A new Row-by-Row Dynamic Source-line Voltage control (RRDSV) scheme is proposed to reduce the active leakage as well as the stand-by leakage in SRAM. By dynamically controlling the source-line voltage of cells row by row, the cell leakage through inactive cells can be reduced by two orders of magnitude. Moreover, the bit-line leakage through pass transistors can be completely cut off. This leakage reduction is caused from the cooperation of reverse body-to-source biasing and Drain Induced Barrier Lowering (DIBL) effects. A test chip has been fabricated using 0.18-µm triple-well CMOS technology to verify the data retention capability of this RRDSV scheme. The minimum retention voltage in the RRDSV is measured to be reduced by more than 60mV,...
Abstract — Aggressive CMOS scaling results in low threshold voltage and thin oxide thickness for tra...
This paper is based on the observation of 8T single ended static random access memory (SRAM) and two...
In this paper, two static random access memory (SRAM) cells that reduce the static power dissipation...
Suppressing the leakage current in memories is critical in low-power design. By reducing the standby...
Abstract--Reduction of leakage power is very important for low power applications. Because these hig...
In this paper a new SRAM cell is designed with a body bias controller to control leakage, speed and ...
In this paper, we show the feasibility of low supply voltage for SRAM (Static Random Access Memory) ...
A voltage scalable 0.26 V, 64 kb 8T SRAM with 512 cells per bitline is implemented in a 130 nm CMOS ...
We propose a FinFET based 7T and 8T Static Random Access Memory (SRAM) cells. FinFETs also promise t...
increases and most of the power is dissipated as leakage. Leakage power reduction is achieved in Sta...
SRAM leakage constitutes a significant portion of the standby power budget of modern SoC products fo...
Abstract. Modern CMOS processes in the Deep Submicron regime are restricted to supply voltages below...
Aggressive CMOS scaling results in lower threshold voltage and thin oxide thickness for transistors\...
Aggressive CMOS scaling results in low threshold voltage and thin oxide thickness for transistors ma...
Abstract — The growing demand for high density VLSI circuits and the exponential dependency of the l...
Abstract — Aggressive CMOS scaling results in low threshold voltage and thin oxide thickness for tra...
This paper is based on the observation of 8T single ended static random access memory (SRAM) and two...
In this paper, two static random access memory (SRAM) cells that reduce the static power dissipation...
Suppressing the leakage current in memories is critical in low-power design. By reducing the standby...
Abstract--Reduction of leakage power is very important for low power applications. Because these hig...
In this paper a new SRAM cell is designed with a body bias controller to control leakage, speed and ...
In this paper, we show the feasibility of low supply voltage for SRAM (Static Random Access Memory) ...
A voltage scalable 0.26 V, 64 kb 8T SRAM with 512 cells per bitline is implemented in a 130 nm CMOS ...
We propose a FinFET based 7T and 8T Static Random Access Memory (SRAM) cells. FinFETs also promise t...
increases and most of the power is dissipated as leakage. Leakage power reduction is achieved in Sta...
SRAM leakage constitutes a significant portion of the standby power budget of modern SoC products fo...
Abstract. Modern CMOS processes in the Deep Submicron regime are restricted to supply voltages below...
Aggressive CMOS scaling results in lower threshold voltage and thin oxide thickness for transistors\...
Aggressive CMOS scaling results in low threshold voltage and thin oxide thickness for transistors ma...
Abstract — The growing demand for high density VLSI circuits and the exponential dependency of the l...
Abstract — Aggressive CMOS scaling results in low threshold voltage and thin oxide thickness for tra...
This paper is based on the observation of 8T single ended static random access memory (SRAM) and two...
In this paper, two static random access memory (SRAM) cells that reduce the static power dissipation...