Chip Temperature Selfregulation for Digital Circuits Using Polymorphic Electronics Principles

Abstract: The paper presents a new design approach to digital circuits that provides for an increased chip operation reliability from temperature point of view. The key aspect behind the proposed method of approach is to avoid chip overheating due to special design and subsequent integration of dedicated circuit controller. Such element is blended seamlessly with the surrounding circuitry and posses the ability to reconfigure itself when the temperature of the chip goes beyond defined temperature boundary. After the end… Show more

“…Such a triggerable locking/unlocking mechanism that enables reconfigurability on demand could be useful in applications requiring polymorphic electronics. That is, applications in which a circuit implementing one type of operating mode can reconfigure itself on demand and activate new functions in response to a stimulus [40][41][42][43].…”

Ion-Locking in Solid Polymer Electrolytes for Reconfigurable Gateless Lateral Graphene p-n Junctions

“…Such a triggerable locking/unlocking mechanism that enables reconfigurability on demand could be useful in applications requiring polymorphic electronics. That is, applications in which a circuit implementing one type of operating mode can reconfigure itself on demand and activate new functions in response to a stimulus [40][41][42][43].…”

Ion-Locking in Solid Polymer Electrolytes for Reconfigurable Gateless Lateral Graphene p-n Junctions

KL-cuts influence on optimization of polymorphic circuits based on PAIG rewriting

Power Consumption Analysis of New Generation of Polymorphic Gates