Abstract
Objectives: In the present power-hungry world, the objective of this paper is to design a system that helps in the reduction of power consumption of systems. A memory cell, more specifically an SRAM cell being the major contributor to the increased power becomes an important unit to be considered in such systems for reducing power. This paper presents an improved single-ended PPN inverter based 10T SRAM cell. Methods: The proposed cell makes use of PPN-inverters. The CMOS inverter is replaced by the PPN-inverter in the conventional 8T SRAM cell giving an improved single-ended PPN-based 10T SRAM cell. Findings: The proposed work is compared with other SRAM cells based on delay, power dissipation, and power delay product (PDP). The proposed cell is designed and simulated on Cadence Virtuoso EDA tool version IC6.1.7 at a standard CMOS 45nm technology. The simulation results show that the proposed SRAM cell consumes lesser power and hence lower PDP compared to conventional 8T SRAM cell as well as other SRAM cells and with the use of high threshold voltage transistors in the read circuit a further decrease in the power consumption is observed. So, by use of PPN inverter in 8T SRAM cell a new design for low power consuming SRAM cell is achieved. Novelty: The proposed cell is optimized in terms of power dissipation making it more efficient for use in portable battery-operated devices. Keywords 10T SRAM cell, Low power, PPN inverter, Static RandomAccess Memory (SRAM)
Highlights
Power dissipation has become a major concern in applications where high performance is required
This paper presents a PPN inverter based static random-access memory (SRAM) cell consisting of 10 transistors that shows better result in terms of power consumption as compared to other SRAM cells
The proposed SRAM cell is compared with different SRAM cells based on power consumption, delay, and power delay product (PDP)
Summary
Power dissipation has become a major concern in applications where high performance is required. The present demand and popularity of portable battery-operated devices such as mobile phones, laptops, and tablets, has made the designing of low power and efficient systems a necessity. These embedded systems require repeated charging so, the reduction in power leads to longer and better usability of these devices since many times these systems may not have regular access for battery recharging. The designing of a power-efficient SRAM cell is an important concern, and reducing the power of even a single cell can further reduce the power of large systems and will help in improving the system power efficiency
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