Augments quantum state tomography with anytime-valid confidence sequences so that confidence sets contain the true state with user-specified probability at any stopping time.
Reliable quantum state tomography,
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Proposes a context-aware unit testing framework for quantum subroutines modeled as parametrized quantum channels, using probabilistic assertions and demonstrated on GHZ preparation and Shor's algorithm subroutines.
citing papers explorer
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Anytime-Valid Quantum State Tomography via Confidence Sequences
Augments quantum state tomography with anytime-valid confidence sequences so that confidence sets contain the true state with user-specified probability at any stopping time.
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Context-Aware Unit Testing for Quantum Subroutines
Proposes a context-aware unit testing framework for quantum subroutines modeled as parametrized quantum channels, using probabilistic assertions and demonstrated on GHZ preparation and Shor's algorithm subroutines.