Bandwidth Analysis for Reusing Functional Interconnect as Test Access Mechanism

Ardy van den Berg; Georgi Gaydadjiev; Kees Goossens; Pengwei Ren; Erik Jan Marinissen

doi:10.1109/ETS.2008.34

E
ETS
2008
2008 13th European Test Symposium
Abstract - Bandwidth Analysis for Reusing Functional Interconnect as Test Access Mechanism

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2008 13th European Test Symposium

Bandwidth Analysis for Reusing Functional Interconnect as Test Access Mechanism

May 25-May 29

ISBN: 978-0-7695-3150-2

	ASCII Text	x
	Ardy van den Berg, Pengwei Ren, Erik Jan Marinissen, Georgi Gaydadjiev, Kees Goossens, "Bandwidth Analysis for Reusing Functional Interconnect as Test Access Mechanism," 2009 14th IEEE European Test Symposium, pp. 21-26, 2008 13th European Test Symposium, 2008.

	BibTex	x
	@article{ 10.1109/ETS.2008.34, author = {Ardy van den Berg and Pengwei Ren and Erik Jan Marinissen and Georgi Gaydadjiev and Kees Goossens}, title = {Bandwidth Analysis for Reusing Functional Interconnect as Test Access Mechanism}, journal ={2009 14th IEEE European Test Symposium}, volume = {0}, year = {2008}, issn = {1530-1877}, pages = {21-26}, doi = {http://doi.ieeecomputersociety.org/10.1109/ETS.2008.34}, publisher = {IEEE Computer Society}, address = {Los Alamitos, CA, USA}, }

	RefWorks Procite/RefMan/Endnote	x
	TY - CONF JO - 2009 14th IEEE European Test Symposium TI - Bandwidth Analysis for Reusing Functional Interconnect as Test Access Mechanism SN - 1530-1877 SP21 EP26 A1 - Ardy van den Berg, A1 - Pengwei Ren, A1 - Erik Jan Marinissen, A1 - Georgi Gaydadjiev, A1 - Kees Goossens, PY - 2008 KW - integrated circuit KW - testing KW - modular KW - test access mechanism KW - reuse KW - Network-on-Chip VL - 0 JA - 2009 14th IEEE European Test Symposium ER -

DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/ETS.2008.34

Test data travels through a System-on-Chip (SOC) from the chip pins to the module-under-test and vice versa via a Test Access Mechanism (TAM). Conventionally, a TAM is implemented with dedicated wires. However, also existing functional interconnect, such as a bus or Network-on-Chip (NOC), can be reused as TAM. This will reduce the overall design effort and the silicon area. For a given module, its test set, and maximal bandwidth that the functional interconnect can offer between ATE and module-under-test, our approach designs a test wrapper for the module-under-test such that the test length is minimized. Unfortunately, it is unavoidable that with the test dataalso unused (idle) bits are transported. This paper presents a TAM bandwidth utilization analysis and techniques for idle bits reduction, to minimize thetest length. We classify the idle bits into four types which explain the reason for bandwidth under-utilization and pinpoint design improvement opportunities. Experimental results show an average bandwidth utilization of 80%, while the remaining 20% is consumed by the idle bits.

Index Terms:

integrated circuit, testing, modular, test access mechanism, reuse, Network-on-Chip

Citation:

Ardy van den Berg, Pengwei Ren, Erik Jan Marinissen, Georgi Gaydadjiev, Kees Goossens, "Bandwidth Analysis for Reusing Functional Interconnect as Test Access Mechanism," ets, pp.21-26, 2008 13th European Test Symposium, 2008

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