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Courses tagged 'Electronics, Sem 7'
tagged with 'Electronics, Sem 7'
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Low Power Circuit Designs
The chapter discusses the innovations and methodologies in low power design, focusing on technologies such as Near-Threshold Computing and Energy Harvesting. It highlights the importance of machine learning, new materials, ultra-low power memory innovations, chiplet integration, and security measures in modern electronics. The future of semiconductor design is portrayed as a convergence of advanced devices and intelligent systems aimed at extreme energy efficiency.
Pavan
CAD for VLSI
Advanced VLSI design increasingly relies on sophisticated Computer-Aided Design (CAD) tools that enhance productivity and automate processes. Key innovations include High-Level Synthesis tools, Design Compilers, Place-and-Route tools, and integration of Machine Learning techniques. These developments not only improve efficiency in design tasks but also adapt to the increasing complexity of modern VLSI designs.
Pavan
System on Chip
The chapter discusses Application Programming Interfaces (APIs) as essential tools in embedded systems development, highlighting their ability to simplify hardware interactions and enhance code portability. It categorizes types of APIs including hardware abstraction, operating system, middleware, and peripheral driver APIs, each serving distinct functionalities in an embedded context. Furthermore, the chapter details the structure, integration, testing, and optimization of APIs within final applications, demonstrating their role in efficient embedded system design.
Pavan
Design for Testability
The chapter discusses advanced topics and emerging trends in Design for Testability (DFT), with a focus on how traditional techniques are adapting to the complexities of modern electronic systems. It highlights various innovations such as AI-driven test generation, test compression, self-testable systems, and in-system testing, all of which are essential for improving testing efficiency and fault coverage in system-on-chip (SoC) and multi-core processor designs. By embracing these advancements, engineers can better ensure the reliability and maintainability of their designs.
Pavan
Embedded Linux
Debugging and profiling are critical for maintaining efficient and functional embedded systems, particularly in Linux environments. This chapter discusses various techniques and tools for debugging and profiling, which help identify system issues and optimize performance. Key tools such as GDB, Valgrind, and perf are emphasized to guide developers in troubleshooting and enhancing system resources.
Pavan
Mixed Signal Circuits
Mixed signal circuit design is rapidly evolving to meet the demands of miniaturization, low power, high bandwidth, and complex functionalities. Advances in technology are reshaping how analog, digital, RF, and power management components are integrated into systems, especially in emerging fields like IoT, AI, and biomedical applications. The importance of innovative methodologies in design, like AI-driven techniques and digital calibration, is critical for future developments in mixed signal systems.
Pavan
MEMS
MEMS technology has significantly advanced, becoming integral to various sectors like automotive, biomedical, and aerospace. This evolution brings forth emerging trends such as the integration of AI, flexible materials, and quantum-enabled sensing. These developments highlight the potential and challenges of MEMS within interdisciplinary research and applications, setting the stage for future innovations.
Pavan
AI circuits
AI circuit design is undergoing rapid transformation due to emerging trends and advancements in hardware and software technologies. Notable developments include neuromorphic computing, quantum computing, and edge AI, all aimed at enhancing performance and energy efficiency. The integration of advanced components and innovative techniques is pivotal to overcoming current challenges and enabling AI systems to handle increasingly complex tasks effectively.
Pavan
FPGA Programing
Field-Programmable Gate Arrays (FPGAs) are powerful devices used in various applications such as digital signal processing (DSP), communication systems, and control systems. The chapter delves into how FPGA programming resolves real-world issues in these domains, covering practical examples including FIR filters, QPSK modulators, and PID controllers. A hands-on project integrates concepts from various fields to provide a comprehensive understanding of FPGA-based system development.
Pavan
Analog Electronic Circuits - Vol 3
The chapter delves into the fundamentals of differential amplifiers, covering their basic structure, operating principles, and key parameters such as differential mode gain and common mode gain. It highlights the importance of transistor realizations, both BJT and MOSFET, and discusses various configurations that enhance performance. Characterization techniques to determine gain values and the conditions necessary for ideal operation are also explored.
Abraham
SOC Design 1: Design & Verification
Rapid prototyping and hardware emulation are crucial techniques in modern chip design, enabling early validation of complex systems. Field-Programmable Gate Arrays (FPGAs) offer flexibility, speed, and cost-effectiveness for prototyping, while hardware emulation allows for the validation of large-scale designs with high accuracy. The chapter details processes, benefits, tools, and best practices associated with both methodologies in chip design.
Pavan
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