Models and languages for parallel computation
ACM Computing Surveys (CSUR)
Coordination of heterogeneous distributed cooperative constraint solving
ACM SIGAPP Applied Computing Review - Special issue on coodination languages and models
Ace: a language for parallel programming with customizable protocols
ACM Transactions on Computer Systems (TOCS)
Using coordination for cooperative constraint solving
SAC '98 Proceedings of the 1998 ACM symposium on Applied Computing
Translating Haskell# programs into Petri nets
VECPAR'02 Proceedings of the 5th international conference on High performance computing for computational science
Monitoring and debugging message passing applications with MPVisualizer
EURO-PDP'00 Proceedings of the 8th Euromicro conference on Parallel and distributed processing
The parallel implementation of the algorithm solution of model for two-phase cluster in liquids
PaCT'05 Proceedings of the 8th international conference on Parallel Computing Technologies
Finding, expressing and managing parallelism in programs executed on clusters of workstations
Computer Communications
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The Message Passing Interface (MPI) is a portable message-passing standard that facilitates the development of parallel applications and libraries. The standard defines the syntaax and semantics of a core of library routines useful to a wide range of users writing portable message-passing programs in Fortran 77 or C. MPI also forms a possible target for compilers of languages such as High Performance Fortran. Commercial and free, public-domain implementations of MPI already exist. These run on both tightly-coupled, massively-parallel machines (MPPs), and on networks of workstations (NOWs). The MPI standard was developed over a year of intensive meetings and involved over 80 people from approximately 40 organizations, mainly from the United States and Europe. Many vendors of concurrent computers were involved, along with researchers from universities, government laboratories, and industry. This effort culminated in the publication of the MPI specification. Other sources of information on MPI are available or are under development. , Researchers incorporated into MPI the most useful features of several systems, rather than choosing one system to adopt as the standard. MPI has roots in PVM, Express, P4, Zipcode, and Parmacs, and in systems sold by IBM, Intel, Meiko, Cray Research, and Ncube.