We propose an ultra-low power memory design method based on the ultra-low (∼ 0.2 V) write-bitline voltage swing to reduce the write power dissipation for read-decoupled SRAM (RD-SRAM) cells. By keeping the write bitlines at ground level (0 V) during standby and charging them to a low voltage V L (∼ 0.2 V) during write operations, the power dissipation for the write bitlines is greatly reduced (0.2 V/V DD ) 2 × 100 %) due to reduced voltage swing (from V DD = 1.2 to 0.2 V) on the write bitlines. The proposed method is applicable to both dual-voltage and single-voltage operations. We analyze the proposed ultra-low write-bitline voltage swing method and investigate its reliability based on 10K Monte-Carlo simulations. We further verify th...
option for CMOS ICs. As the supply voltage of low-power ICs decreases, it must remain compatible wit...
In this paper, we present our decoupled differential read (DDR) port and bitline (BL) pre-charging s...
Abstract- Low power VLSI design has become the major challenge of chip designs as leakage power has ...
Low power SRAM cell is a critical component in modern VLSI systems. The major portion of the power d...
This paper proposes a low power SRAM based on five transistor SRAM cell. Proposed SRAM uses novel wo...
With the percentage of embedded SRAM increasing in SoC chips, low-power design such as the near-thre...
With the increment of mobile, biomedical and space applications, digital systems with low-power cons...
This paper describes a low power write scheme which reduces SRAM power by 90 % by using seven-transi...
Low-power SRAM design is crucial since it takes a large fraction of total power and ...
It is attractive to design power efficient and robust SRAM in low voltage and high performance syste...
The sub-threshold or near-threshold operation has been an attractive option for digital integrated c...
This paper presents a 9T multi-threshold (MTCMOS) SRAM macro with equalized bitline leakage and a co...
As the development of complex metal oxide semiconductor (CMOS) technology, fast low-power static ran...
This paper presents a low energy memory decoder architecture for ultra-low-voltage systems containin...
The need for more functionality and higher performance has increased the number of transistors to bi...
option for CMOS ICs. As the supply voltage of low-power ICs decreases, it must remain compatible wit...
In this paper, we present our decoupled differential read (DDR) port and bitline (BL) pre-charging s...
Abstract- Low power VLSI design has become the major challenge of chip designs as leakage power has ...
Low power SRAM cell is a critical component in modern VLSI systems. The major portion of the power d...
This paper proposes a low power SRAM based on five transistor SRAM cell. Proposed SRAM uses novel wo...
With the percentage of embedded SRAM increasing in SoC chips, low-power design such as the near-thre...
With the increment of mobile, biomedical and space applications, digital systems with low-power cons...
This paper describes a low power write scheme which reduces SRAM power by 90 % by using seven-transi...
Low-power SRAM design is crucial since it takes a large fraction of total power and ...
It is attractive to design power efficient and robust SRAM in low voltage and high performance syste...
The sub-threshold or near-threshold operation has been an attractive option for digital integrated c...
This paper presents a 9T multi-threshold (MTCMOS) SRAM macro with equalized bitline leakage and a co...
As the development of complex metal oxide semiconductor (CMOS) technology, fast low-power static ran...
This paper presents a low energy memory decoder architecture for ultra-low-voltage systems containin...
The need for more functionality and higher performance has increased the number of transistors to bi...
option for CMOS ICs. As the supply voltage of low-power ICs decreases, it must remain compatible wit...
In this paper, we present our decoupled differential read (DDR) port and bitline (BL) pre-charging s...
Abstract- Low power VLSI design has become the major challenge of chip designs as leakage power has ...