Abstract
A threshold logic gate performs weighted sum of multiple inputs and compares the sum with a threshold. We propose spin-memristor threshold logic (SMTL) gates, which employ a memristive cross-bar array to perform current-mode summation of binary inputs, whereas the low-voltage fast-switching spintronic threshold devices carry out the threshold operation in an energy efficient manner. Field-programmable SMTL gate arrays can operate at a small terminal voltage of ~50 mV, resulting in ultralow power consumption in gates as well as programmable interconnect networks. We evaluate the performance of SMTL using threshold logic synthesis. Results for common benchmarks show that SMTL-based programmable logic hardware can be more than 100 × energy efficient than the state-of-the-art CMOS field-programmable gate array.
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