Simulation, Modelling, and Error Prevention for Quantum Computers

• Simulation
  • List of QC simulators
  • Parallel
    • Fraunhofer Quantum Computing Simulator
      • The Fraunhofer Quantum Computing Portal - www.qc.fraunhofer.de - A web-based Simulator of Quantum Computing Processes
    • University of Southern California - Advanced Computer Architecture Laboratory
      • Models to Reduce the Complexity of Simulating a Quantum Computer
      • Simulating the Effect of Decoherence and Inaccuracies on a Quantum Computer
      • A Parallel Quantum Computer Simulator
      • Using Simulation to Assess the Feasibility of Quantum Computing
        • Simulator Source Code
    • University of Tokyo, Department of Computer Science - Imai Laboratory
      • General-purpose parallel simulator for quantum computing (preprint)
      • Simulating the Effects of Quantum Error-correction Schemes
  • Sequential
    • IITiS PAN Gliwice - Quantum Systems of Informatics Group
      • Numerical simulations of mixed states quantum computation
    • Imperial College - Quantum Information and Quantum Optics Theory Group
      • Entanglement Simulations of Shor's Algorithm
    • Institute for Advanced Study, Princeton - School of Mathematics
      • CHP: CNOT-Hadamard-Phase
        • Improved Simulation of Stabilizer Circuits
    • NIST - Information Technology Laboratory, Software Diagnostics & Conformance Testing Division
      • Quantum Compiling and Simulation
        • QCSim
          • Modeling Quantum Information Systems
    • Royal Holloway, University of London - Quantum Dynamics Group
      • QSD: a C++ library using quantum trajectories to solve quantum master equations
        • Paper describing the package
    • Universität Stuttgart
      • libquantum
    • University of Groningen - Computational Physics
      • QCE
        • Quantum Computer Emulator
    • University of Melbourne - Centre for Quantum Computer Technology
      • Robustness of Shor's algorithm
    • University of Michigan - Quantum Circuits Group
      • QuIDDPro
        • Gate-Level Simulation of Quantum Circuits
        • Improving Gate-Level Simulation of Quantum Circuits
        • Graph-based simulation of quantum computation in the density matrix representation
    • Univeristy of Pittsburgh, Department of Physics and Astronomy
      • QDENSITY - Simulation of a Quantum Computer
• Modelling
  • Columbia University, New York - Department of Computer Science
    • Local Fault-tolerant Quantum Computation
  • IBM Watson Research Center, Yorktown - Quantum Information and Information Physics
    • Fault-Tolerant Quantum Computation For Local Non-Markovian Noise
  • Laboratoire de Physique Corpusculaire de Caen
    • Theory and Phenomenology
      • Denis Lacroix
        • Exact and approximate many-body dynamics with stochastic one-body density matrix evolution
  • Lanzhou University - Department of Modern Physics
    • Jun-Hong An
      • Entanglement dynamics of qubits in a common environment
  • Miami University
    • James P. Clemens
      • A two reservoir model of quantum error correction
  • MIT
    • Department of Physics
      • A Method for Modeling Decoherence on a Quantum Information Processor
    • Department of Nuclear Engineering
      • Robust Control of Quantum Information
      • Incoherent Noise and Quantum Information Processing
    • Quanta Research Group
      • Andrew Cross
        • A flow-map model for analyzing pseudothresholds in fault-tolerant quantum computing
  • Perimeter Institute for Theoretical Physics
    • Random Quantum Circuits and Pseudo-Random Operators: Theory and Applications
  • Radboud University of Nijmegen - Institute for Molecules and Materials
    • Salah Hamieh
      • Quantum entanglement dynamics and decoherence wave in spin chains at finite temperatures
  • Tamagawa University - Research Center for Quantum Information Science
    • Hiroo Azuma
      • Higher order perturbation theory for decoherence in Grover's algorithm
  • Université Paul Sabatier, Laboratoire de Physique Théorique, IRSAMC - Quantware MIPS Center
    • A quantitative model for the effective decoherence of a quantum computer with imperfect unitary operations
  • University of Buenos Aires, Department of Physics
    • Fernando C. Lombardo
      • Decoherence induced by a composite environment
  • University of Texas at Austin - Center for Statistical Mechanics
    • The Schrodinger picture for open quantum dynamics
  • University of Turku - Department of Physics, Quantum Optics Group
    • Jyrki Piilo
      • Driven harmonic oscillator as a quantum simulator for open systems
• Density matrix renormalization group (DMRG)
  • People
    • Steven R. White
      • Wikipedia Page
      • Home Page
    • Stefan Rommer
    • Stellan Östlund
  • Key Papers
    • Density Matrix Formulation for Quantum Renormalization Groups
    • DMRG ground states in `matrix product' form
• Matrix Product States
  • Diverging Entanglement Length in Gapped Quantum Spin Systems
  • Time-dependent density-matrix renormalization-group using adaptive effective Hilbert spaces
  • DMRG and periodic boundary conditions: a quantum information perspective
  • Matrix Product Density Operators: Simulation of finite-T and dissipative systems
  • Renormalization algorithms for Quantum-Many Body Systems in two and higher dimensions
  • Renormalization group transformations on quantum states
  • Localizable Entanglement
  • Sequential generation of entangled multi-qubit states
  • Simulation of many-qubit quantum computation with matrix product states
  • Variational matrix product state approach to quantum impurity models
  • Matrix product states represent ground states faithfully
• Error Prevention
  • Caltech - Institute for Quantum Information
    • Panos Aliferis
      • Fault-tolerant quantum computation in the graph-state model
    • John Preskill
      • Quantum accuracy threshold for concatenated distance-3 codes
  • Hiroshima University - Department of Quantum Matter
    • Takahiro Murakami
      • Pulse Control of Decoherence with Population Decay
  • National Tsing Hua University - Department of Physics
    • Pochung Chen
      • Continuous Dynamical Decoupling with Bounded Controls
  • Universidad Politécnica de Madrid
    • Departamento Física Aplicada a las Tecnologías de la Información
      • Angel Luis Sanz Saenz
        • Numerical Simulation of Decoherence-control Processes in Quantum Computers
        • Numerical simulation of information recovery in quantum computers
        • Error threshold estimation by means of the [[7,1,3]] CSS quantum code
    • Departamento de Tecnologías Especiales Aplicadas a la Telecomunicación
      • Pedro Jesus Salas
        • Effect of ancilla's structure on quantum error correction using the 7-qubit Calderbank-Shor-Steane code
  • Università di Salerno - Dipartimento di Fisica, Quantum Information and Quantum Optics
    • Fabrizio Illuminati
      • Engineering massive quantum memories by topologically time-modulated spin rings
  • University of California, Berkeley
    • Computer Science Theory
      • Ben Reichardt
        • Improved ancilla preparation scheme increases fault-tolerant threshold
        • Quantum error correction of systematic errors using a quantum search framework
    • Department of Chemistry - Whaley Group
      • Mikko Mottonen
        • High fidelity one-qubit operations under random telegraph noise
  • University of Toronto - Center for Quantum Information and Quantum Control
    • Daniel Lidar
      • Holonomic quantum computation in decoherence-free subspaces
  • University of Washington - Department of Computer Science and Engineering
    • Dave Bacon
      • Operator Quantum Error Correcting Subsystems for Self-Correcting Quantum Memories
  • Other
    • A Class of Quantum Error-Correcting Codes Saturating the Quantum Hamming Bound
    • Introduction to Quantum Error Correction
    • Overview of Quantum Error Prevention and Leakage Elimination
    • Quantum error correction of coherent errors by randomization
    • Universal Leakage Elimination
    • Quantum Phase Transition of a Magnet in a Spin Bath
    • Operator Quantum Error Correction

Last updated on Feb 04 2008 at 22:45
by Ian Glendinning