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On the Efficiency of AdapTTA: an Adaptive Test-Time Augmentation Strategy for Reliable Embedded ConvNets
Low-overhead Early-stopping Policies for Efficient Random Forests Inference on Microcontrollers
Transformative Hardware Design following the Model-Driven Architecture Vision
Exploiting program slicing and instruction clusterization to identify the cause of faulty temporal behaviours at system level
A DfT Strategy for Detecting Emerging Faults in RRAMs
FMEA on Critical Systems: a Cross-layer Approach based on High-Level Models
Design and Mitigation techniques of Radiation induced SEEs on Open-Source Embedded Static RAMs
Design of A Reconfigurable Optical Computing Architecture Using Phase Change Material
END-TRUE: Emerging Nanotechnology-based Double-Throughput True Random Number Generator
A First Approach in Using Super-Steep-Subthreshold-Slope Field-Effect Transistors in Ultra-Low Power Analog Design
A Regulated Sensing Solution based on a Self-Reference Principle for PCM+OTS Memory Array
An Improved Deterministic Stochastic MAC (SC-MAC) for High Power Efficiency Design.
Low-overhead Early-stopping Policies for Efficient Random Forests Inference on Microcontrollers
Transformative Hardware Design following the Model-Driven Architecture Vision
Exploiting program slicing and instruction clusterization to identify the cause of faulty temporal behaviours at system level
A DfT Strategy for Detecting Emerging Faults in RRAMs
FMEA on Critical Systems: a Cross-layer Approach based on High-Level Models
Design and Mitigation techniques of Radiation induced SEEs on Open-Source Embedded Static RAMs
Design of A Reconfigurable Optical Computing Architecture Using Phase Change Material
END-TRUE: Emerging Nanotechnology-based Double-Throughput True Random Number Generator
A First Approach in Using Super-Steep-Subthreshold-Slope Field-Effect Transistors in Ultra-Low Power Analog Design
A Regulated Sensing Solution based on a Self-Reference Principle for PCM+OTS Memory Array
An Improved Deterministic Stochastic MAC (SC-MAC) for High Power Efficiency Design.