Title :
Efficient modular design of TSC checkers for m-out-of-2m codes
Author :
Paschalis, Antonis M. ; Nikolos, Dimitris ; Halatsis, Constantine
Author_Institution :
Inst of Telecommun. & Inf., NRCPS, Athens, Greece
fDate :
3/1/1988 12:00:00 AM
Abstract :
A design method of totally self-checking (TSC) m-out-of-2 m code checkers is presented. The design is composed basically of two full-adder/half-adder trees, each summing up the ones received on m input lines, and a k-variable two-pair two-rail code tree that compares the outputs of the two-adder tree. The only modules used are full-adders, half-adders, and two-variable TSC two-rail code checkers. This method is well suited for VLSI MOS implementation and, compared to previous methods, it results in significant circuit cost reduction and smaller test set, without sacrificing performance. Also, the proposed design has the advantages of a modular design
Keywords :
adders; codes; logic design; VLSI MOS implementation; codes; full-adder; half-adder; modular design; totally self-checking checkers; trees; Built-in self-test; Circuit faults; Circuit testing; Design methodology; Digital systems; Fault detection; Large scale integration; MOSFETs; Telecommunication computing; Very large scale integration;
Journal_Title :
Computers, IEEE Transactions on
