Title :
Concurrent min-max simulation
Author :
Ulrich, Ernst ; Lentz, Karen Paneeta ; Demba, Stephen ; Razdan, Rahul
Author_Institution :
Digital Equipment Corp., Hudson, MA, USA
Abstract :
Parametric process variations, which are inherent in the manufacture of complex digital circuits, can cause variations in the timing characteristics of a digital device. These device timing variations can cause catastrophic failures to the intended logical operation of the whole design. Min-max timing simulation is simulation technique which is well suited to verify that a given design functions correctly, even under the influence of parametric process variations. Unfortunately, in the past, min-max timing simulation has been very expensive in simulation CPU time and in the amount of memory consumed. The authors present a technique, concurrent min-max simulation (CMMS), which employs the techniques developed in concurrent fault simulation, to elegantly solve the min-max timing simulation problem
Keywords :
circuit analysis computing; digital circuits; minimax techniques; concurrent min-max simulation; design verification; device timing variations; digital circuits; parametric process variations; timing characteristics; Analytical models; Central Processing Unit; Circuit faults; Circuit simulation; Coordinate measuring machines; Event detection; Intrusion detection; Manufacturing processes; Timing; Uncertainty;
Conference_Titel :
Design Automation. EDAC., Proceedings of the European Conference on
Conference_Location :
Amsterdam
DOI :
10.1109/EDAC.1991.206469
