Test-data volume and scan-power reduction with low ATE interface for multi-core SoCs
Test-data volume and scan-power reduction with low ATE interface for multi-core SoCs
Symbol-based and linear-based test-data compression techniques have complementary properties which are very attractive for testing multi-core SoCs. However, only linear-based techniques have been adopted by industry as the symbol-based techniques have not yet revealed their real potential for testing large circuits. We present a novel compression method and a low cost decompression architecture that combine the advantages of both symbol-based and linear-based techniques under a unified solution for multi-core SoCs. The proposed method offers higher compression than any other method presented so far, very low shift switching activity and very short test sequence length at the same time. Moreover, contrary to existing techniques, it offers a complete solution for testing multi-core SoCs as it is suitable for cores of both known and unknown structure (IP cores) that usually co-exist in modern SoCs. Finally, it supports very low pin count interface as it needs only one tester channel to download fast the compressed test data on-chip.
747-754
Tenentes, Vasileios
1bff9ebc-9186-438b-850e-6c738994fa39
Kavousianos, X.
cd133613-8c16-46cf-a5be-91fd825e47cd
7 November 2011
Tenentes, Vasileios
1bff9ebc-9186-438b-850e-6c738994fa39
Kavousianos, X.
cd133613-8c16-46cf-a5be-91fd825e47cd
Tenentes, Vasileios and Kavousianos, X.
(2011)
Test-data volume and scan-power reduction with low ATE interface for multi-core SoCs.
IEEE/ACM International Conference on Computer-Aided Design (ICCAD), 2011, San Jose, United States.
07 - 10 Nov 2011.
.
(doi:10.1109/ICCAD.2011.6105413).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Symbol-based and linear-based test-data compression techniques have complementary properties which are very attractive for testing multi-core SoCs. However, only linear-based techniques have been adopted by industry as the symbol-based techniques have not yet revealed their real potential for testing large circuits. We present a novel compression method and a low cost decompression architecture that combine the advantages of both symbol-based and linear-based techniques under a unified solution for multi-core SoCs. The proposed method offers higher compression than any other method presented so far, very low shift switching activity and very short test sequence length at the same time. Moreover, contrary to existing techniques, it offers a complete solution for testing multi-core SoCs as it is suitable for cores of both known and unknown structure (IP cores) that usually co-exist in modern SoCs. Finally, it supports very low pin count interface as it needs only one tester channel to download fast the compressed test data on-chip.
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Published date: 7 November 2011
Venue - Dates:
IEEE/ACM International Conference on Computer-Aided Design (ICCAD), 2011, San Jose, United States, 2011-11-07 - 2011-11-10
Organisations:
Electronic & Software Systems
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Local EPrints ID: 377312
URI: http://eprints.soton.ac.uk/id/eprint/377312
PURE UUID: af994d31-42ac-4f99-be5e-9ab4fc0be58e
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Date deposited: 29 May 2015 09:29
Last modified: 14 Mar 2024 20:00
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Author:
Vasileios Tenentes
Author:
X. Kavousianos
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