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TVLSI
2002

Simultaneous switching noise in on-chip CMOS power distribution networks

13 years 11 months ago
Simultaneous switching noise in on-chip CMOS power distribution networks
Simultaneous switching noise (SSN) has become an important issue in the design of the internal on-chip power distribution networks in current very large scale integration/ultra large scale integration (VLSI/ULSI) circuits. An inductive model is used to characterize the power supply rails when a transient current is generated by simultaneously switching the on-chip registers and logic gates in a synchronous CMOS VLSI/ULSI circuit. An analytical expression characterizing the SSN voltage is presented here based on a lumped inductive-resistive-capacitive model. The peak value of the SSN voltage based on this analytical expression is within 10% as compared to SPICE simulations. Design constraints at both the circuit and layout levels are also discussed based on minimizing the effects of the peak value of the SSN voltage.
Kevin T. Tang, Eby G. Friedman
Added 23 Dec 2010
Updated 23 Dec 2010
Type Journal
Year 2002
Where TVLSI
Authors Kevin T. Tang, Eby G. Friedman
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