부산대학교 도서관

In the pursuit of energy-efficient and innovative VLSI designs, the integration of memristor technology has emerged as a promising avenue. This project endeavours to explore the design and implementation of a low-power 3-bit decoder utilizing memristor devices. The memristor's unique properties, such as non-volatility and low energy consumption, offer an unprecedented opportunity for advancing VLSI circuits. The proposed 3-bit decoder leverages memristors to decode a 3-bit binary input into a unique 3-bit output representation, enabling a compact and efficient decoding solution. Throughout the project, various low-power design methodologies and memristor-based optimization techniques are investigated to minimize power consumption while ensuring reliable performance. This project not only delves into the theoretical underpinnings of memristor technology but also embraces practical challenges in designing memristor-based VLSI circuits. Extensive simulations and verification processes are conducted to validate the decoder's correctness and robustness. The potential applications of memristor-based decoders extend beyond this specific project, contributing to the broader exploration of memristor technologies and their integration into modern VLSI designs. The outcomes of this study will not only enrich the realm of VLSI but also pave the way for more energy-efficient and technologically advanced integrated circuits, propelling the semiconductor industry towards a sustainable and innovative future.