An efficient, fully adaptive deadlock recovery scheme: DISHA

Author

Anjan, K.V. ; Pinkston, Timothy Mark

Author_Institution

Dept. of Electr. Eng. Syst., Univ. of Southern California, Los Angeles, CA, USA

fYear

1995

fDate

22-24 June 1995

Firstpage

201

Lastpage

210

Abstract

This paper presents a simple, efficient and cost effective routing strategy that considers deadlock recovery as opposed to prevention. Performance is optimized in the absence of deadlocks by allowing maximum flexibility in routing. DISHA supports truefully adaptive routing where all virtual channels at each node are available to packets without regard for deadlocks. Deadlock cycles, upon forming, are efficiently broken by progressively routing one of the blocked packets through a deadlock-free lane. This lane is implemented using a central "floating" deadlock buffer resource in routers which is accessible to all neighboring routers along the path. Simulations show that the DISHA scheme results in superior performance and is extremely simple, ensuring quick recovery from deadlocks and enabling the design of fast routers.

Keywords

concurrency control; multiprocessor interconnection networks; system recovery; DISHA; deadlock buffer resource; deadlock-free lane; fully adaptive deadlock recovery scheme; performance; routing strategy; simulations; Communication switching; Costs; HTML; Hardware; Multiprocessor interconnection networks; Permission; Routing; Spine; System performance; System recovery;

fLanguage

English

Publisher

ieee

Conference_Titel

Computer Architecture, 1995. Proceedings., 22nd Annual International Symposium on

Conference_Location

Santa Margherita Ligure, Italy

ISSN

1063-6897

Print_ISBN

0-89791-698-0

Type

conf

Filename

524561