深入浅出FPGA-16-xilinx_zynq7000_EPP上一个简单实验(PS)

引言

现在的FPGA都很强大了，不仅有丰富的LE（LC），高端的还集成了CPUcore。这样，从硬件上就能做SOC，从软件上可以做嵌入式。

本节就做一个简单的实验，主要熟悉这个板子的PS资源。

15.1 实验目的

1》  熟悉zynq7000 EPP资源和design suite

2》 SDK编码，实现一个简单逻辑。

15.2  实验环境

Board ：ZYNQ7000 EPP

Device：XC7Z020CLG484ACX1221

Design suite：14.1 （PlanAhead+XPS+SDK）

15.3  实验准备

a)        会planAhead创建工程

b)        简单了解和使用XPS和SDK

15.4 实验内容

a)        在XPS添加GPIO，此GPIO连到外部一个LED上。

b)        在SDK编写C代码控制GPIO来控制此LED的闪烁。

15.5 实验步骤

a)        打开planAhead，创建embedded新工程，添加PS7。

b)        打开XPS，添加GPIO。注意port名称，ucf文件里要用。

c)        添加UCF文件，内容：simple_led.ucf。

d)        Create TOP HDL，然后生成bitstream。

e)         导出hardware，launch SDK。

f)         在SDK里创建helloword工程。

g)        SDK编码，内容：helloworld.c。

h)        Program FPGA

i)          Run AS,configure

j)          Run

15.6 实验结果

看板子，DS18这个led会闪烁。下图是串口打印信息：可以看到，可以通过软件来控制GPIO，就像在单片机上开发一样。

附：

SDK 代码：

/*
 * Copyright (c) 2009 Xilinx, Inc.  All rights reserved.
 *
 * Xilinx, Inc.
 * XILINX IS PROVIDING THIS DESIGN, CODE, OR INFORMATION "AS IS" AS A
 * COURTESY TO YOU.  BY PROVIDING THIS DESIGN, CODE, OR INFORMATION AS
 * ONE POSSIBLE   IMPLEMENTATION OF THIS FEATURE, APPLICATION OR
 * STANDARD, XILINX IS MAKING NO REPRESENTATION THAT THIS IMPLEMENTATION
 * IS FREE FROM ANY CLAIMS OF INFRINGEMENT, AND YOU ARE RESPONSIBLE
 * FOR OBTAINING ANY RIGHTS YOU MAY REQUIRE FOR YOUR IMPLEMENTATION.
 * XILINX EXPRESSLY DISCLAIMS ANY WARRANTY WHATSOEVER WITH RESPECT TO
 * THE ADEQUACY OF THE IMPLEMENTATION, INCLUDING BUT NOT LIMITED TO
 * ANY WARRANTIES OR REPRESENTATIONS THAT THIS IMPLEMENTATION IS FREE
 * FROM CLAIMS OF INFRINGEMENT, IMPLIED WARRANTIES OF MERCHANTABILITY
 * AND FITNESS FOR A PARTICULAR PURPOSE.
 *
 */

/*
 * helloworld.c: simple test application
 */

#include 
#include "platform.h"

#include "../../hello_world_bsp_0/ps7_cortexa9_0/include/xgpio.h"
#include "../../hello_world_bsp_0/ps7_cortexa9_0/include/xparameters.h"



#define MY_GPIO_DEVICE_ID XPAR_AXI_GPIO_0_DEVICE_ID


void my_process(void);
void led_flash(XGpio* led_p,unsigned int time,int count);
void my_delay(int times);


int main()
{
    init_platform();

    my_process();
    printf("my_process end!\r\n");

    cleanup_platform();

    return 0;
}


//==========================
void my_process(void)
{

	XGpio led;
	int ret = 0;
	int read_led = 0;


	printf("my_process start...\n");

	ret = XGpio_Initialize(&led,MY_GPIO_DEVICE_ID);//led init

	if(0 != ret)
	{
		printf("led init error:%d\n",ret);
	}
	else
	{
		printf("led init ok!%d \n\n",ret);
	}

	XGpio_SetDataDirection(&led,1,0x00000000);
	printf("setdir: input!\n\n");



	led_flash(&led,0xffffff,100);
#if 0
	read_led = XGpio_DiscreteRead(&led,1);//init read
	printf("before led read:%d\n\n",read_led);

	XGpio_DiscreteWrite(&led,1,0);//write 0
	printf("write 0!\n\n\n");

	read_led = XGpio_DiscreteRead(&led,1);//read again
	printf("led read:%d\n\n",read_led);

	XGpio_DiscreteWrite(&led,1,1);//write 1
	printf("write 1!\n\n\n");

	read_led = XGpio_DiscreteRead(&led,1);//read again
	printf("led read:%d\n\n",read_led);
#endif


	return;
}

void my_delay(int times)
{
	while(times--)
	{
		;//do nothing.
	}
}

void led_flash(XGpio* led_p,unsigned int time,int count)
{
	int loop = 0;

	for(loop=0;loop