Ultralow-Voltage Retention SRAM With a Power Gating Cell Architecture Using Header and Footer Power-Switches

“…During the ULVR mode, the dual-mode inverters in the cell act as a ST inverter having rectangular-shaped transfer characteristics with wide hysteresis, and thus the ULVR-SRAM can stably retain data even at VUL (= ~0.2 V). Since the ULVR mode can effectively reduce the standby power [20], substantive PG using the ULVR mode can be achieved. This ST mode of the dual-mode inverters can be also applied to the stable energy-efficient SRAM EMP operation.…”

“…The SRAM Norm operation can be performed using the normal inverter mode of the dual-mode inverters. High-performance SRAM operations comparable to conventional 6T-SRAM operations can be achieved at the ordinary supply-voltage VDD (VUL < VEMP < VDD) [20], [21]. Therefore, the ULVR-SRAM is promising for PIM-type NN accelerators.…”

“…In our previous paper [20], the ULVR-SRAM cell was designed to achieve the two-mode operations of the SRAM Norm and ULVR modes, particularly, to achieve efficient standby power reduction during the ULVR mode. Thus, this cell employed the header-and footer-power-switches (HFPSs).…”

“…Fig. 1(a) shows the circuit configuration of the ULVR-SRAM cell that is comprised of the dual-mode inverters with the pMOS feedback transistors (FBTs) [20]. The storage nodes are denoted by Q and Q′ in the figure.…”

“…The bias VFB of the FBTs is controlled by the control switches (CSs) cell 1 CS and cell 2 CS . VFB is set to VFBM (= 0.4 V) for the SRAM EMP mode and to VFBL (= 0.2 V) for both the SRAM Norm and ULVR modes [20]. As (VVDD, VFB) = (VDDH, VFBL), the dual-mode inverters in the cell operate with the normal inverter mode, and thus the SRAM Norm operation can be achieved.…”

Binarized Neural Network Accelerator Macro Using Ultralow-Voltage Retention SRAM for Energy Minimum-Point Operation

“…During the ULVR mode, the dual-mode inverters in the cell act as a ST inverter having rectangular-shaped transfer characteristics with wide hysteresis, and thus the ULVR-SRAM can stably retain data even at VUL (= ~0.2 V). Since the ULVR mode can effectively reduce the standby power [20], substantive PG using the ULVR mode can be achieved. This ST mode of the dual-mode inverters can be also applied to the stable energy-efficient SRAM EMP operation.…”

“…The SRAM Norm operation can be performed using the normal inverter mode of the dual-mode inverters. High-performance SRAM operations comparable to conventional 6T-SRAM operations can be achieved at the ordinary supply-voltage VDD (VUL < VEMP < VDD) [20], [21]. Therefore, the ULVR-SRAM is promising for PIM-type NN accelerators.…”

“…In our previous paper [20], the ULVR-SRAM cell was designed to achieve the two-mode operations of the SRAM Norm and ULVR modes, particularly, to achieve efficient standby power reduction during the ULVR mode. Thus, this cell employed the header-and footer-power-switches (HFPSs).…”

“…Fig. 1(a) shows the circuit configuration of the ULVR-SRAM cell that is comprised of the dual-mode inverters with the pMOS feedback transistors (FBTs) [20]. The storage nodes are denoted by Q and Q′ in the figure.…”

“…The bias VFB of the FBTs is controlled by the control switches (CSs) cell 1 CS and cell 2 CS . VFB is set to VFBM (= 0.4 V) for the SRAM EMP mode and to VFBL (= 0.2 V) for both the SRAM Norm and ULVR modes [20]. As (VVDD, VFB) = (VDDH, VFBL), the dual-mode inverters in the cell operate with the normal inverter mode, and thus the SRAM Norm operation can be achieved.…”

Binarized Neural Network Accelerator Macro Using Ultralow-Voltage Retention SRAM for Energy Minimum-Point Operation

Dalorex: A Data-Local Program Execution and Architecture for Memory-bound Applications

Dual Power Gating 8-Transistor SRAM Design For Low Power Applications