def chip_setup(): #Setup read and write port writePort = WritePort("/dev/xillybus_write_32", 32) readPort = ReadPort("/dev/xillybus_read_32", 32) if not writePort.openPort(): print(Bcolors.FAIL + "Could not open write port, quitting" + Bcolors.ENDC) quit() if not readPort.openPort(): print(Bcolors.FAIL + "Could not open write port, quitting" + Bcolors.ENDC) # Send a program to the chip chip.reset(readPort, writePort) #time.sleep(0.5) chip.enable_exit_mode(writePort) now = datetime.now() date_time = now.strftime("%m%d%Y-%H%M%S") filename = "../results/" + str(date_time) + "_spi-results.txt" chip.readout_memory(readPort, writePort, 0, 20, const.WR_MEMORY, filename) # Close ports writePort.closePort() readPort.closePort() return
def chip_setup(): #Setup read and write port writePort = WritePort("/dev/xillybus_write_32",32) readPort = ReadPort("/dev/xillybus_read_32",32) if not writePort.openPort(): print(Bcolors.FAIL + "Could not open write port, quitting" + Bcolors.ENDC) quit() if not readPort.openPort(): print(Bcolors.FAIL + "Could not open write port, quitting" + Bcolors.ENDC) real_freq = chip.set_clock(100, writePort) print("Real freq: " + str(real_freq)) time.sleep(2.5) chip.start(writePort) # Send a program to the chip chip.reset(readPort, writePort) # Close ports writePort.closePort() readPort.closePort() return
def chip_setup(): #Setup read and write port writePort = WritePort("/dev/xillybus_write_32", 32) readPort = ReadPort("/dev/xillybus_read_32", 32) if not writePort.openPort(): print(Bcolors.FAIL + "Could not open write port, quitting" + Bcolors.ENDC) quit() if not readPort.openPort(): print(Bcolors.FAIL + "Could not open write port, quitting" + Bcolors.ENDC) print(">> Configuring power supply...") rigol = RigolDP832A("10.11.98.59") rigol.set_voltage(1, 1) rigol.set_voltage(1.8, 2) rigol.set_voltage(0, 3) rigol.turn_on_all() time.sleep(0.5) # Set clock frequency real_freq = chip.set_clock(10, writePort) print("Real freq: " + str(real_freq)) time.sleep(1) # Send reset to the chip chip.reset(readPort, writePort) time.sleep(0.5) chip.enable_write_mode(writePort) i = 1 while i < 101: chip.write_to_mem(i, i, writePort) # input("Press Enter to continue...") i = i + 1 # input("Press Enter to continue...") chip.enable_exit_mode(writePort) # input("Press Enter to continue...") now = datetime.now() date_time = now.strftime("%m%d%Y-%H%M%S") filename = "../results/" + str(date_time) + "_spi-results.txt" chip.readout_memory(readPort, writePort, 0, 42, filename, const.RD_MEMORY) # Close ports writePort.closePort() readPort.closePort() rigol.stop() return
def chip_setup(): #Setup read and write port writePort = WritePort("/dev/xillybus_write_32", 32) readPort = ReadPort("/dev/xillybus_read_32", 32) if not writePort.openPort(): print(Bcolors.FAIL + "Could not open write port, quitting" + Bcolors.ENDC) quit() if not readPort.openPort(): print(Bcolors.FAIL + "Could not open write port, quitting" + Bcolors.ENDC) chip.start(writePort) time.sleep(2.5) # Send a program to the chip chip.reset(readPort, writePort) real_freq = chip.set_clock(10, writePort) print("Real freq: " + str(real_freq)) time.sleep(0.5) chip.enable_write_mode(writePort) chip.write_to_mem(1, 170, writePort) #input("Press Enter to continue...") chip.enable_exit_mode(writePort) #input("Press Enter to continue...") chip.enable_read_mode(0, writePort) #input("Press Enter to continue...") # i=0 # while i<2048: # chip.read_addr(i, writePort) # i = i+1 # time.sleep(0.1) chip.read_addr(1, writePort) chip.clear_results(readPort) #input("Press Enter to continue...") chip.read_addr(1, writePort) #input("Press Enter to continue...") chip.enable_exit_mode(writePort) time.sleep(0.5) chip.readout_results(readPort, 100) # Close ports writePort.closePort() readPort.closePort() return
#!/usr/bin/env python from lib.Bcolors import Bcolors from lib.WritePort import WritePort from lib.ReadPort import ReadPort import lib.commands_chip as chip import lib.constants as const from datetime import datetime import time import re #Setup read and write port writePort = WritePort("/dev/xillybus_write_32",32) readPort = ReadPort("/dev/xillybus_read_32",32) if not writePort.openPort(): print(Bcolors.FAIL + "Could not open write port, quitting" + Bcolors.ENDC) quit() if not readPort.openPort(): print(Bcolors.FAIL + "Could not open write port, quitting" + Bcolors.ENDC) # Send a program to the chip chip.reset(readPort, writePort) #time.sleep(0.5) print("Sending data to RAM") # Set the clock frequency real_freq = chip.set_clock(25, writePort) print("Real freq: " + str(real_freq)) # Close ports
def run_input_vector(name): vectorfn = name # vectorfn = 'input_vector_C1' configfn = "../input_vectors/" + vectorfn + ".config" # print("OSCAR MEASUREMENT SETUP") # print("Thomas Vandenabeele\n") #Setup read and write port writePort = WritePort("/dev/xillybus_write_32",32) readPort = ReadPort("/dev/xillybus_read_32",32) print(">> Connecting to FIFOs...") if not writePort.openPort(): print(Bcolors.FAIL + "Could not open write port, quitting" + Bcolors.ENDC) quit() if not readPort.openPort(): print(Bcolors.FAIL + "Could not open write port, quitting" + Bcolors.ENDC) # Reading settings with open(configfn, 'r') as cfgfile: cfg = yaml.load(cfgfile, yaml.Loader) print(">> Configuring power supply...") rigol = RigolDP832A("10.11.98.59") rigol.set_voltage(cfg['vdd'], 1) rigol.set_voltage(cfg['vdde'], 2) rigol.set_voltage(cfg['vddc'], 3) rigol.turn_on_all() time.sleep(0.5) print(">> Configuring clock frequency...") # Set clock frequency real_freq = chip.set_clock(cfg['clock'], writePort) #print("Real freq: " + str(real_freq)) Bcolors.printPassed("CLOCK - Real frequency is " + str(real_freq) + "MHz") time.sleep(1) print(">> Sending reset pulse...") # Reset chip chip.reset(readPort, writePort) time.sleep(0.5) # Send a program to the chip print(">> Sending data to memory...") chip.enable_write_mode(writePort) vector = '../input_vectors/' + vectorfn + '.in' with open(vector) as fp: line = fp.readline() while line: #print("Vector instruction: {}".format(line.strip())) instr = re.split(' |; |, |\*|\t',line) addr = (int(instr[0][0:4], 16)) value = (int(instr[1][0:4], 16)) chip.write_to_mem(addr, value, writePort) line = fp.readline() #input("Press Enter to continue...") chip.enable_exit_mode(writePort) #input("Change clock and press Enter to continue...") time.sleep(0.5) print(">> Sending start pulse...") chip.start(writePort) time.sleep(5) out = open("outputtest.txt", "w") for i in range(1000): correct = readout_compare_results(readPort, writePort, vectorfn, configfn) out.write(str(correct) + "\n") time.sleep(0.1) out.close() print(">> Closing connections...") # Close ports writePort.closePort() readPort.closePort() rigol.stop() return correct
def run_input_vector(name, vddc, clockfreq): vectorfn = name # vectorfn = 'input_vector_C1' configfn = "../input_vectors/" + vectorfn + ".config" # print("OSCAR MEASUREMENT SETUP") # print("Thomas Vandenabeele\n") #Setup read and write port writePort = WritePort("/dev/xillybus_write_32", 32) readPort = ReadPort("/dev/xillybus_read_32", 32) print(">> Connecting to FIFOs...") if not writePort.openPort(): print(Bcolors.FAIL + "Could not open write port, quitting" + Bcolors.ENDC) quit() if not readPort.openPort(): print(Bcolors.FAIL + "Could not open write port, quitting" + Bcolors.ENDC) # Reading settings with open(configfn, 'r') as cfgfile: cfg = yaml.load(cfgfile, yaml.Loader) print(">> Configuring power supply...") rigol = RigolDP832A("10.11.98.59") rigol.set_voltage(cfg['vdd'], 1) rigol.set_voltage(cfg['vdde'], 2) rigol.set_voltage(vddc, 3) rigol.turn_on_all() time.sleep(0.5) print(">> Configuring clock frequency...") # Set clock frequency real_freq = chip.set_clock(clockfreq, writePort) #print("Real freq: " + str(real_freq)) Bcolors.printPassed("CLOCK - Real frequency is " + str(real_freq) + "MHz") time.sleep(1) print(">> Sending reset pulse...") # Reset chip chip.reset(readPort, writePort) time.sleep(0.5) # Send a program to the chip print(">> Sending data to memory...") chip.enable_write_mode(writePort) vector = '../input_vectors/' + vectorfn + '.in' with open(vector) as fp: line = fp.readline() while line: #print("Vector instruction: {}".format(line.strip())) instr = re.split(' |; |, |\*|\t', line) addr = (int(instr[0][0:4], 16)) value = (int(instr[1][0:4], 16)) chip.write_to_mem(addr, value, writePort) line = fp.readline() #input("Press Enter to continue...") chip.enable_exit_mode(writePort) #input("Change clock and press Enter to continue...") time.sleep(0.5) print(">> Sending start pulse...") chip.start(writePort) time.sleep(5) result_array = [] for ntimes in range(cfg['n_readout']): print(">> Reading back results...") now = datetime.now() date_time = now.strftime("%m%d-%H%M%S") filename = "../results/" + str(date_time) + "_spi-results.txt" chip.readout_memory(readPort, writePort, 0, 7, filename, const.WR_MEMORY) print(">> Checking results...") outputfn = "../output_vectors/" + vectorfn + ".out" vectorreffn = "../input_vectors/" + vectorfn + ".out" correct = compare_results.check(configfn, vectorreffn, filename, outputfn) os.remove(filename) result_array.append(correct) # with open("../input_vectors/" + vectorfn + ".config", 'r') as cfgfile: # cfg = yaml.load(cfgfile, yaml.Loader) # ct_size = cfg['plaintext_size'] # tag_size = cfg['tag_size'] # # out = open("../output_vectors/" + vectorfn + ".out", "w") # out.write("#C\n") # with open(filename) as fp: # line = fp.readline() # while line: # byte1 = line[0:2] # byte2 = line[2:4] # # for i in range(2): # if ct_size > 0: # out.write(line[i*2 : i*2+2].upper() + "\n") # ct_size -= 1 # elif ct_size == 0: # if tag_size == cfg['tag_size']: # out.write("#T\n") # line = fp.readline() # if ct_size == 0: # for i in range(2): # if tag_size > 0: # out.write(line[i*2 : i*2+2].upper() + "\n") # tag_size -= 1 # # line = fp.readline() # out.close() vddc_real = rigol.get_real_voltage(3) print(">> Closing connections...") # Close ports writePort.closePort() readPort.closePort() rigol.stop() return vddc_real, real_freq, result_array