Due to the absence of a global clock and the presence of more state holding elements that synchronize the control and data paths, conventional Automatic Test Pattern Generation (ATPG) algorithms fail when applied to asynchronous circuits, leading to poor fault coverage. This paper presents a design for test (DFT) technique for a popular asynchronous design paradigm called NULL Convention Logic (NCL) aimed at making NCL designs testable using existing DFT tools with reasonable gate overhead. The proposed technique performs test points (TPs) insertion using Sandia Controllability and Observability Program (SCOAP) analysis to enhance the controllability of feedback nets and observability for fault sites that are flagged unobservable. An Automa...
This Master\u27s thesis is intended to familiarize the reader with the asynchronous delay-insensitiv...
Abstract — Interest in asynchronous circuits has increased in the VLSI research community due the gr...
Systematic design for testability (DFT) is a technique to enhance the testability of design so that ...
Due to the absence of a global clock and presence of more state holding elements that synchronize th...
Conventional automatic test pattern generation (ATPG) algorithms fail when applied to asynchronous N...
Null Convention Logic (NCL) is a robust asynchronous technique that poses new challenges to test and...
In the past two decades, the IC Design industry has set what one might refer to as milestones in the...
Testing of an electronic chip is an important step in the design process, as it can detect faults an...
NULL Convention Logic (NCL) is a Quasi-Delay Insensitive (QDI) asynchronous design paradigm that aim...
Design for testability (DFT) refers to a new hardware that reduces check generation quality and chec...
As clock skew and power consumption become major challenges in deep submicron design of synchronous ...
Delay-insensitive asynchronous circuits have been the target of a renewed research effort because of...
While asynchronous techniques are of increasing interest in low-power design, designers cannot simpl...
This dissertation focuses on developing algorithms for design automation of asynchronous NULL Conven...
This dissertation is concerned with testing of asynchronous circuits. Asynchronous circuits are attr...
This Master\u27s thesis is intended to familiarize the reader with the asynchronous delay-insensitiv...
Abstract — Interest in asynchronous circuits has increased in the VLSI research community due the gr...
Systematic design for testability (DFT) is a technique to enhance the testability of design so that ...
Due to the absence of a global clock and presence of more state holding elements that synchronize th...
Conventional automatic test pattern generation (ATPG) algorithms fail when applied to asynchronous N...
Null Convention Logic (NCL) is a robust asynchronous technique that poses new challenges to test and...
In the past two decades, the IC Design industry has set what one might refer to as milestones in the...
Testing of an electronic chip is an important step in the design process, as it can detect faults an...
NULL Convention Logic (NCL) is a Quasi-Delay Insensitive (QDI) asynchronous design paradigm that aim...
Design for testability (DFT) refers to a new hardware that reduces check generation quality and chec...
As clock skew and power consumption become major challenges in deep submicron design of synchronous ...
Delay-insensitive asynchronous circuits have been the target of a renewed research effort because of...
While asynchronous techniques are of increasing interest in low-power design, designers cannot simpl...
This dissertation focuses on developing algorithms for design automation of asynchronous NULL Conven...
This dissertation is concerned with testing of asynchronous circuits. Asynchronous circuits are attr...
This Master\u27s thesis is intended to familiarize the reader with the asynchronous delay-insensitiv...
Abstract — Interest in asynchronous circuits has increased in the VLSI research community due the gr...
Systematic design for testability (DFT) is a technique to enhance the testability of design so that ...