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Parallel Quantum Computation and Quantum Codes

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Author Info
Cristopher Moore
Martin Nilsson
Abstract

We propose a definition of QNC, the quantum analog of the efficient parallel class NC. We exhibit several useful gadgets and prove that various classes of circuits can be parallelized to logarithmic depth, including circuits for encoding and decoding standard quantum error-correcting codes, or more generally any circuit consisting of controlled-not gates, controlled pi-shifts, and Hadamard gates. Finally, while we note the Quantum Fourier Transform can be parallelized to linear depth, we conjecture that an even simpler `staircase' circuit cannot be parallelized to less than linear depth, and might be used to prove that QNC is less than QP.

This supersedes our earlier preprint, ``Notes on Parallel Quantum Computation.''

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Publisher Info
Paper provided by Santa Fe Institute in its series Working Papers with number 98-08-070.

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Date of creation: Aug 1998
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Handle: RePEc:wop:safiwp:98-08-070

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Related research
Keywords: Quantum computation; error-correcting codes; Clifford Group; parallel computation;

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