Title :
Design and testing of fast and cost effective serial seeding TPGs based on one-dimensional linear hybrid cellular automata
Author :
Hlawiczka, Andrzej ; Kopec, Michal
Author_Institution :
Inst. of Electron., Silesian Univ. of Technol., Gliwice, Poland
Abstract :
The paper proposes the approach of designing CA registers that work as quick pattern generators. A new effective method of setting the initial state of such registers is presented. It is based on switching a n-cell CA register into a concatenation of p CdSR registers (Cellular Automata quasi Shift Register) each containing r cells and connected with characteristic polynomial x´. The resultant characteristic polynomial of such concatenation is p(x)=xn. Such concatenation of p registers CASR is referred as PCASR. The paper proves the possibility of setting a PCASR to any initial state by n-bit input sequence without the need of switching flip-flops into the D flip-flop mode. Moreover, it has been proven that any input sequence would be repeated at the output of a n-cell PCASR after n-clock cycle delay. Finally an effective procedure of testing PCASR is proposed
Keywords :
application specific integrated circuits; automatic test pattern generation; cellular automata; flip-flops; integrated circuit economics; integrated circuit testing; logic CAD; logic testing; polynomials; shift registers; PCASR; TPG; cellular automata quasi shift register; cost; flip-flops; linear hybrid cellular automata; n-bit input sequence; n-cell CA register; p CdSR registers; pattern generators; polynomial; serial seeding; Application specific integrated circuits; Automatic testing; Circuit testing; Costs; Electronic equipment testing; Flip-flops; Hardware; Polynomials; Shift registers; Switches;
Conference_Titel :
Test Symposium, 2000. (ATS 2000). Proceedings of the Ninth Asian
Conference_Location :
Taipei
Print_ISBN :
0-7695-0887-1
DOI :
10.1109/ATS.2000.893653
