Interconnect area, delay and area-delay optimization for multi-level signaling on-chip bus

In this paper, the technique of optimal interconnects width and spacing is analyzed to reduce the area, delay and area-delay-product of multi-level signaling on-chip bus. To capture the delay impact from cross-coupling capacitance in the deep sub-micron on-chip bus, the Miller Capacitance Factor (MCF) for 4-level signals is developed. Results show that our proposed technique reveals the trade-off between bus area and delay to achieve the optimized bus configuration.

[1]  G.E. Sobelman,et al.  Multi-level signaling for energy-efficient on-chip interconnects , 2007, 2007 7th International Conference on ASIC.

[2]  Magdy A. Bayoumi,et al.  Reducing Interconnect Delay Uncertainty via Hybrid Polarity Repeater Insertion , 2008, IEEE Transactions on Very Large Scale Integration (VLSI) Systems.

[3]  Andrew B. Kahng,et al.  On switch factor based analysis of coupled RC interconnects , 2000, Proceedings 37th Design Automation Conference.

[4]  G. Schroeder Addressing emerging test challenges for multilevel signaling devices , 2002, 27th Annual IEEE/SEMI International Electronics Manufacturing Technology Symposium.

[5]  Jason Cong,et al.  An interconnect-centric design flow for nanometer technologies , 1999, 1999 International Symposium on VLSI Technology, Systems, and Applications. Proceedings of Technical Papers. (Cat. No.99TH8453).

[6]  Gerald E. Sobelman,et al.  Bus Energy Consumption for Multilevel Signals , 2010, IEEE Transactions on Circuits and Systems I: Regular Papers.

[7]  Shyh-Chyi Wong,et al.  Modeling of interconnect capacitance, delay, and crosstalk in VLSI , 2000 .