Title :
Augmented Parity Check Codes for Encoding of Asynchronous Sequential Machines
Author :
Kashef, R. Sohrab ; Mcghee, Robert B.
Author_Institution :
Department of Electrical Engineering, University of Southern California
Abstract :
Critical races can be avoided in the binary encoding of asynchronous sequential machines by making use of general codes employing-multistep changes in secondary variables to accomplish transitions between states. The shortest length code of this type presently available is Huffman´s internmeshed row set code, which encodes race-free any 2SO-row flow table with 2So-1 bits. In this paper, a new class of codes called augmented parity check codes (APC codes) is introduced and proposed for race-free encoding. Some of the properties of these codes suggest that minimum codes may require only on the order of So+ log2SObits.
Keywords :
Asynchronous sequential machines, augmented parity check codes, general race-free codes, maximum distance partition.; Binary codes; Encoding; Parity check codes; Partitioning algorithms; Asynchronous sequential machines, augmented parity check codes, general race-free codes, maximum distance partition.;
Journal_Title :
Computers, IEEE Transactions on
DOI :
10.1109/T-C.1973.223614
