Title :
Compact Physical Models for Power Supply Noise and Chip/Package Co-Design of Gigascale Integration
Author :
Huang, Gang ; Sekar, D.C. ; Naeemi, Azad ; Shakeri, Kaveh ; Meindl, J.D.
Author_Institution :
Georgia Inst. of Technol., Atlanta
fDate :
May 29 2007-June 1 2007
Abstract :
Compact physical models are derived for predicting power supply noise of chips in the gigascale integration (GSI) era. These models consider both IR-drop and simultaneous switching noise (SSN) and give a quick full waveform description of the first droop power supply noise as well as its peak value. The derivation of these models proceeds by considering a frequency domain representation of power grids and later obtaining time domain equivalents. The derived models enable chip/package co-design in current and future technology nodes by allowing a designer to make tradeoffs in various chip and package parameters such as on-chip wire area, number and sizes of power/ground I/O pads and amount of decoupling capacitance. SPICE simulations show that the worst case peak noise model has less than 4% error.
Keywords :
chip scale packaging; circuit noise; frequency-domain analysis; power supply circuits; time-domain analysis; SPICE simulations; chip/package co-design; compact physical models; frequency domain representation; gigascale integration; peak noise model; power grids; power supply noise; simultaneous switching noise; time domain equivalents; Circuit noise; Inductance; Packaging; Power grids; Power supplies; Power system modeling; Power systems; Predictive models; SPICE; Semiconductor device noise;
Conference_Titel :
Electronic Components and Technology Conference, 2007. ECTC '07. Proceedings. 57th
Conference_Location :
Reno, NV
Print_ISBN :
1-4244-0985-3
Electronic_ISBN :
0569-5503
DOI :
10.1109/ECTC.2007.374017
