Parallelization of AMBER molecular dynamics program for the AP1000 highly parallel computer

Author

Sato, Hiroyuki ; Tanaka, Yasumasa ; Iwama, Hiroshi ; Kawakika, Shigetsugu ; Saito, Minoru ; Morikami, Kenji ; Yao, Tom ; Tsutsumi, Shigenobu

Author_Institution

Comput. Syst. Archit. Lab., Fujitsu Labs. Ltd., Kawasaki, Japan

fYear

1992

fDate

26-29 Apr 1992

Firstpage

113

Lastpage

120

Abstract

The authors have parallelized the AMBER molecular dynamics program for the AP1000 highly parallel computer. To obtain a high degree of parallelism and an even load balance between processors for model problems of protein and water molecules, protein amino acid residues and water molecules are distributed to processors randomly. Global interprocessor communication required by this data mapping is efficiently done using the AP1000 broadcast network, to broadcast atom coordinate data for other processors´ reference and its torus network; also for point-to-point communication to accumulate forces for atoms assigned to other processors. Experiments showed that a problem with 41095 atoms is processed 226 times faster with a 512 processor AP1000 than by a single processor

Keywords

digital simulation; molecular dynamics method; multiprocessor interconnection networks; parallel algorithms; parallel machines; parallel programming; physics computing; AMBER molecular dynamics program; AP1000 broadcast network; AP1000 highly parallel computer; atom coordinate data; global interprocessor communication; load balance; parallelism; point-to-point communication; protein amino acid residues; torus network; water molecules; Bonding; Broadcasting; Computer architecture; Concurrent computing; Electronic mail; Hydrogen; Laboratories; Parallel processing; Protein engineering; Temperature;

fLanguage

English

Publisher

ieee

Conference_Titel

Scalable High Performance Computing Conference, 1992. SHPCC-92, Proceedings.

Conference_Location

Williamsburg, VA

Print_ISBN

0-8186-2775-1

Type

conf

DOI

10.1109/SHPCC.1992.232680

Filename

232680