A Ternary Weight Mapping and Charge-mode Readout Scheme for Energy Efficient FeRAM Crossbar Compute-in-Memory System.
AICAS(2023)
Abstract
This work presents an edge-AI system built on capacitive ferroelectric random-access memory (FeRAM) crossbar array, which is compatible with CMOS backend-of-line (BEOL) fabrication process. A novel capacitive crossbar circuit and a ternary mapping technique are proposed. Compared to the conventional binary representation, the proposed ternary mapping improves the storage efficiency exponentially in weight resolution. The feasibility of neuromorphic computing system implemented on FeRAM crossbar array is explored with speech command classification task. A ResNet-32 model with 0.45M parameters is implemented on 64 × 64 FeRAM crossbar array with the measured FeRAM model. It achieved 97.12% inference accuracy with 2 ternary digits and 5% device variation on Google Speech Command dataset 35-command classification task.
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Key words
Capacitive crossbar,FeRAM,Speech recognition,Edge-AI,neuromorphic system
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