10 Best Fpga Courses and Certifications Online

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Close up iPhone showing Udemy application and laptop with notebookField Programmable Gate Arrays (FPGAs) are becoming increasingly popular in the digital circuit design industry. Their flexibility and reprogrammability make them an attractive option for a variety of applications. As a result, there is a growing demand for comprehensive training programs that can equip learners with the necessary skills and knowledge to work with FPGAs effectively. With the advent of online learning, many educational institutions and online platforms now offer FPGA courses online. In this article, we will explore some of the best online FPGA courses available and analyze their features, benefits, and drawbacks to help you make an informed decision about which one to choose.

Here’s a look at the Best Fpga Courses and Certifications Online and what they have to offer for you!

10 Best Fpga Courses and Certifications Online

1. Learn VHDL and FPGA Development by Jordan Christman (Udemy) (Our Best Pick)

The Learn VHDL and FPGA Development course, led by Jordan Christman, is designed to teach students how to create a VHDL design that can be simulated and implemented on Xilinx or Altera FPGA development boards. The course is suitable for beginners and intermediates and supports both Xilinx and Altera FPGA development boards. The course contains over 20 lectures and 7 labs that aim to teach students the syntax, structure, and use of specific VHDL keywords.

The lectures included in each lab provide background information on the digital logic circuit the student will be implementing. The labs are designed to help students learn VHDL by actually coding it themselves. For each lab, the student receives a set of VHDL files that they will need to modify or change in order to get the project to simulate correctly in ModelSim and implement the design on their FPGA board.

The course covers VHDL data types, syntax, coding structure, test bench, implementing state machines in VHDL, and FPGA development boards. Additionally, the course covers both Altera and Xilinx tools, including the BASYS 3 or BASYS 2 FPGA development board. The labs cover a range of topics, including the Full Adder, Shift Register, Universal Shift Register, 7 Segment Display, Counter, Multiplier, and RC Servo. The course also includes lecture notes and extra references. Before signing up for the course, students are encouraged to message the instructor.

2. Learn the Fundamentals of VHDL and FPGA Development by Jordan Christman (Udemy)

The course “Learn the Fundamentals of VHDL and FPGA Development” teaches the basics of VHDL design and FPGA development through eight different projects. Students will learn by coding VHDL designs and running simulations to verify their code. While running code on real hardware is not required, the course recommends using Altera or Xilinx boards for this purpose. The course covers topics such as VHDL design structure, statements and data types, simulations, and more. Each project is explained through demonstration videos and walk-throughs, ensuring that students have a deep understanding of how the project works.

3. Learn VHDL Design using Xilinx Zynq-7000 ARM/FPGA SoC by Clyde R. Visser, P.E. (Udemy)

The “Learn VHDL Design using Xilinx Zynq-7000 ARM/FPGA SoC” course is suitable for both beginners and experienced engineers, providing instruction on how to use Vivado on the Zybo Z7 Xilinx Zynq FPGA Development Board. The course teaches participants the analysis and synthesis of digital systems using VHDL, with hands-on experience utilizing a Xilinx FPGA Development Board and simulation software. The course covers component modeling, data flow description in VHDL, behavioral description of hardware, and VHDL applications. Upon completion, participants will be able to describe VHDL syntax and semantics, create synthesizable designs, use the Digilent Zybo Z7 development board, use the Xilinx Vivado toolset, and design simple and practical test-benches in VHDL.

Prerequisites for the course include familiarity with digital logic design, electrical engineering, or equivalent experience. Even individuals who are familiar with VHDL may find something new to learn, such as finite state machine design, the two-process design methodology, test-bench design, combinatorial and sequential logic, and extensible synthesizable designs that are reusable.

The course is divided into several sections, including Basics, Data types & operations, Concurrent statements, Sequential statements, Processes, Subprograms, Packages, Design for synthesis, Advanced topics, and Additional libraries. Each section covers different aspects of VHDL design, with a focus on developing practical skills and knowledge. This course is suitable for anyone looking to improve their understanding of VHDL and its practical applications in digital design.

4. FPGA Embedded Design, Part 1 – Verilog by Eduardo Corpeño, Marissa Siliezar (Udemy)

The course entitled “FPGA Embedded Design, Part 1 – Verilog” is offered by Eduardo Corpeño and Marissa Siliezar. The course aims to teach the basics of FPGA embedded application design, enabling students to design high-performance systems like professional equipment designers. The course is ideal for those who want to learn more about embedded application design techniques.

The course is focused on the FPGA design that students will learn. An FPGA is an integrated circuit that can behave as a logic circuit, and the programming of the desired behavior is done through a Hardware Description Language (HDL). Verilog is one of the most widely used HDLs, and it is the language that will be taught in this course. Students will learn the concurrent paradigm of Verilog and how to design digital systems with it.

The course consists of several sections, such as Introduction, Hardware Description Languages, Refresher on Digital Circuit Design, Verilog Hardware Description Language, Software Tutorial, Quick Overview of EDA Playground, Quick Overview of Modelsim, Coding Elements of Verilog, A Combinational System Example, A Sequential System Example, and Wrap Up.

The course is an opportunity to explore the other side of embedded systems: FPGA Embedded Design. It is suitable for those who want to learn more about FPGA design and how it can be used to create high-performance systems. The course will provide students with the necessary knowledge to design their own working designs.

5. FPGA Turbo Series – Implementing a UART by Jordan Christman (Udemy)

The “FPGA Turbo Series – Implementing a UART” course, instructed by Jordan Christman, teaches students how to develop a fully functional UART protocol to transmit and receive information. The course provides detailed explanations of the UART protocol structure and guides students through the FPGA design and development process to implement a functional UART on their FPGA development boards. The students will be able to individually control LED lights and display numbers on a 7-segment display using the fully functional UART.

The course provides VHDL design files as starting points for the students’ UART design, and the students will use Xilinx’s development tools to implement and debug their UART designs. This course is recommended for students with prior knowledge of VHDL, FPGA’s, and digital circuits, and is beneficial for anyone interested in improving their hardware design skills or working in engineering. Upon completing the course, students will have the necessary design files to implement a UART on any FPGA with minor modifications, and will have a comprehensive understanding of the design.

The course is divided into the following sections: Introduction to the Course, Universal Asynchronous Receiver Transmitter (UART), UART Transmitter FPGA Design, UART Receiver FPGA Design, UART Controller FPGA Design, UART Demonstration, Development Tools, and Conclusion.

6. FPGA Embedded Design, Part 2 – Basic FPGA Training by Eduardo Corpeño, Marissa Siliezar (Udemy)

The “FPGA Embedded Design, Part 2 – Basic FPGA Training Course” is an educational program that aims to teach learners about FPGA embedded application design. The course is taught by instructors Eduardo Corpeño and Marissa Siliezar.

This course provides a hands-on experience with an FPGA development board from Terasic. Learners will program a Cyclone V FPGA from Altera/Intel, using their development suite Quartus Prime.

The course is divided into two main parts: Foundations of FPGAs, where learners will learn about the essentials of FPGAs, and Hands-On Training, where learners will design some simple hardware and download it into an FPGA development board. No purchases are required for the second part, although having a personal board can be helpful for following along and tinkering in the future.

The course content is divided into the following sections: Introduction, Field Programmable Gate Arrays, The DE0-CV Board, The FPGA Development Process, Quartus Prime, An Example Design, and Epilogue.

7. FPGA Design and VHDL by Eduvance (Microchip Certified Trainer, AUP Trainer, CUA Trainer) (Udemy)

The FPGA Design and VHDL course provides instruction on digital design and FPGA design, utilizing VHDL as a language. The comprehensive course is designed to teach candidates the core concepts of digital systems design using FPGAs.

The course focuses on utilizing a Hardware Description Language (HDL) called VHDL, teaching candidates about each component of VHDL, and how various language constructs are applied in hardware design. Candidates are then offered the choice to perform real hardware experiments remotely, or simulate experiments using downloadable software.

The course is broken down into individual sections, including Understanding VHDL, Entity, Data Modes, Architecture, and Signals, Processes and Sequential Statements, Building Larger Designs Using Smaller Designs, Clock Dividers and Counters, and Designing Finite State Machines.

Overall, this course is designed for candidates interested in learning digital and FPGA design using VHDL, and provides a comprehensive and in-depth instruction on the topic.

8. High-Level Synthesis for FPGA, Part 1-Combinational Circuits by Mohammad Hosseinbady (Udemy)

High-Level Synthesis for FPGA, Part 1-Combinational Circuits is a course taught by Mohammad Hosseinbady. The course offers an introduction to high-level synthesis (HLS) design flow, with a focus on describing, debugging, and implementing combinational logic circuits on FPGAs using only C/C++ language. The course also aims to teach students the future of hardware design by using Xilinx HLS software and hardware platforms to demonstrate real examples and applications.

The course is designed for hardware or software engineers looking to utilise FPGAs for their exceptional performance and low power consumption. It is the first of a series of courses on HLS in designing hardware modules and accelerating algorithms on a target FPGA. While this course focuses on combinational circuits, the other courses in the series explain how to use HLS in designing sequential logic circuits, algorithm acceleration, and hybrid CPU+ FPGA heterogeneous systems.

The course includes a prologue and covers FPGA concepts, hardware/software setup, basic input/output, combinational circuits, C/C++ testbench, data types, conditional statements, seven segments, combinational loops, and integer arithmetic. There are also numerous quizzes and exercises for students to practice and master the proposed methods and approaches.

Moreover, the course contains two projects – Home_Alarm_System and Simple Calculator – for students to implement what they have learned. The projects offer hands-on experience in designing and implementing combinational circuits using HLS design flow.

9. Altera FPGAs: Learning Through Labs using VHDL by Jordan Christman (Udemy)

This course titled Altera FPGAs: Learning Through Labs using VHDL is taught by Jordan Christman and provides a hands-on approach to learning about FPGA through labs. The course focuses on VHDL implementation rather than theory, as writing and creating designs oneself is considered the most efficient way to learn VHDL. The course consists of 9 labs that cover topics such as BCD Display, Random Number Generator, Signed Multiplier, Barrel Shifter, Arithmetic Logic Unit, Temperature Sensor, Tilt Sensor, Microphone Interface, and Potentiometer Interface.

Each section of the course contains a specific topic that is briefly discussed, followed by a design to start with to complete the lab. Completed code solutions for each project will be available for download as a resource. Additionally, each section includes a setup lecture that explains how to set up the lab, along with a demonstration video as a reference for a working design.

The course content is structured with an introduction to the course, followed by Lab 1 – BCD Display, Lab 2 – Linear Feedback Shift Register, Lab 3 – Booth’s Algorithm, Lab 4 – Barrel Shifter, Lab 5 – ALU (Arithmetic Logic Unit), Lab 6 – Temperature Sensor Interface, Lab 7 – Tilt Sensor Interface, Lab 8 – Microphone Interface, Lab 9 – Potentiometer Interface, Lecture Explained Notes, and a Conclusion.

10. FPGA Design with MATLAB & Simulink by Digitronix Nepal (Udemy)

The “FPGA Design with MATLAB & Simulink” course offered by Digitronix Nepal focuses on designing FPGA based signal processing projects with the help of MATLAB/Simulink and FPGA design tool such as Xilinx VIVADO/ISE, using Xilinx System Generator and HDL Coder. The course aims to provide a complete design flow to the participants. The course covers topics such as FIR, IIR, LMS Filter Design, and OFDM Modulation Algorithm implementation on FPGA.

The course is divided into six sections, starting with the installation of MATLAB/Simulink and VIVADO/ISE. The second section introduces the participants to HDL Coder and System Generator, followed by a project with System Generator in section three. Advanced design with HDL Coder is covered in section four, while section five deals with advanced design using System Generator. The sixth section focuses on Zynq Development with System Generator and VIVADO. A bonus lecture is also included in the course.

MATLAB and Simulink are considered as the best tools for signal processing projects, while FPGA is the ideal hardware platform for such projects due to its flexibility and processing capabilities. The course enables participants to design FPGA based signal processing projects efficiently, using MATLAB/Simulink and FPGA design tool. The course is recommended for individuals who want to learn how to design FPGA based signal processing projects on MATLAB/Simulink.