
Learn how to describe a pipelined RISC-V block diagram using transaction-level Verilog, covering combinational and sequential logic, pipeline interactions, and hardware verification on the Maker Chip platform.
Revisit fibonacci as a pipeline with explicit fetch, decode, and execute stages; show parameterizable staging, hazards, and a validity signal for clearer, correct transaction-level verilog modeling.
Demonstrate a time-division multiplexing exercise by implementing reset handling and a valid pulse every fourth cycle from a template, using chained ternaries to pack the count into a 3-bit payload.
Do you want to build just verilog models or high-quality verilog models in half the time?
Have you implemented a processor using Verilog? Which was the most important part of your implementation? What was your code size in Verilog? What if, we told you that you can reduce your verilog code size by about 3.5x by a new technology? What if, we told you that you can create any digital sequential logic you can dream up faster than you ever thought possible, all within your browser?
How about a ‘change’? Change the way you used to write your verilog code. Change the way you used to implement Pipelining for your processor. Change is the only “constant”. I encourage and welcome you to think in the right direction with experts from this field in my webinar on “Pipelining RISC-V with Transaction-Level Verilog” which was conducted on 10th Feb’ 2018 with Steve Hoover, Founder of Redwood EDA and Makerchip Platform
This webinar is really important for people who have taken up my RISC-V ISA course on Udemy, as we will show efficient RTL implementation of some instructions in this one.
Enjoy the webinar and Happy Learning....