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Amplitude estimation without phase estimation

Yohichi Suzuki, Shumpei Uno, Rudy Raymond, Tomoki Tanaka, Tamiya Onodera, Naoki Yamamoto

2020Quantum Information Processing242 citationsDOIOpen Access PDF

Abstract

Abstract This paper focuses on the quantum amplitude estimation algorithm, which is a core subroutine in quantum computation for various applications. The conventional approach for amplitude estimation is to use the phase estimation algorithm, which consists of many controlled amplification operations followed by a quantum Fourier transform. However, the whole procedure is hard to implement with current and near-term quantum computers. In this paper, we propose a quantum amplitude estimation algorithm without the use of expensive controlled operations; the key idea is to utilize the maximum likelihood estimation based on the combined measurement data produced from quantum circuits with different numbers of amplitude amplification operations. Numerical simulations we conducted demonstrate that our algorithm asymptotically achieves nearly the optimal quantum speedup with a reasonable circuit length.

Topics & Concepts

Quantum phase estimation algorithmQuantum computerComputer scienceSubroutineQuantum algorithmAlgorithmAmplitudeQuantumSpeedupComputationEstimation theoryQuantum Fourier transformQuantum error correctionParallel computingPhysicsQuantum mechanicsOperating systemQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyQuantum-Dot Cellular Automata
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