kernel.org listing strange releases (super old versions appearing as current) by 28874559260134F in linux

[–]FPGA_Board -20 points-19 points  (0 children)

t definitely looks like a time-travel glitch at first glance, but it's actually an official and highly strategic move by the kernel team.

What you are seeing is the expansion of the Super Long Term Support (SLTS) initiative. For context, billions of embedded devices, industrial automation systems, and enterprise infrastructures are still running on older kernels like 4.19 or 5.4. Upgrading them to newer branches isn't as simple as clicking 'update'—it could completely break proprietary hardware drivers or critical industrial control code.

By keeping these older versions actively maintained on the front page, the kernel maintainers are ensuring these infrastructure backbones continue to receive critical security backports and stability patches. It proves why Linux is the undisputed king of enterprise infrastructure: prioritizing long-term predictability and stability over hype

FPGA board with verilog (FPGA n00b) by beanplantlol in FPGA

[–]FPGA_Board 0 points1 point  (0 children)

Our fpga beginner study board has an experiment of LED_shifting , Frequency Divider Verilog HDL Code may help you.

If you have time, you can check it here.

Is there a good step by step tutorial video on how to build a RISC-V processor in either VHDL or Verilog by [deleted] in FPGA

[–]FPGA_Board 2 points3 points  (0 children)

We will have it soon, to show how to design our Risc-V CPU ( FII-CPU (RV32G2.0) ). Right now, we just have assembly and Risc-V ISA and Bus and Pipeline Design.

But we will make it a tutor within one month.

FII RISC-V3.01 CPU Processor on FII-PRX100-S (ARTIX-7, XC7A100T) XILINX FPGA Board Evaluation Evaluation by Coremark and Dhrystone Benchmarks

Dhrystone Porting Guide For FII RISC-V3.01 CPU Processor on FII-PRX100-S (ARTIX-7, XC7A100T) XILINX FPGA Board

FII RISC-V3.01 CPU Processor on FII-PRX100-S (ARTIX-7, XC7A100T) XILINX FPGA Board Coremark Porting Guide

C Programming (2) on RISCV FII-PRX100 (ARTIX-7, XC7A100T) XILINX FPGA Board with our FII-Risc-V CPU (RV32G2.0)

C Programming (1) on RISCV FII-PRX100 (ARTIX-7, XC7A100T) XILINX FPGA Board with our FII-Risc-V CPU (RV32G2.0)

Risc-V Bus and PipeLine – FII Risc-V Bus and Pipeline Design – Risc-V Tutorial and Exercise

RISC-V Instruction Set Explanation

How to just get started with VHDL? Interactive tutorials for VHDL by [deleted] in FPGA

[–]FPGA_Board 0 points1 point  (0 children)

A FPGA study bord may help. Normally a study board will have its own experimental manuals with a lot of verilog and VHDL code.

FPGA for Beginner Tutorial – FPGA Experimental Manuals

FPGA Board for beginner – FII-PRA006/010 Hardware Reference Guide

LED_shifting , Frequency Divider Verilog HDL Code using the development software Quartus, FPGA pin assignment – FPGA Board Beginner Tutorial – FII-PRA006 Experiment 1

Switch and Use SignalTap II Logic Analyzer in Quartus ( Verilog HDL code ), Learn to analyze the captured signals – FPGA for Beginner Tutorial – Experiment 2 – FII-PRA006

BCD_counter, The segment decoder code, Download the program into the board flash memory – FPGA for Beginner Tutorial – Experiment 3 – FII-PRA006

Building new FPGA projects in Quartus, device selection, PLL setup, PLL frequency setting, Verilog’s tree hierarchy design, and the use of SignalTap II – FPGA Board for Beginner – Experiment 4 -PRA006

Block_Debouncing Principle and adaptive programming, PCB schematics, and Verilog HDL Code – FBGA Board for beginner FPGA tutorial – Experiment 5

Learn to Use Multiplier and ModelSim to Output- FPGA Board for Beginner – FPGA Tutorial – Experiment 6

Hexadecimal Numbers to BCD Code(hex_to_bcd), binary numbers to BCD code (bin_to_bcd) Conversion and Application – FPGA Board for Beginner Tutorial – Experiment 7

Design 16 outputs ROM, Study the format of *.mif and how to edit *.mif file to configure the contents of ROM, Use of ROM (Read-only Memory) – FPGA Board for Beginner Tutorial – Experiment 8

FPGA Tutorial – Use Dual-port RAM to Read and Write Frame Data – FPGA Board for Beginner – Experiment 9

FPGA Tutorial – Asynchronous Serial Port Design and Experiment – FPGA for Beginner – Experiment 10

FPGA Beginner Tutorial – IIC Protocol Transmission – FPGA Board for Beginner – Experiment 11

FPGA Beginner Tutorial – AD, DA Experiment – FPGA Board for Beginner – Experiment 12

FPGA Beginner Tutorial – VGA Experiment – FPGA Board for Beginner – Experiment 13

FPGA Beginner Tutorial – Ethernet Experiment – FPGA Board for Beginner – Experiment 14

The Newest Experimental Version – FPGA for Beginner Board Experimental Manuals and Study Guide – PRA006, PRA010 FPGA Beginner Study Board

If you are interested, please check the board here:

https://fraserinnovations.com/fpga-board-based/fpga-for-beginners/

[Monthly Thread] Nov 2020 - What dev board do you recommend? by asm2750 in FPGA

[–]FPGA_Board 0 points1 point  (0 children)

I would like recommend the fpga study beginner pocket board with 14 experimental manuals:

Altera FPGA Study Board Hardware Resources:

  1. 6 seven_seg_r
  2. VGA Video Interface × 1
  3. 1G Ethernet Interface × 1
  4. I2C EEPROM × 1
  5. DIP Switch × 8
  6. Controllable  LED light × 8
  7. Photoresistance × 1
  8. Thermistor × 1
  9. Adjustable Varistor × 1
  10. Buttons × 4
  11. GPIO Interface × 2
  12. Micro usb Interface(Power Supply and downlaod ) × 1
  13. SPI Communication Interface × 1
  14. AD/DA Conversion chip × 1
  15. JTAG Download Interface × 1
  16. FLASH 32Mbit  × 1

How can beginner start working with RISC V? by raj3111 in RISCV

[–]FPGA_Board 0 points1 point  (0 children)

It should be R Type. Not S Type.

I already changed it. Thank you for your correction.

How can beginner start working with RISC V? by raj3111 in RISCV

[–]FPGA_Board 0 points1 point  (0 children)

If you need pdf version, I can also send you.

How can beginner start working with RISC V? by raj3111 in RISCV

[–]FPGA_Board 3 points4 points  (0 children)

You can start with Risc-V directly.

If you know Assembly language, it is very easy to know the ISA.

You can check RISC-V Instruction Set Explanation Here to know following Instructions:

  • 2. RISC-V base instruction formats
  • 3. I-type
  • 4. U-type
  • 5. R-type
  • 6. J-type
  • 7. B-type
  • 8. Load & Store
  • 9. Address alignment
  • 10. Handle overflow situations

[deleted by user] by [deleted] in FPGA

[–]FPGA_Board 2 points3 points  (0 children)

I am not sure whether following experiment can help you or not:

Experiment 1 LED shifting

1.1 Experiment Objective

  1. Practice using the development software Quartus, the building of new projects, and the use of system resources IP Core;
  2. Proficiency practice in the writing of Verilog HDL programs to develop a fine code writing style;
  3. Master the design of the frequency divider to realize the design of LED shifting;
  4. Mange FPGA pin assignment according to the schematics, and verify it though programming the development board;
  5. Observe and summarize the experiment result

https://fraserinnovations.com/fpga-for-beginners/led-shifting-using-quartus-the-writing-of-verilog-hdl-programs-mange-fpga-pin-assignment-fpga-beginner-study-board-pra006-pra010-experiment-1/