Title :
Simulating the Electrical Behavior of Integrated Circuit Devices in the Presence of Thermal Interactions
Author :
Capobianchi, Massimo ; Labay, Vladimir ; Shi, Fong ; Mizushima, George
Author_Institution :
Dept. of Mech. Eng., Gonzaga Univ., Spokane, WA
Abstract :
This paper describes a cosimulation methodology for modeling the electrical behavior of integrated circuit devices in the presence of thermal interactions. The methodology consists of linking a custom finite-volume thermal simulator to a commercially available electrical simulator (Saber, Synopsys, Inc.). Specifically, this paper delineates the techniques developed to resolve the time- and length-scale issues associated with this type of cosimulation that, if left unresolved, typically lead to poor computational performance. These problems, their solutions, and their implementation into the thermal simulator are exposed in detail
Keywords :
circuit simulation; finite volume methods; integrated circuit modelling; thermal analysis; cosimulation methodology; electrical behavior; electrical simulator; electrothermal modeling; finite-volume thermal simulator; integrated circuit devices; length-scale difference problem; thermal interactions; time-scale difference problem; Central Processing Unit; Circuit simulation; Computational modeling; Electrothermal effects; Integrated circuit modeling; Joining processes; Mechanical engineering; Operational amplifiers; Power dissipation; Temperature; Electrothermal interactions; electrothermal modeling; electrothermal simulation; thermal coupling;
Journal_Title :
Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on
DOI :
10.1109/TCAD.2005.859488
