Building a Processor with Verilog HDL from Scratch
Building a Processor with Verilog HDL from Scratch, available at $54.99, has an average rating of 4.5, with 64 lectures, based on 135 reviews, and has 868 subscribers.
You will learn about Startegies to implement Verilog based CPU Buliding Custom Intruction Set to meet resource utilizations Strategies to add Program and Data Memory inside Processor Strategies to add Jump and Branching Instructions inside Processor This course is ideal for individuals who are Anyone Interested to build Custom CPU on FPGA for Load Sharing It is particularly useful for Anyone Interested to build Custom CPU on FPGA for Load Sharing.
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Summary
Title: Building a Processor with Verilog HDL from Scratch
Price: $54.99
Average Rating: 4.5
Number of Lectures: 64
Number of Published Lectures: 64
Number of Curriculum Items: 67
Number of Published Curriculum Objects: 67
Original Price: ₹1,499
Quality Status: approved
Status: Live
What You Will Learn
- Startegies to implement Verilog based CPU
- Buliding Custom Intruction Set to meet resource utilizations
- Strategies to add Program and Data Memory inside Processor
- Strategies to add Jump and Branching Instructions inside Processor
Who Should Attend
- Anyone Interested to build Custom CPU on FPGA for Load Sharing
Target Audiences
- Anyone Interested to build Custom CPU on FPGA for Load Sharing
Most of the 21st-century applications require powerful hardware but also along with the centralized controller allowing the development of complex algorithms. As we enter into the AI or Cloud-based devices and as systems complexity is growing daily, the need for incorporating multiple processor instances becomes mandatory as we progress in the AI era. Zynq and Microblaze are two popular alternatives that exist in the market suitable for almost any application requirements. The requirements of using Multiple instances of Processor viz. Multiple instances of Microblaze soft processor or using a hard processor such as Zynq Processor along with single or multiple instances of Microblazer become necessary to independently handle both Data processing and control requirements. The fundamental challenge of incorporating multiple instances of Soft processors like Microblaze is the number of resources consumed for implementing Microblaze on the FPGA. Since FPGA consists of a limited amount of the FPGA resources, hardware and Software partition plays a prominent role in building complex systems. Another popular alternative approach followed by Embedded Engineers to build a Custom CPU / Processor with the only required functionality thereby saving a large amount of the resources as compared to adding Microblaze instance. The course will discuss all the fundamentals required to build a simple processor/ CPU with Verilog HDL and strategies to test its functionality. After completing this course, you will understand all the necessary skills required to build Complex CPU architecture to meet requirements. Best wishes for crafting your own processor.
Course Curriculum
Chapter 1: Adding Arithmetic Unit
Lecture 1: Understanding Processor architecture
Lecture 2: Agenda
Lecture 3: Types of Instructions
Lecture 4: Addressing Modes
Lecture 5: Understanding Intruction Register
Lecture 6: Adding Instruction Register and GPR to Processor
Lecture 7: Understanding Arithmetic and Move intructions of Processor
Lecture 8: Adding MOV Instructions
Lecture 9: Adding Arithmetic Instructions
Lecture 10: Adding TB to verify Instructions P1
Lecture 11: Adding TB to verify Instructions P2
Lecture 12: Design Code
Lecture 13: Testbench Code
Lecture 14: OneNote Slides
Chapter 2: Adding Logical Unit
Lecture 1: Agenda
Lecture 2: Supported Logical Operations
Lecture 3: Adding Logical operations to RTL
Lecture 4: Adding TB to verify Logical Operations
Lecture 5: Analyzing RTL output
Lecture 6: Design Code
Lecture 7: Testbench Code
Lecture 8: OneNote Slides
Chapter 3: Adding Conditions Flags
Lecture 1: Agenda
Lecture 2: Condition flags usage
Lecture 3: Logic for Carry flag
Lecture 4: Logic for Sign, and Zero Flag
Lecture 5: Logic for Overflow flag
Lecture 6: Adding Sign flag to RTL
Lecture 7: Adding Carry flag to RTL
Lecture 8: Adding Zero flag to RTL
Lecture 9: Adding Overflow flag to RTL
Lecture 10: Verifying operation of condition flags
Lecture 11: Design Code
Lecture 12: Testbench Code
Lecture 13: OneNote Slide
Chapter 4: Adding Program and Data memory
Lecture 1: Agenda
Lecture 2: Processor architecture based on Memory model
Lecture 3: Working with Memory Generator IP
Lecture 4: Code
Lecture 5: COE File
Lecture 6: Working with Verilog arrays
Lecture 7: Code
Lecture 8: Adding Memory to Processor RTL P1
Lecture 9: Converting independent always block to tasks
Lecture 10: Adding logic to read Instructions from Program Memory after fixed delay
Lecture 11: Adding Instructions to work with Ports and Data Memory
Lecture 12: Program use for testing operation of RTL
Lecture 13: Adding TB to verify operation of RTL
Lecture 14: Design Code
Lecture 15: Testbench Code
Lecture 16: OneNote Slides
Chapter 5: Adding Jumping and Branching Instructions
Lecture 1: Agenda
Lecture 2: Branch and Jump Instructions our processor support
Lecture 3: Operation of Jump Instructions
Lecture 4: Adding Jump instructions to Processor RTL
Lecture 5: Modifying FSM to incorporate Jump, Branch and Halt : Flowchart
Lecture 6: Adding FSM to RTL
Lecture 7: Testing existing program with new FSM
Lecture 8: Code to Verify Jump and Branch Instructions
Lecture 9: Executing Testbench Code
Lecture 10: Design Code
Lecture 11: Testbench Code
Lecture 12: Program memory content
Lecture 13: OneNote Slides
Instructors
-
Kumar Khandagle
Trainer @ NAMASTE FPGA
Rating Distribution
- 1 stars: 1 votes
- 2 stars: 1 votes
- 3 stars: 11 votes
- 4 stars: 46 votes
- 5 stars: 76 votes
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