Title :
Synthesizing Multiple Scan Trees to Optimize Test Application Time
Author :
Li, Katherine Shu-Min ; Huang, Jr-Yang
Author_Institution :
Nat. Sun Yat-Sen Univ., Kaohsiung, Taiwan
Abstract :
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.
Keywords :
computational geometry; integrated circuit design; integrated circuit testing; system-on-chip; trees (mathematics); Voronoi diagram; compatibility-based clique partition algorithm; density-driven dynamic-clustering algorithm; interconnect-driven multiple-scan-tree synthesis methodology; multiple scan trees; routing length; scan cells; system-on-chip; test application time; test data compression; test power consumption; tree topology; Complexity theory; Computer architecture; Computers; Layout; Routing; Silicon; Test data compression; DFT; SoC; design and test; routing; scan tree; synthesis methodology; test application time; test data compression; test data volume;
Journal_Title :
Design & Test of Computers, IEEE
DOI :
10.1109/MDT.2011.38
