IJFANS International Journal of Food and Nutritional Sciences
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Nutritional Status of Patients with Long-Term Stay in the Hospital
Volume 14 | Issue 5
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A Note on Health Benefits of Some Underutilized Plant Species from Katepurna Wildlife Sanctuary, Maharashtra, India
Volume 14 | Issue 5
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Impact of Nutrition Education on Awareness of Antinutrients and Nutrient Absorption: An Interventional Study
Volume 14 | Issue 5
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Assessment of Soil Suitability for Subgrade Road Construction Using Atterberg Limits and California Bearing Ratio Tests: A Case Study Of Road Failure along the Warri–Sapele Highway, Nigeria"
Volume 14 | Issue 5
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Studies on the development of soya-based pasta by utilizing okara, a by-product from soymilk
Volume 14 | Issue 5
Design and Implementation of High-Speed Vedic Multiplier Architectures Using Optimized Adder Topologies for Efficient VLSI Systems
Main Article Content
Abstract
The evolution of VLSI design has heightened the need for high-speed, low-power, and area efficient arithmetic units. Among these, multipliers are fundamental components in digital signal processing (DSP), microprocessors, and various computation-intensive applications. This paper presents the design and implementation of Vedic multipliers, leveraging ancient Indian mathematics to develop fast, power-efficient multipliers using Ripple Carry Adders (RCA), Carry Select Adders (CSelA), CSelA with Binary to Excess-1 Code (BEC), and CSelA with Common Boolean Logic (CBL). Simulation and synthesis are performed using Cadence tools, showcasing significant improvements in speed, area, and power consumption compared to conventional designs.
