babymore87
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Free Download Learn Verilog HDL from Scratch with Hands-On Simulation
Published 5/2026
Created by Learning Microcontrollers
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz, 2 Ch
Level: All Levels | Genre: eLearning | Language: English | Duration: 18 Lectures ( 4h 55m ) | Size: 5.2 GB
Learn Verilog by writing and simulating digital circuits on EDA Playground - no hardware required
What you'll learn
Understand Verilog HDL fundamentals from scratch and learn how digital systems are modeled using hardware Description language concepts. Write, run, and test Verilog code directly on EDA Playground without installing any software or requiring hardware setup. Create and simulate digital logic designs including combinational logic, sequential logic, conditional statements, modules, counters, testbenches, and finite st Analyze simulation outputs and debug Verilog designs confidently through hands-on coding examples provided in every lecture.Requirements
No prior knowledge of Verilog is required - this course is designed completely for beginners. Basic understanding of digital logic concepts such as logic gates and binary numbers is helpful but not mandatory. A computer with internet access to use EDA Playground for running Verilog code examples. Willingness to practice by writing and simulating Verilog code alongside the lectures.Description
Learn Verilog HDL From Scratch with Hands-On Simulation
Want to learn Verilog in a practical and beginner-friendly way?
This course is designed for students, electronics enthusiasts, and aspiring digital design engineers who want to masterVerilog Hardware Description Language (HDL) from the ground up using EDA Playground.
Unlike theory-heavy courses, this course focuses onhands-on learning through live coding demonstrations and simulations in every lecture. You will write, test, debug, and simulate Verilog code directly in your browser -no hardware, FPGA board, or software installation required.
You will start by understanding why HDL matters and how Verilog is used in modern digital systems, then gradually move toward practical circuit design and simulation.
What You'll Learn
Verilog HDL fundamentals from scratch Writing and simulating Verilog code Understanding delays and arithmetic operations Using system tasks like $display and $monitor Blocking vs non-blocking assignments Designing combinational and sequential logic Building digital circuits like adders and multiplexers Writing conditional statements in Verilog Using testbenches and waveform analysis in simulationWhy Take This Course?
Beginner-friendly explanations
Practical coding in every lecture
Learn directly on EDA Playground
No FPGA hardware required
Step-by-step hands-on simulations
Ideal for university students and self-learners
Course Content
Introduction
Lecture 1: Why HDL Matters? Lecture 2: Getting Started with Verilog: From Microcontrollers to FPGA VerilogSetting Up Tools
Lecture 3: Getting Started with EDA PlaygroundLearning Verilog
Lecture 4: Delay in Verilog Lecture 5: Arithmetic in Verilog Lecture 6: $display Command in Verilog Lecture 7: $monitor Command in Verilog Lecture 8: $display vs $monitor in Verilog Lecture 9: Blocking vs Non-Blocking Assignment in Verilog Lecture 10: Combinational Logic in Verilog Lecture 11: Sequential Logic in Verilog Lecture 12: 4-Bit Adder Using Verilog Lecture 13: Design and Simulate 2:1 MUX in Verilog Lecture 14: Design and Simulate Half Adder in Verilog Lecture 15: If-Else Conditional Statements in Verilog Lecture 16: If-Else-If Statements in Verilog Lecture 17: Case Statement in Verilog Lecture 18: Opening Waveforms in EDA Playground Testbench SimulationBy the end of this course, you will have the confidence to write, simulate, and debug Verilog code and build a strong foundation for digital design, FPGA development, and advanced hardware design concepts.
Moreover, I keep on updating this course. More lectures will be added on the way. Stay tuned.
Who this course is for
Beginners who want to learn Verilog HDL from scratch with no prior coding experience. Electronics, electrical, and computer engineering students learning digital design and hardware description languages. Students preparing for FPGA, digital design, or VLSI-related coursework and projects. Anyone who wants to learn Verilog through hands-on simulation using EDA Playground without installing complex software tools.Homepage
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