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Device quantization policy in variation-aware in-memory computing design.

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This study optimizes in-memory computing (IMC) by addressing device variations for better accuracy, power, and area. Low-variability memory devices are key for efficient IMC, more so than low bit precision.

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Area of Science:

  • Computer Engineering
  • Materials Science
  • Artificial Intelligence

Background:

  • Practical memory devices exhibit significant variations and limited dynamic ranges, impacting in-memory computing (IMC) performance.
  • Optimizing IMC requires co-optimization of system performance, accuracy, power, and area.

Purpose of the Study:

  • To investigate device quantization for in-memory computing (IMC) considering real-world memory device limitations.
  • To achieve quantitative co-optimization of accuracy, power, and area in IMC systems.

Main Methods:

  • Exploring architecture-level solutions like weight-separate mapping and multiple cells per weight.
  • Implementing algorithm-level strategies such as VGG-like algorithms and classifier layer fine-tuning.
  • Analyzing the impact of device variation and dynamic range on IMC performance.

Main Results:

  • Weight-separate mapping, VGG-like algorithms, multiple cells per weight, and classifier fine-tuning effectively mitigate inference accuracy loss caused by device variation.
  • These methods enable lower weight precision, enhancing area and energy efficiency.
  • Developing low-conductance and low-variability memory devices is crucial for energy- and area-efficient IMC.

Conclusions:

  • Prioritize the development of low-variability memory devices for efficient IMC.
  • Low bit precision and limited memory windows are less critical concerns compared to device variability.