[[abstract]]We present in this paper an approach to designing partially strongly code-disjoint (PSCD) CMOS circuits and checkers, considering transistor stuck-on faults in addition to gate-level stuck-at faults. Our design-for-testability (DFT) technique requires only a small number of extra transistors for monitoring abnormal static currents, coupled with a simple clocking scheme, to detect the stuck-on faults concurrently. The DFT circuitry not only can detect the faults in the functional circuit but also can detect or tolerate faults in itself, making it a good candidate for checker design. Switch and circuit level simulations were performed on a sample circuit, and a sample 4-out-of-8 code checker chip using the proposed technique has b...
AbstractThis paper presents some new techniques for reducing the transistor count oof MOS implementa...
ISSN: 0279-2834CMOS technology poses a multi-faceted challenge in testing. Since 1978, researchers h...
Abstract: Testability analysis of basic and complex logic gates employing complementary pass transis...
[[abstract]]The authors present a novel approach to designing TSC (totally self-checking) CMOS circu...
This paper considers the design of an efficient, robustly testable, CMOS Totally Self-Checking (TSC)...
This paper presents a novel method for designing Totally Self-Checking (TSC) m-out-of-n code checker...
108 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1985.A Totally Self-Checking (TSC)...
The design of easily testable CMOS combinational circuits is discussed. Two CMOS structured design t...
Stuck-at-faults may occur at input and output gates inside CMOS combinational logic ICs. The faults ...
A technique for designing totally self-checking (TSC) FCMOS (Fully Complementary MOS) designs for mu...
When a comprehensive fault model is considered, static CMOS VLSI has long been prohibited from reali...
The authors present a novel scheme for implementing self-checking circuits in static CMOS. A strongl...
[[abstract]]The main obstacle in testing CMOS stuck-on faults is that the test vectors must be appli...
Testing of Complementary Metal Oxide Semiconductor (scCMOS) circuits has become extremely important ...
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...
ISSN: 0279-2834CMOS technology poses a multi-faceted challenge in testing. Since 1978, researchers h...
Abstract: Testability analysis of basic and complex logic gates employing complementary pass transis...
[[abstract]]The authors present a novel approach to designing TSC (totally self-checking) CMOS circu...
This paper considers the design of an efficient, robustly testable, CMOS Totally Self-Checking (TSC)...
This paper presents a novel method for designing Totally Self-Checking (TSC) m-out-of-n code checker...
108 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1985.A Totally Self-Checking (TSC)...
The design of easily testable CMOS combinational circuits is discussed. Two CMOS structured design t...
Stuck-at-faults may occur at input and output gates inside CMOS combinational logic ICs. The faults ...
A technique for designing totally self-checking (TSC) FCMOS (Fully Complementary MOS) designs for mu...
When a comprehensive fault model is considered, static CMOS VLSI has long been prohibited from reali...
The authors present a novel scheme for implementing self-checking circuits in static CMOS. A strongl...
[[abstract]]The main obstacle in testing CMOS stuck-on faults is that the test vectors must be appli...
Testing of Complementary Metal Oxide Semiconductor (scCMOS) circuits has become extremely important ...
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...
ISSN: 0279-2834CMOS technology poses a multi-faceted challenge in testing. Since 1978, researchers h...
Abstract: Testability analysis of basic and complex logic gates employing complementary pass transis...