The Smart Material Implication Logic (SIMPLY) enables the computation of logic operations directly within the memory array, leading to considerable energy efficiency by bypassing the von Neumann bottleneck. Moreover, it has been already proven that the use of Resistive Random Access Memory (RRAM) devices within the SIMPLY architecture allows multi-bit operation. Here we design the full SIMPLY cell for the reliable execution of the multi-bit read operation (i.e., the most critical one), considering both RRAM variability and process variations in the peripheral circuitry of the array designed in a 130 nm CMOS technology. The results demonstrate that CMOS process variations significantly impact on the bit error rate (BER). Nevertheless, with appropriate circuit design, BER <10-6 can be achieved for 2- and 3-bit SIMPLY operations.

Design for Reliability of Multi-Bit Operations in RRAM-Based SIMPLY Logic-in-Memory Circuits / Zanotti, T.; Borellini, E.; Vatalaro, M.; Maccaronio, V.; Pavan, P.; De Rose, R.; Puglisi, F. M.. - (2025), pp. 53-56. ( 2025 International Conference on IC Design and Technology, ICICDT 2025 Lecce, Italy 23-25 June 2025) [10.1109/ICICDT65192.2025.11078043].

Design for Reliability of Multi-Bit Operations in RRAM-Based SIMPLY Logic-in-Memory Circuits

Zanotti T.;Borellini E.;Pavan P.;Puglisi F. M.
2025

Abstract

The Smart Material Implication Logic (SIMPLY) enables the computation of logic operations directly within the memory array, leading to considerable energy efficiency by bypassing the von Neumann bottleneck. Moreover, it has been already proven that the use of Resistive Random Access Memory (RRAM) devices within the SIMPLY architecture allows multi-bit operation. Here we design the full SIMPLY cell for the reliable execution of the multi-bit read operation (i.e., the most critical one), considering both RRAM variability and process variations in the peripheral circuitry of the array designed in a 130 nm CMOS technology. The results demonstrate that CMOS process variations significantly impact on the bit error rate (BER). Nevertheless, with appropriate circuit design, BER <10-6 can be achieved for 2- and 3-bit SIMPLY operations.
2025
2025 International Conference on IC Design and Technology, ICICDT 2025
Lecce, Italy
23-25 June 2025
2-s2.0-105012573508
53
56
Zanotti, T.; Borellini, E.; Vatalaro, M.; Maccaronio, V.; Pavan, P.; De Rose, R.; Puglisi, F. M.
Design for Reliability of Multi-Bit Operations in RRAM-Based SIMPLY Logic-in-Memory Circuits / Zanotti, T.; Borellini, E.; Vatalaro, M.; Maccaronio, V.; Pavan, P.; De Rose, R.; Puglisi, F. M.. - (2025), pp. 53-56. ( 2025 International Conference on IC Design and Technology, ICICDT 2025 Lecce, Italy 23-25 June 2025) [10.1109/ICICDT65192.2025.11078043].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11380/1385089
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