Faster Quantum Number Factoring via Circuit Synthesis

Published 15 Jan 2013 in quant-ph, cs.DS, and cs.ET | (1301.3210v1)

Abstract: A major obstacle to implementing Shor's quantum number-factoring algorithm is the large size of modular-exponentiation circuits. We reduce this bottleneck by customizing reversible circuits for modular multiplication to individual runs of Shor's algorithm. Our circuit-synthesis procedure exploits spectral properties of multiplication operators and constructs optimized circuits from the traces of the execution of an appropriate GCD algorithm. Empirically, gate counts are reduced by 4-5 times, and circuit latency is reduced by larger factors.

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Faster Quantum Number Factoring via Circuit Synthesis

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