Introduction.- Modeling Voltage Variation.- Understanding the Characteristics of Voltage Variation.- Traditional Solutions and Emerging Solution Forecast.- Allowing and Tolerating Voltage Emergencies.- Predicting and Avoiding Voltage Emergencies.- Eliminiating Recurring Voltage Emergencies.- Future Directions on Resiliency.

Vijay Janapa Reddi is an Assistant Professor in the Department of Electrical and Computer Engineering at The University of Texas in Austin. His research interests are in the area of computer systems,focusing on the interactions between hardware and software.He explores new opportunities and synergies for cross-layer solutions that improve processor- and system-level power, performance and reliability.He has co-authored over 30 papers in these areas, and has papers selected as IEEE Micro Top Picks and received Best Paper Awards. Dr. Janapa Reddi has also worked in the computer industry, specifically focusing on processor architecture and compiler aspects at companies such as Intel, VMware, AMD Research, and Microsoft Research. One of his most significant contributions to the community is the Pin dynamic compiler that he co-authored on a 4-year stint at Intel. Pin is widely used in academia and industry for program introspection and analysis. Dr. Janapa Reddi received his Ph.D. in Computer Science from Harvard University. He has a M.S. degree from the Department of Electrical and Computer Engineering at the University of Colorado at Boulder.His B.S.degree is from the Computer Engineering department at Santa Clara University.