Abstract:
Static Random-Access Memory (SRAM) has become phenomenally crucial to a board spectrum of VLSI designs and applications, ranging from high-performance CPUs to low-power mobile hand-held devices. As technology scaling helps to drive density and performance, it also poses some technical challenges in designing. This paper presents the pre-layout design for a 32kbit 6T synchronous single-port SRAM using 4-bit column multiplexer method and 28nm technology. Several sessions of this paper list out some methods such as self-control the timing constraints of the design, optimize shape and size to reduce difference in delay paths, thus improve performance.