Simulation of a Quantum Computer
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NEW: VERSION 4.0-----
There is an addition to the codes "QDENSITY" + "QCWAVE," which
includes quantum systems that are composed of both qubits and qutrits.
These systems include binary (B) qubits and triplet(T) or qutrits,
and hence we call this package BTSystem. You need to access the zip file
which includes a tutorial "BTtutorial.nb," and the package BTSystem.m.
You should place the BTSystem.m file along with the Circuits.m, QCwave.m, and Qdensity.m files
in the directory stipulated in the tutorial.
There is a recent version "QCWAVE,"with many new features available at
"QCWAVE, a Mathematica quantum computer simulation update", by
Frank Tabakin, Bruno Julia-Diaz
is posted at
http://arxiv.org/abs/1101.1785 and published in Comput. Phys. Commun. 182(2011)1693.
|This Mathematica 6.0 package is a
simulation of a Quantum Computer.
The program provides a modular, instructive approach for generating the basic elements that make up a quantum circuit.
The package commands are defined in Qdensity.m which contains the tools needed in quantum circuits, e.g. multiquibit kets, projectors, gates, etc.
A tutorial notebook, Tutorial.nb is provided which should serve as a guide to the package.
Relevant cases, including
Finally, two examples of the construction and manipulation of cluster states, which are part of ``one way computing" ideas, are included as an additional tool in the notebook Cluster.nb. A mathematica palette containing most commands in QDENSITY is also included: QDENSpalette.nb
The manual reference is:
Bruno Julia Diaz, Joseph M. Burdis and Frank Tabakin,
Computer Physics Communications 174 (2006) 914
NEW: VERSION 2.0
We have updated the package to make it fully
compatible with Mathematica 6.0
The QDENSITY package, including:
can be downloaded as a zip file, QDENSITY.2.0.zip. The notebooks can be very conveniently browsed using the Mathematica's Help Browser. The installation is VERY EASY, just follow the short README.txt file
Courtesy of Jose Luis Gomez
The previous version can be obtained here,
|The package has been tested
and 5.2, some functions, using recurrence
formulas, may not work in previous
provided, print the manual and run the
tutorial, Tutorial.nb, and get
started on how to use QDENSITY to build Quantum Circuits.
and commentaries are more than welcome, please email them to email@example.com or firstname.lastname@example.org
three snapshots of
a part of the Tutorial
and of Shor and of the
Mathematica QDENSITY palette.
(c) Bruno Juliá Díaz and Frank TabakinUniversity of Pittsburgh
Department of Physics and Astronomy
Pittsburgh, PA 15260 http://www.pitt.edu/~tabakin/QDENSITY/index.htm