Fault Tolerant Flip-Flop Design for Ultra-Low Power Subthreshold Logic

Low power consumption and radiation hardness are generally com­peting requirements for space electronics as well as many earth-bound high reliability applications. Recently subthreshold logic has emerged as a technology that can deliver the theoretical minimum energy per computation by running at ultra-low levels. The resulting performance degradation is tolerable due the dramatic increase in energy efficiency. However operating circuits at such low voltages decreases the critical charge – Qcrit - required to corrupt the contents of memories and sequential elements. The marriage of subthreshold logic and high-reliability electronics is inevitable yet there has been to date no investigation of the effects of radiation on circuits that operate at such low voltages. This book provides a comprehensive comparison of a variety of traditional flip-flop designs at subthreshold levels - not just in terms of performance power and area but radiation hardness as well. Further­more a novel flip-flop design is presented which is optimized for robust subthreshold operation.