Programmable Device Circuits and Systems

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An Efficient Selective Trigger Scan Architecture for VLSI Testing


Affiliations
1 Park College of Engineering & Technology, Coimbatore, India
2 Department of Applied Electronics, Anna University, Coimbatore, India
3 Sri Shakthi Institute of Engineering & Technology, Coimbatore, India
4 PSG College of Technology, India
     

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Time, power, and data volume are among some of the most challenging issues for testing System-on-Chip (SoC) and have not been fully resolved, even if a scan-based technique is employed. A novel architecture, referred to the Selective Trigger Scan architecture, is introduced in this paper to address these issues. This architecture reduces switching activity in the circuit-under-test (CUT) and increases the clock frequency of the scanning process. An auxiliary chain is utilized in this architecture to avoid the large number of transitions to the CUT during the scan-in process, as well as enabling retention of the currently applied test vectors and applying only necessary changes to them. The auxiliary chain shifts in the difference between consecutive test vectors and only the required transitions (referred to as trigger data) are applied to the CUT. Power requirements are substantially reduced; moreover, DFT penalties are reduced because no additional multiplexer is utilized along the scan path.

Keywords

ATE, BIST, CMOS, CUT, DFT, LFST, LT-RTPG, MUX, SOC, STSA, VLSI, WRBIST, XOR.
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  • An Efficient Selective Trigger Scan Architecture for VLSI Testing

Abstract Views: 310  |  PDF Views: 3

Authors

R. Gowri
Park College of Engineering & Technology, Coimbatore, India
K. Tharageswari
Department of Applied Electronics, Anna University, Coimbatore, India
V. Seetha Lakshmi
Sri Shakthi Institute of Engineering & Technology, Coimbatore, India
K. Krishna Lekha
PSG College of Technology, India

Abstract


Time, power, and data volume are among some of the most challenging issues for testing System-on-Chip (SoC) and have not been fully resolved, even if a scan-based technique is employed. A novel architecture, referred to the Selective Trigger Scan architecture, is introduced in this paper to address these issues. This architecture reduces switching activity in the circuit-under-test (CUT) and increases the clock frequency of the scanning process. An auxiliary chain is utilized in this architecture to avoid the large number of transitions to the CUT during the scan-in process, as well as enabling retention of the currently applied test vectors and applying only necessary changes to them. The auxiliary chain shifts in the difference between consecutive test vectors and only the required transitions (referred to as trigger data) are applied to the CUT. Power requirements are substantially reduced; moreover, DFT penalties are reduced because no additional multiplexer is utilized along the scan path.

Keywords


ATE, BIST, CMOS, CUT, DFT, LFST, LT-RTPG, MUX, SOC, STSA, VLSI, WRBIST, XOR.