@article{ADR-Microelectronics-VLSI, author = {Shivam Sharma}, title = { Advancements in Asynchronous Circuit Design: A Comprehensive Overview}, journal = {Journal of Advanced Research in Microelectronics and VLSI}, volume = {6}, number = {2}, year = {2023}, keywords = {}, abstract = {This article explores the advancements and applications of asynchronous circuit design in the realms of processor, co-processor, multi-processor, and memory architectures. Departing from traditional synchronous systems, asynchronous circuits operate without a global clock, providing benefits such as enhanced power efficiency, reduced latency, and improved performance predictability. Asynchronous processor designs offer dynamic power consumption, making them suitable for real-time applications and embedded systems. The integration of asynchronous co-processors and multi-processor architectures further extends the advantages of this design philosophy, enabling parallel processing and specialized task acceleration. Additionally, asynchronous memory design contributes to overall system efficiency by minimizing latency and optimizing data transfer rates. Despite challenges in design complexity, the article emphasizes the potential of asynchronous circuit design in shaping the future of computing, with ongoing research focused on addressing current limitations and advancing the adoption of this innovative approach.}, pages = {1--6}, url = {http://www.thejournalshouse.com/index.php/ADR-Microelectronics-VLSI/article/view/969} }