Titlebook: Circadian Rhythms for Future Resilient Electronic Systems; Accelerated Active S Xinfei Guo,Mircea R. Stan Book 2020 Springer Nature Switzer

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Active Accelerated Self-healing as a Key Design Knob for Cross-Layer Resiliencehealing and intrinsic heat reduce the hardware costs for recovery through architectural opportunities; at the system level, scheduling that follows certain circadian rhythm can be implemented to deeply heal the circuit. Overall, these techniques can work together and compensate the trade-offs necessary for recovery.

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Die thorakale Katheter-Periduralanaesthesie mechanisms, bias temperature instability (BTI) and electromigration (EM) appear as two dominant effects that affect transistors and interconnect, respectively. Conventional flat guardband or dynamic margin design approaches address these effects by tolerating them, but they can be both costly and i

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https://doi.org/10.1007/978-3-642-68705-1 and can eventually lead to permanent failures. Conventionally, EM has been constrained by design rules during the physical design phase. In this chapter, we present experimental evidence demonstrating that EM recovery can be accelerated and activated by “reversing” the direction of stress (. in the

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E. Gebert,C. Kam,H. Nagel,C. Keo,A. Gerkenthis chapter, we discuss how accelerated and active self-healing methods can be effectively applied at different levels in the system hierarchy. Circuit blocks that were presented in the previous chapter serve as the underlying infrastructure for recovery; at the architecture level, unit-level self-

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