forked from M-Labs/artiq
integrate new AD9914 driver
moninj, analyzer, docs, examples, tests.
This commit is contained in:
parent
663d8e66ba
commit
3027951dd8
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@ -32,6 +32,9 @@ ARTIQ-4
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to the new bus.
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* The ``ad5360`` coredevice driver has been renamed to ``ad53xx`` and the API
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has changed to better support Zotino.
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* ``artiq.coredevice.dds`` has been renamed to ``artiq.coredevice.ad9914`` and
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simplified. DDS batch mode is no longer supported. The ``core_dds`` device
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is no longer necessary.
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ARTIQ-3
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@ -1,9 +1,3 @@
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from artiq.coredevice import exceptions, dds, spi2
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from artiq.coredevice.exceptions import (RTIOUnderflow, RTIOOverflow)
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from artiq.coredevice.dds import (PHASE_MODE_CONTINUOUS, PHASE_MODE_ABSOLUTE,
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PHASE_MODE_TRACKING)
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__all__ = []
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__all__ += ["RTIOUnderflow", "RTIOOverflow"]
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__all__ += ["PHASE_MODE_CONTINUOUS", "PHASE_MODE_ABSOLUTE",
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"PHASE_MODE_TRACKING"]
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__all__ = ["RTIOUnderflow", "RTIOOverflow"]
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@ -211,9 +211,8 @@ class TTLClockGenHandler:
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class DDSHandler:
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def __init__(self, vcd_manager, dds_type, onehot_sel, sysclk):
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def __init__(self, vcd_manager, onehot_sel, sysclk):
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self.vcd_manager = vcd_manager
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self.dds_type = dds_type
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self.onehot_sel = onehot_sel
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self.sysclk = sysclk
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@ -227,7 +226,6 @@ class DDSHandler:
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self.vcd_manager.get_channel(name + "/frequency", 64)
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dds_channel["vcd_phase"] = \
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self.vcd_manager.get_channel(name + "/phase", 64)
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if self.dds_type == "DDSChannelAD9914":
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dds_channel["ftw"] = [None, None]
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dds_channel["pow"] = None
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self.dds_channels[dds_channel_nr] = dds_channel
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@ -252,9 +250,9 @@ class DDSHandler:
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self.selected_dds_channels = self._gpio_to_channels(message.data)
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for dds_channel_nr in self.selected_dds_channels:
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dds_channel = self.dds_channels[dds_channel_nr]
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if message.address == 0x2d:
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if message.address == 0x11:
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dds_channel["ftw"][0] = message.data
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elif message.address == 0x2f:
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elif message.address == 0x13:
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dds_channel["ftw"][1] = message.data
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elif message.address == 0x31:
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dds_channel["pow"] = message.data
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@ -273,7 +271,6 @@ class DDSHandler:
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logger.debug("DDS write @%d 0x%04x to 0x%02x, selected channels: %s",
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message.timestamp, message.data, message.address,
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self.selected_dds_channels)
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if self.dds_type == "DDSChannelAD9914":
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self._decode_ad9914_write(message)
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@ -444,16 +441,17 @@ def get_vcd_log_channels(log_channel, messages):
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def get_single_device_argument(devices, module, cls, argument):
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ref_period = None
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found = None
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for desc in devices.values():
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if isinstance(desc, dict) and desc["type"] == "local":
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if (desc["module"] == module
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and desc["class"] in cls):
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if ref_period is None:
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ref_period = desc["arguments"][argument]
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else:
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return None # more than one device found
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return ref_period
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value = desc["arguments"][argument]
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if found is None:
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found = value
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elif value != found:
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return None # more than one value/device found
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return found
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def get_ref_period(devices):
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@ -462,8 +460,8 @@ def get_ref_period(devices):
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def get_dds_sysclk(devices):
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return get_single_device_argument(devices, "artiq.coredevice.dds",
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("DDSGroupAD9914",), "sysclk")
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return get_single_device_argument(devices, "artiq.coredevice.ad9914",
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("ad9914",), "sysclk")
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def create_channel_handlers(vcd_manager, devices, ref_period,
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@ -479,14 +477,12 @@ def create_channel_handlers(vcd_manager, devices, ref_period,
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and desc["class"] == "TTLClockGen"):
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channel = desc["arguments"]["channel"]
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channel_handlers[channel] = TTLClockGenHandler(vcd_manager, name, ref_period)
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if (desc["module"] == "artiq.coredevice.dds"
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and desc["class"] in {"DDSChannelAD9914"}):
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if (desc["module"] == "artiq.coredevice.ad9914"
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and desc["class"] == "AD9914"):
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dds_bus_channel = desc["arguments"]["bus_channel"]
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dds_channel = desc["arguments"]["channel"]
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if dds_bus_channel in channel_handlers:
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dds_handler = channel_handlers[dds_bus_channel]
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if dds_handler.dds_type != desc["class"]:
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raise ValueError("All DDS channels must have the same type")
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else:
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dds_handler = DDSHandler(vcd_manager, desc["class"],
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dds_onehot_sel, dds_sysclk)
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@ -1,401 +0,0 @@
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"""
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Drivers for direct digital synthesis (DDS) chips on RTIO.
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Output event replacement is not supported and issuing commands at the same
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time is an error.
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"""
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from artiq.language.core import *
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from artiq.language.types import *
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from artiq.language.units import *
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from artiq.coredevice.rtio import rtio_output
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from artiq.coredevice.exceptions import DDSError
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from numpy import int32, int64
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_PHASE_MODE_DEFAULT = -1
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PHASE_MODE_CONTINUOUS = 0
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PHASE_MODE_ABSOLUTE = 1
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PHASE_MODE_TRACKING = 2
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class DDSParams:
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def __init__(self):
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self.bus_channel = 0
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self.channel = 0
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self.ftw = 0
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self.pow = 0
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self.phase_mode = 0
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self.amplitude = 0
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class BatchContextManager:
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kernel_invariants = {"core", "core_dds", "params"}
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def __init__(self, core_dds):
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self.core_dds = core_dds
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self.core = self.core_dds.core
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self.active = False
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self.params = [DDSParams() for _ in range(16)]
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self.count = 0
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self.ref_time = int64(0)
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@kernel
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def __enter__(self):
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"""Starts a DDS command batch. All DDS commands are buffered
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after this call, until ``batch_exit`` is called.
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The time of execution of the DDS commands is the time cursor position
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when the batch is entered."""
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if self.active:
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raise DDSError("DDS batch entered twice")
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self.active = True
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self.count = 0
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self.ref_time = now_mu()
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@kernel
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def append(self, bus_channel, channel, ftw, pow, phase_mode, amplitude):
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if self.count == len(self.params):
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raise DDSError("Too many commands in DDS batch")
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params = self.params[self.count]
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params.bus_channel = bus_channel
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params.channel = channel
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params.ftw = ftw
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params.pow = pow
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params.phase_mode = phase_mode
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params.amplitude = amplitude
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self.count += 1
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@kernel
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def __exit__(self, type, value, traceback):
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"""Ends a DDS command batch. All buffered DDS commands are issued
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on the bus."""
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if not self.active:
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raise DDSError("DDS batch exited twice")
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self.active = False
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at_mu(self.ref_time - self.core_dds.batch_duration_mu())
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for i in range(self.count):
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param = self.params[i]
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self.core_dds.program(self.ref_time,
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param.bus_channel, param.channel, param.ftw,
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param.pow, param.phase_mode, param.amplitude)
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class DDSGroup:
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"""Core device Direct Digital Synthesis (DDS) driver.
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Gives access to the DDS functionality of the core device.
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:param sysclk: DDS system frequency. The DDS system clock must be a
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phase-locked multiple of the RTIO clock.
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"""
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kernel_invariants = {"core", "sysclk", "batch"}
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def __init__(self, dmgr, sysclk, core_device="core"):
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self.core = dmgr.get(core_device)
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self.sysclk = sysclk
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self.batch = BatchContextManager(self)
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@kernel
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def batch_duration_mu(self):
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raise NotImplementedError
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@kernel
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def init(self, bus_channel, channel):
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raise NotImplementedError
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@kernel
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def program(self, ref_time, bus_channel, channel, ftw, pow, phase_mode, amplitude):
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raise NotImplementedError
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@kernel
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def set(self, bus_channel, channel, ftw, pow, phase_mode, amplitude):
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if self.batch.active:
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self.batch.append(bus_channel, channel, ftw, pow, phase_mode, amplitude)
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else:
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ref_time = now_mu()
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at_mu(ref_time - self.program_duration_mu)
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self.program(ref_time,
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bus_channel, channel, ftw, pow, phase_mode, amplitude)
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@portable(flags={"fast-math"})
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def frequency_to_ftw(self, frequency):
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"""Returns the frequency tuning word corresponding to the given
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frequency.
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"""
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return round(float(int64(2)**32*frequency/self.sysclk))
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@portable(flags={"fast-math"})
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def ftw_to_frequency(self, ftw):
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"""Returns the frequency corresponding to the given frequency tuning
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word.
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"""
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return ftw*self.sysclk/int64(2)**32
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@portable(flags={"fast-math"})
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def turns_to_pow(self, turns):
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"""Returns the phase offset word corresponding to the given phase
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in turns."""
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return round(float(turns*2**self.pow_width))
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@portable(flags={"fast-math"})
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def pow_to_turns(self, pow):
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"""Returns the phase in turns corresponding to the given phase offset
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word."""
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return pow/2**self.pow_width
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@portable(flags={"fast-math"})
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def amplitude_to_asf(self, amplitude):
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"""Returns amplitude scale factor corresponding to given amplitude."""
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return round(float(amplitude*0x0fff))
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@portable(flags={"fast-math"})
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def asf_to_amplitude(self, asf):
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"""Returns the amplitude corresponding to the given amplitude scale
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factor."""
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return asf/0x0fff
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class DDSChannel:
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"""Core device Direct Digital Synthesis (DDS) channel driver.
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Controls one DDS channel managed directly by the core device's runtime.
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This class should not be used directly, instead, use the chip-specific
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drivers such as ``DDSChannelAD9914``.
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The time cursor is not modified by any function in this class.
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:param bus: name of the DDS bus device that this DDS is connected to.
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:param channel: channel number of the DDS device to control.
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"""
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kernel_invariants = {
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"core", "core_dds", "bus_channel", "channel",
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}
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def __init__(self, dmgr, bus_channel, channel, core_dds_device="core_dds"):
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self.core_dds = dmgr.get(core_dds_device)
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self.core = self.core_dds.core
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self.bus_channel = bus_channel
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self.channel = channel
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self.phase_mode = PHASE_MODE_CONTINUOUS
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@kernel
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def init(self):
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"""Resets and initializes the DDS channel.
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This needs to be done for each DDS channel before it can be used, and
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it is recommended to use the startup kernel for this.
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This function cannot be used in a batch; the correct way of
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initializing multiple DDS channels is to call this function
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sequentially with a delay between the calls. 2ms provides a good
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timing margin."""
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self.core_dds.init(self.bus_channel, self.channel)
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@kernel
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def set_phase_mode(self, phase_mode):
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"""Sets the phase mode of the DDS channel. Supported phase modes are:
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* ``PHASE_MODE_CONTINUOUS``: the phase accumulator is unchanged when
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switching frequencies. The DDS phase is the sum of the phase
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accumulator and the phase offset. The only discrete jumps in the
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DDS output phase come from changes to the phase offset.
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* ``PHASE_MODE_ABSOLUTE``: the phase accumulator is reset when
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switching frequencies. Thus, the phase of the DDS at the time of
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the frequency change is equal to the phase offset.
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* ``PHASE_MODE_TRACKING``: when switching frequencies, the phase
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accumulator is set to the value it would have if the DDS had been
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running at the specified frequency since the start of the
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experiment.
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"""
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self.phase_mode = phase_mode
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@kernel
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def set_mu(self, frequency, phase=0, phase_mode=_PHASE_MODE_DEFAULT,
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amplitude=0x0fff):
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"""Sets the DDS channel to the specified frequency and phase.
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This uses machine units (FTW and POW). The frequency tuning word width
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is 32, whereas the phase offset word width depends on the type of DDS
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chip and can be retrieved via the ``pow_width`` attribute. The amplitude
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width is 12.
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The "frequency update" pulse is sent to the DDS with a fixed latency
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with respect to the current position of the time cursor.
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:param frequency: frequency to generate.
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:param phase: adds an offset, in turns, to the phase.
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:param phase_mode: if specified, overrides the default phase mode set
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by ``set_phase_mode`` for this call.
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"""
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if phase_mode == _PHASE_MODE_DEFAULT:
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phase_mode = self.phase_mode
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self.core_dds.set(self.bus_channel, self.channel, frequency, phase, phase_mode, amplitude)
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@kernel
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def set(self, frequency, phase=0.0, phase_mode=_PHASE_MODE_DEFAULT,
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amplitude=1.0):
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"""Like ``set_mu``, but uses Hz and turns."""
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self.set_mu(self.core_dds.frequency_to_ftw(frequency),
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self.core_dds.turns_to_pow(phase), phase_mode,
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self.core_dds.amplitude_to_asf(amplitude))
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AD9914_REG_CFR1L = 0x01
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AD9914_REG_CFR1H = 0x03
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AD9914_REG_CFR2L = 0x05
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AD9914_REG_CFR2H = 0x07
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AD9914_REG_CFR3L = 0x09
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AD9914_REG_CFR3H = 0x0b
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AD9914_REG_CFR4L = 0x0d
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AD9914_REG_CFR4H = 0x0f
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AD9914_REG_FTWL = 0x2d
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AD9914_REG_FTWH = 0x2f
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AD9914_REG_POW = 0x31
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AD9914_REG_ASF = 0x33
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AD9914_REG_USR0 = 0x6d
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AD9914_FUD = 0x80
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AD9914_GPIO = 0x81
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class DDSGroupAD9914(DDSGroup):
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"""Driver for AD9914 DDS chips. See ``DDSGroup`` for a description
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of the functionality."""
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kernel_invariants = DDSGroup.kernel_invariants.union({
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"pow_width", "rtio_period_mu", "sysclk_per_mu", "write_duration_mu", "dac_cal_duration_mu",
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"init_duration_mu", "init_sync_duration_mu", "program_duration_mu",
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"first_dds_bus_channel", "dds_channel_count", "continuous_phase_comp"
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})
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pow_width = 16
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def __init__(self, *args, first_dds_bus_channel, dds_bus_count, dds_channel_count, **kwargs):
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super().__init__(*args, **kwargs)
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self.first_dds_bus_channel = first_dds_bus_channel
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self.dds_bus_count = dds_bus_count
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self.dds_channel_count = dds_channel_count
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self.rtio_period_mu = int64(8)
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self.sysclk_per_mu = int32(self.sysclk * self.core.ref_period)
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self.write_duration_mu = 5 * self.rtio_period_mu
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self.dac_cal_duration_mu = 147000 * self.rtio_period_mu
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self.init_duration_mu = 8 * self.write_duration_mu + self.dac_cal_duration_mu
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self.init_sync_duration_mu = 16 * self.write_duration_mu + 2 * self.dac_cal_duration_mu
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self.program_duration_mu = 6 * self.write_duration_mu
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self.continuous_phase_comp = [0] * (self.dds_bus_count * self.dds_channel_count)
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@kernel
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def batch_duration_mu(self):
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return self.batch.count * (self.program_duration_mu +
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self.write_duration_mu) # + FUD time
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@kernel
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def write(self, bus_channel, addr, data):
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rtio_output(now_mu(), bus_channel, addr, data)
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delay_mu(self.write_duration_mu)
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@kernel
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def init(self, bus_channel, channel):
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delay_mu(-self.init_duration_mu)
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self.write(bus_channel, AD9914_GPIO, (1 << channel) << 1);
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self.write(bus_channel, AD9914_REG_CFR1H, 0x0000) # Enable cosine output
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self.write(bus_channel, AD9914_REG_CFR2L, 0x8900) # Enable matched latency
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self.write(bus_channel, AD9914_REG_CFR2H, 0x0080) # Enable profile mode
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self.write(bus_channel, AD9914_REG_ASF, 0x0fff) # Set amplitude to maximum
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self.write(bus_channel, AD9914_REG_CFR4H, 0x0105) # Enable DAC calibration
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self.write(bus_channel, AD9914_FUD, 0)
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delay_mu(self.dac_cal_duration_mu)
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self.write(bus_channel, AD9914_REG_CFR4H, 0x0005) # Disable DAC calibration
|
||||
self.write(bus_channel, AD9914_FUD, 0)
|
||||
|
||||
@kernel
|
||||
def init_sync(self, bus_channel, channel, sync_delay):
|
||||
delay_mu(-self.init_sync_duration_mu)
|
||||
self.write(bus_channel, AD9914_GPIO, (1 << channel) << 1)
|
||||
|
||||
self.write(bus_channel, AD9914_REG_CFR4H, 0x0105) # Enable DAC calibration
|
||||
self.write(bus_channel, AD9914_FUD, 0)
|
||||
delay_mu(self.dac_cal_duration_mu)
|
||||
self.write(bus_channel, AD9914_REG_CFR4H, 0x0005) # Disable DAC calibration
|
||||
self.write(bus_channel, AD9914_FUD, 0)
|
||||
self.write(bus_channel, AD9914_REG_CFR2L, 0x8b00) # Enable matched latency and sync_out
|
||||
self.write(bus_channel, AD9914_FUD, 0)
|
||||
# Set cal with sync and set sync_out and sync_in delay
|
||||
self.write(bus_channel, AD9914_REG_USR0, 0x0840 | (sync_delay & 0x3f))
|
||||
self.write(bus_channel, AD9914_FUD, 0)
|
||||
self.write(bus_channel, AD9914_REG_CFR4H, 0x0105) # Enable DAC calibration
|
||||
self.write(bus_channel, AD9914_FUD, 0)
|
||||
delay_mu(self.dac_cal_duration_mu)
|
||||
self.write(bus_channel, AD9914_REG_CFR4H, 0x0005) # Disable DAC calibration
|
||||
self.write(bus_channel, AD9914_FUD, 0)
|
||||
self.write(bus_channel, AD9914_REG_CFR1H, 0x0000) # Enable cosine output
|
||||
self.write(bus_channel, AD9914_REG_CFR2H, 0x0080) # Enable profile mode
|
||||
self.write(bus_channel, AD9914_REG_ASF, 0x0fff) # Set amplitude to maximum
|
||||
self.write(bus_channel, AD9914_FUD, 0)
|
||||
|
||||
@kernel
|
||||
def program(self, ref_time, bus_channel, channel, ftw, pow, phase_mode, amplitude):
|
||||
self.write(bus_channel, AD9914_GPIO, (1 << channel) << 1)
|
||||
|
||||
self.write(bus_channel, AD9914_REG_FTWL, ftw & 0xffff)
|
||||
self.write(bus_channel, AD9914_REG_FTWH, (ftw >> 16) & 0xffff)
|
||||
|
||||
# We need the RTIO fine timestamp clock to be phase-locked
|
||||
# to DDS SYSCLK, and divided by an integer self.sysclk_per_mu.
|
||||
dds_bus_index = bus_channel - self.first_dds_bus_channel
|
||||
phase_comp_index = dds_bus_index * self.dds_channel_count + channel
|
||||
if phase_mode == PHASE_MODE_CONTINUOUS:
|
||||
# Do not clear phase accumulator on FUD
|
||||
# Disable autoclear phase accumulator and enables OSK.
|
||||
self.write(bus_channel, AD9914_REG_CFR1L, 0x0108)
|
||||
pow += self.continuous_phase_comp[phase_comp_index]
|
||||
else:
|
||||
# Clear phase accumulator on FUD
|
||||
# Enable autoclear phase accumulator and enables OSK.
|
||||
self.write(bus_channel, AD9914_REG_CFR1L, 0x2108)
|
||||
fud_time = now_mu() + 2 * self.write_duration_mu
|
||||
pow -= int32((ref_time - fud_time) * self.sysclk_per_mu * ftw >> (32 - self.pow_width))
|
||||
if phase_mode == PHASE_MODE_TRACKING:
|
||||
pow += int32(ref_time * self.sysclk_per_mu * ftw >> (32 - self.pow_width))
|
||||
self.continuous_phase_comp[phase_comp_index] = pow
|
||||
|
||||
self.write(bus_channel, AD9914_REG_POW, pow)
|
||||
self.write(bus_channel, AD9914_REG_ASF, amplitude)
|
||||
self.write(bus_channel, AD9914_FUD, 0)
|
||||
|
||||
|
||||
class DDSChannelAD9914(DDSChannel):
|
||||
"""Driver for AD9914 DDS chips. See ``DDSChannel`` for a description
|
||||
of the functionality."""
|
||||
@kernel
|
||||
def init_sync(self, sync_delay=0):
|
||||
"""Resets and initializes the DDS channel as well as configures
|
||||
the AD9914 DDS for synchronisation. The synchronisation procedure
|
||||
follows the steps outlined in the AN-1254 application note.
|
||||
|
||||
This needs to be done for each DDS channel before it can be used, and
|
||||
it is recommended to use the startup kernel for this.
|
||||
|
||||
This function cannot be used in a batch; the correct way of
|
||||
initializing multiple DDS channels is to call this function
|
||||
sequentially with a delay between the calls. 10ms provides a good
|
||||
timing margin.
|
||||
|
||||
:param sync_delay: integer from 0 to 0x3f that sets the value of
|
||||
SYNC_OUT (bits 3-5) and SYNC_IN (bits 0-2) delay ADJ bits.
|
||||
"""
|
||||
self.core_dds.init_sync(self.bus_channel, self.channel, sync_delay)
|
|
@ -102,13 +102,6 @@ class DMAError(Exception):
|
|||
artiq_builtin = True
|
||||
|
||||
|
||||
class DDSError(Exception):
|
||||
"""Raised when attempting to start a DDS batch while already in a batch,
|
||||
when too many commands are batched, and when DDS channel settings are
|
||||
incorrect.
|
||||
"""
|
||||
|
||||
|
||||
class WatchdogExpired(Exception):
|
||||
"""Raised when a watchdog expires."""
|
||||
|
||||
|
|
|
@ -215,13 +215,11 @@ def setup_from_ddb(ddb):
|
|||
force_out = v["class"] == "TTLOut"
|
||||
widget = _WidgetDesc(k, comment, _TTLWidget, (channel, force_out, k))
|
||||
description.add(widget)
|
||||
elif (v["module"] == "artiq.coredevice.dds"
|
||||
and v["class"] == "DDSGroupAD9914"):
|
||||
dds_sysclk = v["arguments"]["sysclk"]
|
||||
elif (v["module"] == "artiq.coredevice.dds"
|
||||
and v["class"] == "DDSChannelAD9914"):
|
||||
elif (v["module"] == "artiq.coredevice.ad9914"
|
||||
and v["class"] == "AD9914"):
|
||||
bus_channel = v["arguments"]["bus_channel"]
|
||||
channel = v["arguments"]["channel"]
|
||||
dds_sysclk = v["arguments"]["sysclk"]
|
||||
widget = _WidgetDesc(k, comment, _DDSWidget, (bus_channel, channel, k))
|
||||
description.add(widget)
|
||||
elif ( (v["module"] == "artiq.coredevice.ad53xx" and v["class"] == "AD53XX")
|
||||
|
|
|
@ -27,17 +27,6 @@ device_db = {
|
|||
"module": "artiq.coredevice.dma",
|
||||
"class": "CoreDMA"
|
||||
},
|
||||
"core_dds": {
|
||||
"type": "local",
|
||||
"module": "artiq.coredevice.dds",
|
||||
"class": "DDSGroupAD9914",
|
||||
"arguments": {
|
||||
"sysclk": 3e9,
|
||||
"first_dds_bus_channel": 39,
|
||||
"dds_bus_count": 2,
|
||||
"dds_channel_count": 3
|
||||
}
|
||||
},
|
||||
|
||||
"i2c_switch": {
|
||||
"type": "local",
|
||||
|
@ -333,22 +322,22 @@ device_db = {
|
|||
# AD9914 DDS
|
||||
"dds0": {
|
||||
"type": "local",
|
||||
"module": "artiq.coredevice.dds",
|
||||
"class": "DDSChannelAD9914",
|
||||
"arguments": {"bus_channel": 39, "channel": 0},
|
||||
"module": "artiq.coredevice.ad9914",
|
||||
"class": "AD9914",
|
||||
"arguments": {"sysclk": 3e9, "bus_channel": 39, "channel": 0},
|
||||
"comment": "Comments work in DDS panel as well"
|
||||
},
|
||||
"dds1": {
|
||||
"type": "local",
|
||||
"module": "artiq.coredevice.dds",
|
||||
"class": "DDSChannelAD9914",
|
||||
"arguments": {"bus_channel": 39, "channel": 1}
|
||||
"module": "artiq.coredevice.ad9914",
|
||||
"class": "AD9914",
|
||||
"arguments": {"sysclk": 3e9, "bus_channel": 39, "channel": 1}
|
||||
},
|
||||
"dds2": {
|
||||
"type": "local",
|
||||
"module": "artiq.coredevice.dds",
|
||||
"class": "DDSChannelAD9914",
|
||||
"arguments": {"bus_channel": 39, "channel": 2}
|
||||
"module": "artiq.coredevice.ad9914",
|
||||
"class": "AD9914",
|
||||
"arguments": {"sysclk": 3e9, "bus_channel": 39, "channel": 2}
|
||||
},
|
||||
|
||||
# Aliases
|
||||
|
|
|
@ -14,8 +14,8 @@ class DDSSetter(EnvExperiment):
|
|||
for k, v in sorted(device_db.items(), key=itemgetter(0)):
|
||||
if (isinstance(v, dict)
|
||||
and v["type"] == "local"
|
||||
and v["module"] == "artiq.coredevice.dds"
|
||||
and v["class"] in {"DDSChannelAD9914"}):
|
||||
and v["module"] == "artiq.coredevice.ad9914"
|
||||
and v["class"] == "AD9914"):
|
||||
self.dds[k] = {
|
||||
"driver": self.get_device(k),
|
||||
"frequency": self.get_argument(
|
||||
|
|
|
@ -6,7 +6,6 @@ class DDSTest(EnvExperiment):
|
|||
|
||||
def build(self):
|
||||
self.setattr_device("core")
|
||||
self.setattr_device("core_dds")
|
||||
self.setattr_device("dds0")
|
||||
self.setattr_device("dds1")
|
||||
self.setattr_device("dds2")
|
||||
|
@ -19,8 +18,8 @@ class DDSTest(EnvExperiment):
|
|||
def run(self):
|
||||
self.core.reset()
|
||||
delay(200*us)
|
||||
with self.core_dds.batch:
|
||||
self.dds1.set(120*MHz)
|
||||
delay(10*us)
|
||||
self.dds2.set(200*MHz)
|
||||
delay(1*us)
|
||||
|
||||
|
|
|
@ -6,7 +6,6 @@ class PhotonHistogram(EnvExperiment):
|
|||
|
||||
def build(self):
|
||||
self.setattr_device("core")
|
||||
self.setattr_device("core_dds")
|
||||
self.setattr_device("bd_dds")
|
||||
self.setattr_device("bd_sw")
|
||||
self.setattr_device("bdd_dds")
|
||||
|
@ -22,8 +21,9 @@ class PhotonHistogram(EnvExperiment):
|
|||
|
||||
@kernel
|
||||
def program_cooling(self):
|
||||
with self.core_dds.batch:
|
||||
delay_mu(-self.bd_dds.set_duration_mu)
|
||||
self.bd_dds.set(200*MHz)
|
||||
delay_mu(self.bd_dds.set_duration_mu)
|
||||
self.bdd_dds.set(300*MHz)
|
||||
|
||||
@kernel
|
||||
|
|
|
@ -28,17 +28,6 @@ device_db = {
|
|||
"module": "artiq.coredevice.dma",
|
||||
"class": "CoreDMA"
|
||||
},
|
||||
"core_dds": {
|
||||
"type": "local",
|
||||
"module": "artiq.coredevice.dds",
|
||||
"class": "DDSGroupAD9914",
|
||||
"arguments": {
|
||||
"sysclk": 3e9,
|
||||
"first_dds_bus_channel": 39,
|
||||
"dds_bus_count": 2,
|
||||
"dds_channel_count": 3
|
||||
}
|
||||
},
|
||||
|
||||
"i2c_switch": {
|
||||
"type": "local",
|
||||
|
@ -334,22 +323,22 @@ device_db = {
|
|||
# AD9914 DDS
|
||||
"dds0": {
|
||||
"type": "local",
|
||||
"module": "artiq.coredevice.dds",
|
||||
"class": "DDSChannelAD9914",
|
||||
"arguments": {"bus_channel": 39, "channel": 0},
|
||||
"module": "artiq.coredevice.ad9914",
|
||||
"class": "AD9914",
|
||||
"arguments": {"sysclk": 3e9, "bus_channel": 39, "channel": 0},
|
||||
"comment": "Comments work in DDS panel as well"
|
||||
},
|
||||
"dds1": {
|
||||
"type": "local",
|
||||
"module": "artiq.coredevice.dds",
|
||||
"class": "DDSChannelAD9914",
|
||||
"arguments": {"bus_channel": 39, "channel": 1}
|
||||
"module": "artiq.coredevice.ad9914",
|
||||
"class": "AD9914",
|
||||
"arguments": {"sysclk": 3e9, "bus_channel": 39, "channel": 1}
|
||||
},
|
||||
"dds2": {
|
||||
"type": "local",
|
||||
"module": "artiq.coredevice.dds",
|
||||
"class": "DDSChannelAD9914",
|
||||
"arguments": {"bus_channel": 39, "channel": 2}
|
||||
"module": "artiq.coredevice.ad9914",
|
||||
"class": "AD9914",
|
||||
"arguments": {"sysclk": 3e9, "bus_channel": 39, "channel": 2}
|
||||
},
|
||||
|
||||
# Aliases
|
||||
|
|
|
@ -4,8 +4,8 @@ from artiq.gateware import ad9_dds
|
|||
from artiq.gateware.rtio.phy.wishbone import RT2WB
|
||||
|
||||
|
||||
class _AD9_DDS(Module):
|
||||
def __init__(self, ftw_base, pads, nchannels, onehot=False, **kwargs):
|
||||
class AD9914(Module):
|
||||
def __init__(self, pads, nchannels, onehot=False, **kwargs):
|
||||
self.submodules._ll = ClockDomainsRenamer("rio_phy")(
|
||||
ad9_dds.AD9_DDS(pads, **kwargs))
|
||||
self.submodules._rt2wb = RT2WB(len(pads.a)+1, self._ll.bus)
|
||||
|
@ -38,13 +38,13 @@ class _AD9_DDS(Module):
|
|||
if len(pads.d) == 8:
|
||||
self.sync.rio_phy += \
|
||||
If(selected(c), [
|
||||
If(current_address == ftw_base+i,
|
||||
If(current_address == 0x11+i,
|
||||
ftw[i*8:(i+1)*8].eq(current_data))
|
||||
for i in range(4)])
|
||||
elif len(pads.d) == 16:
|
||||
self.sync.rio_phy += \
|
||||
If(selected(c), [
|
||||
If(current_address == ftw_base+2*i,
|
||||
If(current_address == 0x11+2*i,
|
||||
ftw[i*16:(i+1)*16].eq(current_data))
|
||||
for i in range(2)])
|
||||
else:
|
||||
|
@ -54,8 +54,3 @@ class _AD9_DDS(Module):
|
|||
self.sync.rio_phy += If(current_address == 2**len(pads.a), [
|
||||
If(selected(c), probe.eq(ftw))
|
||||
for c, (probe, ftw) in enumerate(zip(self.probes, ftws))])
|
||||
|
||||
|
||||
class AD9914(_AD9_DDS):
|
||||
def __init__(self, *args, **kwargs):
|
||||
_AD9_DDS.__init__(self, 0x2d, *args, **kwargs)
|
||||
|
|
|
@ -127,7 +127,6 @@ class PulseRate(EnvExperiment):
|
|||
class PulseRateDDS(EnvExperiment):
|
||||
def build(self):
|
||||
self.setattr_device("core")
|
||||
self.setattr_device("core_dds")
|
||||
self.setattr_device("dds0")
|
||||
self.setattr_device("dds1")
|
||||
|
||||
|
@ -135,13 +134,14 @@ class PulseRateDDS(EnvExperiment):
|
|||
def run(self):
|
||||
self.core.reset()
|
||||
dt = self.core.seconds_to_mu(5*us)
|
||||
freq = self.core_dds.frequency_to_ftw(100*MHz)
|
||||
freq = self.dds0.frequency_to_ftw(100*MHz)
|
||||
while True:
|
||||
delay(10*ms)
|
||||
for i in range(1250):
|
||||
try:
|
||||
with self.core_dds.batch:
|
||||
delay_mu(-self.dds0.set_duration_mu)
|
||||
self.dds0.set_mu(freq)
|
||||
delay_mu(self.dds0.set_duration_mu)
|
||||
self.dds1.set_mu(freq)
|
||||
delay_mu(dt)
|
||||
except RTIOUnderflow:
|
||||
|
|
|
@ -75,16 +75,22 @@ RF generation drivers
|
|||
.. automodule:: artiq.coredevice.urukul
|
||||
:members:
|
||||
|
||||
:mod:`artiq.coredevice.ad9910` module
|
||||
+++++++++++++++++++++++++++++++++++++
|
||||
|
||||
.. automodule:: artiq.coredevice.ad9910
|
||||
:members:
|
||||
|
||||
:mod:`artiq.coredevice.ad9912` module
|
||||
+++++++++++++++++++++++++++++++++++++
|
||||
|
||||
.. automodule:: artiq.coredevice.ad9912
|
||||
:members:
|
||||
|
||||
:mod:`artiq.coredevice.ad9910` module
|
||||
+++++++++++++++++++++++++++++++++++++
|
||||
:mod:`artiq.coredevice.ad9914` module
|
||||
++++++++++++++++++++++++++++++++++
|
||||
|
||||
.. automodule:: artiq.coredevice.ad9910
|
||||
.. automodule:: artiq.coredevice.ad9914
|
||||
:members:
|
||||
|
||||
:mod:`artiq.coredevice.spline` module
|
||||
|
@ -99,12 +105,6 @@ RF generation drivers
|
|||
.. automodule:: artiq.coredevice.sawg
|
||||
:members:
|
||||
|
||||
:mod:`artiq.coredevice.dds` module
|
||||
++++++++++++++++++++++++++++++++++
|
||||
|
||||
.. automodule:: artiq.coredevice.dds
|
||||
:members:
|
||||
|
||||
|
||||
DAC/ADC drivers
|
||||
---------------
|
||||
|
|
|
@ -76,7 +76,7 @@ The sequence is exactly equivalent to::
|
|||
|
||||
ttl.pulse(2*us)
|
||||
|
||||
The :meth:`artiq.coredevice.ttl.TTLOut.pulse` method advances the timeline cursor (using ``delay()``) while other methods such as :meth:`artiq.coredevice.ttl.TTLOut.on`, :meth:`artiq.coredevice.ttl.TTLOut.off`, :meth:`artiq.coredevice.dds._DDSGeneric.set`. The latter are called *zero-duration* methods.
|
||||
The :meth:`artiq.coredevice.ttl.TTLOut.pulse` method advances the timeline cursor (using ``delay()``) while other methods such as :meth:`artiq.coredevice.ttl.TTLOut.on`, :meth:`artiq.coredevice.ttl.TTLOut.off`, :meth:`artiq.coredevice.ad9914.set`. The latter are called *zero-duration* methods.
|
||||
|
||||
Underflow exceptions
|
||||
--------------------
|
||||
|
|
Loading…
Reference in New Issue