Embedded systems play a crucial role in modern technology, and low-power design strategies are key to achieving high performance and long battery life. This article explores various low-power design methods and their applications, aiming to reduce energy consumption and improve system performance. By analyzing existing technologies and case studies, we found that dynamic voltage regulation, hardware and software collaborative optimization, and sleep mode management are effective means of reducing energy consumption. We also
discussed the implementation effects of these strategies in actual products and proposed possible future research directions. Reasonable use of
low-power design can significantly improve the efficiency of embedded systems and open up new paths for developing more environmentally
friendly and efficient electronic products.

Low-power design; Embedded systems; Dynamic voltage regulation; Collaborative optimization of software and hardware

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