hamed tasdighi - Academia.edu (original) (raw)
Uploads
Papers by hamed tasdighi
Journal of Nanostructures, Jun 12, 2021
Nano scale statistical variability which arises from discreteness of charge and granularity of ma... more Nano scale statistical variability which arises from discreteness of charge and granularity of matter has become one of major concerns in digital design particularly in sub-50nm technology nodes. Device intrinsic parameters such as the threshold voltage and drive current will be influenced by random dopants, line edge roughness and gate grain granularity which in turn results in variation of SRAM cell performance. Therefore, providing an accurate statistical model is one of the key issues among SRAM design community. Since both 6T and 8T SRAMs are widely used in the industry as standard cells, this article analyzes sensitivity of static noise margin (SNM) in response to statistical variations in 6-and 8-transistor cells. The results show that though 8T cells need more transistors and thus consume more area on the wafer compared with 6T cells, they are more stable and thus are better candidates for variability aware design in future technology nodes.
Journal of Nanostructures, Jun 12, 2021
Nano scale statistical variability which arises from discreteness of charge and granularity of ma... more Nano scale statistical variability which arises from discreteness of charge and granularity of matter has become one of major concerns in digital design particularly in sub-50nm technology nodes. Device intrinsic parameters such as the threshold voltage and drive current will be influenced by random dopants, line edge roughness and gate grain granularity which in turn results in variation of SRAM cell performance. Therefore, providing an accurate statistical model is one of the key issues among SRAM design community. Since both 6T and 8T SRAMs are widely used in the industry as standard cells, this article analyzes sensitivity of static noise margin (SNM) in response to statistical variations in 6-and 8-transistor cells. The results show that though 8T cells need more transistors and thus consume more area on the wafer compared with 6T cells, they are more stable and thus are better candidates for variability aware design in future technology nodes.