Title :
Convolution Blocks Based on Self-Checking Operators
Author :
Franco, D.T. ; Naviner, J.-F. ; Naviner, L.
Author_Institution :
Nat. Superieure des Telecommun, Paris
Abstract :
The arrival of CMOS integrated systems into nanoscale dimensions is presenting many challenges to designers and manufacturers concerning yield and reliability of integrated circuits. Traditional techniques to cope with these subjects are not as effective as they were before and many solutions are considered to allow CMOS evolution to continue according to Moore´s law. Among the proposed solutions in the literature there´s self-checking design and circuit reconfiguration. In the present work we introduce self-checking arithmetic operators in the design of convolution processors and we verify the penalties of such solutions in terms of area and speed. The self-checking methods considered are parity prediction, duplication and 1-out-of-3 encoding.
Keywords :
CMOS digital integrated circuits; block codes; convolutional codes; digital arithmetic; integrated circuit design; integrated circuit reliability; integrated circuit yield; logic design; microprocessor chips; nanotechnology; parity check codes; 1-out-of-3 encoding; CMOS integrated systems; convolution processor design; integrated circuit reliability; integrated circuit yield; nanoscale dimensions; parity prediction; self-checking arithmetic operators; Adders; Arithmetic; Circuit synthesis; Convolution; Encoding; Finite impulse response filter; Hardware; Integrated circuit reliability; Protection; Redundancy;
Conference_Titel :
Mixed Design of Integrated Circuits and Systems, 2007. MIXDES '07. 14th International Conference on
Conference_Location :
Ciechocinek
Print_ISBN :
83-922632-9-4
Electronic_ISBN :
83-922632-9-4
DOI :
10.1109/MIXDES.2007.4286211
