Picotcp memory usage benchmark (still beta testing)
Dependencies: PicoTCP lpc1768-picotcp-eth mbed-rtos mbed
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This project represents a throughtput test for the EthernetInterface, based on the lwIP library.
The purpose of this is to be able to make a comparison of full speed (Rx,Tx and Rx+Tx) and memory
between the EthernetInterface based on the lwIP and the one based on PicoTCP .
The benchmark consists of three parts:
- we are sending 1 Megabyte from the board to host
- we are waiting for the host to send us 1 Megabyte of data
- on the last part we are using a TCP Echo Server to send and receive back 1 Megabyte of data
we send/receive 1024 packets of 1024 bytes each and we measure how many bits per second we transmit and receive.
The result:
TX+RX Throughput: 4194304 bytes in 3 seconds (10.457) Mbits/s
Memory report
Current free memory : 19148 bytes
Maximum free memory : 24716 bytes
Minimum free memory : 15476 bytes
Average free memory : 17376 bytes
The python script used
#!/usr/bin/python import sys, socket import random, string import select from time import time #ECHO_SERVER_ADDRESS = "10.20.30.139" ECHO_SERVER_ADDRESS = "192.168.100.12" ECHO_SERVER_PORT = 7 N_PACKETS = 1024 LEN_PACKET = 1024 TOT_BITS = (LEN_PACKET * N_PACKETS * 8) * 4. # TX bits + RX bits PACKET = ''.join(random.choice(string.ascii_uppercase+string.digits) for _ in range(LEN_PACKET)) MEGA = 1024 * 1024. UPDATE_STEP = (N_PACKETS/20) # Make the update step such as one step = 5% UPDATE_R_STEP = (N_PACKETS/20) #Make the update step such as one step = 1% s = socket.socket(socket.AF_INET, socket.SOCK_STREAM) s.connect((ECHO_SERVER_ADDRESS, ECHO_SERVER_PORT)) start = time() rx_total = 0 tx_total = 0 data = '' i = 0 lp = [] p = select.poll() while(True): # keeping this in for robustness testing, when the test will run for days #Stage I - sending data from host towards mbed board print "Started sending data...." while (i < N_PACKETS): p.register(s, select.POLLOUT) lp = p.poll(1) if (len(lp) > 0): s.sendall(PACKET) i+=1 if (i % UPDATE_STEP) == 0: print "sent %d/%d (%.2f%%)" % (i, N_PACKETS, float(i)/ float(N_PACKETS) * 100.) continue #Stage II - receving data from the mbed board print "Started receiving data...." while(len(data) < N_PACKETS * LEN_PACKET): p.register(s, select.POLLIN) lp = p.poll(1) if(len(lp) > 0): r = s.recv(LEN_PACKET) if (r != ''): data += r if (len(data) / LEN_PACKET) % UPDATE_R_STEP: print "recvd %d/%d (%.2f%%)" % (len(data)/LEN_PACKET, N_PACKETS, float(len(data))/ float(N_PACKETS * LEN_PACKET) * 100.) else: print "Error receiving !" sys.exit(1) #Stage III - echo between host and mbed board print "Started echoing data...." for i in range(N_PACKETS): if (i % UPDATE_STEP) == 0: print "%.2f%%" % (float(i)/float(N_PACKETS) * 100.) s.sendall(PACKET) data = s.recv(LEN_PACKET) if (len(data) != LEN_PACKET): print "Error echoing !" sys.exit(1) print "Test was finished!" break; t = time() - start s.close() print "TX+RX Throughput: %d bytes in %d seconds (%.3f)Mbits/s" % (TOT_BITS / 8, t, ((TOT_BITS / t) / MEGA))
This test is based on the following libraries
Import librarylpc1768-picotcp-eth
A PicoTCP driver for the lpc1768 mbed board
Import libraryPicoTCP
Free (GPLv2) TCP/IP stack developed by TASS Belgium
Import librarymbed-rtos
Official mbed Real Time Operating System based on the RTX implementation of the CMSIS-RTOS API open standard.
Click here to see the results for lwIP