mirror of https://github.com/m-labs/artiq.git
devices: basic pdq2 controller/client
This commit is contained in:
parent
16170c9013
commit
3f1391f7f2
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@ -1,23 +1,27 @@
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#!/usr/bin/env python3
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# Robert Jordens <jordens@gmail.com>, 2012
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# Based on code by Robert Jordens <jordens@gmail.com>, 2012
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import argparse
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import time
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import logging
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from scipy import interpolate
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import numpy as np
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from pdq2com import Pdq2
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from artiq.management.pc_rpc import Client
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def _main():
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parser = argparse.ArgumentParser(description="""PDQ2 frontend.
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Evaluates times and voltages, interpolates and uploads
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them.""")
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parser.add_argument("-s", "--serial", default=None,
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help="device (FT245R) serial string [first]")
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def _get_args():
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parser = argparse.ArgumentParser(description="""PDQ2 client.
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Evaluates times and voltages, interpolates and uploads
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them to the controller.""")
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parser.add_argument("-s", "--server", default="::1",
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help="hostname or IP of the master to connect to")
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parser.add_argument("--port", default=8889, type=int,
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help="TCP port to use to connect to the master")
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parser.add_argument("-q", "--quit-controller", default=False,
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action="store_true",
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help="causes the controller to quit")
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parser.add_argument("-c", "--channel", default=0, type=int,
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help="channel: 3*board_num+dac_num [%(default)s]")
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parser.add_argument("-f", "--frame", default=0, type=int,
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@ -44,42 +48,44 @@ def _main():
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help="demo mode: pulse and chirp,"
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" 1V*ch+0.1V*frame [%(default)s]")
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parser.add_argument("-p", "--plot", help="plot to file [%(default)s]")
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parser.add_argument("-d", "--debug", default=False,
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action="store_true", help="debug communications")
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parser.add_argument("-r", "--reset", default=False,
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action="store_true", help="do reset before")
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parser.add_argument("-b", "--bit", default=False,
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action="store_true", help="do bit test")
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return parser.parse_args()
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args = parser.parse_args()
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if args.debug:
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logging.basicConfig(level=logging.DEBUG)
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else:
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logging.basicConfig(level=logging.WARNING)
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times = eval(args.times, globals(), {})
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voltages = eval(args.voltages, globals(), dict(t=times))
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dev = Pdq2(serial=args.serial)
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def _main():
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args = _get_args()
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dev = Client(args.server, args.port)
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if args.quit_controller:
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dev.quit()
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return
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dev.init()
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if args.reset:
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dev.write(b"\x00") # flush any escape
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dev.flush_escape()
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dev.write_cmd("RESET_EN")
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time.sleep(.1)
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if args.dcm:
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dev.write_cmd("DCM_EN")
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dev.freq = 100e6
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dev.set_freq(100e6)
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elif args.dcm == 0:
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dev.write_cmd("DCM_DIS")
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dev.freq = 50e6
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dev.set_freq(50e6)
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dev.write_cmd("START_DIS")
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num_channels = dev.get_num_channels()
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num_frames = dev.get_num_frames()
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times = eval(args.times, globals(), {})
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voltages = eval(args.voltages, globals(), dict(t=times))
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if args.demo:
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channels = [args.channel] if args.channel < dev.num_channels \
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else range(dev.num_channels)
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frames = [args.frame] if args.frame < dev.num_frames \
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else range(dev.num_frames)
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# FIXME
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channels = [args.channel] if args.channel < num_channels \
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else range(num_channels)
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frames = [args.frame] if args.frame < num_frames \
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else range(num_frames)
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for channel in channels:
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f = []
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for frame in frames:
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@ -95,32 +101,29 @@ def _main():
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board, dac = divmod(channel, dev.num_dacs)
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dev.write_data(dev.add_mem_header(board, dac, dev.map_frames(f)))
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elif args.bit:
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map = [0] * dev.num_frames
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map = [0] * num_frames
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t = np.arange(2*16) * 1.
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v = [-1, 0, -1]
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for i in range(15):
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vi = 1 << i
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v.extend([vi - 1, vi])
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v = np.array(v)*dev.max_out/(1 << 15)
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v = np.array(v)*dev.get_max_out()/(1 << 15)
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t, v = t[:3], v[:3]
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# print(t, v)
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for channel in range(dev.num_channels):
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dev.write_data(dev.multi_frame([(t, v)], channel=channel,
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order=0, map=map, shift=15,
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stop=False, trigger=False))
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for channel in range(num_channels):
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dev.multi_frame([(t, v)], channel=channel, order=0, map=map,
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shift=15, stop=False, trigger=False)
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else:
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tv = [(times, voltages)]
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map = [None] * dev.num_frames
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map = [None] * num_frames
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map[args.frame] = 0
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dev.write_data(dev.multi_frame(tv, channel=args.channel,
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order=args.order, map=map))
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dev.multi_frame(tv, channel=args.channel, order=args.order, map=map)
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dev.write_cmd("START_EN")
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if not args.disarm:
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dev.write_cmd("ARM_EN")
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if args.free:
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dev.write_cmd("TRIGGER_EN")
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dev.close()
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if args.plot:
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from matplotlib import pyplot as plt
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@ -128,7 +131,7 @@ def _main():
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ax0.plot(times, voltages, "xk", label="points")
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if args.order:
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spline = interpolate.splrep(times, voltages, k=args.order)
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ttimes = np.arange(0, times[-1], 1/dev.freq)
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ttimes = np.arange(0, times[-1], 1/dev.get_freq())
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vvoltages = interpolate.splev(ttimes, spline)
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ax0.plot(ttimes, vvoltages, ",b", label="interpolation")
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fig.savefig(args.plot)
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158
artiq/devices/pdq2/pdq2com.py → artiq/devices/pdq2/pdq2-controller
Normal file → Executable file
158
artiq/devices/pdq2/pdq2com.py → artiq/devices/pdq2/pdq2-controller
Normal file → Executable file
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@ -1,12 +1,17 @@
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# Robert Jordens <jordens@gmail.com>, 2012
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#!/usr/bin/env python3
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# Based on code by Robert Jordens <jordens@gmail.com>, 2012
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import logging
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import struct
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import warnings
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import argparse
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import asyncio
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from scipy import interpolate
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import numpy as np
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from artiq.management.pc_rpc import Server, WaitQuit
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logger = logging.getLogger("Pdq2")
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@ -74,26 +79,14 @@ if Ftdi is None:
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self.fil.close()
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del self.fil
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warnings.warn("no ftdi library found. writing to files")
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logger.warning("no ftdi library found. writing to files")
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Ftdi = FileFtdi
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class Pdq2:
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class Pdq2(WaitQuit):
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"""
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PDQ DAC (a.k.a. QC_Waveform)
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"""
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max_val = 1 << 15 # signed 16 bit DAC
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max_out = 10.
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freq = 50e6 # samples/s
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max_time = 1 << 16 # unsigned 16 bit timer
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num_dacs = 3
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num_frames = 8
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num_channels = 9
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max_data = 4*(1 << 10) # 8kx16 8kx16 4kx16
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escape_char = b"\xa5"
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cordic_gain = 1.
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for i in range(16):
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cordic_gain *= np.sqrt(1 + 2**(-2*i))
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commands = {
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"RESET_EN": b"\x00",
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}
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def __init__(self, serial=None):
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WaitQuit.__init__(self)
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self.serial = serial
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self.dev = Ftdi(serial)
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def init(self):
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self.max_val = 1 << 15 # signed 16 bit DAC
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self.max_out = 10.
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self.freq = 50e6 # samples/s
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self.max_time = 1 << 16 # unsigned 16 bit timer
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self.num_dacs = 3
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self.num_frames = 8
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self.num_channels = 9
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self.max_data = 4*(1 << 10) # 8kx16 8kx16 4kx16
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self.escape_char = b"\xa5"
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self.cordic_gain = 1.
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for i in range(16):
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self.cordic_gain *= np.sqrt(1 + 2**(-2*i))
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def close(self):
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self.dev.close()
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del self.dev
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def cmd(self, cmd):
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def set_freq(self, f):
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self.freq = f
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def get_freq(self):
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return self.freq
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def get_num_channels(self):
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return self.num_channels
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def get_num_frames(self):
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return self.num_frames
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def get_max_out(self):
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return self.max_out
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def _cmd(self, cmd):
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return self.escape_char + self.commands[cmd]
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def write_cmd(self, cmd):
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return self.write(self.cmd(cmd))
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def escape(self, data):
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def _escape(self, data):
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return data.replace(self.escape_char,
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self.escape_char + self.escape_char)
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def write(self, *segments):
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def _write(self, *segments):
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"""
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writes data segments to device
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"""
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if written != len(segment):
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raise IOError("wrote %i of %i" % (written, len(segment)))
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def write_data(self, *segments):
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return self.write(*(self.escape(seg) for seg in segments))
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def flush_escape(self):
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self._write(b"\x00")
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def line_times(self, t, shift=0):
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def write_cmd(self, cmd):
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return self._write(self._cmd(cmd))
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def _write_data(self, *segments):
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return self._write(*(self._escape(seg) for seg in segments))
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def _line_times(self, t, shift=0):
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scale = self.freq/2**shift
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t = t*scale
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tr = np.rint(t)
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dt = np.diff(tr)
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return t, tr, dt
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def interpolate(self, t, v, order, shift=0, tr=None):
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def _interpolate(self, t, v, order, shift=0, tr=None):
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"""
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calculate spline interpolation derivatives for data
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according to interpolation order
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dv[i] -= c*dv[j]
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return dv
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def pack_frame(self, *parts_dtypes):
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def _pack_frame(self, *parts_dtypes):
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frame = []
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for part, dtype in parts_dtypes:
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if dtype == "i6":
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frame, frame.dtype, frame.shape, len(bytes(frame.data)))
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return bytes(frame.data)
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def frame(self, t, v, p=None, f=None,
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order=3, aux=None, shift=0, trigger=True, end=True,
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silence=False, stop=True, clear=True, wait=False):
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def _frame(self, t, v, p=None, f=None,
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order=3, aux=None, shift=0, trigger=True, end=True,
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silence=False, stop=True, clear=True, wait=False):
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"""
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serialize frame data
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voltages in volts, times in seconds
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@ -217,7 +243,7 @@ class Pdq2:
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head[-1] |= (not stop and wait) << 15 # 1
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parts.append((head, "u2"))
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t, tr, dt = self.line_times(t, shift)
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t, tr, dt = self._line_times(t, shift)
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assert np.all(dt*2**shift > 1 + length), (dt, length)
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assert np.all(dt < self.max_time), dt
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@ -226,20 +252,20 @@ class Pdq2:
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v = np.clip(v/self.max_out, -1, 1)
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if p is not None:
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v /= self.cordic_gain
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for dv, w in zip(self.interpolate(t, v, order, shift, tr), words):
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for dv, w in zip(self._interpolate(t, v, order, shift, tr), words):
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parts.append((np.rint(dv*(2**(16*w - 1))), "i%i" % (2*w)))
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if p is not None:
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p = p/(2*np.pi)
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for dv, w in zip(self.interpolate(t, p, 0, shift, tr), [1]):
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for dv, w in zip(self._interpolate(t, p, 0, shift, tr), [1]):
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parts.append((np.rint(dv*(2**(16*w))), "u%i" % (2*w)))
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if f is not None:
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f = f/self.freq
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for dv, w in zip(self.interpolate(t, f, 1, shift, tr), [2, 2]):
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for dv, w in zip(self._interpolate(t, f, 1, shift, tr), [2, 2]):
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parts.append((np.rint(dv*(2**(16*w))), "i%i" % (2*w)))
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frame = self.pack_frame(*parts)
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frame = self._pack_frame(*parts)
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if stop:
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if p is not None:
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1, int(v[-1]*2**15))
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return frame
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def line(self, dt, v=(), a=(), p=(), f=(), typ=0,
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silence=False, end=False, trigger=False, aux=False,
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clear=False):
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def _line(self, dt, v=(), a=(), p=(), f=(), typ=0,
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silence=False, end=False, trigger=False, aux=False,
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clear=False):
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raise NotImplementedError
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fmt = "<HH"
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parts = [0, int(round(dt*self.freq))]
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if p is not None:
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typ = 1
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def map_frames(self, frames, map=None):
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def _map_frames(self, frames, map=None):
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table = []
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adr = self.num_frames
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for frame in frames:
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@ -291,15 +317,59 @@ class Pdq2:
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t = struct.pack("<" + "H"*self.num_frames, *t)
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return t + b"".join(frames)
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def add_mem_header(self, board, dac, data, adr=0):
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def _add_mem_header(self, board, dac, data, adr=0):
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assert dac in range(self.num_dacs)
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head = struct.pack("<HHH", (board << 4) | dac,
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adr, adr + len(data)//2 - 1)
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return head + data
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def multi_frame(self, times_voltages, channel, map=None, **kwargs):
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frames = [self.frame(t, v, **kwargs) for t, v in times_voltages]
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data = self.map_frames(frames, map)
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frames = [self._frame(t, v, **kwargs) for t, v in times_voltages]
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data = self._map_frames(frames, map)
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board, dac = divmod(channel, self.num_dacs)
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data = self.add_mem_header(board, dac, data)
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return data
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data = self._add_mem_header(board, dac, data)
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self._write_data(data)
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def _get_args():
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parser = argparse.ArgumentParser(description="PDQ2 controller")
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parser.add_argument(
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"--bind", default="::1",
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help="hostname or IP address to bind to")
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parser.add_argument(
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"--port", default=8889, type=int,
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help="TCP port to listen to")
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parser.add_argument(
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"-s", "--serial", default=None,
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help="device (FT245R) serial string [first]")
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parser.add_argument(
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"-d", "--debug", default=False, action="store_true",
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help="debug communications")
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return parser.parse_args()
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def main():
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args = _get_args()
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if args.debug:
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logging.basicConfig(level=logging.DEBUG)
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else:
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logging.basicConfig(level=logging.WARNING)
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dev = Pdq2(serial=args.serial)
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try:
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loop = asyncio.get_event_loop()
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try:
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server = Server(dev)
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loop.run_until_complete(server.start(args.bind, args.port))
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try:
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loop.run_until_complete(dev.wait_quit())
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finally:
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loop.run_until_complete(server.stop())
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finally:
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loop.close()
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finally:
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dev.close()
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if __name__ == "__main__":
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main()
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