论文信息 - IC thermal map from digital and thermal simulations

IC thermal map from digital and thermal simulations

As the feature size decrease with each process generation, and nominal SoC design size approaching millions of gates, there is a need to explore more in depth the power distribution across the IC and investigate the power planning and thermal effects on the functionality and reliability. We propose in this paper a methodology that allows computing the local power of a digital circuit mapped to the physical representation in order to analyze the power distribution. This is used as inputs to a thermal simulator for extracting the thermal maps of the chip. The power calculation cannot be done at the transistor level for multi-million transistors with large test-benches, otherwise it will need unreasonable CPU resources and memory. This is why the proposed method is based on the digital model, as it is used currently in industry for functional and timing simulations sign-off. The obtained thermal results are accurate accordingly. And this allows both quantitative and qualitative analysis of the thermal behavior under real application inside the circuit.

K. Torki | F. Ciontu

[1] Alberto L. Sangiovanni-Vincentelli,et al. On thermal effects in deep sub-micron VLSI interconnects , 1999, DAC '99.

[2] Jan M. Rabaey,et al. Power estimation for high level synthesis , 1993, 1993 European Conference on Design Automation with the European Event in ASIC Design.

[3] Hendrikus J. M. Veendrick,et al. Short-circuit dissipation of static CMOS circuitry and its impact on the design of buffer circuits , 1984 .

[4] Anantha P. Chandrakasan,et al. Low-power CMOS digital design , 1992 .

[5] Márta Rencz,et al. Electro-thermal and logi-thermal simulation of VLSI designs , 1997, IEEE Trans. Very Large Scale Integr. Syst..

[6] Ih-Chin Chen,et al. An investigation of the impact of technology scaling on power wasted as short-circuit current in low voltage static CMOS circuits , 1996, Proceedings of 1996 International Symposium on Low Power Electronics and Design.

[7] Chenming Hu,et al. Performance and V/sub dd/ scaling in deep submicrometer CMOS , 1998 .

[8] G. Nicolescu,et al. Global modeling and simulation of System-on-Chip embedding MEMS devices , 2001, ASICON 2001. 2001 4th International Conference on ASIC Proceedings (Cat. No.01TH8549).

[9] K. Torki,et al. Accurate Timing Modeling and Design-Kit Development for a Sub-Micron CMOS Technology , 1998 .

[10] Himanshu Kaul,et al. Power-Driven Challenges in Nanometer Design , 2001, IEEE Des. Test Comput..