Test access control for an embedded MAC unit-based core using IEEE Std 1687

Name: Grout, Ian

Organization : University of Limerick. Department of Electronic and Computer Engineering

Email : Ian.Grout@ul.ie

keyword: IEEE Standard 1687

LCSH: MacBook (Computer) -- Access control -- Testing

LCSH: Embedded computer systems -- Access control -- Testing

Abstract: A major move today in developing and deploying embedded electronic systems is to include trained machine learning (ML) models that can be used for predicting new data in order to include added value to the embedded system functionality. The ML model can be implemented in software or hardware, and would typically require a highly parallelized architecture in order to reduce computation times. The design effort to create a suitable implementation is non-trivial. However, an aspect of the overall system development and deployment requirements that can be overlooked is the testability of the design hardware. In this paper, the test access for a trained ML model implemented in hardware as a MAC unit, and realized within a field programmable gate array (FPGA), is presented. The IEEE Std 1687 to provide access to embedded instrumentation is utilized to support the test requirements. The ML trained model is considered as an embedded computation core connected to a host processor.

King Mongkut's University of Technology North Bangkok. Central Library

Address: BANGKOK

Email: library@kmutnb.ac.th

Created: 2021

Modified: 2023-03-22

Issued: 2023-03-22

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application/pdf

BibliograpyCitation : In Suranaree University of Technology and Electrical Engineering Academic Association. The 2021 International of Power, Energy, and Innovations (ICPEI 2021) (pp.179-182). Nakhon Ratchasima : Suranaree University of Technology

eng

©copyrights King Mongkut's University of Technology North Bangkok

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