[[abstract]]In many scientific applications, dynamic array redistribution is usually required to enhance the performance of an algorithm. In this paper, we present a generalized basic-cycle calculation (GBCC) method to efficiently perform a BLOCK-CYCLIC(s) over P processors to BLOCK-CYCLIC(t) over Q processors array redistribution. In the GBCC method, a processor first computes the source destination processor/data sets of array elements in the first generalized basic-cycle of the local array it owns. A generalized basic-cycle is defined as lcm(sP, tQ)/(gcd(s,t)×P) in the source distribution and lcm(sP, tQ)/(gcd(s, t)×Q) in the destination distribution. From the source/destination processor/data sets of array elements in the fir...
[[abstract]]In this paper, we present message encoding techniques to improve the performance of BLOC...
[[abstract]]Array redistribution is usually required, to enhance algorithm performance in many paral...
International audienceThis article is devoted to the run-time redistribution of one-dimensional arra...
[[abstract]]In many scientific applications, dynamic array redistribution is usually required to enh...
[[abstract]]© 2000 Institute of Electrical and Electronics Engineers - In many scientific applicatio...
[[abstract]]Array redistribution is usually required to enhance algorithm performance in many parall...
[[abstract]]In this paper, we present efficient methods for multidimensional array redistribution. B...
[[abstract]]In many scientific applications, array redistribution is usually required to enhance dat...
[[abstract]]Array redistribution is usually required to enhance algorithm performance in many parall...
Dynamic redistribution of arrays is required very often in programs on distributed memory parallel c...
[[abstract]]Array redistribution is usually required to enhance algorithm performance in many parall...
Run-time array redistribution is necessary to enhance the performance of parallel programs on distri...
[[abstract]]Array redistribution is usually required to enhance algorithm performance in many parall...
[[abstract]]Array redistribution is usually required, to enhance algorithm performance in many paral...
Abstract. In many scientic applications, array redistribution is usually required to enhance data lo...
[[abstract]]In this paper, we present message encoding techniques to improve the performance of BLOC...
[[abstract]]Array redistribution is usually required, to enhance algorithm performance in many paral...
International audienceThis article is devoted to the run-time redistribution of one-dimensional arra...
[[abstract]]In many scientific applications, dynamic array redistribution is usually required to enh...
[[abstract]]© 2000 Institute of Electrical and Electronics Engineers - In many scientific applicatio...
[[abstract]]Array redistribution is usually required to enhance algorithm performance in many parall...
[[abstract]]In this paper, we present efficient methods for multidimensional array redistribution. B...
[[abstract]]In many scientific applications, array redistribution is usually required to enhance dat...
[[abstract]]Array redistribution is usually required to enhance algorithm performance in many parall...
Dynamic redistribution of arrays is required very often in programs on distributed memory parallel c...
[[abstract]]Array redistribution is usually required to enhance algorithm performance in many parall...
Run-time array redistribution is necessary to enhance the performance of parallel programs on distri...
[[abstract]]Array redistribution is usually required to enhance algorithm performance in many parall...
[[abstract]]Array redistribution is usually required, to enhance algorithm performance in many paral...
Abstract. In many scientic applications, array redistribution is usually required to enhance data lo...
[[abstract]]In this paper, we present message encoding techniques to improve the performance of BLOC...
[[abstract]]Array redistribution is usually required, to enhance algorithm performance in many paral...
International audienceThis article is devoted to the run-time redistribution of one-dimensional arra...