High Performance Computing And Its Applications In The Physical Sciences - Proceedings Of The Mardi Gras '93 Conference

An Overview of High Performance Computing for the Physical Sciences (G C Fox & P D Coddington); A Look at Scalable Dense Linear Algebra Libraries (J Dongarra et al.); Perturbative Forward Walking in the Context of the Mirror-Potential Approach to the Fermion Problem (M H Kalos); Comparison of Approximate and Exact Density Functionals - A Quantum Monte Carlo Study (C J Umrigar & X Gonze); Quantum Monte Carlo by Message Passing (J Bonca & J E Gubernatis); Truncated Hilbert Space Approach to Models of High-Tc Superconductivity (J Riera); A Monte Carlo Study of the "Minus Sign Problem" in the t-J Modal Using an Intel iPSC/860 Hypercube (MD Kovarik & T Barnes); A Cluster Algorithm for vertex Models and Quantum Spin Systems (H G Evertz & M Marcu); Parallel Computers and the Structure of the Proton (D Toussaint); Calculations of Hadronic Matrix Elements Using Lattice QCD (P Gupta); Studies of Electron-Molecule Collisions on Massively Parallel Computers (C Winstead & V McKoy); Massively Parallel Full Configuration Integraction - Benchmark Electronic Structure Calculations on the Intel Touchstone Delta (P J Harrison & E A Stahlberg); Computational Approach to Nanotechnology on Parallel Computers (A Nakano et al); Classical and Quantum Molecular Dynamics: Versatile Tools for Materials Science (J Gryko & P E Allen); Interface Growth and Pinning in a Computer-Simulation Model for Fluid Flow (P B Pandey); Self-Organized Criticality (M Creutz); Adaptive Signal Representations with Time-Frequency Atoms (S Mallat & Z-F Zhang); A PVM Implementation of Mathematical Morphology (J A Pedelty & J P Thorp); Analysis and Prediction of Protein Binding on DNA with Parallel Processors: Preliminary Version (G Campbell et al).