TY - GEN
T1 - Low-complexity Dual Voltage Level Circuitry For Voltage-Divider-Based Content-Addressable Memory (CAM) Based On Two Supply Voltages
AU - Caisaluisa, Oliver
AU - Holguín, Eduardo
AU - Prócel, Luis Miguel
N1 - Publisher Copyright:
© 2024 IEEE.
PY - 2024
Y1 - 2024
N2 - Content addressable memories have raised great interest involving the realm of Big Data and Artificial Intelligence, along with the emerging non-volatile (eNV) technology magnetic tunnel junction (MTJ) devices capabilities, they are exploited for massive parallel search operations through (NV-CAMs). A voltage-divider-based NV-BCAM/TCAM has been previously proposed, showing promising characteristics and potential for reliable search operations. Nevertheless, the NV-BCAM relies on two voltage levels to perform write and search operations and does not take into account its periphery design. Hence, the proposed paper presents an NV-BCAM Dual Voltage Level Circuitry design, based on a full-custom methodology, that relies on a low-complexity Voltage-Mode Selector (VMS). Sizing analysis along with Monte Carlo simulations were performed for the designed periphery. In particular, the proposed dual voltage level circuitry will allow for the control of search and write operations in the NV-BCAM memory, delivering Vwrite=VDD and Vsearch=0.6V through a single voltage supply (VDD=1.1V) and further reducing the top-level complexity design.
AB - Content addressable memories have raised great interest involving the realm of Big Data and Artificial Intelligence, along with the emerging non-volatile (eNV) technology magnetic tunnel junction (MTJ) devices capabilities, they are exploited for massive parallel search operations through (NV-CAMs). A voltage-divider-based NV-BCAM/TCAM has been previously proposed, showing promising characteristics and potential for reliable search operations. Nevertheless, the NV-BCAM relies on two voltage levels to perform write and search operations and does not take into account its periphery design. Hence, the proposed paper presents an NV-BCAM Dual Voltage Level Circuitry design, based on a full-custom methodology, that relies on a low-complexity Voltage-Mode Selector (VMS). Sizing analysis along with Monte Carlo simulations were performed for the designed periphery. In particular, the proposed dual voltage level circuitry will allow for the control of search and write operations in the NV-BCAM memory, delivering Vwrite=VDD and Vsearch=0.6V through a single voltage supply (VDD=1.1V) and further reducing the top-level complexity design.
KW - Binary Content-Addressable Memory (BCAM)
KW - DMTJ
KW - MTJ
KW - Periphery
KW - Voltage-Mode Selector (VMS)
UR - http://www.scopus.com/inward/record.url?scp=85211764103&partnerID=8YFLogxK
U2 - 10.1109/ETCM63562.2024.10746141
DO - 10.1109/ETCM63562.2024.10746141
M3 - Contribución a la conferencia
AN - SCOPUS:85211764103
T3 - ETCM 2024 - 8th Ecuador Technical Chapters Meeting
BT - ETCM 2024 - 8th Ecuador Technical Chapters Meeting
A2 - Rivas-Lalaleo, David
A2 - Maita, Soraya Lucia Sinche
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 8th IEEE Ecuador Technical Chapters Meeting, ETCM 2024
Y2 - 15 October 2024 through 18 October 2024
ER -