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For BE/BTech Graduates in Electronics & Communication Engineering or Electrical & Electronics Engineering

the Power of Embedded Technology! 

Core Embedded Technology 6-Months Exclusive Industry-Ready Program for growth.

* Only for specified graduation branches.


6 Months

6 Hours of training/ Day


Offline Classroom

Live Lab instruction


Hands on experience in live projects

Program Differentiators

L5 Focused Training Faculties


Industry Vetted Curriculum

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State of the Art Lab facility

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Domain Specialization Training

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 Internships & On-site Industry Visits





Embedded Software Engineering
Bootcamp Curriculum

  • Module 6: Real-Time Operating Systems using Free RTOS
    ➤ Introduction to Real-Time Operating Systems ➤ Introduction to STM32 Microcontrollers ➤ Introduction to Free RTOS ➤ Free RTOS Basics ➤ Task Synchronization and Communication ➤ Interrupt Management ➤ Memory Management ➤ Real-Time Applications Development ➤ Debugging and Testing
  • Module 3: Introduction to Embedded Systems
    ➤ Overview of embedded systems ➤ Embedded Hardware Basics ➤ Embedded Software Development ➤ Embedded System Programming Basics ➤ Referencing data and functions ➤ Embedded Systems Interfacing ➤ Real-time Operating Systems (RTOS) ➤ Embedded System Networking ➤ Embedded System Security ➤ Embedded System Design Considerations ➤ Advanced Topics
  • Module 8: Software Engineering II - V&V with Python
    ➤ Introduction to Verification and Validation ➤ Software Requirements and Specification ➤ Software Testing Fundamentals ➤ Test Planning and Management ➤ Test Case Design Techniques ➤ Static Testing Techniques ➤ Dynamic Testing Techniques ➤ Model-Based Testing ➤ Formal Methods ➤ Software Quality Assurance ➤ Verification and Validation in Agile and DevOps ➤ Introduction to Python ➤ Python Data Structures and Functions ➤ Python File Handling and Classes ➤ Design and Verification Standards Overview ➤ Application of Engineering Standards
  • Module 7: 8/16/32 Bit Microcontroller Development: Drivers, Middleware, and Application Layer
    ➤ Introduction to ARM Cortex-M Architecture ➤ Introduction to Target Board and GPIO Programming ➤ Interrupts, Timers, and Counters ➤ Driver Development for a Bare Metal Environment ➤ Linux Driver Development and Testing ➤ Optimization Techniques
  • Module 2: Embedded C for Applications
    ➤ Introduction to C++ ➤ Data Types and Variables ➤ Fundamentals of Booting for Embedded Processors ➤ Control Structures ➤ Functions and Modular Programming ➤ Arrays and Strings ➤ Pointers and References ➤ Object-Oriented Programming (OOP) Principles ➤ Advanced OOP Concepts ➤ Exception Handling ➤ STL (Standard Template Library) ➤ File Handling ➤ C++ Best Practices and Coding Standards ➤ Advance C++
  • Module 10: Embedded Systems Project Lab
    ➤ Project Planning and Requirements Analysis ➤ Project Implementation: Hardware Design ➤ Project Implementation: Software Development ➤ Project Integration and Testing ➤ Project Presentation and Documentation
  • Module 1: C Programming & Mastering C ++
    ➤ Overview of C programming language ➤ Basic Syntax and Data Types ➤ Control Structures ➤ Functions ➤ Arrays ➤ Strings ➤ Pointers ➤ Structures and Unions ➤ File Handling ➤ Linked Lists ➤ Advanced Topics
  • Module 9: Embedded Domain Specialization: Automotive, ML, and IoT
    ➤ Embedded Automotive Domain ➤ Machine Learning ➤ Internet of Things (IoT)
  • Module 4: Software Engineering I - SDLC & DevOps
    ➤ Introduction to Software Development Lifecycle (SDLC) ➤ Agile Methodology ➤ UML Modelling ➤ Continuous Integration (CI) ➤ Version Control Systems ➤ Continuous Deployment (CD) ➤ Configuration Management ➤ Containerization and Orchestration ➤ Collaboration and Communication Tools ➤ DevOps Culture and Practices
  • Module 5: System Programming
    ➤ Linux Environment ➤Building an Executable ➤ Memory Management and Data structures ➤ Working with Registers ➤ Context Management ➤ Linux Fundamentals ➤ C Library Functions ➤ Coding Practices
  • Mastering C++: Building Robust and Efficient Applications
    ➤ Introduction to C++ Programming ➤ Learn Datatypes, Variables & Operators ➤ Learn Conditional & Control Statements ➤ Understand Arrays, Strings & Pointers in C++ ➤ Go Through Functions & OOPs Concepts in C++ ➤ Learn I/O Streams, Dynamic Memory, & STL in C++ ➤ Understand Exception Handling, Signal Handling & Multithreading in C++
  • Domain-Specific Applications: Exploring the Possibilities of Embedded Systems
    Learners can opt 1-2 domain specific detailed study with application development 1. Electrical vehicles design ➤ Introduction to Electric Vehicles Battery energy storage, electrical modeling, and battery management system (BMS) Electric motors: control, construction, working principle and design Introduction to advanced concepts ➤ Accompanied with practice sessions using worked-out examples and computer simulations. 2. Cyber Security    ➤ Embedded security is designed to protect the components and software of the device. It includes features to protect the hardware, operating system, application, and data. Cybersecurity refers to additional security features that protect a device from network-initiated attacks. ➤ Critical infrastructure security. ➤ Application security. ➤ Network security. ➤ Cloud security. ➤ Internet of Things (IoT) security. 3.Communication   ➤ Contemporary wireless communication systems are mostly system-on-chip-based. ➤ This course will therefore be focused on hardware and software co-development. It includes the following topics. ➤ Overview of embedded systems elements, structure, challenges and applications; firmware and drivers, RTOS fundamentals and scheduling techniques; ➤ The course will rely considerably on hands-on practice of state-of-the-art wireless embedded design tools through practical assignments and projects. ➤ It includes the development and verification of the medium-access layer design and major protocols (e.g., IEEE low-power Wi-Fi, ZigBee, etc.) of a real-world wireless communication system including interactions with the SDR/Cognitive Radio/ SD Networks/Sensor Networks 4.Internet of Things - IoT ➤ The IoT applications of embedded systems and how it functions in various domains like space, communication, transportation, robotic systems, etc. ➤ Learn about the industrial IoT applications and how it plays a major role in driving the industrial sector of the economy. ➤ Learn how Industrial IoT is a key element of Industry 4.0 or smart factory. ➤ Learn about how Industrial IoT integrates with the process of automation, cloud computing and AI to create intelligent, self-optimizing industrial equipment and facilities. 5.Automotive  ➤ Automotive Domain and Technologies ➤ Evolution of Automotive industry ➤ Complete Ecu layout in a Car/truck ➤ Ecus used and overview of their functionalities • Airbag • ADAS • BCM  ➤ Active and Passive Safety ➤ In-Dept Testing Process and levels • Testing Models • Testing Process • Testing Types ➤ CAN Protocol • CAN Frames Structure; Type of Frames; CAN Error Detection; Types of Error • CAN at Physical Layer; Advantage and Disadvantage of CAN; UDS on CAN ➤ Vector CANoe Tool Overview; Configuring Project; DBC Analysis; How to use UDS Protocol; Autonomous Driving
  • Introduction to Embedded Systems: From Theory to Practice
    ➤ Microprocessors and microcontrollers, RISC and CISC controllers ➤ 8 / 16 / 32 Bit Microcontrollers ➤ 8051 / PIC / AVR / MSP430 / ARM 7 / CORTEX M3.M4 ➤ Embedded Firmware Design and Development ➤ Circuit emulators, debuggers ➤ Hardware interfaces for applications ➤ Micro controllers’ interface with communication protocols and sensors ➤ RS232; RS422 / 485; UART; USB; I2C; SPI; CAN; ETHERNET TCP/IP ➤ Embedded C for Hardware interface
  • Python for Embedded Systems: Developing Applications with Ease
    ➤ Introduction python and easy for embedded applications ➤ Accessing List; Working with List ➤ Tuple: Inbuilt Function And Methods ➤ Dictionaries Operations; String Operations ➤ Conditional Statements ➤ Looping And Control Statements ➤ Functions Arguments ➤ Modules; Input Output Operations ➤ Exceptions And Assertions ➤ Miscellaneous Concepts
  • Designing Embedded Systems: From Schematic to PCB
    ➤ Introduction to PCB designing concepts ➤ Single Sided (Single Layer), Multi-Layer (Double Layer) ➤ Introduction to Electronic design Automation (EDA) ➤ Types of Components; Through Hole Packages ➤ PCB Designing Flow Chart ➤ Net listing; PCB Layout Designing ➤ Prototype Designing; Design Rule Check (DRC) ➤ Design For Manufacturing (DFM); PCB Making ➤ Rules for Track; Study of IPC Standards; Auto routing ➤ Post Designing & PCB Fabrication Process ➤ Gerber Generation
  • Real-Time Operating Systems: Optimizing Performance in Embedded Systems
    ➤ Linux Systems ➤ Hard Real-Time operating system: ➤ Soft real-time operating system: ➤ Firm Real-time Operating System: ➤ Foreground and background thread scheduling ➤ Synchronization using spinlock and blocking semaphores ➤ Interthread communication ➤ Selection of Open / commercial OS ➤ Protocols and multi-tasking
  • Embedded C Essentials: Programming Microcontrollers for Real-World Applications
    ➤ Introduction to Embedded C ➤ Data Types and Variables ➤ Complex Data Types ➤ Data Type Modifiers ➤ Storage Class Modifiers ➤ C Statements, Structures, and Operations ➤ Libraries ➤ Optimising and Testing Embedded C Programs
  • Professional Presence: Developing and Managing Your Personal Brand for Success
    Image Management & Branding ➤ Power Dressing ➤ Communication: The Power of Connection ➤ Leadership: Beyond Authority ➤ Emotional intelligence: The Art of Understanding ➤ Time & Stress Management: The Productivity Puzzle ➤ Goal Setting: The Key to Success ➤ Conflict Resolution: The Art of Peaceful Problem-Solving ➤ Collaboration: The Strength in working Together ➤ Business & Dining Etiquette: The Power of Networking

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