Title :
Efficient parallel global garbage collection on massively parallel computers
Author :
Kamada, Tomio ; Matsuoka, Satoshi ; Yonezawa, Akinori
Author_Institution :
Tokyo Univ., Japan
Abstract :
On distributed-memory high-performance massively parallel computers (MPPs) where processors are interconnected by an asynchronous network, efficient garbage collection (GC) becomes difficult, due to inter-node references and references within pending, unprocessed messages. Our parallel global GC algorithm (1) takes advantage of reference locality, (2) efficiently traverses references over nodes, (3) admits a minimum pause time for the ongoing computations, and (4) has been shown to scale up to 1024-node MPPs. The algorithm employs a global weight counting scheme to substantially reduce message traffic. Two methods for confirming the arrival of pending messages are used: one counts the number of messages and the other uses network `bulldozing´. Performance evaluations in actual implementations on a multicomputer with from 32 to 1024 nodes, the Fujitsu AP1000, reveals various favorable properties of the algorithm
Keywords :
distributed memory systems; parallel algorithms; performance evaluation; storage management; Fujitsu AP1000 multicomputer; asynchronous network; distributed-memory high-performance massively parallel computers; global weight counting scheme; inter-node references; message arrival confirmation; message counting; message traffic reduction; minimum pause time; network bulldozing; parallel global garbage collection; pending unprocessed messages; performance evaluations; reference locality; reference traversal; scalability; Computer languages; Computer networks; Concurrent computing; Distributed computing; Dynamic programming; Logic programming; Parallel programming; Runtime; Storage automation; Telecommunication traffic;
Conference_Titel :
Supercomputing '94., Proceedings
Conference_Location :
Washington, DC
Print_ISBN :
0-8186-6605-6
DOI :
10.1109/SUPERC.1994.344268
