AbstractThis paper presents some new techniques for reducing the transistor count oof MOS implementations of totally self-checking (TSC) checkers. The techniques are (1) transfer of fanouts, (2) removal of inverters and (3) use of multi-level realizations of functions. These techniques also increase the speed of the circuit and may reduce the number of required tests. Their effectiveness has been demonstrated by applying them to m-out-of-n and Berger code checkers. Impressive reductions of up to 90% in the transistor count in some cases have been obtained for the MOS implementation of these checkers. This directly translates into saving of chip area
[[abstract]]The authors present a novel approach to designing TSC (totally self-checking) CMOS circu...
In this paper we propose a probabilistic measure for self-checking (SC) circuits that is analogous t...
Mission-critical applications require that any failure that may lead to erroneous behavior and compu...
This paper presents some new techniques for reducing the transistor count oof MOS implementations of...
AbstractThis paper presents some new techniques for reducing the transistor count oof MOS implementa...
This paper presents a novel method for designing Totally Self-Checking (TSC) m-out-of-n code checker...
This paper considers the design of an efficient, robustly testable, CMOS Totally Self-Checking (TSC)...
[[abstract]]This paper presents a new design method of efficient totally self-checking (TSC) checker...
108 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1985.A Totally Self-Checking (TSC)...
In the area of self-checking circuit designs, it is known that no combinational totally self-checkin...
A technique for designing totally self-checking (TSC) FCMOS (Fully Complementary MOS) designs for mu...
A new technique for reducing the complexity of designing Totally Self-Checking (TSC) checkers for m-...
[[abstract]]We present in this paper an approach to designing partially strongly code-disjoint (PSCD...
Deals with the design of self-checking NMOS circuits. Two types of test are planned for the use of t...
Abstract-Self-checking circuits can detect the presence of both transient and permanent faults. A se...
[[abstract]]The authors present a novel approach to designing TSC (totally self-checking) CMOS circu...
In this paper we propose a probabilistic measure for self-checking (SC) circuits that is analogous t...
Mission-critical applications require that any failure that may lead to erroneous behavior and compu...
This paper presents some new techniques for reducing the transistor count oof MOS implementations of...
AbstractThis paper presents some new techniques for reducing the transistor count oof MOS implementa...
This paper presents a novel method for designing Totally Self-Checking (TSC) m-out-of-n code checker...
This paper considers the design of an efficient, robustly testable, CMOS Totally Self-Checking (TSC)...
[[abstract]]This paper presents a new design method of efficient totally self-checking (TSC) checker...
108 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1985.A Totally Self-Checking (TSC)...
In the area of self-checking circuit designs, it is known that no combinational totally self-checkin...
A technique for designing totally self-checking (TSC) FCMOS (Fully Complementary MOS) designs for mu...
A new technique for reducing the complexity of designing Totally Self-Checking (TSC) checkers for m-...
[[abstract]]We present in this paper an approach to designing partially strongly code-disjoint (PSCD...
Deals with the design of self-checking NMOS circuits. Two types of test are planned for the use of t...
Abstract-Self-checking circuits can detect the presence of both transient and permanent faults. A se...
[[abstract]]The authors present a novel approach to designing TSC (totally self-checking) CMOS circu...
In this paper we propose a probabilistic measure for self-checking (SC) circuits that is analogous t...
Mission-critical applications require that any failure that may lead to erroneous behavior and compu...