phaser: add trf, duc, interfaces, redo body assembly, use more natrual iq ordering (i lsb)

2020-08-27 14:26:09 +00:00 · 2020-08-27 14:26:09 +00:00 · c10ac2c92a
parent e5e2392240
commit c10ac2c92a
2 changed files with 101 additions and 32 deletions
--- a/artiq/coredevice/phaser.py
+++ b/artiq/coredevice/phaser.py
@ -42,6 +42,13 @@ PHASER_SEL_TRF1 = 1 << 2
 PHASER_SEL_ATT0 = 1 << 3
 PHASER_SEL_ATT1 = 1 << 4
 PHASER_STA_DAC_ALARM = 1 << 0
 PHASER_STA_TRF0_LD = 1 << 1
 PHASER_STA_TRF1_LD = 1 << 2
 PHASER_STA_TERM0 = 1 << 3
 PHASER_STA_TERM1 = 1 << 4
 PHASER_STA_SPI_IDLE = 1 << 5
 class Phaser:
    kernel_invariants = {"core", "channel_base", "t_frame"}
@ -57,23 +64,23 @@ class Phaser:
    @kernel
    def init(self):
-        board_id = self.read(PHASER_ADDR_BOARD_ID)
+        board_id = self.read8(PHASER_ADDR_BOARD_ID)
        if board_id != PHASER_BOARD_ID:
            raise ValueError("invalid board id")
        delay(20*us)
    @kernel
-    def write(self, addr, data):
+    def write8(self, addr, data):
        """Write data to a Phaser FPGA register.
        :param addr: Address to write to.
        :param data: Data to write.
        """
-        rtio_output((self.channel_base << 8) | addr | 0x80, data)
+        rtio_output((self.channel_base << 8) | (addr & 0x7f) | 0x80, data)
        delay_mu(int64(self.t_frame))
    @kernel
-    def read(self, addr):
+    def read8(self, addr) -> TInt32:
        """Read from Phaser FPGA register.
        TODO: untested
@ -81,40 +88,65 @@ class Phaser:
        :param addr: Address to read from.
        :return: The data read.
        """
-        rtio_output((self.channel_base << 8) | addr, 0)
+        rtio_output((self.channel_base << 8) | (addr & 0x7f), 0)
        response = rtio_input_data(self.channel_base)
        return response >> self.miso_delay
    @kernel
    def write32(self, addr, data: TInt32):
        for offset in range(4):
            byte = data >> 24
            self.write8(addr + offset, byte)
            data <<= 8
    @kernel
    def read32(self, addr) -> TInt32:
        data = 0
        for offset in range(4):
            data <<= 8
            data |= self.read8(addr + offset)
            delay(20*us)  # slack
        return data
    @kernel
    def write16(self, addr, data: TInt32):
        self.write8(addr, data >> 8)
        self.write8(addr + 1, data)
    @kernel
    def read16(self, addr) -> TInt32:
        return (self.read8(addr) << 8) | self.read8(addr)
    @kernel
    def set_leds(self, leds):
-        self.write(PHASER_ADDR_LED, leds)
+        self.write8(PHASER_ADDR_LED, leds)
    @kernel
    def set_fan(self, duty):
-        self.write(PHASER_ADDR_FAN, duty)
+        self.write8(PHASER_ADDR_FAN, duty)
    @kernel
    def set_cfg(self, clk_sel=0, dac_resetb=1, dac_sleep=0, dac_txena=1,
                trf0_ps=0, trf1_ps=0, att0_rstn=1, att1_rstn=1):
-        self.write(PHASER_ADDR_CFG,
+        self.write8(PHASER_ADDR_CFG,
            (clk_sel << 0) | (dac_resetb << 1) | (dac_sleep << 2) |
            (dac_txena << 3) | (trf0_ps << 4) | (trf1_ps << 5) |
            (att0_rstn << 6) | (att1_rstn << 7))
    @kernel
    def get_sta(self):
-        return self.read(PHASER_ADDR_STA)
+        return self.read8(PHASER_ADDR_STA)
    @kernel
    def get_crc_err(self):
-        return self.read(PHASER_ADDR_CRC_ERR)
+        return self.read8(PHASER_ADDR_CRC_ERR)
    @kernel
    def get_dac_data(self, ch) -> TInt32:
        data = 0
        for addr in range(4):
            data <<= 8
-            data |= self.read(PHASER_ADDR_DAC0_DATA + (ch << 4) + addr)
+            data |= self.read8(PHASER_ADDR_DAC0_DATA + (ch << 4) + addr)
            delay(20*us)  # slack
        return data
@ -122,32 +154,43 @@ class Phaser:
    def set_dac_test(self, ch, data: TInt32):
        for addr in range(4):
            byte = (data >> 24) & 0xff
-            self.write(PHASER_ADDR_DAC0_TEST + (ch << 4) + addr, byte)
+            self.write8(PHASER_ADDR_DAC0_TEST + (ch << 4) + addr, byte)
            data <<= 8
        return data
    @kernel
    def set_duc_cfg(self, ch, clr=0, clr_once=0, select=0):
-        self.write(PHASER_ADDR_DUC0_CFG + (ch << 4),
+        self.write8(PHASER_ADDR_DUC0_CFG + (ch << 4),
                   (clr << 0) | (clr_once << 1) | (select << 2))
    @kernel
    def set_duc_frequency_mu(self, ch, ftw):
        self.write32(PHASER_ADDR_DUC0_F + (ch << 4), ftw)
    @kernel
    def set_duc_phase_mu(self, ch, pow):
        self.write16(PHASER_ADDR_DUC0_P + (ch << 4), pow)
    @kernel
    def duc_stb(self):
        self.write8(PHASER_ADDR_DUC_STB, 0)
    @kernel
    def spi_cfg(self, select, div, end, clk_phase=0, clk_polarity=0,
                half_duplex=0, lsb_first=0, offline=0):
-        self.write(PHASER_ADDR_SPI_SEL, select)
+        self.write8(PHASER_ADDR_SPI_SEL, select)
-        self.write(PHASER_ADDR_SPI_DIV, div)
+        self.write8(PHASER_ADDR_SPI_DIV, div)
-        self.write(PHASER_ADDR_SPI_CFG,
+        self.write8(PHASER_ADDR_SPI_CFG,
                   (offline << 0) | (end << 1) | (clk_phase << 2) |
                   (clk_polarity << 3) | (half_duplex << 4) |
                   (lsb_first << 5))
    @kernel
    def spi_write(self, data):
-        self.write(PHASER_ADDR_SPI_DATW, data)
+        self.write8(PHASER_ADDR_SPI_DATW, data)
    @kernel
    def spi_read(self):
-        return self.read(PHASER_ADDR_SPI_DATR)
+        return self.read8(PHASER_ADDR_SPI_DATR)
    @kernel
    def dac_write(self, addr, data):
@ -194,12 +237,45 @@ class Phaser:
        self.spi_write(0)
        delay_mu(t_xfer)
        data = self.spi_read()
-        delay(10*us)
+        delay(10*us)  # slack
        self.spi_cfg(select=PHASER_SEL_ATT0 << ch, div=div, end=1)
        self.spi_write(data)
        delay_mu(t_xfer)
        return data
    @kernel
    def trf_write(self, ch, data, readback=False):
        div = 30  # 50 ns min period
        t_xfer = self.core.seconds_to_mu((8 + 1)*(div + 2)*4*ns)
        read = 0
        if readback:
            clk_phase = 1
        else:
            clk_phase = 0
        end = 0
        for i in range(4):
            if i == 0 or i == 3:
                if i == 3:
                    end = 1
                self.spi_cfg(select=PHASER_SEL_TRF0 << ch, div=div,
                             lsb_first=1, clk_phase=clk_phase, end=end)
            self.spi_write(data & 0xff)
            data >>= 8
            delay_mu(t_xfer)
            if readback:
                read >>= 8
                read |= self.spi_read() << 24
                delay(10*us)  # slack
        return read
    @kernel
    def trf_read(self, ch, addr, cnt_mux_sel=0) -> TInt32:
        self.trf_write(ch, 0x80000008 | (addr << 28) | (cnt_mux_sel << 27))
        # single clk pulse to start readback
        self.spi_cfg(select=PHASER_SEL_TRF0 << ch, div=30, end=1, clk_polarity=1)
        self.spi_cfg(select=PHASER_SEL_TRF0 << ch, div=30, end=1, clk_polarity=0)
        return self.trf_write(ch, 0x00000008, readback=True)
    @kernel
    def set_frequency_mu(self, ch, osc, ftw):
        addr = ((self.channel_base + 1 + ch) << 8) | (osc << 1)
--- a/artiq/gateware/rtio/phy/phaser.py
+++ b/artiq/gateware/rtio/phy/phaser.py
@ -37,15 +37,13 @@ class Phaser(Module):
        n_channels = 2
        n_samples = 8
        n_bits = 14
-        body = [Signal(n_channels*2*n_bits, reset_less=True)
+        body = Signal(n_samples*n_channels*2*n_bits, reset_less=True)
                for i in range(n_samples)]
        i_sample = Signal(max=n_samples)
        self.sync.rio_phy += [
            If(self.ch0.dds.valid,  # & self.ch1.dds.valid,
-                Array(body)[i_sample].eq(Cat(
+                # recent sample, ch0, i first
-                    self.ch0.dds.o.q[2:], self.ch0.dds.o.i[2:],
+                Cat(body).eq(Cat(self.ch0.dds.o.i[2:], self.ch0.dds.o.q[2:],
-                    self.ch1.dds.o.q[2:], self.ch1.dds.o.i[2:])),
+                                 self.ch1.dds.o.i[2:], self.ch1.dds.o.q[2:],
-                i_sample.eq(i_sample + 1),
+                                 body)),
            ),
        ]
@ -57,11 +55,6 @@ class Phaser(Module):
            Cat(self.intf.data[:-1]).eq(Cat(self.serializer.data[:-1])),
            self.serializer.data[-1].eq(self.intf.data[-1]),
        ]
        self.sync.rio_phy += [
            If(self.serializer.stb,
                i_sample.eq(0),
            ),
        ]
        header = Record([
            ("we", 1),