Design of multiple attractor GF(2/sup p/) cellular automata for diagnosis of VLSI circuits

This paper introduces an efficient diagnosis scheme for VLSI circuits. A special class of non-group CA referred to as multiple attractor cellular automats (MACA) is introduced to diagnose the faulty block of a circuit under test (CUT). The scheme employs significantly lesser memory than the existing methods reported so far. Experimental results establish the efficiency of the scheme in terms of saving in memory space and execution time and enhanced diagnostic resolution. Rather than GF(2) CA where each CA cell handles GF(2) elements (0 and 1), the GF(2/sup p/) CA is employed to reduce the processing time.

[1]  Dipanwita Roy Chowdhury,et al.  Application of GF(2/sup p/) CA in burst error correcting codes , 2000, VLSI Design 2000. Wireless and Digital Imaging in the Millennium. Proceedings of 13th International Conference on VLSI Design.

[2]  Biplab K. Sikdar,et al.  Theory and application of GF(2/sup p/) cellular automata as on-chip test pattern generator , 2000, VLSI Design 2000. Wireless and Digital Imaging in the Millennium. Proceedings of 13th International Conference on VLSI Design.

[3]  Santanu Chattopadhyay,et al.  Additive cellular automata : theory and applications , 1997 .

[4]  Vamsi Boppana,et al.  Fault dictionary compaction by output sequence removal , 1994, ICCAD.

[5]  Irith Pomeranz,et al.  Fault dictionary compression and equivalence class computation for sequential circuits , 1993, ICCAD.

[6]  Dong Sam Ha,et al.  HOPE: an efficient parallel fault simulator for synchronous sequential circuits , 1992, DAC '92.