Graphic Design Interface
Experimental Manuals FII-PRA040 FPGA Board Based FPGA Tutor Risc-V

Combined With the BCD_Counter Project to Achieve the Display of the Digital Clock, Master the Design Method of Graphics From Top to Bottom – Block/SCH – Altera Risc-V Board PRA040 Experimental 4

Experiment 4 Block/SCH 4.1 Experiment Objective Review building new FPGA projects in Quartus, device selection, PLL creation, PLL frequency setting, Verilog’s tree hierarchy design, and the use of SignalTap II Master the design method of graphics from top to bottom Combined with the BCD_counter project to achieve the display of the digital clock Observe the experimental results 4.2 Experiment Implement Use schematics design to build the project. 4.3 Experiment This experiment is mainly to master another design method. The other design contents are basically the same as the experiment 3…

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Experimental Manuals FII-PRA040 FPGA Board Based FPGA Tutor Risc-V Risc-V Core

Frequency Division Design, Learn the BCD Code Counter, Digital Display Decoding Design, Segment Display – Altera Risc-V Board PRA040 Experimental 3

Experiment 3 Segment Display 3.1 Experiment Objective Review experiment 1, proficient in PLL configuration, frequency division design, and project verification; Learn the BCD code counter; Digital display decoding design; Learn to program the project into the serial FLASH of the development board; 3.2 Experiment Implement The segment display has two lower digits to display seconds, the middle two digits to display minutes, and the highest two digits to display hours. The decimal point remains off and will not be considered for the time being. 3.3 Experiment 3.3.1 Introduction to the…

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Experimental Manuals FII RISC-V3.01 CPU FII-PRA040 FPGA Tutor Risc-V Risc-V Core

Master the Design of the Frequency Divider to Implement the Shifting – LED LED Shifting – Altera Risc-V Board PRA040 Experimental 1

Experiment 1 LED shifting 1.1 Experiment Objective Practice to use Quartus II to create new projects and use system resources IP Core; Proficiency in the writing of Verilog HDL programs to develop a good code writing style; Master the design of the frequency divider to implement the shifting LED; Combine hardware resources to perform FPGA pin assignment and implement actual program downloading; Observe the experiment result and summarize it. 1.2 Experiment Implement Use all LEDS, all light up during reset; End reset, LED lights from low to high (from right…

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Experimental Manuals FPGA for Beginners Pocket Boards PRA006/PRA010

Understand What Ethernet is and How it Works, the Relationship Between Different Interface Types (MII, GMII, RGMII) , Ethernet Experiment – FPGA Beginner Study Board PRA006, PRA010 Experiment 14

Experiment 14 Ethernet Experiment 14.1 Experiment Objective Understand what Ethernet is and how it works Familiar with the relationship between different interface types (MII, GMII, RGMII) and their advantages and disadvantages (the development board uses RGMII) Combine the development board to complete the transmission and reception of data and verify it 14.2 Experiment Implement Perform a loopback test to check if the hardware is working properly. Performing data verification Perform data transmission verification 14.3 Experiment 14.3.1 Experiment Principle Ethernet is a baseband LAN technology. Ethernet communication is a communication method…

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Experimental Manuals FPGA for Beginners FPGA Tutor PRA006/PRA010

Design a simple customized VGA image display, Master the principle of VGA implementation, VGA Experiment – FPGA Beginner Study Board PRA006, PRA010 Experiment 13

Experiment 13 VGA Experiment 13.1 Experiment Objective Master the principle of VGA implementation Design a simple customized VGA image display 13.2 Experiment Implement A color bar graphic is implemented on the screen. 13.2 Experiment 13.2.1 VGA Principle VGA (Video Graphics Array) is a computer display standard that IBM introduced in 1987 using analog signals. VGA is a low standard that is supported by most manufacturers. PCs must support the VGA standard before loading their own unique drivers. The VGA scanning mode on the display is divided into progressive scanning and…

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Experimental Manuals FPGA for Beginners FPGA Tutor PRA006/PRA010

The knowledge of the IIC protocol, the Theory of AD Conversion, AD, DA Experiment – FPGA Beginner Study Board PRA006, PRA010 Experiment 12

Experiment 12 AD, DA Experiment 12.1 Experiment Objective Since in the real world, all naturally occurring signals are analog signals, and all that are read and processed in actual engineering are digital signals. There is a process of mutual conversion between natural and industrial signals (digital-to-analog conversion: DAC, analog-to-digital conversion: ADC). The purpose of this experiment is as follows: Learn about the theory of AD conversion Review the knowledge of the IIC protocol learned in the previous experiment and write the data into PCF8591 on the development board. Read the…

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scheme of series ports
Experimental Manuals FPGA for Beginners Pocket Boards PRA006/PRA010

Asynchronous Serial Port Communication, Handshake Mechanism and Data Frame Strcuture, Asynchronous Serial Port Design and Experiment – FPGA Beginner Study Board PRA006, PRA010 Experiment 10

Experiment 10 Asynchronous Serial Port Design and Experiment 10.1 Experiment Objective Because asynchronous serial ports are very common in industrial control, communication, and software debugging, they are also vital in FPGA development. Study the basic principles of asynchronous serial port communication, handshake mechanism and data frame strcuture Master asynchronous sampling techniques Review the frame structure of the data packet Learn to use FIFO Joint debugging with common debugging software of PC (SSCOM, Tera Term, etc.) 10.2 Experiment Implement Design and transmit full-duplex asynchronous communication interface Tx, Rx Baud rate of…

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Experimental Manuals FPGA for Beginners FPGA Tutor Pocket Boards PRA006/PRA010

Configure and Use Dual-port RAM, Use Dual_port RAM to Read and Write Frame Data – FPGA Beginner Study Board PRA006, PRA010 Experiment 9

Experiment 9 Use Dual_port RAM to Read and Write Frame Data 9.1 Experiment Objective Learn to configure and use dual-port RAM Learn to use synchronous clock to control the synchronization of frame structure Learn to use asynchronous clock to control the synchronization of frame structure Experiment Implement Observing the synchronization structure of synchronous clock frames using SignalTap II Extended the use of dual-port RAM Design the use of three-stage state machine Design a 16-bit data frame Data is generated by an 8-bit counter: Data={~counta,counta} The ID of the data frame…

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Experimental Manuals FPGA for Beginners FPGA Tutor Pocket Boards PRA006/PRA010

Study the Format of *.mif File and How to Edit *.mif File ,Study the Internal Memory Block of FPGA,Use of ROM – FPGA Beginner Study Board PRA006, PRA010 Experiment 8

Experiment 8 Use of ROM 8.1 Experiment Objective Study the internal memory block of FPGA Study the format of *.mif and how to edit *.mif file to configure the contents of ROM Learn to use RAM, read and write RAM 8.2 Experiment Implement Design 16 outputs ROM, address ranging 0-255 Interface 8-bit switch input as ROM’s address Segment display illustrates the contents of ROM and require conversion of hexadecimal to BCD output. 8.3 Experiment 8.3.1 Introduction to Program This experiment was carried out on the basis of Experiment 7, and…

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Experimental Manuals FPGA Board Based FPGA for Beginners PRA006/PRA010

Binary Numbers or Hexadecimal Number to BCD Code Conversion and Application – FPGA Beginner Study Board PRA006, PRA010 Experiment 7

Experiment 7 Hexadecimal Number to BCD Code Conversion and Application Experiment Objective Learn to convert binary numbers to BCD code (bin_to_bcd) Learn to convert hexadecimal numbers to BCD code (hex_to_bcd) 7.2 Experiment Implement Combined with experiment 6, display the results of the operation to the segment display. 7.3 Experiment 7.2.1 Introduction to the Principle of Converting Hexadecimal Number to BCD Code Since the hexadecimal display is not intuitive, decimal display is more widely used in real life. Human eyes recognition is relatively slow, so the display from hexadecimal to decimal…

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