23BIT080_My-Learning-Journey-and-Skills.pptx
ranaom1112
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Oct 14, 2025
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About This Presentation
My education journey eho i am and where i am from how i studied till now and what will i done in near futurr
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My Learning Journey & Skills Rana Om A. B.Tech ICT Student | Software & System Architect Aspirant Gandhinagar, India (from Ahmedabad) Email: [email protected]
Chapter I: Foundation & Ethos Who I Am: The Technologist ICT Student at PDEU Currently pursuing B.Tech in Information and Communication Technology (2023–2027) at Pandit Deendayal Energy University. Academic Excellence Consistently ranked in the top 2% of my class, demonstrating strong commitment and aptitude for complex technical subjects. Creative & Solution-Oriented Passionate about blending technical proficiency (programming, hardware) with creative thinking to solve real-world problems. Core Attributes I approach challenges with persistence, insatiable curiosity, and a focus on delivering robust, efficient solutions.
My Academic Path: ICT at PDEU Information and Communication Technology (B.Tech) Academic Standing CGPA: 9.4 SGPA: 9.5 Key Focus Areas Software Design & Architecture Full Stack Development Methodologies Embedded Systems & Hardware Design
Foundation & Certifications Language Mastery (Coursera Certified) Certified proficiency in core programming languages: C, C++, and Java. These certifications validate a solid command of fundamental syntax and paradigms. OOPs & Algorithms Strong foundational knowledge in Object-Oriented Programming (OOPs) principles and algorithmic thinking, crucial for scalable and efficient software development. Commitment to Growth Actively pursuing self-directed learning paths to stay current with industry trends and expand expertise into advanced development frameworks and system design.
Chapter II: Software Development Project: Smart Cafe System Objective Developed a Java-based application designed to efficiently manage orders and service flows, specifically targeting the reduction of customer rush and wait times. Impact & Efficiency Successfully reduced the manual data analysis time for daily operations and inventory management by approximately 50%, improving operational speed. Role Key Developer. Responsible for designing the application logic, implementing the user interface, and integrating the core business rules.
Chapter III: Digital Systems & Hardware Project: 16-bit CPU in Logisim Architectural Design Conceptualized and designed the complete 16-bit central processing unit architecture using the Logisim platform. Core Components Successfully implemented essential subunits, including the Arithmetic Logic Unit (ALU), register files, and control logic unit. Verification Verified the entire system functionality and timing integrity through rigorous testing with multiple test benches and timing diagrams.
Project: 8-bit Ripple Carry Adder A deep dive into low-level digital design and simulation, demonstrating mastery of hardware description languages and verification tools. Verilog Implementation Implemented the full 8-bit Ripple Carry Adder design using Verilog HDL (Hardware Description Language). Simulation & Debugging Utilized Synopsys VCS for comprehensive simulation and Verdi for waveform viewing and debugging of the logic. Performance Analysis Conducted detailed analysis, measuring critical hardware metrics: timing delay, power consumption, and silicon area utilization. Role: FPGA/Verilog Developer . This project enhanced my understanding of synthesisable code and physical constraints.
Project: HFSS Antenna Design & Simulation Demonstrating expertise in Electromagnetic (EM) field simulation and high-frequency design using industry-standard tools. Design Focus Designed and optimized classic antenna structures: the half-wavelength ( \lambda/2 ) dipole antenna and a microstrip patch antenna. Simulation Metrics Simulated key performance parameters: Electric (E-field) and Magnetic (H-field) distributions, Return Loss (S11), and 3D radiation patterns. Role: RF Engineer . This project provides practical experience with crucial RF/Microwave components for modern wireless systems.
Chapter IV: The Technical Toolkit My Core Technical Skills Programming Languages C C++ Java OOPs Principles Development Tools Git & GitHub ANSYS HFSS Logisim Synopsys VCS/Verdi Domains & Platforms Full Stack Web Architecture Digital Hardware Simulation Embedded Systems Design RF/Antenna Design
Looking Ahead: Next Steps Advanced Software Engineering I am exploring complex system architecture, distributed computing, and advanced data structures to deepen my capabilities. Internship & Collaboration Actively seeking challenging internships and collaborative tech projects where I can apply my full stack, hardware, and problem-solving skills. Building Impactful Solutions Driven by the goal of building robust, scalable, and impactful solutions that address pressing real-world technological needs.
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