Talks and Poster Presentations (with Proceedings-Entry):
Z. Tabassam, P. Behal, R. Najvirt, A. Steininger:
"Input/Output-Interlocking for Fault Mitigation in QDI Pipelines";
Talk: 29th Austrian Workshop on Microelectronics,
Linz;
2021-10-14; in: "Proceedings 29th Austrian Workshop on Microelectronics",
(2021),
ISBN: 978-1-6654-3661-8;
4 pages.
English abstract:
In asynchronous \ac{QDI} circuits, temporal masking is a serious concern because of their event-driven behavior, which makes them prone to environmental effects:
Data acceptance windows, e.g.\ are defined by transitions (token/acknowledgement) alone, without temporal bounds, therefore a glitch occurring anytime throughout such a window cannot be distinguished from an expected, correct transition in a straightforward manner and hence threatens data integrity.
Therefore, shortening that window is one proposed way in the literature to enhance temporal masking in \ac{QDI} designs.
We examine a variant of the \ac{WCHB} called Interlocking \ac{WCHB} (which wisely shortens the transition window) because of its glitch filtering properties and a low cost implementation as compared to other variants.
We propose modifications that enhance its dealing with illegal token words specifically when waiting for acknowledgment signal transitions in the so-called bubble limited operation mode.
A very strict triple-check input filter with a glitch filter preventing the buffer from capturing an illegal state is used, which also enhances the deadlocking rate of the circuitry.
"Official" electronic version of the publication (accessed through its Digital Object Identifier - DOI)
http://dx.doi.org/10.1109/Austrochip53290.2021.9576871
Created from the Publication Database of the Vienna University of Technology.