A performance and portability study of parallel applications using a distributed computing testbed

A case study was conducted to examine the performance and portability of parallel applications, with an emphasis on data transfer among the processors in heterogeneous environments. Several parallel test programs using MPICH, a message passing interface (MPI) library, and the Linda parallel environment were developed to analyze communication performance and portability. These programs implement loosely and tightly synchronized communication models in which each processor exchanges data with two other processors. This data-exchange pattern mimics communication in certain parallel applications using striped partitioning of the computational domain. Tests were performed on an isolated, distributed computing testbed, a live development network and a symmetrical multiprocessing computer system. All network configurations used asynchronous transfer mode (ATM) network technologies. The testbed used in the study was a heterogeneous network consisting of various workstations and networking equipment. This paper presents an analysis of the results and recommendations for designing and implementing course-grained, parallel, scientific applications.