Impact of Logic Synthesis on the Soft Error Rate of Digital Integrated Circuits
Limbrick, Daniel Brian
:
2012-12-14
Abstract
Radiation-induced soft errors are becoming a dominant reliability-failure mechanism in modern CMOS technologies. In nanometer technologies, the effects are not limited to the storage elements of a digital system, but also include vulnerabilities in the combinational logic. Reliability-aware synthesis has emerged as a method to mitigate the effects of soft errors in combinational logic. Few studies have focused on the inherent impact that logic synthesis algorithms have on circuit topology, and therefore reliability. This dissertation investigates the impact that area and delay optimizations, computational effort, and standard cell availability have on the error propagation probability of individual circuit nodes. Additionally, this work identifies circuit characteristics that can be used during synthesis that help in choosing the most reliable circuit implementation. Finally, an approach to minimize circuit vulnerability based on cell selection is introduced.