The reliability of a fault-tolerant circuit may be drastically impaired by the presence of maskable faults that never affect its functionality. Design for testability (DFT) techniques have to be applied to make maskable faults detectable. During the testing phase, traditional DFT schemes inhibit fault masking and/or activate additional observation/control paths through the circuit. Such schemes, however, do not enable on-line testing and cannot be applied to multilevel fault-tolerant circuits, where fault-masking is repeatedly performed inside the circuit. We propose a new approach to the design of testable fault-tolerant CMOS circuits that overcomes both limitations. Our approach is based on the use of IDDQ-checkable voters (ICVs) that enable a complete test of maskable faults of any multiplicity during normal operations
Enabling testability of fault-tolerant circuits by means of I-DDQ-checkable voters
FAVALLI, Michele;
2000
Abstract
The reliability of a fault-tolerant circuit may be drastically impaired by the presence of maskable faults that never affect its functionality. Design for testability (DFT) techniques have to be applied to make maskable faults detectable. During the testing phase, traditional DFT schemes inhibit fault masking and/or activate additional observation/control paths through the circuit. Such schemes, however, do not enable on-line testing and cannot be applied to multilevel fault-tolerant circuits, where fault-masking is repeatedly performed inside the circuit. We propose a new approach to the design of testable fault-tolerant CMOS circuits that overcomes both limitations. Our approach is based on the use of IDDQ-checkable voters (ICVs) that enable a complete test of maskable faults of any multiplicity during normal operationsI documenti in SFERA sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
