System Design using Verilog
FPGA Based Design
Description
After completion of this course learners will be able to:
(1) Understand the concepts design metrics which are to be optimized by a design engineer
(2) Understand the concepts of IC design technology
(3) Understand the implementation of logic using Fixed Function IC Technology, Full Custom ASIC Technology, and Semi-Custom ASIC Technology
(4) Understand the advantages and disadvantages of implementation of logic using Fixed Function IC Technology, Full Custom ASIC Technology, and Semi-Custom ASIC Technology
(5) Understand the concept of implementation of logic in PLDs
(6) Understand the concept of implementation of logic in FPGA
(7) Understand the IC design flow
(8) Understand the role of HDL in system design
(9) Understand the concepts of various Verilog language constructs
(10) Understand various operators and their uses in Verilog coding
(11) Understand how to use Xilinx software for writing a Verilog code
(12) Understand how to use Xilinx software for simulating a Verilog code
(13) Understand how to use Xilinx software for implementing a Verilog code
(14) Implement combinational logic by using behavioral modeling style
(15) Implement combinational logic by using dataflow modeling style
(16) Implement combinational logic by using structural modeling style
(17) Implement sequential logic by using behavioral modeling style
(18) Implement sequential logic by using dataflow modeling style
(19) Implement sequential logic by using structural modeling style
(20) Implement logic by using mos transistors
What You Will Learn!
- Verilog coding for digital circuits
Who Should Attend!
- Students who are interested to write and simulate verilog codes written for combinational and sequential circuits