Add to ORKGLowering the supply voltage of Static Random-Access Memories (SRAM) is key to reduce power consumption, however since this badly affects the circuit performances, it might lead to various forms of loss of functionality. In this work, we present silicon results showing significant yield improvement, achieved with write and read assist techniques on a 6T high- density bitcell manufactured in 40 nm technology. Data is successfully modeled with an original spice-based method that allows reproducing at high computing efficiency the effects of static negative bitline write assist, the effects of static wordline underdrive read assist, while the effects of read ability losses due to low-voltage operations on the yield are not taken into account in...
This paper describes a low power write scheme which reduces SRAM power by 90 % by using seven-transi...
This paper presents a reconfigurable negative bit line collapsed supply (RNBLCS) write driver circui...
Abstract- We propose a novel method that exploits BTI to partially offset variation and thus improve...
International audienceLowering the supply voltage of Static Random-Access Memories (SRAM) is key to ...
The need for ultra low power circuits has forced circuit designers to scale voltage supplies into th...
textThis report discusses the design of read/write assist circuits which are used in a SRAM cell’s d...
Abstract: The need for ultra low power circuits has forced circuit designers to scale voltage suppli...
This thesis explores means of mitigating the effects of silicon variation on SRAM by means of circui...
Increasing variations in device parameters significantly degrades the write-ability of SRAM cells in...
As CMOS process technology advances into deep sub-micron era, static leakage power becomes an import...
SRAMs occupy a large amount of area in modern system on chip circuits. With the growing trend of dev...
In scaled technology nodes and scaled supply voltages, the SRAM write ability is being degraded and ...
As high-density SRAMs must be designed to ensure a substantially small failure rate, the accurate yi...
This paper presents a 9T multi-threshold (MTCMOS) SRAM macro with equalized bitline leakage and a co...
compromised. In addition, lowering the supply voltage to reduce power consumption further reduces th...
This paper describes a low power write scheme which reduces SRAM power by 90 % by using seven-transi...
This paper presents a reconfigurable negative bit line collapsed supply (RNBLCS) write driver circui...
Abstract- We propose a novel method that exploits BTI to partially offset variation and thus improve...
International audienceLowering the supply voltage of Static Random-Access Memories (SRAM) is key to ...
The need for ultra low power circuits has forced circuit designers to scale voltage supplies into th...
textThis report discusses the design of read/write assist circuits which are used in a SRAM cell’s d...
Abstract: The need for ultra low power circuits has forced circuit designers to scale voltage suppli...
This thesis explores means of mitigating the effects of silicon variation on SRAM by means of circui...
Increasing variations in device parameters significantly degrades the write-ability of SRAM cells in...
As CMOS process technology advances into deep sub-micron era, static leakage power becomes an import...
SRAMs occupy a large amount of area in modern system on chip circuits. With the growing trend of dev...
In scaled technology nodes and scaled supply voltages, the SRAM write ability is being degraded and ...
As high-density SRAMs must be designed to ensure a substantially small failure rate, the accurate yi...
This paper presents a 9T multi-threshold (MTCMOS) SRAM macro with equalized bitline leakage and a co...
compromised. In addition, lowering the supply voltage to reduce power consumption further reduces th...
This paper describes a low power write scheme which reduces SRAM power by 90 % by using seven-transi...
This paper presents a reconfigurable negative bit line collapsed supply (RNBLCS) write driver circui...
Abstract- We propose a novel method that exploits BTI to partially offset variation and thus improve...