Study of the impact of electromigration on integrated circuit performance and reliability at design level

Electromigration damage in interconnects is a well-known bottleneck of integrated circuits, as it is responsible for the performance degradation. High values of temperature and current density accelerate the damage, causing an increase in the lines resistance and circuit lifetime reduction. In this work, a method is proposed to evaluate the electromigration effects in an operational amplifier circuit performance due the void growth induced by electromigration. The performance parameters are simulated by AC, DC and transient analysis for a specific temperature and time interval and the results are compared with a circuit free of electromigration. The method is used to investigate the circuit response regarding the unit gain frequency, voltage gain, cutoff frequency, output swing voltage and settling time. There are three lines that can be traditionally classified as critical due to the large current density they carry. Nevertheless, a fourth line, which has a current density below the maximum limit set by the technology being typically considered as non-critical from the layout design point of view, leads to significant reduction of the voltage gain and voltage swing, of about 59% and 14% in 5 years.