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An Accurate Modeling of Delay and Slew Metrics for On-Chip VLSI RC Interconnects for RAMP Inputs Using Burr's Distribution Function


Affiliations
1 Department of Electronics & Communication Engineering, National Institute of Technology, Durgapur, India
     

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This work presents an accurate and efficient model to compute the delay and slew metric of on-chip interconnect of high speed CMOS circuits foe ramp input. Our metric assumption is based on the Burr's Distribution function. The Burr's distribution is used to characterize the normalized homogeneous portion of the step response. We used the PERI (Probability distribution function Extension for Ramp Inputs) technique that extends delay metrics and slew metric for step inputs to the more general and realistic non-step inputs. The accuracy of our models is justified with the results compared with that of SPICE simulations.

Keywords

Delay and Slew Calculation, Burr’s Distribution Function, Probability Distribution Function, Cumulative Distribution Function, Interconnect, Moment Matching.
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  • An Accurate Modeling of Delay and Slew Metrics for On-Chip VLSI RC Interconnects for RAMP Inputs Using Burr's Distribution Function

Abstract Views: 274  |  PDF Views: 0

Authors

Rajib Kar
Department of Electronics & Communication Engineering, National Institute of Technology, Durgapur, India
Vikas Maheshwari
Department of Electronics & Communication Engineering, National Institute of Technology, Durgapur, India
Md. Maqbool
Department of Electronics & Communication Engineering, National Institute of Technology, Durgapur, India
A. K. Mal
Department of Electronics & Communication Engineering, National Institute of Technology, Durgapur, India
A. K. Bhattacharjee
Department of Electronics & Communication Engineering, National Institute of Technology, Durgapur, India

Abstract


This work presents an accurate and efficient model to compute the delay and slew metric of on-chip interconnect of high speed CMOS circuits foe ramp input. Our metric assumption is based on the Burr's Distribution function. The Burr's distribution is used to characterize the normalized homogeneous portion of the step response. We used the PERI (Probability distribution function Extension for Ramp Inputs) technique that extends delay metrics and slew metric for step inputs to the more general and realistic non-step inputs. The accuracy of our models is justified with the results compared with that of SPICE simulations.

Keywords


Delay and Slew Calculation, Burr’s Distribution Function, Probability Distribution Function, Cumulative Distribution Function, Interconnect, Moment Matching.