TL;DR
This paper introduces a benchmarking method called TAME that uses classical resources to evaluate quantum simulators by approximating their dynamics, bypassing the high computational cost of direct simulation.
Contribution
The paper presents TAME, a novel benchmarking approach that enables efficient classical evaluation of quantum simulators' performance.
Findings
TAME effectively benchmarks quantum simulators using classical computation.
The method reduces the computational complexity of real-time dynamics evaluation.
TAME provides accurate assessments without extensive quantum resources.
Abstract
Time-averaged mixed-state equivalence (TAME) is used to benchmark quantum simulators with classical computing resources. The classical computation is feasible even if direct computation of the real-time dynamics is prohibitively costly.
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Taxonomy
TopicsQuantum Computing Algorithms and Architecture · Quantum Information and Cryptography · Quantum many-body systems