Supply voltage drop study considering on-chip self inductance of a 32-bit processor's power grid

Supply voltage drop study considering on-chip self inductance of a 32-bit processor's power grid

Conventional IR drop analysis suggests that on-chip inductive effects can be neglected when estimating supply voltage drops. We present a supply voltage drop analysis for a commercial 32-bit application processor. Our power grid model uses a backbone RL extracted netlist of the processor's powe...

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Hauptverfasser: Andersson, D.A., Nilsson, B., Pihl, J., Svensson, L., Larsson-Edefors, P.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Bonding
Capacitance
Estimation error
Inductance
Logic circuits
Network-on-a-chip
Power grids
Power systems
Voltage
Wire
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Beschreibung
Zusammenfassung:Conventional IR drop analysis suggests that on-chip inductive effects can be neglected when estimating supply voltage drops. We present a supply voltage drop analysis for a commercial 32-bit application processor. Our power grid model uses a backbone RL extracted netlist of the processor's power grid, complemented with capacitances from the processor design and a current signature defined by the worst-case switching test vector, located in the power-up sequence of the processor. Our circuit simulations show that on-chip self inductance makes the actual supply voltage drop deviate by more than 55% and 25% from the ~6% and ~8% drop, respectively, of nominal supply voltage that a conventional IR power grid model yields.
DOI:10.1109/SPI.2009.5089853