CMOS VLSI Gate Design
The only way to become a good chip designer is to design chips. This is the first of five labs in which you will use the Electric VLSI Design System to design the 8-bit MIPS microprocessor described in the CMOS VLSI Design book.
CMOS VLSI Full Adder Design
The objective of this lab is to complete a design of a nontrivial circuit, a full adder. Recall that a full adder accepts three inputs and computes a sum and a carry out. There are many ways to approach this problem.
CMOS VLSI Design Datapath and Zipper Assembly
Most of the processor datapath has been provided for you, but the Arithmetic/Logic Unit (ALU) is missing from each bitslice.You will first draw an ALU using your full adder,AND, and OR gates.
CMOS VLSI Design Controller Design
The controller for your MIPS processor is responsible for generating the signals to the datapath to fetch and execute each instruction. It lacks the regular structure of the datapath.
CMOS VLSI Design Microprocessor Assembly
In this final lab, you will assemble and simulate your entire MIPS microprocessor! You will first put together the top-level schematic and simulate that it executes MIPS instructions properly.
CMOS VLSI Design Final Project
The final project is a chance for you to apply your new skills in VLSI design to a moderate sized problem of your choosing as part of a two-person team. You should begin thinking about a project and teammate right away.
Introduction to CMOS VLSI
Syllabus � About the Instructor � Office Hours & Lab Assistant Hours � Labs, Problem Sets, and Project � Grading � Collaboration
Circuits & Layout to CMOS VLSI Design
Notes on Circuits & Layout.
Introduction to CMOS VLSI Design - Free eBook Introduction to CMOS VLSI Design - Download ebook Introduction to CMOS VLSI Design free
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