phaser2: wip

2016-10-27 01:00:42 +02:00 · 2016-10-27 01:00:42 +02:00 · ea0c304a0c
parent e981b23548
commit ea0c304a0c
2 changed files with 296 additions and 8 deletions
--- a/artiq/gateware/dsp/sawg.py
+++ b/artiq/gateware/dsp/sawg.py
@ -2,8 +2,9 @@ from migen import *
 from misoc.interconnect.stream import Endpoint
 from misoc.cores.cordic import Cordic
-from .accu import PhasedAccu
+from .accu import PhasedAccu, Accu
-from .tools import eqh
+from .tools import eqh, Delay
 from .spline import Spline
 class DDSFast(Module):
@ -66,3 +67,288 @@ class DDSFast(Module):
            ]
        self.latency += c[0].latency
        self.gain = c[0].gain
 class DDSFast(Module):
    def __init__(self, width, t_width=None,
                 a_width=None, p_width=None, f_width=None,
                 a_order=4, p_order=1, f_order=2, parallelism=8):
        if t_width is None:
            t_width = width
        if a_width is None:
            a_width = width + (a_order - 1)*t_width
        if p_width is None:
            p_width = width + (p_order - 1)*t_width
        if f_width is None:
            f_width = width + (f_order + 1)*t_width
        a = Spline(order=a_order, width=a_width)
        p = Spline(order=p_order, width=p_width)
        f = Spline(order=f_order, width=f_width)
        self.submodules += a, p, f
        self.a = a.tri(t_width)
        self.f = f.tri(t_width)
        self.p = p.tri(t_width)
        self.i = [self.a, self.f, self.p]
        self.o = [[Signal((width, True)) for i in range(2)]
                  for i in range(parallelism)]
        self.parallelism = parallelism
        self.latency = 0  # will be accumulated
        ###
        self.latency += p.latency
        q = PhasedAccu(f_width, parallelism)
        self.submodules += q
        self.latency += q.latency
        da = [Signal((width, True)) for i in range(q.latency)]
        self.sync += [
            If(q.i.stb & q.i.ack,
                eqh(da[0], a.o.a0),
                [da[i + 1].eq(da[i]) for i in range(len(da) - 1)],
            ),
            If(p.o.stb & p.o.ack,
                q.i.clr.eq(0),
            ),
            If(p.i.stb & p.i.ack,
                q.i.clr.eq(self.clr),
            ),
        ]
        self.comb += [
            a.o.ack.eq(self.ce),
            p.o.ack.eq(self.ce),
            f.o.ack.eq(self.ce),
            q.i.stb.eq(self.ce),
            eqh(q.i.p, p.o.a0),
            q.i.f.eq(f.o.a0),
            q.o.ack.eq(1),
        ]
        c = []
        for i in range(parallelism):
            ci = Cordic(width=width, widthz=p_width,
                        guard=None, eval_mode="pipelined")
            self.submodules += ci
            c.append(ci)
            qoi = getattr(q.o, "z{}".format(i))
            self.comb += [
                ci.xi.eq(da[-1]),
                ci.yi.eq(0),
                eqh(ci.zi, qoi),
                eqh(self.o[i][0], ci.xo),
                eqh(self.o[i][1], ci.yo),
            ]
        self.latency += c[0].latency
        self.gain = c[0].gain
 class DDSSlow(Module):
    def __init__(self, width, t_width, a_width, p_width, f_width,
                 a_order=4, p_order=1, f_order=2):
        a = Spline(order=a_order, width=a_width)
        p = Spline(order=p_order, width=p_width)
        f = Spline(order=f_order, width=f_width)
        self.submodules += a, p, f
        self.a = a.tri(t_width)
        self.f = f.tri(t_width)
        self.p = p.tri(t_width)
        self.i = [self.a, self.f, self.p]
        self.i_names = "a f p".split()
        self.o = [Signal((width, True)) for i in range(2)]
        self.ce = Signal()
        self.clr = Signal()
        self.latency = 0  # will be accumulated
        ###
        self.latency += p.latency
        q = Accu(f_width)
        self.latency += q.latency
        da = CEInserter()(Delay)(width, q.latency)
        c = Cordic(width=width, widthz=p_width,
                   guard=None, eval_mode="pipelined")
        self.latency += c.latency
        self.gain = c.gain
        self.submodules += q, da, c
        self.sync += [
            If(p.o.stb & p.o.ack,
                q.i.clr.eq(0),
            ),
            If(p.i.stb & p.i.ack,
                q.i.clr.eq(self.clr),
            ),
        ]
        self.comb += [
            da.ce.eq(q.i.stb & q.i.ack),
            a.o.ack.eq(self.ce),
            p.o.ack.eq(self.ce),
            f.o.ack.eq(self.ce),
            q.i.stb.eq(self.ce),
            eqh(da.i, a.o.a0),
            eqh(q.i.p, p.o.a0),
            q.i.f.eq(f.o.a0),
            q.o.ack.eq(1),
            c.xi.eq(da.o),
            c.yi.eq(0),
            eqh(c.zi, q.o.z),
            eqh(self.o[0], c.xo),
            eqh(self.o[1], c.yo),
        ]
 class DDS(Module):
    def __init__(self, width, t_width=None,
                 a_width=None, p_width=None, f_width=None,
                 a_order=4, p_order=1, f_order=2, parallelism=8):
        if t_width is None:
            t_width = width
        if a_width is None:
            a_width = width + (a_order - 1)*t_width
        if p_width is None:
            p_width = width + (p_order - 1)*t_width
        if f_width is None:
            f_width = width + (f_order + 1)*t_width
        self.b = [DDSSlow(width, t_width, a_width, p_width, f_width, a_order,
                          p_order, f_order) for i in range(2)]
        p = Spline(order=1, width=p_width)
        f = Spline(order=1, width=f_width)
        self.submodules += self.b, p, f
        self.f0 = f.tri(t_width)
        self.p0 = p.tri(t_width)
        self.i = [self.f0, self.p0]
        self.i_names = "f0 p0".split()
        for i, bi in enumerate(self.b):
            self.i += bi.i
            for ii in bi.i_names:
                self.i_names.append("{}{}".format(ii, i + 1))
            for j in "afp":
                setattr(self, "{}{}".format(j, i + 1), getattr(bi, j))
        self.o = [[Signal((width, True)) for i in range(2)]
                  for i in range(parallelism)]
        self.ce = Signal()
        self.clr = Signal()
        self.parallelism = parallelism
        self.latency = 0  # will be accumulated
        ###
        self.latency += self.b[0].latency  # TODO: f0/p0, q.latency delta
        q = PhasedAccu(f_width, parallelism)
        self.submodules += q
        self.sync += [
            If(p.o.stb & p.o.ack,
                q.i.clr.eq(0),
            ),
            If(p.i.stb & p.i.ack,
                q.i.clr.eq(self.clr),
            ),
        ]
        self.comb += [
            [bi.ce.eq(self.ce) for bi in self.b],
            [bi.clr.eq(self.clr) for bi in self.b],
            p.o.ack.eq(self.ce),
            f.o.ack.eq(self.ce),
            q.i.stb.eq(self.ce),
            eqh(q.i.p, p.o.a0),
            eqh(q.i.f, f.o.a0),
            q.o.ack.eq(1),
        ]
        x = self.sat_add(bi.o[0] for bi in self.b)
        y = self.sat_add(bi.o[1] for bi in self.b)
        c = []
        for i in range(parallelism):
            ci = Cordic(width=width, widthz=p_width,
                        guard=None, eval_mode="pipelined")
            self.submodules += ci
            c.append(ci)
            qoi = getattr(q.o, "z{}".format(i))
            self.comb += [
                ci.xi.eq(x),
                ci.yi.eq(y),
                eqh(ci.zi, qoi),
                eqh(self.o[i][0], ci.xo),
                eqh(self.o[i][1], ci.yo),
            ]
        self.latency += c[0].latency
        self.gain = self.b[0].gain * c[0].gain
 class Config(Module):
    def __init__(self):
        self.cfg = Record([("tap", 5), ("clr", 1), ("iq", 2)])
        self.i = Endpoint(self.cfg.layout)
        self.ce = Signal()
        ###
        n = Signal(1 << len(self.i.tap))
        tap = Signal.like(self.i.tap)
        clk = Signal()
        clk0 = Signal()
        self.comb += [
            self.i.ack.eq(1),
            clk.eq(Array(n)[tap]),
        ]
        self.sync += [
            clk0.eq(clk),
            self.ce.eq(0),
            If(clk0 ^ clk,
                self.ce.eq(1),
            ),
            n.eq(n + 1),
            If(self.i.stb,
                n.eq(0),
                self.cfg.eq(self.i.payload),
            ),
        ]
 class Channel(Module):
    def __init__(self, width=16, t_width=None, u_order=4, **kwargs):
        if t_width is None:
            t_width = width
        du = Spline(width=width + (u_order - 1)*t_width, order=u_order)
        da = DDS(width, t_width, **kwargs)
        cfg = Config()
        self.submodules += du, da, cfg
        self.i = [cfg.i, du.tri(t_width)] + da.i
        self.i_names = "cfg u".split() + da.i_names
        self.q_i = [Signal((width, True)) for i in range(da.parallelism)]
        self.q_o = [ai[1] for ai in da.o]
        self.o = [Signal((width, True)) for i in range(da.parallelism)]
        self.width = width
        self.parallelism = da.parallelism
        self.latency = da.latency + 1
        self.cordic_gain = da.gain
        ###
        # delay du to match da
        ddu = Delay((width, True), da.latency - du.latency)
        self.submodules += ddu
        self.comb += [
            ddu.i.eq(du.o.a0[-width:]),
            da.clr.eq(cfg.cfg.clr),
            da.ce.eq(cfg.ce),
            du.o.ack.eq(cfg.ce),
        ]
        # wire up outputs and q_{i,o} exchange
        for oi, ai, qi in zip(self.o, da.o, self.q_i):
            self.sync += [
                oi.eq(self.sat_add([
                    ddu.o +
                    # du.o.a0[-width:],
                    Mux(cfg.cfg.iq[0], ai[0], 0),
                    Mux(cfg.cfg.iq[1], qi, 0)])),
            ]
    def connect_q(self, buddy):
        for i, qi in enumerate(self.q_i):
            self.comb += qi.eq(buddy.q_o[i])
--- a/artiq/gateware/rtio/phy/sawg.py
+++ b/artiq/gateware/rtio/phy/sawg.py
@ -3,20 +3,21 @@ from collections import namedtuple
 from migen import *
 from artiq.gateware.rtio import rtlink
-from artiq.gateware.dsp.sawg import DDSFast
+from artiq.gateware.dsp.sawg import Channel as _Channel
 _Phy = namedtuple("Phy", "rtlink probes overrides")
-DDSFast_rtio = ClockDomainsRenamer("rio_phy")(DDSFast)
+_ChannelPHY = ClockDomainsRenamer("rio_phy")(_Channel)
-class Channel(DDSFast_rtio):
+class Channel(_ChannelPHY):
    def __init__(self, *args, **kwargs):
-        DDSFast_rtio.__init__(self, *args, **kwargs)
+        _ChannelPHY.__init__(self, *args, **kwargs)
        self.phys = []
        for i in self.i:
-            rl = rtlink.Interface(rtlink.OInterface(len(i.payload)))
+            rl = rtlink.Interface(rtlink.OInterface(
                min(32, len(i.payload))))  # TODO: test/expand
            self.comb += [
                i.stb.eq(rl.o.stb),
                rl.o.busy.eq(~i.ack),
@ -24,4 +25,5 @@ class Channel(DDSFast_rtio):
            ]
            # no probes, overrides
            self.phys.append(_Phy(rl, [], []))
-        self.phys_names = dict(zip("afp", self.phys))
+        self.phys_names = dict(zip("cfg f0 p0 a1 f1 p1 a2 f2 p2".split(),
                                   self.phys))