T. Rizzi, Andrea Baroni, A. Glukhov, D. Bertozzi, C. Wenger, D. Ielmini, C. Zambelli
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Exploring Process-Voltage-Temperature Variations Impact on 4T1R Multiplexers for Energy-aware Resistive RAM-based FPGAs
Resistive Random Access Memory (RRAM) devices hold promise to improve the performance of full-CMOS Field Programmable Gate Arrays (FPGAs) exploiting their non-volatility, multilevel nature, small area requirement, and CMOS compatibility for the routing interconnections. Unfortunately, the adoption of this emerging technology is hindered by its intrinsic resistance stochastic behavior. In this work, we investigate how Process-Voltage-Temperature (PVT) variations affect the energy and propagation delay of 4T1R MUX circuits. The comparison with traditional CMOS implementations reveals that for large-sized MUX the RRAM technology is more energy efficient and robust to PVT variations.
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