Build a RISC-V CPU in VHDL from Scratch

Hands-on RISC-V CPU design with VHDL, C firmware, SoC integration and FPGA

Design a RISC-V CPU from scratch — and run it on FPGA.

This course takes you step by step through the complete design of a RISC-V CPU in VHDL, starting from RISC-V specification and ending with a fully working System on Chip built around the RISC-V CPU and running C firmware on FPGA.

You will start by implementing a RISC-V CPU from scratch, learning how instructions are decoded, executed, and connected to memory at the RTL level. The design then evolves into a complete System-on-Chip, where you will integrate peripherals, define the memory map, and connect hardware to software.

A key focus of the course is the hardware–software interface. You will learn how bare-metal software actually works, including stack initialization, linker scripts, startup code, and C firmware integration. To ensure correctness and confidence, the CPU is validated using unit tests and simulations before moving to FPGA.

By the end of this course, you will be able to:

• Design a RISC-V CPU in VHDL from scratch

• Verify your design with unit tests and simulation

• Build and understand a complete RISC-V SoC

• Write and run C firmware on your own processor

• Use linker scripts, stack setup, and startup code

• Deploy and test your design on FPGA

This course is ideal for:

• FPGA and ASIC engineers seeking deep CPU design knowledge

• Embedded software engineers wanting to understand what runs below C

• Students aiming to build a strong, differentiating hardware project

• Anyone who wants a true end-to-end RISC-V learning experience

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Limited-time discount for learners:

Use this instructor coupon to get the course at the lowest price: F1591D814B0CD01576B4