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22 May 2002 Quantum computing and a unified approach to fast unitary transforms
Sos S. Agaian, Andreas Klappenecker
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Proceedings Volume 4667, Image Processing: Algorithms and Systems; (2002) https://doi.org/10.1117/12.467967
Event: Electronic Imaging, 2002, San Jose, California, United States
Abstract
A quantum computer directly manipulates information stored in the state of quantum mechanical systems. The available operations have many attractive features but also underly severe restrictions, which complicate the design of quantum algorithms. We present a divide-and-conquer approach to the design of various quantum algorithms. The class of algorithm includes many transforms which are well-known in classical signal processing applications. We show how fast quantum algorithms can be derived for the discrete Fourier transform, the Walsh-Hadamard transform, the Slant transform, and the Hartley transform. All these algorithms use at most O(log2 N) operations to transform a state vector of a quantum computer of length N.
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Sos S. Agaian and Andreas Klappenecker "Quantum computing and a unified approach to fast unitary transforms", Proc. SPIE 4667, Image Processing: Algorithms and Systems, (22 May 2002); https://doi.org/10.1117/12.467967
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Cited by 3 scholarly publications.
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KEYWORDS
Transform theory
Quantum communications
Quantum computing
Fourier transforms
Signal processing
Quantum information
Matrices
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