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DE1-GHRD

时间:2019-02-26 15:18:46      阅读:135      评论:0      收藏:0      [点我收藏+]

标签:存储   module   综合   ext   ifd   中断   cap   exp   button   

 

新建工程socs_system

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进入菜单选择Tools---Qsys

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配置hps系统

首先选择

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在更改参数

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配置hps的sdram各项参数

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将名字改为hps_0

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 这样hps配置完成;在配置存储器和其他外设

on-chip-memory

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JTAG to avaion bridge(改名为mster_secure)

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system ID(名字为syssid_qsys)

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led_pio

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dipsw_pio

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button_pio

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JTAG_UART

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JTAG to Avation master bridhe(改名为master_non_sec)

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Interrupt capture module(名字为intr_capturer_0)

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clock

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系统组件添加完成,现在开始连接

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将onchip_memory2_o的的地址设为0x0000_0000。锁定为基地址,并选择自动分配地址技术图片

在设定中断优先级

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在0错误下编译生成Qsys系统

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选择generate---generate

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save保存生成;(Generate complete)

在工程中添加生成的Qsys文件

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添加sos_system.qip和sos_system_timing.sdc文件技术图片

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 新建ghrd_top.v文件

文件代码如下

`define ENABLE_HPS

module ghrd_top(

      ///////// ADC /////////
      output             ADC_CS_n,
      output             ADC_DIN,
      input              ADC_DOUT,
      output             ADC_SCLK,

      ///////// AUD /////////
      input              AUD_ADCDAT,
      inout              AUD_ADCLRCK,
      inout              AUD_BCLK,
      output             AUD_DACDAT,
      inout              AUD_DACLRCK,
      output             AUD_XCK,

      ///////// CLOCK2 /////////
      input              CLOCK2_50,

      ///////// CLOCK3 /////////
      input              CLOCK3_50,

      ///////// CLOCK4 /////////
      input              CLOCK4_50,

      ///////// CLOCK /////////
      input              CLOCK_50,

      ///////// DRAM /////////
      output      [12:0] DRAM_ADDR,
      output      [1:0]  DRAM_BA,
      output             DRAM_CAS_n,
      output             DRAM_CKE,
      output             DRAM_CLK,
      output             DRAM_CS_N,
      inout       [15:0] DRAM_DQ,
      output             DRAM_LDQM,
      output             DRAM_RAS_N,
      output             DRAM_UDQM,
      output             DRAM_WE_N,

      ///////// FAN /////////
      output             FAN_CTRL,

      ///////// FPGA /////////
      output             FPGA_I2C_SCLK,
      inout              FPGA_I2C_SDAT,

      ///////// GPIO /////////
      inout       [35:0] GPIO_A,
      inout       [35:0] GPIO_B,

      ///////// HEX0 /////////
      output      [6:0]  HEX0,

      ///////// HEX1 /////////
      output      [6:0]  HEX1,

      ///////// HEX2 /////////
      output      [6:0]  HEX2,

      ///////// HEX3 /////////
      output      [6:0]  HEX3,

      ///////// HEX4 /////////
      output      [6:0]  HEX4,

      ///////// HEX5 /////////
      output      [6:0]  HEX5,

`ifdef ENABLE_HPS
      ///////// HPS /////////
//      input              HPS_CLOCK1_25,
//      input              HPS_CLOCK2_25,
      inout              HPS_CONV_USB_N,
      output      [14:0] HPS_DDR3_ADDR,
      output      [2:0]  HPS_DDR3_BA,
      output             HPS_DDR3_CAS_N,
      output             HPS_DDR3_CKE,
      output             HPS_DDR3_CK_N,
      output             HPS_DDR3_CK_P,
      output             HPS_DDR3_CS_N,
      output      [3:0]  HPS_DDR3_DM,
      inout       [31:0] HPS_DDR3_DQ,
      inout       [3:0]  HPS_DDR3_DQS_N,
      inout       [3:0]  HPS_DDR3_DQS_P,
      output             HPS_DDR3_ODT,
      output             HPS_DDR3_RAS_N,
      output             HPS_DDR3_RESET_N,
      input              HPS_DDR3_RZQ,
      output             HPS_DDR3_WE_N,
      output             HPS_ENET_GTX_CLK,
      inout              HPS_ENET_INT_N,
      output             HPS_ENET_MDC,
      inout              HPS_ENET_MDIO,
      input              HPS_ENET_RX_CLK,
      input       [3:0]  HPS_ENET_RX_DATA,
      input              HPS_ENET_RX_DV,
      output      [3:0]  HPS_ENET_TX_DATA,
      output             HPS_ENET_TX_EN,
      inout       [3:0]  HPS_FLASH_DATA,
      output             HPS_FLASH_DCLK,
      output             HPS_FLASH_NCSO,
      inout       [1:0]  HPS_GPIO,
      inout              HPS_GSENSOR_INT,
      inout              HPS_I2C1_SCLK,
      inout              HPS_I2C1_SDAT,
      inout              HPS_I2C2_SCLK,
      inout              HPS_I2C2_SDAT,
      inout              HPS_I2C_CONTROL,
      inout              HPS_KEY,
      inout              HPS_LED,
//      input              HPS_RESET_N,
      output             HPS_SD_CLK,
      inout              HPS_SD_CMD,
      inout       [3:0]  HPS_SD_DATA,
      output             HPS_SPIM_CLK,
      input              HPS_SPIM_MISO,
      output             HPS_SPIM_MOSI,
      inout              HPS_SPIM_SS,
      input              HPS_UART_RX,
      output             HPS_UART_TX,
      input              HPS_USB_CLKOUT,
      inout       [7:0]  HPS_USB_DATA,
      input              HPS_USB_DIR,
      input              HPS_USB_NXT,
      output             HPS_USB_STP,
//      output             HPS_WARM_RST_N,
`endif /*ENABLE_HPS*/

      ///////// IRDA /////////
      input              IRDA_RXD,
      output             IRDA_TXD,

      ///////// KEY /////////
      input       [3:0]  KEY,

      ///////// LEDR /////////
      output      [9:0]  LEDR,

      ///////// PS2 /////////
      inout              PS2_CLK,
      inout              PS2_CLK2,
      inout              PS2_DAT,
      inout              PS2_DAT2,

      ///////// SW /////////
      input       [9:0]  SW,

      ///////// TD /////////
      inout              TD_CLK27,
      output      [7:0]  TD_DATA,
      output             TD_HS,
      output             TD_RESET_N,
      output             TD_VS,


      ///////// VGA /////////
      output             VGA_BLANK_N,
      output      [7:0]  VGA_B,
      output             VGA_CLK,
      output      [7:0]  VGA_G,
      output             VGA_HS,
      output      [7:0]  VGA_R,
      output             VGA_SYNC_N,
      output             VGA_VS
);

//=======================================================
//  REG/WIRE declarations
//=======================================================
wire  hps_fpga_reset_n;

//=======================================================
//  Structural coding
//=======================================================
soc_system u0 (      
          .clk_clk                               (CLOCK_50),                             //                clk.clk
          .reset_reset_n                         (1b1),                                 //                reset.reset_n
          //HPS ddr3
          .memory_mem_a                          ( HPS_DDR3_ADDR),                       //                memory.mem_a
        .memory_mem_ba                         ( HPS_DDR3_BA),                         //                .mem_ba
        .memory_mem_ck                         ( HPS_DDR3_CK_P),                       //                .mem_ck
        .memory_mem_ck_n                       ( HPS_DDR3_CK_N),                       //                .mem_ck_n
        .memory_mem_cke                        ( HPS_DDR3_CKE),                        //                .mem_cke
        .memory_mem_cs_n                       ( HPS_DDR3_CS_N),                       //                .mem_cs_n
        .memory_mem_ras_n                      ( HPS_DDR3_RAS_N),                      //                .mem_ras_n
        .memory_mem_cas_n                      ( HPS_DDR3_CAS_N),                      //                .mem_cas_n
        .memory_mem_we_n                       ( HPS_DDR3_WE_N),                       //                .mem_we_n
        .memory_mem_reset_n                    ( HPS_DDR3_RESET_N),                    //                .mem_reset_n
        .memory_mem_dq                         ( HPS_DDR3_DQ),                         //                .mem_dq
        .memory_mem_dqs                        ( HPS_DDR3_DQS_P),                      //                .mem_dqs
        .memory_mem_dqs_n                      ( HPS_DDR3_DQS_N),                      //                .mem_dqs_n
        .memory_mem_odt                        ( HPS_DDR3_ODT),                        //                .mem_odt
        .memory_mem_dm                         ( HPS_DDR3_DM),                         //                .mem_dm
        .memory_oct_rzqin                      ( HPS_DDR3_RZQ),                        //                .oct_rzqin
       //HPS ethernet        
         .hps_0_hps_io_hps_io_emac1_inst_TX_CLK ( HPS_ENET_GTX_CLK),       //                             hps_0_hps_io.hps_io_emac1_inst_TX_CLK
        .hps_0_hps_io_hps_io_emac1_inst_TXD0   ( HPS_ENET_TX_DATA[0] ),   //                             .hps_io_emac1_inst_TXD0
        .hps_0_hps_io_hps_io_emac1_inst_TXD1   ( HPS_ENET_TX_DATA[1] ),   //                             .hps_io_emac1_inst_TXD1
        .hps_0_hps_io_hps_io_emac1_inst_TXD2   ( HPS_ENET_TX_DATA[2] ),   //                             .hps_io_emac1_inst_TXD2
        .hps_0_hps_io_hps_io_emac1_inst_TXD3   ( HPS_ENET_TX_DATA[3] ),   //                             .hps_io_emac1_inst_TXD3
        .hps_0_hps_io_hps_io_emac1_inst_RXD0   ( HPS_ENET_RX_DATA[0] ),   //                             .hps_io_emac1_inst_RXD0
        .hps_0_hps_io_hps_io_emac1_inst_MDIO   ( HPS_ENET_MDIO ),         //                             .hps_io_emac1_inst_MDIO
        .hps_0_hps_io_hps_io_emac1_inst_MDC    ( HPS_ENET_MDC  ),         //                             .hps_io_emac1_inst_MDC
        .hps_0_hps_io_hps_io_emac1_inst_RX_CTL ( HPS_ENET_RX_DV),         //                             .hps_io_emac1_inst_RX_CTL
        .hps_0_hps_io_hps_io_emac1_inst_TX_CTL ( HPS_ENET_TX_EN),         //                             .hps_io_emac1_inst_TX_CTL
        .hps_0_hps_io_hps_io_emac1_inst_RX_CLK ( HPS_ENET_RX_CLK),        //                             .hps_io_emac1_inst_RX_CLK
        .hps_0_hps_io_hps_io_emac1_inst_RXD1   ( HPS_ENET_RX_DATA[1] ),   //                             .hps_io_emac1_inst_RXD1
        .hps_0_hps_io_hps_io_emac1_inst_RXD2   ( HPS_ENET_RX_DATA[2] ),   //                             .hps_io_emac1_inst_RXD2
        .hps_0_hps_io_hps_io_emac1_inst_RXD3   ( HPS_ENET_RX_DATA[3] ),   //                             .hps_io_emac1_inst_RXD3
       //HPS QSPI  
          .hps_0_hps_io_hps_io_qspi_inst_IO0     ( HPS_FLASH_DATA[0]    ),     //                               .hps_io_qspi_inst_IO0
        .hps_0_hps_io_hps_io_qspi_inst_IO1     ( HPS_FLASH_DATA[1]    ),     //                               .hps_io_qspi_inst_IO1
        .hps_0_hps_io_hps_io_qspi_inst_IO2     ( HPS_FLASH_DATA[2]    ),     //                               .hps_io_qspi_inst_IO2
        .hps_0_hps_io_hps_io_qspi_inst_IO3     ( HPS_FLASH_DATA[3]    ),     //                               .hps_io_qspi_inst_IO3
        .hps_0_hps_io_hps_io_qspi_inst_SS0     ( HPS_FLASH_NCSO    ),        //                               .hps_io_qspi_inst_SS0
        .hps_0_hps_io_hps_io_qspi_inst_CLK     ( HPS_FLASH_DCLK    ),        //                               .hps_io_qspi_inst_CLK
       //HPS SD card 
          .hps_0_hps_io_hps_io_sdio_inst_CMD     ( HPS_SD_CMD    ),           //                               .hps_io_sdio_inst_CMD
        .hps_0_hps_io_hps_io_sdio_inst_D0      ( HPS_SD_DATA[0]     ),      //                               .hps_io_sdio_inst_D0
        .hps_0_hps_io_hps_io_sdio_inst_D1      ( HPS_SD_DATA[1]     ),      //                               .hps_io_sdio_inst_D1
        .hps_0_hps_io_hps_io_sdio_inst_CLK     ( HPS_SD_CLK   ),            //                               .hps_io_sdio_inst_CLK
        .hps_0_hps_io_hps_io_sdio_inst_D2      ( HPS_SD_DATA[2]     ),      //                               .hps_io_sdio_inst_D2
        .hps_0_hps_io_hps_io_sdio_inst_D3      ( HPS_SD_DATA[3]     ),      //                               .hps_io_sdio_inst_D3
       //HPS USB           
          .hps_0_hps_io_hps_io_usb1_inst_D0      ( HPS_USB_DATA[0]    ),      //                               .hps_io_usb1_inst_D0
        .hps_0_hps_io_hps_io_usb1_inst_D1      ( HPS_USB_DATA[1]    ),      //                               .hps_io_usb1_inst_D1
        .hps_0_hps_io_hps_io_usb1_inst_D2      ( HPS_USB_DATA[2]    ),      //                               .hps_io_usb1_inst_D2
        .hps_0_hps_io_hps_io_usb1_inst_D3      ( HPS_USB_DATA[3]    ),      //                               .hps_io_usb1_inst_D3
        .hps_0_hps_io_hps_io_usb1_inst_D4      ( HPS_USB_DATA[4]    ),      //                               .hps_io_usb1_inst_D4
        .hps_0_hps_io_hps_io_usb1_inst_D5      ( HPS_USB_DATA[5]    ),      //                               .hps_io_usb1_inst_D5
        .hps_0_hps_io_hps_io_usb1_inst_D6      ( HPS_USB_DATA[6]    ),      //                               .hps_io_usb1_inst_D6
        .hps_0_hps_io_hps_io_usb1_inst_D7      ( HPS_USB_DATA[7]    ),      //                               .hps_io_usb1_inst_D7
        .hps_0_hps_io_hps_io_usb1_inst_CLK     ( HPS_USB_CLKOUT    ),       //                               .hps_io_usb1_inst_CLK
        .hps_0_hps_io_hps_io_usb1_inst_STP     ( HPS_USB_STP    ),          //                               .hps_io_usb1_inst_STP
        .hps_0_hps_io_hps_io_usb1_inst_DIR     ( HPS_USB_DIR    ),          //                               .hps_io_usb1_inst_DIR
        .hps_0_hps_io_hps_io_usb1_inst_NXT     ( HPS_USB_NXT    ),          //                               .hps_io_usb1_inst_NXT
       //HPS SPI           
          .hps_0_hps_io_hps_io_spim1_inst_CLK    ( HPS_SPIM_CLK  ),           //                               .hps_io_spim1_inst_CLK
        .hps_0_hps_io_hps_io_spim1_inst_MOSI   ( HPS_SPIM_MOSI ),           //                               .hps_io_spim1_inst_MOSI
        .hps_0_hps_io_hps_io_spim1_inst_MISO   ( HPS_SPIM_MISO ),           //                               .hps_io_spim1_inst_MISO
        .hps_0_hps_io_hps_io_spim1_inst_SS0    ( HPS_SPIM_SS ),             //                               .hps_io_spim1_inst_SS0
      //HPS UART        
          .hps_0_hps_io_hps_io_uart0_inst_RX     ( HPS_UART_RX    ),          //                               .hps_io_uart0_inst_RX
        .hps_0_hps_io_hps_io_uart0_inst_TX     ( HPS_UART_TX    ),          //                               .hps_io_uart0_inst_TX
        //HPS I2C1
          .hps_0_hps_io_hps_io_i2c0_inst_SDA     ( HPS_I2C1_SDAT    ),        //                               .hps_io_i2c0_inst_SDA
        .hps_0_hps_io_hps_io_i2c0_inst_SCL     ( HPS_I2C1_SCLK    ),        //                               .hps_io_i2c0_inst_SCL
        //HPS I2C2
          .hps_0_hps_io_hps_io_i2c1_inst_SDA     ( HPS_I2C2_SDAT    ),        //                               .hps_io_i2c1_inst_SDA
        .hps_0_hps_io_hps_io_i2c1_inst_SCL     ( HPS_I2C2_SCLK    ),        //                               .hps_io_i2c1_inst_SCL
      //HPS GPIO  
          .hps_0_hps_io_hps_io_gpio_inst_GPIO09  ( HPS_CONV_USB_N),           //                               .hps_io_gpio_inst_GPIO09
        .hps_0_hps_io_hps_io_gpio_inst_GPIO35  ( HPS_ENET_INT_N),           //                               .hps_io_gpio_inst_GPIO35
        .hps_0_hps_io_hps_io_gpio_inst_GPIO40  ( HPS_GPIO[0]),              //                               .hps_io_gpio_inst_GPIO40
        .hps_0_hps_io_hps_io_gpio_inst_GPIO41  ( HPS_GPIO[1]),              //                               .hps_io_gpio_inst_GPIO41
        .hps_0_hps_io_hps_io_gpio_inst_GPIO48  ( HPS_I2C_CONTROL),          //                               .hps_io_gpio_inst_GPIO48
        .hps_0_hps_io_hps_io_gpio_inst_GPIO53  ( HPS_LED),                  //                               .hps_io_gpio_inst_GPIO53
        .hps_0_hps_io_hps_io_gpio_inst_GPIO54  ( HPS_KEY),                  //                               .hps_io_gpio_inst_GPIO54
        .hps_0_hps_io_hps_io_gpio_inst_GPIO61  ( HPS_GSENSOR_INT),          //                               .hps_io_gpio_inst_GPIO61
         //FPGA soft GPIO 
          .led_pio_external_connection_export    ( LEDR ),               //                               led_pio_external_connection.export                     
        .dipsw_pio_external_connection_export  ( SW   ),                 //                               dipsw_pio_external_connection.export
        .button_pio_external_connection_export ( KEY  ),                //                               button_pio_external_connection.export 
        //HPS reset output  
         .hps_0_h2f_reset_reset_n                (hps_fpga_reset_n),          //                               hps_0_h2f_reset.reset_n
       
    );
  


endmodule

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上述图片是例化引脚;

分析和综合后无错误;

选择Tools-TCL scrip;

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选择RUN,运行完成点ok;

配置引脚选择PIN planner

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在点击全编译;

最后进行FPGA配置

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选择Auto Detect

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 这只是GHRD的常规操作步骤,详情请见下次

DE1-GHRD

标签:存储   module   综合   ext   ifd   中断   cap   exp   button   

原文地址:https://www.cnblogs.com/fcfc940503/p/10437296.html

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