Abstract
To accomplish effective IC reliability evaluation and design-for-reliability, a reliability simulator ARET was developed at Georgia Tech. ARET simulates IC reliability at both component and system levels. It also handles the ICs with physical defects generated in fabrication by statistical approach. ARET was verified by a series of stress tests conducted at The Boeing Company, which has shown a promising accuracy. In order to perform a practical DFR, another distinct feature — reliability hotspot identification was developed in ARET. By sensitivity analysis, it can determine the weakest components in circuit under certain failure mechanisms, which allows a local design update to obtain an improved IC reliability. This makes DFR feasible by saving huge amount of work that needs to be performed in a complete VLSI circuit re-design for reliability.