About Xilin DSP System Generator1 course
What you'll learn
This technical training course provides training on Xilinx System DSP Generator.
This course is a thorough introduction to the DSP Design Flow using MATLAB Simulink/Xilinx System Generator.
It also covers Generation of Verilog/VHDL from Net list system generator block.
This course combines Theory with practical lab exercises to reinforce key concepts.
The course is designed for engineers who are already having sound knowledge on Digital Electronics/Logic Design, Knowledge of Verilog HDL and FPGA DSP concepts MATLAB-SIMULNK Tool Basics.
To gain an Understanding MATLAB- SIMULINK and Xilinx System Generator Tool Flow.
Build Design Blocks for simulation Create a Finite State Machine (FSM) by using Xilinx System Generator.
Target and optimize Xilinx FPGAs by using Xilinx System Generator To Do HDL-Co simulation Download to the evaluation demoboard
MATLAB Introduction
Simulink Introduction
Designing with Simulink
Building Blocks in Simulink
Explore the Simulink interface and block libraries
Creating and editing a simple Simulink model
Defining system inputs and outputs
Simulating the model and analyzing results
Designing filters in Simulink
Converting filters to fixed point
Design Creation Basics
Basic concepts of creating a design using System Generator
Basics of building a design in System Generator
Simulate a design in System Generator
Run the System Generator token to generate a Xilinx FPGA bit stream
Create a subsystem
Improve performance using dedicated Xilinx FPGA math functions
Signal Routing
Understanding how signal routing blocks can be used redefine or modify a fixed-point number at the bit level Convert a fixed-point number into a new fixed-point number Slice bits from a fixed-point number Pad and Unpad a fixed-point number
System Control
Create a finite state machine using the Mcode block in System Generator
Creating FSM using Inbuilt sys gen block
Multi Rate systems
Sample rates in a DSP System
Up Sampling
Down Sampling
Convert a serial stream of data to a parallel word
Convert a parallel word of data into a serial stream
Memory Design
Using a Xilinx ROM block to implement a LUT-based operation block or distributed RAM
Use a Xilinx ROM block to implement a trig or math function such as arcsin
Filter Design
Use the Matlab FDA tool to generate and set the filter coefficients
Use the Xilinx FIR Compiler to generate various filter implementations
Modulation Demodulation Design
BPSK Mod demod design
QPSK Design
FSK Design
ASK Design