On-Set Realization of Fail-Safe Sequential Machines

Fail-safe sequential machines can be constructed in such a way that if a failure happens in the sequential part, the ulterior functioning must carry on outside the code chosen to represent the set of states. This paper presents a study of the failures in the input combinational circuit and of the feasibility conditions of sequential machines with states coded by a k-out-of-n code. The electronic circuit is realized in a classical way (on-set realization) and must obey two hypotheses, 1) no failure on clock line C, and 2) single fault (stuck at 0 or stuck at 1) on other connections than C.

[1]  Yoshihiro Tohma,et al.  Realization of Fail-Safe Sequential Machines by Using a k-out-of-n Code , 1971, IEEE Transactions on Computers.

[2]  Tadao Kasami,et al.  Failsafe Logic Nets , 1971, IEEE Transactions on Computers.

[3]  HISASHI MINE,et al.  Basic Properties and a Construction Method for Fail-Safe Logical Systems , 1967, IEEE Trans. Electron. Comput..

[4]  Tadao Takaoka,et al.  N-Fail-Safe Logical Systems , 1971, IEEE Transactions on Computers.

[5]  Toshihide Ibaraki,et al.  N-Fail-Safe Sequential Machines , 1972, IEEE Transactions on Computers.