Title of article
QCWAVE – A Mathematica quantum computer simulation update Original Research Article
Author/Authors
Frank Tabakin، نويسنده , , Bruno Juli?-D?az، نويسنده ,
Issue Information
ماهنامه با شماره پیاپی سال 2011
Pages
15
From page
1693
To page
1707
Abstract
This Mathematica 7.0/8.0 package upgrades and extends the quantum computer simulation code called QDENSITY. Use of the density matrix was emphasized in QDENSITY, although that code was also applicable to a quantum state description. In the present version, the quantum state version is stressed and made amenable to future extensions to parallel computer simulations. The add-on QCWAVE extends QDENSITY in several ways. The first way is to describe the action of one, two and three-qubit quantum gates as a set of small (image, image or image) matrices acting on the image amplitudes for a system of image qubits. This procedure was described in our parallel computer simulation QCMPI and is reviewed here. The advantage is that smaller storage demands are made, without loss of speed, and that the procedure can take advantage of message passing interface (MPI) techniques, which will hopefully be generally available in future Mathematica versions.Another extension of QDENSITY provided here is a multiverse approach, as described in our QCMPI paper. This multiverse approach involves using the present slave–master parallel processing capabilities of Mathematica 7.0/8.0 to simulate errors and error correction. The basic idea is that parallel versions of QCWAVE run simultaneously with random errors introduced on some of the processors, with an ensemble average used to represent the real world situation. Within this approach, error correction steps can be simulated and their efficacy tested. This capability allows one to examine the detrimental effects of errors and the benefits of error correction on particular quantum algorithms.
Keywords
Quantum computation , Mathematica , Quantum simulation , Quantum algorithms
Journal title
Computer Physics Communications
Serial Year
2011
Journal title
Computer Physics Communications
Record number
1138319
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