A Study & Analysis on low Power processor Design Using Various Techinques

In the area of microprocessor design, the application of low power techniques has bring togethermomentouscontemplation for its potential to enhance performance and efficiency. With rapid advancements in digital circuit applications, low Power is one of the prominent aspects in the design of digital processors. Designing a low-power digital processor is essential for various applications, such as mobile devices, IoT devices, and battery-powered systems. Lower power consumption affects the battery utilization with minimization in heat generation and environmental impact. In this paper the scope and significance of low power microprocessor research is discussed. The contribution of how each component of the design affects to overall power consumption, various techniques for reducing the dynamic and static power is presented.This paper aims to provide an insightful literature survey on microprocessor constitutionby employing low-power techniques, analyzing existing research and advancements in the field.Indisputably, the literature review plays a pivotal role in understanding the current state of knowledge pertaining to microprocessor design and low power techniques. By examining a amplecollection of scholarly articles, conference papers, and technical reports, this section aims to present a comprehensive overview of the research landscape.The focus will be primarily on investigating various methodologies employed for dropping power dissipation in microprocessors. This includes but is not limited to dynamic voltage scaling, clock gating techniques, leakage current reduction strategies, and architectural optimizations.