Paper Info
Title
Distributed Synchronous Control Units for Dataflow Graphs under Allocation of Telescopic Arithmetic Units
Abstract
In order to enjoy performance improvement effects of variable computation time arithmetic units in a system level, we propose a new synchronous control unit design methodology for dataflow graphs under allocation of a telescopic arithmetic unit which is one of well-known synchronous variable computation time arithmetic units. The proposed method generates an independent synchronous controller for each component arithmetic unit, and builds a distributed synchronous control unit through integrating derived controllers. The distributed structure of a final synchronous control unit maximizes performance improvement effect of telescopic arithmetic units through a complete preservation of original concurrency among operations.
Year
DOI
Venue
2003
10.1109/DATE.2003.1253620
DATE
Keywords
Field
DocType
well-known synchronous variable computation,variable computation time arithmetic,telescopic arithmetic units,independent synchronous controller,component arithmetic unit,time arithmetic unit,synchronous control unit,synchronous control units,final synchronous control unit,telescopic arithmetic unit,maximizes performance improvement effect,dataflow graphs,new synchronous control unit,signal generators,logic design,synchronisation,concurrency control,distributed processing,optical computing,control systems,arithmetic,high performance computing,high level synthesis,logic,computer networks,design methodology,design for testability
Synchronization,Concurrency control,Arbitrary-precision arithmetic,Concurrency,Computer science,Parallel computing,Arithmetic,Arithmetic logic unit,Real-time computing,Dataflow,Control system,Execution unit
Conference
ISBN
Citations 
PageRank 
0-7695-1870-2
0
0.34
References 
Authors
5
6
Name
Order
Citations
PageRank
Euiseok Kim14610.09
Hiroshi Saito2216.61
Jeong-Gun Lee37218.27
Dongik Lee47714.46
Hiroshi Nakamura5547.39
Takashi Nanya620035.46