This Mathematica 5.2 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 main emphasis is on using the density matrix, although an approach using state vectors is also implemented in the package. The package commands are defined in {\it Qdensity.m} which contains the tools needed in quantum circuits, e.g. multiqubit kets, projectors, gates, etc. A tutorial notebook, {\it Tutorial.nb} is provided that serves as a guide to the package. Finally, application is made to a variety of relevant cases, including Teleportation, Quantum Fourier transform, Grover's search and Shor's algorithm, in separate notebooks: {\it QFT.nb}, {\it T...
The purpose of this paper is to implement and simulate Grover's algorithm on one and several qubits ...
Quantum computation is becoming an increasingly interesting field, especially with the rise of real ...
In this TFG I am going to discuss the basics of quantum algorithms. I will focus on two of the most ...
This Mathematica 7.0/8.0 package upgrades and extends the quantum computer simulation code called QD...
The Mathematica quantum computer simulation packages QDENSITY and QCWAVE are updated for Mathematica...
AbstractRecently, the idea of quantum computation is becoming more and more popular and there are ma...
In this paper we analyze existing quantum computer simulation techniquesand their realizations to mi...
In this paper, we analyze existing quantum computer simulation techniques and their realizations to ...
Quantum-mechanical phenomena are playing an increasing role in information processing as transistor ...
Abstract In this paper, we analyze existing quantum computer simulation techniqu-es and their realiz...
Abstract—We present a basic high-level structures used for developing quantum programming languages....
Fraunhofer FIRST develops a computing service and collaborative workspace providing a convenient too...
The Quantum Computer Emulator (QCE) described in this paper consists of a simulator of a generic, ge...
The objective of this paper is to present a quantum computer simulator with a web interface based on...
QuIDDPro is a fast, scalable, and easy-to-use computational interface for generic quantum circuit si...
The purpose of this paper is to implement and simulate Grover's algorithm on one and several qubits ...
Quantum computation is becoming an increasingly interesting field, especially with the rise of real ...
In this TFG I am going to discuss the basics of quantum algorithms. I will focus on two of the most ...
This Mathematica 7.0/8.0 package upgrades and extends the quantum computer simulation code called QD...
The Mathematica quantum computer simulation packages QDENSITY and QCWAVE are updated for Mathematica...
AbstractRecently, the idea of quantum computation is becoming more and more popular and there are ma...
In this paper we analyze existing quantum computer simulation techniquesand their realizations to mi...
In this paper, we analyze existing quantum computer simulation techniques and their realizations to ...
Quantum-mechanical phenomena are playing an increasing role in information processing as transistor ...
Abstract In this paper, we analyze existing quantum computer simulation techniqu-es and their realiz...
Abstract—We present a basic high-level structures used for developing quantum programming languages....
Fraunhofer FIRST develops a computing service and collaborative workspace providing a convenient too...
The Quantum Computer Emulator (QCE) described in this paper consists of a simulator of a generic, ge...
The objective of this paper is to present a quantum computer simulator with a web interface based on...
QuIDDPro is a fast, scalable, and easy-to-use computational interface for generic quantum circuit si...
The purpose of this paper is to implement and simulate Grover's algorithm on one and several qubits ...
Quantum computation is becoming an increasingly interesting field, especially with the rise of real ...
In this TFG I am going to discuss the basics of quantum algorithms. I will focus on two of the most ...