The design of reliable circuits has received a lot of attention in the past, leading to the definition of several design techniques introducing fault detection and fault tolerance properties in systems for critical applications/environments. Such design methodologies tackled the problem at different abstraction levels, from switch-level to logic, RT level, and more recently to system level. The aim of this paper is to introduce a novel system-level technique based on the redefinition of the operator functionality in the system specification. This technique provides reliability properties to the system data path, transparently with respect to the designer. Feasibility, fault coverage, performance degradation and overheads are investigated on a FIR circuit.
Reliable System Specification for Self-Checking Data-Paths
BOLCHINI, CRISTIANA;SALICE, FABIO;SCIUTO, DONATELLA
2005-01-01
Abstract
The design of reliable circuits has received a lot of attention in the past, leading to the definition of several design techniques introducing fault detection and fault tolerance properties in systems for critical applications/environments. Such design methodologies tackled the problem at different abstraction levels, from switch-level to logic, RT level, and more recently to system level. The aim of this paper is to introduce a novel system-level technique based on the redefinition of the operator functionality in the system specification. This technique provides reliability properties to the system data path, transparently with respect to the designer. Feasibility, fault coverage, performance degradation and overheads are investigated on a FIR circuit.| File | Dimensione | Formato | |
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