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Low Power Memory/Memristor Devices and Systems

Low Power Memory/Memristor Devices and Systems

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This reprint focusses on achieving low-power computation using memristive devices. The topic was designed as a convenient reference point: it contains a mix of techniques starting from the fundamental manufacturing of memristive devices all the way to applications such as physically unclonable functions, and also covers perspectives on, e.g., in-memory computing, which is inextricably linked with emerging memory devices such as memristors. Finally, the reprint contains a few articles representing how other communities (from typical CMOS design to photonics) are fighting on their own fronts in the quest towards low-power computation, as a comparison with the memristor literature. We hope that readers will enjoy discovering the articles within.

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Keywords

  • 1Transistor-1Resistor (1T–1R)
  • adder
  • amplitude response
  • BNN
  • Boolean logic
  • cellular nonlinear networks
  • compilation
  • continuous-time programming
  • Control theory
  • convolutions
  • cross-point
  • electrical characteristics
  • energy modeling
  • energy wall
  • equalizer
  • floating-gate memory array
  • floating-gate transistor
  • floorplanning
  • FPAA
  • graph coloring
  • group delay variation
  • hardware security primitive
  • History of engineering & technology
  • in-memory computing
  • instruction set
  • laser treatment
  • locally-active memristors
  • logic-in-memory
  • Logic-in-Memory (LiM)
  • low-bandwidth TIA
  • majority logic
  • Memory
  • memory wall
  • memory-wall
  • memristive logic
  • memristor
  • memristor oscillatory networks
  • morphable security primitive
  • MRAM
  • multi-stage main amplifier
  • multilayer perceptron
  • Neuromorphic
  • non-volatile memory (NVM)
  • non-von neumann
  • nonvolatile memory
  • parallel-prefix adder
  • pattern recognition
  • physical design
  • place and route
  • power grid
  • power-gating
  • Processing-in-Memory
  • PUF
  • reconfigurable
  • Resistive RAM
  • resistive RAM (ReRAM)
  • resistive switching
  • resistive-switching
  • RRAM
  • selective SRPG
  • silicon nitride
  • silicon oxide
  • SIMPLY
  • SOI technology
  • sram
  • SRPG
  • stencils
  • Technology, engineering, agriculture
  • Technology: general issues
  • thermal treatment
  • TRNG
  • Von Neumann’s bottleneck

Links

DOI: 10.3390/books978-3-0365-6186-8

Editions

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