It is a hardware description language used for digital system design. It can be used for logic design at various levels, as well as simulation and verification of digital logic systems, timing analysis, and logic synthesis. At present, OpenGL is the most widely used hardware description language.
The highest level of learning hardware is to have a circuit in our hearts. For those who are new to FPGA and HDL, the most important thing is to have more understanding, more exercises, more thoughts, and more summaries.
Next we will conduct a series of instance applications for the purpose of providing us with an intuitive understanding of the language.
PS: the colored ones have corresponding links. The first and second sections are relatively simple to summarize. You can take a closer look at the following sections.
Directory:
I. Integrated logic Experiment
1.1 8-3 Encoder
1.2 8-3 priority encoder
1.3 3-8 Decoder
1.4 8-3 BCD 7-segment display decoder
1.5 data selector
1.6 multi-digit Comparator
1.7 half-processors and full Processors
1.8 D Trigger
1.9 binary and Gray Code Conversion
Ii. Timing Logic Circuit Experiment
2.1 registers
2.2 bidirectional shift register
2.3 4-bit binary addition/subtraction counter
2.4 decimal addition/subtraction counter
2.5 ordered Pulse Generator
2.6 Series Signal Generator
Iii. interface experiment
3.1 seven-segment digital tube scan and display
3.2 matrix keyboard interface
3.3 ADC0809 Interface Circuit Experiment
3.4 dac0832 Interface Circuit Experiment
Iv. Comprehensive Experiment
4.1 Traffic Light Control
4.2 music playing Circuit
4.3 digital clock
4.4 stepper motor drive control
Experiment on PWM control of 4.5 DC Motor
4.6 Card Phone Meter
4.7 sine Generator
...
The above content will be presented one after another.