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artiq/artiq/gateware/ad9_dds.py

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from migen import *
from migen.genlib.fsm import *
from migen.genlib.misc import WaitTimer
from misoc.interconnect import wishbone
class AD9_DDS(Module):
"""Wishbone interface to the AD9858 and AD9914 DDS chips.
Addresses 0-2**len(pads.a)-1 map the AD9xxx registers.
Write to address 2**len(pads.a) to pulse the FUD signal.
Address 2**len(pads.a)+1 is a GPIO register that controls the
sel and reset signals. rst is mapped to bit 0, followed by sel.
Write timing:
Address is set one cycle before assertion of we_n.
we_n is asserted for one cycle, at the same time as valid data is driven.
Read timing:
Address is set one cycle before assertion of rd_n.
rd_n is asserted for read_wait_cycles, data is sampled at the end.
rd_n is deasserted and data bus is not driven again before hiz_wait_cycles.
Design:
All IO pads are registered.
"""
def __init__(self, pads,
read_wait_cycles=10, hiz_wait_cycles=3,
bus=None):
if bus is None:
bus = wishbone.Interface(data_width=len(pads.d))
self.bus = bus
# # #
dts = TSTriple(len(pads.d))
self.specials += dts.get_tristate(pads.d)
hold_address = Signal()
dr = Signal(len(pads.d))
rx = Signal()
self.sync += [
If(~hold_address, pads.a.eq(bus.adr)),
dts.o.eq(bus.dat_w),
dr.eq(dts.i),
dts.oe.eq(~rx)
]
if hasattr(pads, "sel"):
sel_len = len(pads.sel)
else:
sel_len = len(pads.sel_n)
gpio = Signal(sel_len + 1)
gpio_load = Signal()
self.sync += If(gpio_load, gpio.eq(bus.dat_w))
if hasattr(pads, "rst"):
self.comb += pads.rst.eq(gpio[0])
else:
self.comb += pads.rst_n.eq(~gpio[0])
if hasattr(pads, "sel"):
self.comb += pads.sel.eq(gpio[1:])
else:
self.comb += pads.sel_n.eq(~gpio[1:])
bus_r_gpio = Signal()
self.comb += If(bus_r_gpio,
bus.dat_r.eq(gpio)
).Else(
bus.dat_r.eq(dr)
)
fud = Signal()
if hasattr(pads, "fud"):
self.sync += pads.fud.eq(fud)
else:
self.sync += pads.fud_n.eq(~fud)
pads.wr_n.reset = 1
pads.rd_n.reset = 1
wr = Signal()
rd = Signal()
self.sync += pads.wr_n.eq(~wr), pads.rd_n.eq(~rd)
self.submodules.read_timer = WaitTimer(read_wait_cycles)
self.submodules.hiz_timer = WaitTimer(hiz_wait_cycles)
fsm = FSM("IDLE")
self.submodules += fsm
fsm.act("IDLE",
If(bus.cyc & bus.stb,
If(bus.adr[len(pads.a)],
If(bus.adr[0],
NextState("GPIO")
).Else(
NextState("FUD")
)
).Else(
If(bus.we,
NextState("WRITE")
).Else(
NextState("READ")
)
)
)
)
fsm.act("WRITE",
# 3ns A setup to WR active
wr.eq(1),
NextState("WRITE0")
)
fsm.act("WRITE0",
# 3.5ns D setup to WR inactive
# 0ns D and A hold to WR inactive
bus.ack.eq(1),
NextState("IDLE")
)
fsm.act("READ",
# 15ns D valid to A setup
# 15ns D valid to RD active
rx.eq(1),
rd.eq(1),
self.read_timer.wait.eq(1),
If(self.read_timer.done,
bus.ack.eq(1),
NextState("WAIT_HIZ")
)
)
fsm.act("WAIT_HIZ",
rx.eq(1),
# For some reason, AD9858 has an address hold time to RD inactive.
hold_address.eq(1),
self.hiz_timer.wait.eq(1),
If(self.hiz_timer.done, NextState("IDLE"))
)
fsm.act("FUD",
# 4ns FUD setup to SYNCLK
# 0ns FUD hold to SYNCLK
fud.eq(1),
bus.ack.eq(1),
NextState("IDLE")
)
fsm.act("GPIO",
bus.ack.eq(1),
bus_r_gpio.eq(1),
If(bus.we, gpio_load.eq(1)),
NextState("IDLE")
)
def _test_gen(bus):
# Test external bus writes
yield from bus.write(4, 2)
yield from bus.write(5, 3)
yield
# Test external bus reads
yield from bus.read(14)
yield from bus.read(15)
yield
# Test FUD
yield from bus.write(64, 0)
yield
# Test GPIO
yield from bus.write(65, 0xff)
yield
class _TestPads:
def __init__(self):
self.a = Signal(6)
self.d = Signal(8)
self.sel = Signal(5)
self.fud_n = Signal()
self.wr_n = Signal()
self.rd_n = Signal()
self.rst_n = Signal()
if __name__ == "__main__":
pads = _TestPads()
dut = AD9_DDS(pads)
run_simulation(dut, _test_gen(dut.bus), vcd_name="ad9_dds.vcd")
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