mirror of https://github.com/m-labs/artiq.git
coredevice: configurable initial backing state
Several core device drivers maintain a copy of some device state. Since this copy is not transferred between experiments this backing state can be different from device state when a new experiment is started. This commit adds support for injecting initial backing state into experiments via the device database and sets initial backing state where known. ad53xx (zotino): spi2 xfer_duration novogorny: pgia gains sampler: pgia gains, spi2 pgia and adc xfer_duration suservo: pgia gains, spi2 pgia xfer_duration urukul: cpld cfg (partial: rf_sw), attenuator register spi2: div/length for xfer_duration close #1003
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@ -110,7 +110,8 @@ class AD53xx:
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valid)
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valid)
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:param vref: DAC reference voltage (default: 5.)
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:param vref: DAC reference voltage (default: 5.)
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:param offset_dacs: Initial register value for the two offset DACs, device
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:param offset_dacs: Initial register value for the two offset DACs, device
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dependent and must be set correctly for correct voltage to mu conversions
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dependent and must be set correctly for correct voltage to mu conversions.
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Knowledge of his state is not transferred between experiments.
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(default: 8192)
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(default: 8192)
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:param core_device: Core device name (default: "core")
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:param core_device: Core device name (default: "core")
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"""
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"""
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@ -121,6 +122,7 @@ class AD53xx:
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chip_select=1, div_write=4, div_read=16, vref=5.,
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chip_select=1, div_write=4, div_read=16, vref=5.,
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offset_dacs=8192, core="core"):
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offset_dacs=8192, core="core"):
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self.bus = dmgr.get(spi_device)
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self.bus = dmgr.get(spi_device)
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self.bus.update_xfer_duration_mu(div_write, 24)
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if ldac_device is None:
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if ldac_device is None:
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self.ldac = _DummyTTL()
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self.ldac = _DummyTTL()
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else:
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else:
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@ -69,17 +69,20 @@ class Novogorny:
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:param spi_device: SPI bus device name
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:param spi_device: SPI bus device name
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:param cnv_device: CNV RTIO TTLOut channel name
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:param cnv_device: CNV RTIO TTLOut channel name
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:param div: SPI clock divider (default: 8)
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:param div: SPI clock divider (default: 8)
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:param gains: Initial value for PGIA gains shift register
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(default: 0x0000). Knowledge of this state is not transferred
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between experiments.
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:param core_device: Core device name
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:param core_device: Core device name
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"""
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"""
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kernel_invariants = {"bus", "core", "cnv", "div", "v_ref"}
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kernel_invariants = {"bus", "core", "cnv", "div", "v_ref"}
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def __init__(self, dmgr, spi_device, cnv_device, div=8,
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def __init__(self, dmgr, spi_device, cnv_device, div=8, gains=0x0000,
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core_device="core"):
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core_device="core"):
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self.bus = dmgr.get(spi_device)
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self.bus = dmgr.get(spi_device)
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self.core = dmgr.get(core_device)
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self.core = dmgr.get(core_device)
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self.cnv = dmgr.get(cnv_device)
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self.cnv = dmgr.get(cnv_device)
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self.div = div
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self.div = div
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self.gains = 0x0000
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self.gains = gains
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self.v_ref = 5. # 5 Volt reference
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self.v_ref = 5. # 5 Volt reference
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@kernel
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@kernel
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@ -45,18 +45,23 @@ class Sampler:
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:param spi_pgia_device: PGIA SPI bus device name
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:param spi_pgia_device: PGIA SPI bus device name
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:param cnv_device: CNV RTIO TTLOut channel name
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:param cnv_device: CNV RTIO TTLOut channel name
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:param div: SPI clock divider (default: 8)
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:param div: SPI clock divider (default: 8)
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:param gains: Initial value for PGIA gains shift register
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(default: 0x0000). Knowledge of this state is not transferred
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between experiments.
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:param core_device: Core device name
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:param core_device: Core device name
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"""
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"""
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kernel_invariants = {"bus_adc", "bus_pgia", "core", "cnv", "div"}
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kernel_invariants = {"bus_adc", "bus_pgia", "core", "cnv", "div"}
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def __init__(self, dmgr, spi_adc_device, spi_pgia_device, cnv_device,
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def __init__(self, dmgr, spi_adc_device, spi_pgia_device, cnv_device,
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div=8, core_device="core"):
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div=8, gains=0x0000, core_device="core"):
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self.bus_adc = dmgr.get(spi_adc_device)
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self.bus_adc = dmgr.get(spi_adc_device)
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self.bus_adc.update_xfer_duration_mu(div, 32)
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self.bus_pgia = dmgr.get(spi_pgia_device)
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self.bus_pgia = dmgr.get(spi_pgia_device)
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self.bus_pgia.update_xfer_duration_mu(div, 16)
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self.core = dmgr.get(core_device)
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self.core = dmgr.get(core_device)
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self.cnv = dmgr.get(cnv_device)
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self.cnv = dmgr.get(cnv_device)
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self.div = div
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self.div = div
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self.gains = 0x0000
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self.gains = gains
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@kernel
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@kernel
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def init(self):
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def init(self):
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@ -57,16 +57,20 @@ class SPIMaster:
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register.
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register.
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:param channel: RTIO channel number of the SPI bus to control.
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:param channel: RTIO channel number of the SPI bus to control.
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:param div: Initial CLK divider, see also: :meth:`update_xfer_duration_mu`
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:param length: Initial transfer length, see also:
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:meth:`update_xfer_duration_mu`
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:param core_device: Core device name
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"""
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"""
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kernel_invariants = {"core", "ref_period_mu", "channel"}
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kernel_invariants = {"core", "ref_period_mu", "channel"}
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def __init__(self, dmgr, channel, core_device="core"):
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def __init__(self, dmgr, channel, div=0, length=0, core_device="core"):
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self.core = dmgr.get(core_device)
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self.core = dmgr.get(core_device)
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self.ref_period_mu = self.core.seconds_to_mu(
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self.ref_period_mu = self.core.seconds_to_mu(
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self.core.coarse_ref_period)
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self.core.coarse_ref_period)
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assert self.ref_period_mu == self.core.ref_multiplier
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assert self.ref_period_mu == self.core.ref_multiplier
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self.channel = channel
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self.channel = channel
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self.xfer_duration_mu = 2*self.ref_period_mu
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self.update_xfer_duration_mu(div, length)
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@portable
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@portable
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def frequency_to_div(self, f):
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def frequency_to_div(self, f):
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@ -162,11 +166,31 @@ class SPIMaster:
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raise ValueError("Invalid SPI transfer length")
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raise ValueError("Invalid SPI transfer length")
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if div > 257 or div < 2:
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if div > 257 or div < 2:
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raise ValueError("Invalid SPI clock divider")
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raise ValueError("Invalid SPI clock divider")
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self.xfer_duration_mu = ((length + 1)*div + 1)*self.ref_period_mu
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rtio_output(now_mu(), self.channel, SPI_CONFIG_ADDR, flags |
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rtio_output(now_mu(), self.channel, SPI_CONFIG_ADDR, flags |
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((length - 1) << 8) | ((div - 2) << 16) | (cs << 24))
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((length - 1) << 8) | ((div - 2) << 16) | (cs << 24))
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self.update_xfer_duration_mu(div, length)
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delay_mu(self.ref_period_mu)
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delay_mu(self.ref_period_mu)
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@portable
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def update_xfer_duration_mu(self, div, length):
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"""Calculate and set the transfer duration.
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This method updates the SPI transfer duration which is used
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in :meth:`write` to advance the timeline.
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Use this method (and avoid having to call :meth:`set_config_mu`)
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when the divider and transfer length have been configured
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(using :meth:`set_config` or :meth:`set_config_mu`) by previous
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experiments and are known.
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This method is portable and can also be called from e.g.
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``__init__``.
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:param div: SPI clock divider (see: :meth:`set_config_mu`)
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:param length: SPI transfer length (see: :meth:`set_config_mu`)
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"""
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self.xfer_duration_mu = ((length + 1)*div + 1)*self.ref_period_mu
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@kernel
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@kernel
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def write(self, data):
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def write(self, data):
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"""Write SPI data to shift register register and start transfer.
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"""Write SPI data to shift register register and start transfer.
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@ -26,6 +26,9 @@ class SUServo:
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Urukul
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Urukul
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:param dds1_device: Name of the AD9910 device for the DDS on the second
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:param dds1_device: Name of the AD9910 device for the DDS on the second
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Urukul
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Urukul
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:param gains: Initial value for PGIA gains shift register
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(default: 0x0000). Knowledge of this state is not transferred
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between experiments.
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:param core_device: Core device name
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:param core_device: Core device name
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"""
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"""
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kernel_invariants = {"channel", "core", "pgia", "cpld0", "cpld1",
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kernel_invariants = {"channel", "core", "pgia", "cpld0", "cpld1",
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@ -34,16 +37,17 @@ class SUServo:
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def __init__(self, dmgr, channel, pgia_device,
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def __init__(self, dmgr, channel, pgia_device,
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cpld0_device, cpld1_device,
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cpld0_device, cpld1_device,
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dds0_device, dds1_device,
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dds0_device, dds1_device,
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core_device="core"):
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gains=0x0000, core_device="core"):
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self.core = dmgr.get(core_device)
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self.core = dmgr.get(core_device)
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self.pgia = dmgr.get(pgia_device)
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self.pgia = dmgr.get(pgia_device)
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self.pgia.update_xfer_duration_mu(div=4, length=16)
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self.dds0 = dmgr.get(dds0_device)
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self.dds0 = dmgr.get(dds0_device)
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self.dds1 = dmgr.get(dds1_device)
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self.dds1 = dmgr.get(dds1_device)
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self.cpld0 = dmgr.get(cpld0_device)
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self.cpld0 = dmgr.get(cpld0_device)
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self.cpld1 = dmgr.get(cpld1_device)
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self.cpld1 = dmgr.get(cpld1_device)
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self.channel = channel
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self.channel = channel
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self.gains = 0x0000
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self.gains = gains
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self.ref_period_mu = self.core.seconds_to_mu(
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self.ref_period_mu = self.core.seconds_to_mu(
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self.core.coarse_ref_period)
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self.core.coarse_ref_period)
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assert self.ref_period_mu == self.core.ref_multiplier
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assert self.ref_period_mu == self.core.ref_multiplier
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@ -119,14 +119,18 @@ class CPLD:
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MMCX or ob-board XO clock. 1 corresponds to the front panel SMA.
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MMCX or ob-board XO clock. 1 corresponds to the front panel SMA.
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:param sync_sel: SYNC clock selection. 0 corresponds to SYNC clock over EEM
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:param sync_sel: SYNC clock selection. 0 corresponds to SYNC clock over EEM
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from FPGA. 1 corresponds to SYNC clock from DDS0.
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from FPGA. 1 corresponds to SYNC clock from DDS0.
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:param rf_sw: Initial CPLD RF switch register setting (default: 0x0).
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Knowledge of this state is not transferred between experiments.
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:param att: Initial attenuator setting shift register (default:
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0x00000000). See also: :meth:`set_all_att_mu`. Knowledge of this state
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is not transferred between experiments.
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:param core_device: Core device name
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:param core_device: Core device name
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"""
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"""
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kernel_invariants = {"refclk", "bus", "core", "io_update"}
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kernel_invariants = {"refclk", "bus", "core", "io_update"}
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def __init__(self, dmgr, spi_device, io_update_device=None,
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def __init__(self, dmgr, spi_device, io_update_device=None,
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dds_reset_device=None,
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dds_reset_device=None, sync_sel=0, clk_sel=0, rf_sw=0,
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sync_sel=0, clk_sel=0,
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refclk=125e6, att=0x00000000, core_device="core"):
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refclk=125e6, core_device="core"):
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self.core = dmgr.get(core_device)
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self.core = dmgr.get(core_device)
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self.refclk = refclk
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self.refclk = refclk
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@ -139,10 +143,10 @@ class CPLD:
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if dds_reset_device is not None:
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if dds_reset_device is not None:
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self.dds_reset = dmgr.get(dds_reset_device)
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self.dds_reset = dmgr.get(dds_reset_device)
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self.cfg_reg = urukul_cfg(rf_sw=0, led=0, profile=0,
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self.cfg_reg = urukul_cfg(rf_sw=rf_sw, led=0, profile=0,
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io_update=0, mask_nu=0, clk_sel=clk_sel,
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io_update=0, mask_nu=0, clk_sel=clk_sel,
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sync_sel=sync_sel, rst=0, io_rst=0)
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sync_sel=sync_sel, rst=0, io_rst=0)
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self.att_reg = 0
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self.att_reg = att
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@kernel
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@kernel
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def cfg_write(self, cfg):
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def cfg_write(self, cfg):
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@ -226,16 +230,28 @@ class CPLD:
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def set_att_mu(self, channel, att):
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def set_att_mu(self, channel, att):
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"""Set digital step attenuator in machine units.
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"""Set digital step attenuator in machine units.
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This method will write the attenuator settings of all four channels.
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:param channel: Attenuator channel (0-3).
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:param channel: Attenuator channel (0-3).
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:param att: Digital attenuation setting:
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:param att: Digital attenuation setting:
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255 minimum attenuation, 0 maximum attenuation (31.5 dB)
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255 minimum attenuation, 0 maximum attenuation (31.5 dB)
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"""
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"""
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a = self.att_reg & ~(0xff << (channel * 8))
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a = self.att_reg & ~(0xff << (channel * 8))
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a |= att << (channel * 8)
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a |= att << (channel * 8)
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self.set_all_att_mu(a)
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@kernel
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def set_all_att_mu(self, att_reg):
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"""Set all four digital step attenuators (in machine units).
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.. seealso:: :meth:`set_att_mu`
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:param att_reg: Attenuator setting string (32 bit)
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"""
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self.bus.set_config_mu(SPI_CONFIG | spi.SPI_END, 32,
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self.bus.set_config_mu(SPI_CONFIG | spi.SPI_END, 32,
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SPIT_ATT_WR, CS_ATT)
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SPIT_ATT_WR, CS_ATT)
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self.bus.write(a)
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self.bus.write(att_reg)
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self.att_reg = a
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self.att_reg = att_reg
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@kernel
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@kernel
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def set_att(self, channel, att):
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def set_att(self, channel, att):
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def get_att_mu(self):
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def get_att_mu(self):
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"""Return the digital step attenuator settings in machine units.
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"""Return the digital step attenuator settings in machine units.
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This method will also (as a side effect) write the attenuator
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settings of all four channels.
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:return: 32 bit attenuator settings
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:return: 32 bit attenuator settings
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"""
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"""
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self.bus.set_config_mu(SPI_CONFIG | spi.SPI_END | spi.SPI_INPUT, 32,
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self.bus.set_config_mu(SPI_CONFIG | spi.SPI_END | spi.SPI_INPUT, 32,
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