Litcius/Paper detail

SupermarQ: A Scalable Quantum Benchmark Suite

Teague Tomesh, Pranav Gokhale, Victory Omole, Gokul Subramanian Ravi, Kaitlin N. Smith, Joshua Viszlai, Xin-Chuan Wu, Nikos Hardavellas, Margaret Martonosi, Frederic T. Chong

2022130 citationsDOI

Abstract

The emergence of quantum computers as a new computational paradigm has been accompanied by speculation concerning the scope and timeline of their anticipated revolutionary changes. While quantum computing is still in its infancy, the variety of different architectures used to implement quantum computations make it difficult to reliably measure and compare performance. This problem motivates our introduction of SupermarQ, a scalable, hardware-agnostic quantum benchmark suite which uses application-level metrics to measure performance. SupermarQ is the first attempt to systematically apply techniques from classical benchmarking methodology to the quantum domain. We define a set of feature vectors to quantify coverage, select applications from a variety of domains to ensure the suite is representative of real workloads, and collect benchmark results from the IBM, IonQ, and AQT@LBNL platforms. Looking forward, we envision that quantum benchmarking will encompass a large cross-community effort built on open source, constantly evolving benchmark suites. We introduce SupermarQ as an important step in this direction.

Topics & Concepts

Computer scienceBenchmark (surveying)SuiteBenchmarkingScalabilityVariety (cybernetics)Quantum computerIBMQuantumComputer engineeringDatabaseArtificial intelligenceMaterials scienceGeodesyHistoryPhysicsMarketingNanotechnologyGeographyArchaeologyBusinessQuantum mechanicsQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyParallel Computing and Optimization Techniques