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EC
2006
118views ECommerce» more  EC 2006»
13 years 10 months ago
Human-Competitive Evolution of Quantum Computing Artefacts by Genetic Programming
We show how Genetic Programming (GP) can be used to evolve useful quantum computing artefacts of increasing sophistication and usefulness: firstly specific quantum circuits, then ...
Paul Massey, John A. Clark, Susan Stepney
ISMVL
2002
IEEE
84views Hardware» more  ISMVL 2002»
14 years 3 months ago
The Role of Super-Fast Transforms in Speeding Up Quantum Computations
We present the role that spectral methods play in the development of the most impressive quantum algorithms, such as the polynomial time number factoring algorithm by Shor. While ...
Zeljko Zilic, Katarzyna Radecka
GECCO
2005
Springer
131views Optimization» more  GECCO 2005»
14 years 4 months ago
Evolution of a human-competitive quantum fourier transform algorithm using genetic programming
In this paper, we show how genetic programming (GP) can be used to evolve system-size-independent quantum algorithms, and present a human-competitive Quantum Fourier Transform (QF...
Paul Massey, John A. Clark, Susan Stepney
ISCA
2006
IEEE
120views Hardware» more  ISCA 2006»
14 years 4 months ago
Interconnection Networks for Scalable Quantum Computers
We show that the problem of communication in a quantum computer reduces to constructing reliable quantum channels by distributing high-fidelity EPR pairs. We develop analytical m...
Nemanja Isailovic, Yatish Patel, Mark Whitney, Joh...
ISMVL
2007
IEEE
102views Hardware» more  ISMVL 2007»
14 years 5 months ago
A Generalization of the Deutsch-Jozsa Algorithm to Multi-Valued Quantum Logic
We generalize the binary Deutsch-Jozsa algorithm to nvalued logic using the quantum Fourier transform. Our algorithm is not only able to distinguish between constant and balanced ...
Yale Fan