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I built a connection between a RaspberryPi (RPi) and a FPGA by TCP socket with Python language. At the beginning, I will send a data pattern from RPi to FPGA. After that, I will receive the data back from FPGA, and compare the data with a certain value of "data_compare" to get a number of errors.

The question is, as shown in the code, at the beginning, the code will run well and generate a right error data, but after 5 rounds, it'll stop at line 67 with Error 32: a broken pipe. I really can not figure it out.

Another thing is if I use the "while" loop to enclose the whole body code, which means put the 'while' just behind 'import', the code will also run well. The reason I don't want to do this is by this way, the code consumes more time.

# This code is for SRAM by MCU communication

import socket
import time
import sys

port_MCU = 5000
Ipaddr_MCU = '192.168.0.123'

ser_MCU = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
#ser_MCU.setsockopt(socket.SOL_SOCKET, socket.SO_KEEPALIVE,1)
ser_MCU.connect((Ipaddr_MCU,port_MCU))

RX = [0]*2056

while True:

#    port_MCU = 5000
#    Ipaddr_MCU = '192.168.0.123'
    buffer_size = 1

    #server_UDPsocket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
    #server_UDPsocket.bind(('', 61557))

#    ser_MCU = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
#    ser_MCU.connect((Ipaddr_MCU,port_MCU))

    #data_pattern can be 0, 1, 10 or 11
    data_pattern = 0

    #data_compare is used to test if there is an error
    data_compare = 0

    #test_round is the number that how many rounds the testing code will run. It should be in range of [0,255]
    #test_round = 0

    try:

        print('Connection to MCU has been built!')
        TX = [0]*6
    #   RX = [None]*2056

    # send configuration info to fpga

        TX[0] = 85
        if (data_pattern == 0):
                TX[1] = 0
                data_compare = 0
        elif (data_pattern == 1):
                TX[1] = 1
                data_compare = 85
        elif (data_pattern == 10):
                TX[1] = 2
                data_compare = 170
        elif (data_pattern == 11):
                TX[1] = 3
                data_compare = 255

        test_round = 1

        TX[2] = test_round

        print("the configuration list TX is: " + str(TX))

    #   ser_MCU.send(b'8501000')

        ser_MCU.sendall(bytes(TX))
    #   for data in TX:
    #       ser_MCU.send(bytes(data))
    #        message, address = server_UDPsocket.recvfrom(64)
            #message = message.upper()
    #        print('The received info is %s.'%message)

    #        if message == b'yes':

        TX[0] = 31
        print('The trigger configuration list is: ' + str(TX))

        ser_MCU.sendall(bytes(TX))

        err_sum = 0


        for i in range (2056):        
            rx = ser_MCU.recv(1)

    #        rx_int = ord(rx)
            if len(rx) == 1:
                RX[i] = ord(rx)
            #RX[i] = int.from_bytes(rx,'big')
    #       print(rx)
        for i in range (2056):
            if(i != 0 and i%257 != 0):
                err_number = RX[i]^ data_compare
                err_number_binary = bin(err_number).count('1')
                err_sum = err_number_binary + err_sum



        print('The total number of generated errors is: ' + str(err_sum))


        time.sleep(1)



    except KeyboardInterrupt:
        ser_MCU.shutdown()
        ser_MCU.close()

        print('Connection is closed!')

What I'm looking for is to keep the code run stably until I close the tcp connection.

Welcome any comments and deep appreciate for any suggestion.

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