Shaik Sadulla
Assistant Professor
Electronics & Communications Engineering
Vignan's University
India
Biography
Shaik Sadulla is currently working as a Assistant Professor in the Department of Electronics & Communications Engineering, Vignan's University, India. His research interests includes Emerging nano scale device technologies (FinFETs, steep-slope devices such as NEMS, Tunnel FETs) for energy efficient circuit design. Energy harvesting and power management circuits for microwatt applications. Ultra Low power Neuromorphic VLSI circuits. He has authored of many research articles/books related to Emerging nano scale device technologies (FinFETs, steep-slope devices such as NEMS, Tunnel FETs) for energy efficient circuit design. Energy harvesting and power management circuits for microwatt applications. Ultra Low power Neuromorphic VLSI circuits.
Research Interest
Emerging nano scale device technologies (FinFETs, steep-slope devices such as NEMS, Tunnel FETs) for energy efficient circuit design. Energy harvesting and power management circuits for microwatt applications. Ultra Low power Neuromorphic VLSI circuits.
Publications
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Sadulla Shaik and K. Sri Rama Krishna, "Performance benchmarking of tunnel transistorsfor energy efficient 4-bit adder architectures at low VDD," Electronic Government, An International Journal (Inderscience), Mar. 2017. DOI: 10.1504/EG.2017.10006158. Scopus Indexed.
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Sadulla Shaik, K. Sri Rama Krishna and Ramesh Vaddi, "Tunnel Transistor-Based Reliable and Energy Efficient Computing Architectures with Circuit and Architectural Co-Design at Low VDD," Journal of Circuits, Systems, and Computers (JCSC), Vol. 27, No. 3, 2018, pp. 1850046-(1-21). DOI: 10.1142/S0218126618500469. SCI Expanded. (Impact Factor: 0.49).
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Sadulla Shaik, K. Sri Rama Krishna and Ramesh Vaddi, "Nano-Scale Transistors with Circuit Interaction for Designing Energy- Efficient and Reliable Adder Cells at Low VDD," IETE Technical Review (Taylor & Francis), June, 2017, pp. 1-11. DOI: 10.1080/02564602.2017.1327826. SCI Expanded. (Impact Factor: 1.304).
