Add to ORKGThis thesis pertains to the design of low power and robust SRAMs without significant area overhead and speed penalty. Novel designs are presented to reduce the power dissipation by using dynamic voltage scaling as well as reducing the power dissipation on large capacitive metal lines, for example bitlines. Robustness is enhanced by using asynchronous Quasi-Delay-Insensitive (QDI) technique to reduce the possible synchronous failure in conventional synchronous counterpart, by using novel memory cells to reduce the read and write stability problem in conventional SRAMs as well as by using efficient bit-interleaved structure to increase the soft-error immunity when combined with error correction code (ECC).Master of Engineerin
SRAM cell is the basic memory devices which is made from the combination of Flip Flop and registers ...
With ever raising demands of battery operated portable device in market is encouraging the VLSI make...
As the CMOS technology continues to scale down to achieve higher performance, considerable power dis...
This thesis pertains to the design of low power and robust SRAMs without significant area overhead a...
As the development of microelectronics technology, the design of memory cell has already become an i...
As the development of microelectronics technology, the design of memory cell has already become an i...
With the development of CMOS technology, the performance including power dissipation and operation s...
Millions of mobile devices are being activated and used every single day. For such devices, energy e...
Abstract: Portable devices demand for low power dissipation. To reduce power dissipation, the subsys...
As the development of complex metal oxide semiconductor (CMOS) technology, fast low-power static ran...
Aggressive scaling of transistor dimensions with each technology generation has resulted in increase...
Subthreshold circuits are increasingly popular especially in ultra-low power applications like wirel...
Subthreshold circuits are increasingly popular especially in ultra-low power applications like wirel...
The explosive growth of battery operated devices has made low-power design a priority in recent year...
Abstract-Low power design has become the major challenge of present chip designs as leakage power ha...
SRAM cell is the basic memory devices which is made from the combination of Flip Flop and registers ...
With ever raising demands of battery operated portable device in market is encouraging the VLSI make...
As the CMOS technology continues to scale down to achieve higher performance, considerable power dis...
This thesis pertains to the design of low power and robust SRAMs without significant area overhead a...
As the development of microelectronics technology, the design of memory cell has already become an i...
As the development of microelectronics technology, the design of memory cell has already become an i...
With the development of CMOS technology, the performance including power dissipation and operation s...
Millions of mobile devices are being activated and used every single day. For such devices, energy e...
Abstract: Portable devices demand for low power dissipation. To reduce power dissipation, the subsys...
As the development of complex metal oxide semiconductor (CMOS) technology, fast low-power static ran...
Aggressive scaling of transistor dimensions with each technology generation has resulted in increase...
Subthreshold circuits are increasingly popular especially in ultra-low power applications like wirel...
Subthreshold circuits are increasingly popular especially in ultra-low power applications like wirel...
The explosive growth of battery operated devices has made low-power design a priority in recent year...
Abstract-Low power design has become the major challenge of present chip designs as leakage power ha...
SRAM cell is the basic memory devices which is made from the combination of Flip Flop and registers ...
With ever raising demands of battery operated portable device in market is encouraging the VLSI make...
As the CMOS technology continues to scale down to achieve higher performance, considerable power dis...