rt-thread-official/bsp/zynqmp-r5-axu4ev
Meco Man 3606065803 [lwip] remove lwip 2.0.2
- 移除2.0.2,该版本存在几个重要的bug,已经在2.0.3中修复,作者强烈建议更新
- 将部分bsp由2.0.2调整为2.0.3
2022-01-20 20:54:51 +08:00
..
applications format files in zynqmp-r5-axu4ev bsp 2021-05-14 14:42:21 +08:00
drivers format codes 2022-01-09 07:44:32 -05:00
.config [lwip] remove lwip 2.0.2 2022-01-20 20:54:51 +08:00
Kconfig bsp: 2020-11-30 13:13:08 +08:00
README.md add ethernet driver for zynqmp-r5-axu4ev 2021-05-13 16:33:40 +08:00
README_zh.md add ethernet driver for zynqmp-r5-axu4ev 2021-05-13 16:33:40 +08:00
SConscript bsp: 2020-11-30 13:13:08 +08:00
SConstruct [update] CFLAGS 2021-12-17 14:28:40 +08:00
rtconfig.h [lwip] remove lwip 2.0.2 2022-01-20 20:54:51 +08:00
rtconfig.py format files in zynqmp-r5-axu4ev bsp 2021-05-14 14:42:21 +08:00
zynqmp-r5.ld bsp: 2020-11-30 13:13:08 +08:00

README.md

AXU4EV-E BSP (Board Support Package) Execution Instruction

中文页 |

Introduction

This document records the execution instruction of the BSP (board support package) for the AXU4EV-E development board.

The document is covered in three parts:

  • AXU4EV-E Board Resources Introduction
  • Quickly Get Started
  • Advanced Features
  • BSP Migration

By reading the Quickly Get Started section developers can quickly get their hands on this BSP and run RT-Thread on the board. More advanced features will be introduced in the Advanced Features section to help developers take advantage of RT-Thread to drive more on-board resources.

AXU4EV-E Resources Introduction

ALINX AXU4EV-E: Xilinx Zynq UltraScale+ MPSOC XCZU4EV-1SFVC784I Ethernet FPGA development board, the SoM Core board is the smallest system, mainly composed of XCZU4EV-1SFVC784I + 5 DDR4 + eMMC + 1 QSPI FLASH. The Carrier board expands a wealth of peripheral interfaces for the core board, including 1 SATA M.2 interface, 1 DP output interface, 4 USB3.0 interfaces, 2 Gigabit Ethernet interfaces, 2 UART interfaces, 1 SD card interface, 2*40-pin Expansion Connectors for Modules, 2 CAN bus interfaces, 2 RS485 interfaces, 1 MIPI interface, Keys and LEDs. High-speed data exchange and transmission, data storage, pre-verification and post-application of data processing, video transmission processing, deep learning, artificial intelligence and industrial control, is a professional ZYNQ development platform. suitable for students, engineers and other groups engaged in the development of MPSoCs.

For more details about this board, please refer to Alinx Electronic Technology (Shanghai) Co.,Ltd.

Peripheral Condition

Each peripheral supporting condition for this BSP is as follows:

Core Support Remark
R5-CPU0 Support The R5-CPU0 is running the system
On-board Peripherals Support Remark
None
On-chip Peripherals Support Remark
GPIO Support
UART Support UART0
TIMER Support TTC0 provides system clock
EMMC Support SD0 Controller
EMAC Support e0 Net Interface

Execution Instruction

Quickly Get Started

This BSP only support the GCC development environment. Here's an example to introduce how to run the system.

Compile and Download

  1. Open the env tool under BSP. Enter scons to compile.

  2. After compiling, rtthread-zynqmp-r5.elf file will be generated in BSP directory.

  3. Use Xilinx Vitis to generate fsbl, and then create "Debug Configuration", select the rtthread-zynqmp-r5.elf file as the application.

  4. Use the debugger to connect the PC and the development board. Set the dial switch to JTAG to start. Then connect the power supply. Click start debugging or running.

    Since the compiler has debugging information by default (see rtconfig.py In BUILD, so when debugging in Xilinx Vitis, you can also open source files to set breakpoints for debugging.

Software Solidification

  1. Open the env tool under BSP. Enter scons to compile.

  2. After compiling, rtthread-zynqmp-r5.elf file will be generated in BSP directory.

  3. Use Xilinx Vitis or Xilinx SDK to generate fsbl, and then use the bootgen tool provided by Xilinx to make fsbl BOOT.bin Documents.

    For example, use the command line:

     bootgen -image ./output.bif -arch zynqmp -o ./BOOT.bin -w on
    

    And the outpu.bif file could be

    //arch = zynqmp; split = false; format = BIN
    the_ROM_image:
    {
         [bootloader, destination_cpu = r5-0]./fsbl.elf
         [destination_cpu = r5-0, exception_level = el-3]./rtthread-zynqmp-r5.elf
    }
    
  4. According to the document provided by Alinx, put BOOT.bin into SD card or burn to QSPI flash, set the startup mode through dial switch, and then connect the power supply to start.

Running Results

Once the project is successfully downloaded, the system runs automatically.

Connect the serial port of the board to PC, communicate with it via a serial terminal tool (115200bps, 8N1). Restart the board and the startup information of RT-Thread will be observed:

 \ | /
- RT -     Thread Operating System
 / | \     4.0.3 build Nov 27 2020
 2006 - 2020 Copyright by rt-thread team
msh />

Advanced Features

This BSP enables EMMC driver and DFS file system by default. If you need to use a file system, you can format and mount it by yourself.

This BSP is enabled and configured with net interface driver and LwIP protocol stack by default, and note the following configuration:

  1. Note that RT_LWIP_PBUF_NUM is set to at least 256

  2. Note that RT_ LWIP_ MEM_ Alignment is set to 32. If the version other than lwip 2.0.2 in RTT is used, the MEM_ALIGNMENT in lwipopts.h needs to be modified manually because the macro is not used in other versions.

BSP Migration

If you need to ported the BSP to another development board of Xilinx Zynq UltraScale+ MPSOC development platform, it is also convenient. The main modifications are as follows:

  1. Memory: psu_r5_ddr_0_MEM_0 in zynqmp-r5.ld and HEAP_END in board.h (if DDR memory is less than 2G)
  2. Main Frequency: XPAR_CPU_CORTEXR5_0_CPU_CLK_FREQ_HZ in zynqmp-r5.h
  3. Pin and Frequency of Serial Port: rxmio, txmio and XPAR_PSU_UART_0_UART_CLK_FREQ_HZ in drv_uart.c
  4. Timer Frequency: XPAR_PSU_TTC_0_TTC_CLK_FREQ_HZ in drv_timer.c
  5. SD Controller: Block device driver initialization in drv_sdcard.c
  6. Net interface: If the PHY chip used is not in the range of driver support, it may be necessary to realize the rate identification function of the corresponding chip in xemacpsif_physpeed.c. You can refer to the corresponding tutorial of Alinx.

The parameter macro definition in xparameters.h does not need to be modified manually. You can directly copy the xparameters.h file of the development board generated in Xilinx Vitis.

Attention

-None

Contact

Maintainer: