예제 #1
0
def conduit_selection(argList_c=1):
    """
    Selects conduit and checks if the FPGA board is nero capable and capable of communication.

    Args:
        argList_c(int): comm conduit to chose
    Returns:
        (tuple): booleans indicating if device is nero capable and comm capable
    """
    isNeroCapable = fl.flIsNeroCapable(handle)
    isCommCapable = fl.flIsCommCapable(handle, conduit)
    fl.flSelectConduit(handle, conduit)
    return (isNeroCapable, isCommCapable)
예제 #2
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def conduitSelection(handle, conduit=1):
    """
    Selects conduit and checks if the FPGA board is nero capable and capable of communication.

    Args:
        handle(): An opaque reference to an internal structure representing the connection.
        conduit(int): comm conduit to chose
    Returns:
        (tuple): booleans indicating if device is nero capable and comm capable
    """
    isNeroCapable = fl.flIsNeroCapable(handle)
    isCommCapable = fl.flIsCommCapable(handle, conduit)
    fl.flSelectConduit(handle, conduit)
    return (isNeroCapable, isCommCapable)
예제 #3
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def openComm(config):
    argList = getArgs()
    handle = fl.FLHandle()
    try:
        fpga_vid_pid_did = argList['fpga_vid_pid_did']
        try:
            handle = fl.flOpen(fpga_vid_pid_did)
        except fl.FLException as ex:
            fpga_vid_pid = argList['fpga_vid_pid']
            fl.flLoadStandardFirmware(fpga_vid_pid, fpga_vid_pid_did)
            #might need to add delay here
            if not fl.flAwaitDevice(fpga_vid_pid, 10000):
                raise fl.FLException('FPGALink device did not renumerate properly')
            handle = fl.flOpen(fpga_vid_pid_did)
        isNeroCapable = fl.flIsNeroCapable(handle)
        isCommCapable = fl.flIsCommCapable(handle, 1)
        fl.flSelectConduit(handle, 1)
        if isCommCapable and fl.flIsFPGARunning(handle):
            fpga = NodeFPGA(handle)
            return (fpga, handle, Optimizer(handle, fpga, config))
        else:
            return None #open comm failed
예제 #4
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	def initComTest(self):
	"""
	Test intial connection capabilities to FPGA board over USB.

	Returns:
		results(list): list of strings representing reports of passed and failed tests.

	"""
		results = []
		fl.flInitialise(self.debug_level) #initializes library
		if fl.flIsDeviceAvailable(self.vid_pid_did): #checks if fpga is available
			results.append('P','USB bus with: ', self.vid_pid_did,' was found.')
			try:
				handle = fl.flOpen(self.vid_pid_did) #opens connection to FPGA board
				results.append('P','Successfully opened connection to FPGA board.')
				if fl.flIsNeroCapable(handle): #checks if device is Nero capable
					results.append('P', 'Device is Nero capable.')
				else:
					results.append('F', 'Device is not Nero capable.')
				if fl.flIsCommCapable(handle, self.conduit): #checks if FPGA board is capable of communication
					results.append('P','FPGA board supports functions: flIsFPGARunning(), flReadChannel(), flWriteChannel(), flSetAsyncWriteChunkSize(), flWriteChannelAsync(), flFlushAsyncWrites(), \c flAwaitAsyncWrites(), \c flReadChannelAsyncSubmit(),flReadChannelAsyncAwait().')
					try:
						fl.flSelectConduit(handle, self.conduit) #selects given conduit 
						results.append('P','Selected conduit ', self.conduit)
						if fl.flIsFPGARunning(handle): #checks if board is ready to acccept commands
							results.append('P','FPGA board is ready to accept commands.')
					except:
						results.append('F','Conduit was out of range or device did not respond.')			
				else:
					results.append('F','FPGA board cannot communicate.')
				fl.flClose(handle) #closes connection to FPGA board to avoid errors
				results.append('P','Connection to the FPGA board was closed.')
			except:
				results.append('F','Connection to FPGA board failed.')
		else:
			results.append('F','The VID:PID:DID ', self.vid_pid_did,' is invalid or no USB buses were found.')
		return results
예제 #5
0
    print("Initializing FPGALink library...")
    fl.flInitialise(3)
    print("Attempting to open connection to FPGALink device {}...".format(vp))
    try:
        handle = fl.flOpen(vp)
    except fl.FLException as ex:
        print(ex)
        print("Loading standard firmware into RAM {}...".format(ivp))
        fl.flLoadStandardFirmware(ivp, vp)
        time.sleep(3)
        fl.flAwaitDevice(vp, 10000)
        print("Attempting to open connection to FPGALink device {} again...".format(vp))
        handle = fl.flOpen(vp)

    conduit = 1
    isNeroCapable = fl.flIsNeroCapable(handle)
    isCommCapable = fl.flIsCommCapable(handle, conduit)
    fl.flSelectConduit(handle, conduit)
    
    if ( isNeroCapable ):
        print("Programming FPGA with {}...".format(progConfig))
        fl.flProgram(handle, progConfig)
        print("Programming successful")
    else:
        raise fl.FLException("Device does not support NeroProg")

except fl.FLException as ex:
    print(ex)
finally:
    fl.flClose(handle)
예제 #6
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def conduit_selection(argList_c=1):
    isNeroCapable = fl.flIsNeroCapable(handle)
    isCommCapable = fl.flIsCommCapable(handle, conduit)
    fl.flSelectConduit(handle, conduit)
    return (isNeroCapable, isCommCapable)
예제 #7
0
def SPImain():
	argList = get_args()
	handle = fl.FLHandle()
	try:
	    fl.flInitialise(0)
	    vp = argList.v[0]
	    print("Attempting to open connection to FPGALink device {}...".format(vp))
	    try:
	        handle = fl.flOpen(vp)
	    except fl.FLException as ex:
	        if argList.i:
	            ivp = argList.i[0]
	            print("Loading firmware into {}...".format(ivp))
	            fl.flLoadStandardFirmware(ivp, vp)
                mem_map = tester(ivp, vp)

	            # Long delay for renumeration
	            # TODO: fix this hack.  The timeout value specified in flAwaitDevice() below doesn't seem to work
	            time.sleep(3)
	            
	            print("Awaiting renumeration...")
	            if not fl.flAwaitDevice(vp, 10000):
	                raise fl.FLException("FPGALink device did not renumerate properly as {}".format(vp))

	            print("Attempting to open connection to FPGALink device {} again...".format(vp))
	            handle = fl.flOpen(vp)
	        else:
	            raise fl.FLException("Could not open FPGALink device at {} and no initial VID:PID was supplied".format(vp))
	    
	    # if ( argList.d ):
	    #     print("Configuring ports...")
	    #     rb = "{:0{}b}".format(fl.flMultiBitPortAccess(handle, argList.d[0]), 32)
	    #     print("Readback:   28   24   20   16    12    8    4    0\n          {} {} {} {}  {} {} {} {}".format(
	    #         rb[0:4], rb[4:8], rb[8:12], rb[12:16], rb[16:20], rb[20:24], rb[24:28], rb[28:32]))
	    #     fl.flSleep(100)

	    conduit = 1
	    if argList.c:
	        conduit = int(argList.c[0])

	    isNeroCapable = fl.flIsNeroCapable(handle)
	    isCommCapable = fl.flIsCommCapable(handle, conduit)
	    fl.flSelectConduit(handle, conduit)
	   
	    if argList.f and not(isCommCapable):
	        raise fl.FLException("Data file load requested but device at {} does not support CommFPGA".format(vp))

	    if isCommCapable and fl.flIsFPGARunning(handle):
	        fpga = NodeFPGA(handle)
            opt = Optimizer(handle, fpga)
	        #Test setting LD Bias to 0.150A (channels 26, 27)

            #opt.setCurrent(0.150)
            #this section of code looks like setLaserCurrent()

	        curr = 0.150
	        code = curr/(4.096*1.1*((1/6.81)+(1/16500)))*4096
	        first_byte, second_byte = opt.code2bytes(code)
	        spi_data = [first_byte, second_byte]
	        update_SPI(handle, [26,27], spi_data)
	        #Test reading LD Bias (channels 64 and 65)
	        rx_bias = read_SPI(handle, [mem_map.getAddress('CC3a'), mem_map.getAddress('CC3b')])
	        for r in rx_bias:
	            print "Bias bytes read: ", r
	        print (rx_bias[1]*256 + rx_bias[0])/4096 * (4.096*1.1*((1/6.81)+(1/16500)))

	        #Test writing/reading to LD Temp
	        #TODO Constants are estimated; may need to verify with vendor
	        R_known = 10000
	        Vcc = 0.8
	        B = 3900
	        R_0 = 10000
	        T_0 = 25 
	        #writing temp 35C
	        T = 35
	        V_set = Vcc/(((m.exp(B/T)*(R_0 * m.exp(-B/T_0)))/R_known)+1)
	        V_code = opt.voltage2code(V_set) #convert voltage to code
	        fb, sb = opt.code2byte(V_code) #convert code to bytes
	        update_SPI(handle, [mem_map.getAddress('LTSa'),mem_map.getAddress('LTSb')], [fb, sb])

	        #reading temp
	        bytes__meas = read_SPI(handle, [mem_map.getAddress('LTMa'),mem_map.getAddress('LTMb')]) #read ADC value
	        code_meas = bytes_meas[1]*256 + bytes_meas[0] #convert bytes to double
			V_meas = opt.code2voltage(code_meas) #convert ADC to voltage
예제 #8
0
def SPImain():
	argList = getArgs()
	handle = fl.FLHandle()
	try:
	    fl.flInitialise(0)
	    vp = argList['fpga_vid_pid_did']
	    print("Attempting to open connection to FPGALink device {}...".format(vp))
	    try:
	        handle = fl.flOpen(vp)
	    except fl.FLException as ex:
            ivp = argList['fpga_vid_pid']
            print("Loading firmware into {}...".format(ivp))
            fl.flLoadStandardFirmware(ivp, vp)
            mem_map = mmap.Tester(ivp, vp)

            # Long delay for renumeration
            # TODO: fix this hack.  The timeout value specified in flAwaitDevice() below doesn't seem to work
            time.sleep(3)
            
            print("Awaiting renumeration...")
            if not fl.flAwaitDevice(vp, 10000):
                raise fl.FLException("FPGALink device did not renumerate properly as {}".format(vp))

            print("Attempting to open connection to FPGALink device {} again...".format(vp))
            handle = fl.flOpen(vp)
	    # if ( argList.d ):
	    #     print("Configuring ports...")
	    #     rb = "{:0{}b}".format(fl.flMultiBitPortAccess(handle, argList.d[0]), 32)
	    #     print("Readback:   28   24   20   16    12    8    4    0\n          {} {} {} {}  {} {} {} {}".format(
	    #         rb[0:4], rb[4:8], rb[8:12], rb[12:16], rb[16:20], rb[20:24], rb[24:28], rb[28:32]))
	    #     fl.flSleep(100)

	    conduit = 1

	    isNeroCapable = fl.flIsNeroCapable(handle)
	    isCommCapable = fl.flIsCommCapable(handle, conduit)
	    fl.flSelectConduit(handle, conduit)
	   
	    if argList['dataToWrite'] != None and not(isCommCapable):
	        raise fl.FLException("Data file load requested but device at {} does not support CommFPGA".format(vp))

	    if isCommCapable and fl.flIsFPGARunning(handle):
	        fpga = NodeFPGA(handle)
            opt = Optimizer(handle, fpga)
	        #Test setting LD Bias to 0.150A (channels 26, 27)

            #opt.setCurrent(0.150)
            #this section of code looks like setLaserCurrent()

	        curr = 0.150
	        code = curr/(4.096*1.1*((1/6.81)+(1/16500)))*4096
	        first_byte, second_byte = opt.code2bytes(code)
	        spi_data = [first_byte, second_byte]
	        updateSPI(handle, [mem_map.getAddress('LCCa'), mem_map.getAddress('LCCb')], spi_data)
	        #Test reading LD Bias (channels 64 and 65)
	        rx_bias = readSPI(handle, [mem_map.getAddress('CC3a'), mem_map.getAddress('CC3b')])
	        for r in rx_bias:
	            print ("Bias bytes read: ", r)
	        print (rx_bias[1]*256 + rx_bias[0])/4096 * (4.096*1.1*((1/6.81)+(1/16500)))

	        #Test writing/reading to LD Temp
	        #TODO Constants are estimated; may need to verify with vendor
	        R_known = 10000
	        Vcc = 0.8
	        B = 3900
	        R_0 = 10000
	        T_0 = 25 
	        #writing temp 35C
	        T = 35
	        V_set = Vcc/(((m.exp(B/T)*(R_0 * m.exp(-B/T_0)))/R_known)+1)
	        V_code = opt.voltage2code(V_set) #convert voltage to code
	        fb, sb = opt.code2byte(V_code) #convert code to bytes
	        updateSPI(handle, [mem_map.getAddress('LTSa'),mem_map.getAddress('LTSb')], [fb, sb])

	        #reading temp
	        bytes__meas = readSPI(handle, [mem_map.getAddress('LTMa'),mem_map.getAddress('LTMb')]) #read ADC value
	        code_meas = bytes_meas[1]*256 + bytes_meas[0] #convert bytes to double
			V_meas = opt.code2voltage(code_meas) #convert ADC to voltage

	        R_t = R_known * (Vcc/V_meas - 1)
	        T = B/m.log(R_t/R_0 * m.exp(-B/T_0))
	        print ("Temp read: ", T)

	        #Test reading from RTD
	        A = 3.81e-3 #from datasheet
	        B = -6.02e-7 #from datasheet
	        R_t0 = 1000
	        T_bm = readSPI(handle, [mem_map.getAddress('TE1a'),mem_map.getAddress('TE1b')]) #temp code measured
			T_cm = 256*T_bm[1] + T_bm[0] #convert bytes to double
	        T_meas = opt.code2voltage(T_cm) #convert ADC to voltage
	        R_T = R_known * (Vcc/T_meas - 1)
	        C = 1 -( R_T/R_t0)
	        T_R = (-A + (A**2-(4*B*C))**0.5) / (2*B)
	        print ("RTD temp: ", T_R)
        fl.flLoadStandardFirmware("04b4:8613", VID_PID)

        print("Awaiting...")
        fl.flAwaitDevice(VID_PID, 600)

    conn = fl.flOpen(VID_PID)

    fl.flSingleBitPortAccess(conn, 3, 7, fl.PIN_LOW)
    print("flMultiBitPortAccess() returned {:032b}".format(
        fl.flMultiBitPortAccess(conn, "D7+")))
    fl.flSleep(100)

    print("flGetFirmwareID(): {:04X}".format(fl.flGetFirmwareID(conn)))
    print("flGetFirmwareVersion(): {:08X}".format(fl.flGetFirmwareVersion(conn)))
    print("flIsNeroCapable(): {}".format(fl.flIsNeroCapable(conn)))
    print("flIsCommCapable(): {}".format(fl.flIsCommCapable(conn, CONDUIT)))

    fl.progOpen(conn, PROG_CONFIG)
    print("progGetPort(): {")
    (port, bit) = fl.progGetPort(conn, fl.LP_MISO)
    print("  MISO: {:c}{}".format(ord('A')+port, bit))
    (port, bit) = fl.progGetPort(conn, fl.LP_MOSI)
    print("  MOSI: {:c}{}".format(ord('A')+port, bit))
    (port, bit) = fl.progGetPort(conn, fl.LP_SS)
    print("  SS:   {:c}{}".format(ord('A')+port, bit))
    (port, bit) = fl.progGetPort(conn, fl.LP_SCK)
    print("  SCK:  {:c}{}".format(ord('A')+port, bit))
    print("}")

    fl.jtagClockFSM(conn, 0x0000005F, 9)
    fl.jtagShiftInOnly(conn, 32, BYTE_ARRAY)
    sys.exit(0)


signal.signal(signal.SIGINT, update_file)
handle = fl.FLHandle()

try:
    fl.flInitialise(0)
    print("Attempting to open connection to the board ...")
    try:
        handle = fl.flOpen(vp)
    except fl.FLException:
        print("flOpen Error (line 39)")

    fl.flSelectConduit(handle, 1)
    if fl.flIsCommCapable(handle, 1):
        update_data()
        i = 0
        while True:
            # H2 : Polling to be done only on the
            # first try.
            if i == 0:
                h2(handle)
            else:
                ch2(handle)
            i = i + 1
            # H3
            print("H3")
            rf.encrypt_and_write_bytes(handle, 2 * ch_ind + 1, 4, ack2)
            # H4
            print("H4")
예제 #11
0
파일: flcli.py 프로젝트: kulp/libfpgalink
    if argList.d:
        print("Configuring ports...")
        rb = "{:0{}b}".format(fl.flMultiBitPortAccess(handle, argList.d[0]), 32)
        print(
            "Readback:   28   24   20   16    12    8    4    0\n          {} {} {} {}  {} {} {} {}".format(
                rb[0:4], rb[4:8], rb[8:12], rb[12:16], rb[16:20], rb[20:24], rb[24:28], rb[28:32]
            )
        )
        fl.flSleep(100)

    conduit = 1
    if argList.c:
        conduit = int(argList.c[0])

    isNeroCapable = fl.flIsNeroCapable(handle)
    isCommCapable = fl.flIsCommCapable(handle, conduit)
    fl.flSelectConduit(handle, conduit)

    if argList.q:
        if isNeroCapable:
            chain = fl.jtagScanChain(handle, argList.q[0])
            if len(chain) > 0:
                print("The FPGALink device at {} scanned its JTAG chain, yielding:".format(vp))
                for idCode in chain:
                    print("  0x{:08X}".format(idCode))
            else:
                print(
                    "The FPGALink device at {} scanned its JTAG chain but did not find any attached devices".format(vp)
                )
        else:
            raise fl.FLException(