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ASPDAC
2008
ACM

Full-chip thermal analysis for the early design stage via generalized integral transforms

14 years 1 months ago
Full-chip thermal analysis for the early design stage via generalized integral transforms
The capability of predicting the temperature profile is critically important for timing estimation, leakage reduction, power estimation, hotspot avoidance and reliability concerns during modern IC design. This paper presents an accurate and fast analytical full-chip thermal simulator for early-stage temperature-aware chip design. By using the generalized integral transforms (GIT), an accurate formulation is derived to estimate the temperature distribution of full-chip with a truncated set of spatial bases which only needs very small truncation points. Then, we develop a fast Fourier transform like evaluating algorithm to efficiently evaluate the derived formulation. Experimental results confirm that the proposed GIT-based analyzer can achieve an order of magnitude speedup compared with a highly efficient Green's function-based thermal simulator. Finally, we propose a 3-D IC thermal simulator and demonstrate its efficiency and accuracy.
Pei-Yu Huang, Chih-Kang Lin, Yu-Min Lee
Added 12 Oct 2010
Updated 12 Oct 2010
Type Conference
Year 2008
Where ASPDAC
Authors Pei-Yu Huang, Chih-Kang Lin, Yu-Min Lee
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