Timing error due to power supply noise (PSN) is a key challenge for design of digital systems. This paper presents an accurate time-domain behavioral model of timing slack variation due to the PSN while accounting for the clock-data compensation (CDC). The accuracy of the model is verified against SPICE for complex designs including AES engine and LEON3 processor. As a case study, the model is used for time-domain co-simulation of power distribution network (PDN) and LEON3 processor with circuit-based noise tolerance techniques. The analysis shows that the model helps reduce pessimism in estimated timing slack by considering effects of PSN and CDC.
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