forked from M-Labs/artiq
urukul: add CPLD and AD9912 driver [wip]
This commit is contained in:
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commit
a940550e47
@ -3,53 +3,116 @@ Driver for the AD9912 DDS.
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"""
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from artiq.language.core import kernel, delay_mu
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from artiq.language.units import ns, us
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from artiq.coredevice import spi
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from artiq.language.core import kernel, delay_mu, delay
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from artiq.language.units import us, ns
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from artiq.coredevice import spi, urukul
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from artiq.coredevice.ad9912_reg import *
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_AD9912_SPI_CONFIG = (0*spi.SPI_OFFLINE | 0*spi.SPI_CS_POLARITY |
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0*spi.SPI_CLK_POLARITY | 0*spi.SPI_CLK_PHASE |
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0*spi.SPI_LSB_FIRST | 0*spi.SPI_HALF_DUPLEX)
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from numpy import int32, int64
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class AD9912:
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"""
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Support for the Analog devices AD9912 DDS
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:param spi_device: Name of the SPI bus this device is on.
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:param chip_select: Value to drive on the chip select lines
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during transactions.
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:param chip_select: Chip select configuration.
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:param cpld_device: Name of the Urukul CPLD this device is on.
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:param sw_device: Name of the RF switch device.
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"""
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kernel_invariants = {"chip_select", "cpld", "core", "bus", "sw",
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"ftw_per_hz", "sysclk", "pll_n"}
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def __init__(self, dmgr, spi_device, chip_select):
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self.core = dmgr.get("core")
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self.bus = dmgr.get(spi_device)
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def __init__(self, dmgr, chip_select, cpld_device, sw_device=None,
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pll_n=10):
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self.cpld = dmgr.get(cpld_device)
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self.core = self.cpld.core
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self.bus = self.cpld.bus
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assert chip_select >= 4
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self.chip_select = chip_select
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if sw_device:
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self.sw = dmgr.get(sw_device)
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self.pll_n = pll_n
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self.sysclk = self.cpld.refclk * pll_n
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self.ftw_per_hz = 1/self.sysclk*(int64(1) << 48)
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@kernel
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def setup_bus(self, write_div=5, read_div=20):
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"""Configure the SPI bus and the SPI transaction parameters
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for this device. This method has to be called before any other method
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if the bus has been used to access a different device in the meantime.
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This method advances the timeline by the duration of two
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RTIO-to-Wishbone bus transactions.
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:param write_div: Write clock divider.
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:param read_div: Read clock divider.
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"""
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# write: 5*8ns >= 40ns = t_clk (typ clk rate)
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# read: 2*8*ns >= 25ns = t_dv (clk falling to miso valid) + RTT
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self.bus.set_config_mu(_AD9912_SPI_CONFIG, write_div, read_div)
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self.bus.set_xfer(self.chip_select, 24, 0)
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def write(self, addr, data, length=1):
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assert length > 0
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assert length <= 4
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self.bus.set_xfer(self.chip_select, 16, 0)
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self.bus.write((addr | ((length - 1) << 13)) << 16)
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delay_mu(-self.bus.xfer_period_mu)
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self.bus.set_xfer(self.chip_select, length*8, 0)
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if length < 4:
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data <<= 32 - length*8
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self.bus.write(data)
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delay_mu(self.bus.xfer_period_mu - self.bus.write_period_mu)
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@kernel
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def write(self, data):
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"""Write 24 bits of data.
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def read(self, addr, length=1):
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assert length > 0
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assert length <= 4
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self.bus.set_xfer(self.chip_select, 16, 0)
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self.bus.write((addr | ((length - 1) << 13) | 0x8000) << 16)
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delay_mu(-self.bus.xfer_period_mu)
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self.bus.set_xfer(self.chip_select, 0, length*8)
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self.bus.write(0)
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delay_mu(2*self.bus.xfer_period_mu)
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data = self.bus.read_sync()
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if length < 4:
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data &= (1 << (length*8)) - 1
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return data
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This method advances the timeline by the duration of the SPI transfer
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and the required CS high time.
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@kernel
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def init(self):
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t = now_mu()
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self.write(AD9912_SER_CONF, 0x99)
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prodid = self.read(AD9912_PRODIDH, length=2)
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assert (prodid == 0x1982) or (prodid == 0x1902)
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delay(10*us)
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self.write(AD9912_PWRCNTRL1, 0x80) # HSTL, CMOS power down
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delay(10*us)
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self.write(AD9912_N_DIV, self.pll_n//2 - 2)
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delay(10*us)
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self.write(AD9912_PLLCFG, 0b00000101) # 375 µA, high range
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at_mu(t)
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delay(100*us)
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@kernel
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def set_att_mu(self, att):
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self.cpld.set_att_mu(self.chip_select - 4, att)
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@kernel
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def set_att(self, att):
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self.cpld.set_att(self.chip_select - 4, att)
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@kernel
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def set_mu(self, ftw=int64(0), pow=int32(0)):
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# do a streaming transfer of FTW and POW
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self.bus.set_xfer(self.chip_select, 16, 0)
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self.bus.write((AD9912_POW1 << 16) | (3 << 29))
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delay_mu(-self.bus.xfer_period_mu)
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self.bus.set_xfer(self.chip_select, 32, 0)
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self.bus.write((pow << 16) | int32(ftw >> 32))
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self.bus.write(int32(ftw))
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delay_mu(self.bus.xfer_period_mu - self.bus.write_period_mu)
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self.cpld.io_update.pulse(10*ns)
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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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self.bus.write(data << 8)
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delay_mu(self.bus.ref_period_mu) # get to 20ns min cs high
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return int64(round(self.ftw_per_hz*frequency))
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@portable(flags={"fast-math"})
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def turns_to_pow(self, phase):
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"""Returns the phase offset word corresponding to the given
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phase.
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"""
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return int32(round((1 << 16)*phase))
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@kernel
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def set(self, frequency, phase=0.0):
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self.set_mu(self.frequency_to_ftw(frequency),
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self.turns_to_pow(phase))
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162
artiq/coredevice/urukul.py
Normal file
162
artiq/coredevice/urukul.py
Normal file
@ -0,0 +1,162 @@
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from artiq.language.core import kernel, delay_mu, delay, now_mu, at_mu
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from artiq.language.units import us
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from numpy import int32, int64
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from artiq.coredevice import spi
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_SPI_CONFIG = (0*spi.SPI_OFFLINE | 1*spi.SPI_CS_POLARITY |
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0*spi.SPI_CLK_POLARITY | 0*spi.SPI_CLK_PHASE |
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0*spi.SPI_LSB_FIRST | 0*spi.SPI_HALF_DUPLEX)
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# SPI clock write and read dividers
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_SPIT_CFG_WR = 2
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_SPIT_CFG_RD = 16
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_SPIT_ATT_WR = 2
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_SPIT_ATT_RD = 16
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_SPIT_DDS_WR = 16
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_SPIT_DDS_RD = 16
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# CFG configuration register bit offsets
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CFG_RF_SW = 0
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CFG_LED = 4
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CFG_PROFILE = 8
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CFG_ATT_LE = 11
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CFG_IO_UPDATE = 12
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CFG_MASK_NU = 16
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CFG_CLK_SEL = 17
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CFG_SYNC_SEL = 18
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CFG_RST = 19
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CFG_IO_RST = 20
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@kernel
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def urukul_cfg(rf_sw, led, profile, att_le, io_update, mask_nu,
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clk_sel, sync_sel, rst, io_rst):
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return ((rf_sw << CFG_RF_SW) | (led << CFG_LED) |
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(profile << CFG_PROFILE) | (att_le << CFG_ATT_LE) |
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(io_update << CFG_IO_UPDATE) | (mask_nu << CFG_MASK_NU) |
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(clk_sel << CFG_CLK_SEL) | (sync_sel << CFG_SYNC_SEL) |
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(rst << CFG_RST) | (io_rst << CFG_IO_RST))
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# STA status register bit offsets
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STA_RF_SW = 0
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STA_SMP_ERR = 4
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STA_PLL_LOCK = 8
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STA_IFC_MODE = 12
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STA_PROTO_REV = 16
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@kernel
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def urukul_sta_rf_sw(sta):
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return (sta >> STA_RF_SW) & 0xf
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@kernel
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def urukul_sta_smp_err(sta):
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return (sta >> STA_SMP_ERR) & 0xf
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@kernel
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def urukul_sta_pll_lock(sta):
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return (sta >> STA_PLL_LOCK) & 0xf
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@kernel
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def urukul_sta_ifc_mode(sta):
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return (sta >> STA_IFC_MODE) & 0xf
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@kernel
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def urukul_sta_proto_rev(sta):
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return (sta >> STA_PROTO_REV) & 0xff
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# supported hardware and CPLD code version
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STA_PROTO_REV_MATCH = 0x06
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# chip select (decoded)
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CS_CFG = 1
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CS_ATT = 2
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CS_DDS_MULTI = 3
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CS_DDS_CH0 = 4
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CS_DDS_CH1 = 5
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CS_DDS_CH2 = 6
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CS_DDS_CH3 = 7
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class CPLD:
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def __init__(self, dmgr, spi_device, io_update_device, dds_reset_device,
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refclk=100e6, core_device="core"):
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self.core = dmgr.get(core_device)
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self.refclk = refclk
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self.bus = dmgr.get(spi_device)
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self.io_update = dmgr.get(io_update_device)
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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.cfg_reg = int32(0)
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self.att_reg = int32(0)
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@kernel
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def cfg_write(self, cfg_reg):
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self.bus.set_config_mu(_SPI_CONFIG, _SPIT_CFG_WR, _SPIT_CFG_RD)
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self.bus.set_xfer(CS_CFG, 24, 0)
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self.bus.write(cfg_reg << 8)
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self.bus.set_config_mu(_SPI_CONFIG, _SPIT_DDS_WR, _SPIT_DDS_RD)
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self.cfg_reg = cfg_reg
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@kernel
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def sta_read(self):
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self.bus.set_config_mu(_SPI_CONFIG, _SPIT_CFG_WR, _SPIT_CFG_RD)
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self.bus.set_xfer(CS_CFG, 0, 24)
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self.bus.write(self.cfg_reg << 8)
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self.bus.set_config_mu(_SPI_CONFIG, _SPIT_DDS_WR, _SPIT_DDS_RD)
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return self.bus.read_sync()
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@kernel
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def init(self, clk_sel=0, sync_sel=0):
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t = now_mu()
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cfg = urukul_cfg(rf_sw=0, led=0, profile=0, att_le=0,
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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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self.cfg_write(cfg | (1 << CFG_RST))
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self.cfg_write(cfg)
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proto_rev = urukul_sta_proto_rev(self.sta_read())
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if proto_rev != STA_PROTO_REV_MATCH:
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raise ValueError("Urukul proto_rev mismatch")
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at_mu(t)
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delay(100*us)
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@kernel
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def cfg_sw(self, sw, on):
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c = self.cfg_reg
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if on:
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c |= 1 << sw
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else:
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c &= ~(1 << sw)
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self.write_cfg(c)
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@kernel
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def set_att_mu(self, channel, att):
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"""
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Parameters:
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att (int): 0-255, 255 minimum attenuation,
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0 maximum attenuation (31.5 dB)
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"""
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a = self.att_reg & ~(0xff << (channel * 8))
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a |= att << (channel * 8)
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self.att_reg = a
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self.bus.set_config_mu(_SPI_CONFIG, _SPIT_ATT_WR, _SPIT_ATT_RD)
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self.bus.set_xfer(CS_ATT, 32, 0)
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self.bus.write(a)
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self.cfg_write(self.cfg_reg | (1 << CFG_ATT_LE))
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self.cfg_write(self.cfg_reg & ~(1 << CFG_ATT_LE))
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@kernel
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def set_att(self, channel, att):
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self.set_att_mu(channel, 255 - int32(round(att*8)))
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@ -233,6 +233,61 @@ device_db = {
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"class": "TTLOut",
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"arguments": {"channel": 38}
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},
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"urukul_cpld": {
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"type": "local",
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"module": "artiq.coredevice.urukul",
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"class": "CPLD",
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"arguments": {
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"spi_device": "spi_urukul",
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"io_update_device": "ttl_urukul_io_update",
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"dds_reset_device": "ttl_urukul_dds_reset",
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"refclk": 100e6
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}
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},
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"urukul_ch0": {
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"type": "local",
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"module": "artiq.coredevice.ad9912",
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"class": "AD9912",
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"arguments": {
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"pll_n": 10,
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"chip_select": 4,
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"cpld_device": "urukul_cpld",
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"sw_device": "ttl_urukul_sw0"
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}
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},
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"urukul_ch1": {
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"type": "local",
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"module": "artiq.coredevice.ad9912",
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"class": "AD9912",
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"arguments": {
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"pll_n": 10,
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"chip_select": 5,
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"cpld_device": "urukul_cpld",
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"sw_device": "ttl_urukul_sw1"
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}
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},
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"urukul_ch2": {
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"type": "local",
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"module": "artiq.coredevice.ad9912",
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"class": "AD9912",
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"arguments": {
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"pll_n": 10,
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"chip_select": 6,
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"cpld_device": "urukul_cpld",
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"sw_device": "ttl_urukul_sw2"
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}
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},
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"urukul_ch3": {
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"type": "local",
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"module": "artiq.coredevice.ad9912",
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"class": "AD9912",
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"arguments": {
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"pll_n": 10,
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"chip_select": 7,
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"cpld_device": "urukul_cpld",
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"sw_device": "ttl_urukul_sw3"
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}
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},
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# AD9914 DDS
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"dds0": {
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@ -0,0 +1,72 @@
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from artiq.experiment import *
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class UrukulTest(EnvExperiment):
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def build(self):
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self.setattr_device("core")
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self.setattr_device("fmcdio_dirctl")
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self.setattr_device("urukul_cpld")
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self.setattr_device("urukul_ch0")
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self.setattr_device("urukul_ch1")
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self.setattr_device("urukul_ch2")
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self.setattr_device("urukul_ch3")
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self.setattr_device("led")
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def p(self, f, *a):
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print(f % a)
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@kernel
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def run(self):
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self.core.reset()
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self.led.on()
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delay(5*ms)
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# Zotino plus Urukul (MISO, IO_UPDATE_RET)
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self.fmcdio_dirctl.set(0x0A008800)
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self.led.off()
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self.urukul_cpld.init(clk_sel=1)
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self.urukul_ch0.init()
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self.urukul_ch1.init()
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self.urukul_ch2.init()
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self.urukul_ch3.init()
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delay(100*us)
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self.urukul_ch0.set(10*MHz)
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self.urukul_ch0.sw.on()
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self.urukul_ch0.set_att(10.)
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delay(100*us)
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self.urukul_ch1.set(10*MHz, 0.5)
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self.urukul_ch1.sw.on()
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self.urukul_ch1.set_att(10.)
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delay(100*us)
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self.urukul_ch2.set(400*MHz)
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self.urukul_ch2.sw.on()
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self.urukul_ch2.set_att(0.)
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delay(100*us)
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self.urukul_ch3.set(1*MHz)
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self.urukul_ch3.sw.on()
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self.urukul_ch3.set_att(0.)
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while True:
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self.urukul_ch0.set_mu(0x123456789abc, 0)
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while True:
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self.urukul_ch0.sw.pulse(5*ms)
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delay(5*ms)
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while False:
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self.led.pulse(.5*s)
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delay(.5*s)
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@kernel
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def test_att_noise(self, n=1024):
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bus = self.urukul_cpld.bus
|
||||
bus.set_config_mu(_SPI_CONFIG, _SPIT_ATT_WR, _SPIT_ATT_RD)
|
||||
bus.set_xfer(CS_ATT, 32, 0)
|
||||
for i in range(n):
|
||||
delay(5*us)
|
||||
bus.write(self.att_reg)
|
||||
bus.set_config_mu(_SPI_CONFIG, _SPIT_DDS_WR, _SPIT_DDS_RD)
|
Loading…
Reference in New Issue
Block a user