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Automobile Engineering
Automobile Engineering is a specialized branch of mechanical engineering that focuses on the design, development, manufacturing, and maintenance of automobiles and their subsystems. This course aims to build a strong foundation in vehicle mechanics, dynamics, power systems, transmission technologies, control systems, safety features, and emerging automotive technologies such as electrification, automation, and connectivity.
Pavan
Low Power Circuit Designs
This course explores low-power circuit design, focusing on the integration of CMOS and FinFET technologies. Students will study principles, techniques, and challenges in designing energy-efficient circuits. Topics include low-power strategies, optimization, and practical considerations. Students will gain skills in designing circuits with minimal power consumption through theory, simulations, and hands-on projects
Pavan
CAD for VLSI
This course explores CAD algorithms for VLSI circuit design, focusing on automation, optimization, and verification. Students learn logic synthesis, physical design, and verification techniques, gaining hands-on experience with industry tools. Emphasis is on algorithmic efficiency and solving complex design challenges using advanced CAD tools.
Pavan
System on Chip
System on Chip This course focuses on designing low-cost, efficient SoCs for IoT using Arm Cortex-M0 processors. Students explore the complete SoC development cycle—specification, design, implementation, and testing—on FPGAs. Emphasis is placed on meeting performance, power, and area constraints using standard hardware description and software programming languages for real-world prototyping.
Pavan
Design for Testability
This course focuses on designing electronic circuits with testability in mind. Students will explore strategies for enhancing testing efficiency during manufacturing and operation. Topics include built-in self-test (BIST), scan chains, fault modeling, and testability considerations. Through theory, hands-on projects, and industry tools, students will develop skills to create robust, testable electronic systems
Pavan
Embedded Linux
This course teaches embedded Linux system development, focusing on configuring the Linux kernel and writing custom peripheral drivers. Students gain hands-on experience with Linux architecture, building embedded systems, and debugging and profiling applications. Ideal for aspiring embedded engineers, it addresses growing industry demand across consumer, automotive, and industrial applications.
Pavan
Mixed Signal Circuits
This course provides a comprehensive exploration of mixed signal circuits, focusing on integrating analog and digital components within a single system. Topics include ADC, DAC, signal processing, noise analysis, and the coexistence of analog and digital elements. Students will gain practical skills through simulations and hands-on projects.
Pavan
MEMS
This course explores Microelectromechanical Systems (MEMS), a multidisciplinary field combining electrical, mechanical engineering, and material science. Students will study MEMS principles, design methodologies, fabrication techniques, sensing/actuation mechanisms, and modeling. Through theory, hands-on projects, and real-world applications, students will gain skills for developing MEMS devices
Pavan
AI circuits
This course explores the intersection of artificial intelligence (AI) and integrated circuit design, focusing on principles, techniques, and challenges in creating circuits for AI applications. Topics include neuromorphic computing, hardware accelerators, parallel processing architectures, and AI circuit implementation. Students will gain skills through theory, hands-on projects, and exposure to cutting-edge developments in AI circuit design.
Pavan
Additive Manufacturing
Additive Manufacturing (AM)—commonly known as 3D printing—is a disruptive approach to producing objects by building them layer by layer from digital 3D models. Unlike traditional manufacturing, which often removes material, AM creates complex geometries and intricate components directly from computer-aided design (CAD) data, using materials that range from polymers and metals to ceramics and composites.
Pavan
FPGA Programing
This course offers a comprehensive understanding of Field-Programmable Gate Arrays (FPGAs), focusing on FPGA architecture, programming languages (VHDL and Verilog), and their applications in digital systems. Students will gain hands-on experience and theoretical knowledge to design and implement real-world FPGA-based projects in digital prototyping.
Pavan
Environmental Quality Monitoring & Analysis, - Vol 3
Environmental Quality Monitoring & Analysis" is a field focused on assessing and managing the quality of the environment, primarily through the collection and analysis of data related to air, water, and soil.
Abraham
Disaster Preparedness &Planning - Vol 5
Disaster preparedness and planning involves proactive measures to minimize the impact of potential disasters, both natural and human-induced. It encompasses a cycle of activities including risk assessment, mitigation, preparedness, response, and recovery. Effective disaster preparedness requires a multi-faceted approach involving individuals, communities, and various levels of government.
Abraham
Disaster Preparedness &Planning - Vol 3
Disaster preparedness and planning involves proactive measures to minimize the impact of potential disasters, both natural and human-induced. It encompasses a cycle of activities including risk assessment, mitigation, preparedness, response, and recovery. Effective disaster preparedness requires a multi-faceted approach involving individuals, communities, and various levels of government.
Abraham
Construction Engineering & Management - Vol 3
Construction Engineering and Management (CEM) is a field that combines engineering principles with management practices to oversee the planning, design, construction, and operation of infrastructure and building projects.
Abraham
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