English

MemSPICE: Automated Simulation and Energy Estimation Framework for MAGIC-Based Logic-in-Memory

Emerging Technologies 2023-09-12 v1 Logic in Computer Science

Abstract

Existing logic-in-memory (LiM) research is limited to generating mappings and micro-operations. In this paper, we present~\emph{MemSPICE}, a novel framework that addresses this gap by automatically generating both the netlist and testbench needed to evaluate the LiM on a memristive crossbar. MemSPICE goes beyond conventional approaches by providing energy estimation scripts to calculate the precise energy consumption of the testbench at the SPICE level. We propose an automated framework that utilizes the mapping obtained from the SIMPLER tool to perform accurate energy estimation through SPICE simulations. To the best of our knowledge, no existing framework is capable of generating a SPICE netlist from a hardware description language. By offering a comprehensive solution for SPICE-based netlist generation, testbench creation, and accurate energy estimation, MemSPICE empowers researchers and engineers working on memristor-based LiM to enhance their understanding and optimization of energy usage in these systems. Finally, we tested the circuits from the ISCAS'85 benchmark on MemSPICE and conducted a detailed energy analysis.

Keywords

Cite

@article{arxiv.2309.04868,
  title  = {MemSPICE: Automated Simulation and Energy Estimation Framework for MAGIC-Based Logic-in-Memory},
  author = {Simranjeet Singh and Chandan Kumar Jha and Ankit Bende and Vikas Rana and Sachin Patkar and Rolf Drechsler and Farhad Merchant},
  journal= {arXiv preprint arXiv:2309.04868},
  year   = {2023}
}

Comments

Accepted in ASP-DAC 2024

R2 v1 2026-06-28T12:17:08.509Z