in considerable improvements to the latencies that govern algorithm runtime.

Topics & Concepts

Cloud computingComputer scienceQuantum computerQuantumDistributed computingTheoretical computer scienceAlgorithmQubitBenchmarkingQuantum algorithmArchitectureHybrid systemComputer engineeringComputational scienceParametric statisticsOrder (exchange)Quantum informationWork (physics)TandemQuantum networkClass (philosophy)Quantum Computing Algorithms and ArchitectureCloud Computing and Resource ManagementBig Data and Digital Economy
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