Recent Advances in Parallel Virtual Machine and Message Passing Interface

Why are PVM and MPI so different?.- Comparison of PVM and MPI performance in short-range molecular dynamics simulation.- Analyzing the performance of MPI in a cluster of workstations based on fast ethernet.- A comparison of MPI performance on different MPPs.- Predicting the performance of injection communication patterns on PVM.- Evaluation of the communication performance on a parallel processing system.- Evaluating personal high performance computing with PVM on Windows and LINUX environments.- Experimental evaluation of PVM group communication.- ARCH, an object oriented MPI-based library for asynchronous and loosely synchronous parallel system programming.- An extension to MPI for distributed computing on MPPs.- Distributed & cooperative applications in PVM.- Heterogeneous MPI application interoperation and process management under PVMPI.- YLC, A C++ Linda system on top of PVM.- Advanced capabilities in PVM 3.4.- Beyond PVM 3.4: What we've learned, what's next, and why.- Using PVM to build an interface to support Cooperative Work in a distributed systems environment.- Towards portable message passing in Java: Binding MPI.- Control activities in message passing environment.- Global semaphores in a parallel programming environment.- A synchronizing shared memory: Model and programming implementation.- Communication in multi-physics applications.- Embedding SCI into PVM.- Implementation of MPI on NEC's SX-4 multi-node architecture.- Breaking the curse of dynamics by task migration: Pilot experiments in the polder metacomputer.- PVM on the RHODOS distributed operating system.- A function to dynamic workload allocation in distributed applications.- Integrating PVaniM into WAMM for monitoring meta-applications.- Evaluation of parallel application's behavior in message passing environment.- Message-passing program development by ensemble.- Interaction patterns detection in PVM programs to support simulation.- The PALLAS parallel programming environment.- OMIS 2.0 — a universal interface for monitoring systems.- In quest of the bottleneck — monitoring parallel database systems.- Tools and auxiliary subsystems in PVM.- Debugging message passing programs using invisible message tags.- On the PVM/MPI computations of dynamic programming recurrences.- Parallel Branch and Bound algorithms for integer and mixed integer linear programming problems under PVM.- PVM-implementation of the PGC method with displacement decomposition.- Numerical integration on distributed-memory parallel systems.- PINEAPL: A European project on Parallel Industrial Numerical Applications and Portable Libraries.- Block-cyclic array redistribution on networks of workstations.- Performance of CAP-specified linear algebra algorithms.- Implementing parallel SBS-type linear solvers using ALWAN.- Highly parallel cryptographic attacks.- Implementation of some multiprocessor algorithms for ODES using PVM.- Parallel graph-partitioning using the mob heuristic.- Truncated block Newton and quasi-Newton methods for sparse systems of nonlinear equations. Experiments on parallel platforms.- An MPI driven parallelization strategy for different computing platforms: A case study.- Parallel version of a quantum classical molecular dynamics code for complex molecular and biomolecular systems.- Running large-scale air pollution models on message passing machines.- PVM experiences in developing the MIDAS parallel database system.- Developing non-local iterative parallel algorithms for GIS on Cray T3D using MPI.- Dynamic optimisation of a distributed VR system by network-balancing.- Molecular dynamics on hybrid memory machines.- Offering parallelism to a sequential database management system on a network of workstations using PVM.- Mixing simulations: Tracking strongly deforming fluid volumes in 3D flows.- Parallel crew scheduling on workstation networks using PVM.- MOPS — parallel environment for simulation of electronic circuits using physical models of semiconductor devices.- Message handling in parallel radiance.- Parallelization of neutron transport solvers.- Parallel rendering of radiance on distributed memory system by PVM.- Parallel turbulence simulation: Resolving the inertial subrange of Kolmogorov's spectra.