System-level modeling and microprocessor reliability analysis for backend wearout mechanisms

Backend wearout mechanisms are major reliability concerns for modern microprocessors. In this paper, a framework which contains modules for backend time-dependent dielectric breakdown (BTDDB), electromigration (EM), and stress-induced voiding (SIV) is proposed to analyze circuit layout geometries and interconnects to accurately estimate state-of-art microprocessor lifetime due to each mechanism. Our methodology incorporates the detailed electrical stress, temperature, linewidth and cross-sectional areas of each interconnect within the microprocessor system. We analyze several layouts using our methodology and highlight the lifetime-limiting wearout mechanisms, along with the reliability-critical microprocessor functional units, using standard benchmarks.