Synthesizing Multiple Scan Trees to Optimize Test Application Time

Synthesizing Multiple Scan Trees to Optimize Test Application Time

This layout-aware, interconnect-driven multiple-scan-tree synthesis methodology applies a density-driven dynamic-clustering algorithm to determine scan cells in each scan tree. The method uses a compatibility-based clique partition algorithm to determine tree topology, and a Voronoi diagram to estab...

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Veröffentlicht in:IEEE design & test of computers 2011-03, Vol.28 (2), p.62-69
Hauptverfasser: Li, K Shu-Min, Jr-Yang Huang
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Compatibility
Complexity theory
Computer architecture
Computers
Data compression
design and test
DFT
Joints
Layout
Power consumption
Routing
scan tree
Silicon
SoC
Synthesis
synthesis methodology
test application time
Test data compression
test data volume
Topology
Trees
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Beschreibung
Zusammenfassung:This layout-aware, interconnect-driven multiple-scan-tree synthesis methodology applies a density-driven dynamic-clustering algorithm to determine scan cells in each scan tree. The method uses a compatibility-based clique partition algorithm to determine tree topology, and a Voronoi diagram to establish physical connections. It achieves higher test data compression and far lower test application time, with lower routing length and test power consumption, than previous methods.
ISSN:0740-7475
2168-2356
1558-1918
2168-2364
DOI:10.1109/MDT.2011.38