""" Pipeline API. For multi-input and multi-output variants, see multipipe.
Associated development bugs:
+ * http://bugs.libre-riscv.org/show_bug.cgi?id=148
* http://bugs.libre-riscv.org/show_bug.cgi?id=64
* http://bugs.libre-riscv.org/show_bug.cgi?id=57
- Important: see Stage API (stageapi.py) in combination with below
+ Important: see Stage API (stageapi.py) and IO Control API
+ (iocontrol.py) in combination with below. This module
+ "combines" the Stage API with the IO Control API to create
+ the Pipeline API.
+
+ The one critically important key difference between StageAPI and
+ PipelineAPI:
+
+ * StageAPI: combinatorial (NO REGISTERS / LATCHES PERMITTED)
+ * PipelineAPI: synchronous registers / latches get added here
RecordBasedStage:
----------------
return self.m
+
class MaskCancellable(ControlBase):
""" Mask-activated Cancellable pipeline
- Argument: stage. see Stage API above
+ Arguments:
+
+ * stage. see Stage API above
+ * maskwid - sets up cancellation capability (mask and stop).
+ * in_multi
+ * stage_ctl
+ * dynamic - allows switching from sync to combinatorial (passthrough)
+ USE WITH CARE. will need the entire pipe to be quiescent
+ before switching, otherwise data WILL be destroyed.
stage-1 p.valid_i >>in stage n.valid_o out>> stage+1
stage-1 p.ready_o <<out stage n.ready_i <<in stage+1
| |
+--process->--^
"""
- def __init__(self, stage, maskwid, in_multi=None, stage_ctl=False):
+ def __init__(self, stage, maskwid, in_multi=None, stage_ctl=False,
+ dynamic=False):
ControlBase.__init__(self, stage, in_multi, stage_ctl, maskwid)
+ self.dynamic = dynamic
+ if dynamic:
+ self.latchmode = Signal()
+ else:
+ self.latchmode = Const(1)
def elaborate(self, platform):
self.m = m = ControlBase.elaborate(self, platform)
- r_busy = Signal()
- result = _spec(self.stage.ospec, "r_tmp")
-
- # establish if the data should be passed on. cancellation is
- # a global signal.
- p_valid_i = Signal(reset_less=True)
- #print ("self.p.data_i", self.p.data_i)
- maskedout = Signal(len(self.p.mask_i), reset_less=True)
- m.d.comb += maskedout.eq(self.p.mask_i & ~self.p.stop_i)
-
- # establish some combinatorial temporaries
- n_ready_i = Signal(reset_less=True, name="n_i_rdy_data")
- p_valid_i_p_ready_o = Signal(reset_less=True)
- m.d.comb += [p_valid_i.eq(self.p.valid_i_test & maskedout.bool()),
- n_ready_i.eq(self.n.ready_i_test),
- p_valid_i_p_ready_o.eq(p_valid_i & self.p.ready_o),
- ]
-
- # store result of processing in combinatorial temporary
- m.d.comb += nmoperator.eq(result, self.data_r)
-
- # if idmask nonzero, mask gets passed on (and register set).
- # register is left as-is if idmask is zero, but out-mask is set to zero
- # note however: only the *uncancelled* mask bits get passed on
- m.d.sync += self.n.mask_o.eq(Mux(p_valid_i, maskedout, 0))
-
- # always pass on stop (as combinatorial: single signal)
- m.d.comb += self.n.stop_o.eq(self.p.stop_i)
-
- # previous valid and ready
- with m.If(p_valid_i_p_ready_o):
- data_o = self._postprocess(result) # XXX TBD, does nothing right now
- m.d.sync += [r_busy.eq(1), # output valid
- nmoperator.eq(self.n.data_o, data_o), # update output
- ]
- # previous invalid or not ready, however next is accepting
- with m.Elif(n_ready_i):
- data_o = self._postprocess(result) # XXX TBD, does nothing right now
- m.d.sync += [nmoperator.eq(self.n.data_o, data_o)]
- # TODO: could still send data here (if there was any)
- #m.d.sync += self.n.valid_o.eq(0) # ...so set output invalid
- m.d.sync += r_busy.eq(0) # ...so set output invalid
-
- m.d.comb += self.n.valid_o.eq(r_busy)
- # if next is ready, so is previous
- m.d.comb += self.p._ready_o.eq(n_ready_i)
+ mask_r = Signal(len(self.p.mask_i), reset_less=True)
+ data_r = _spec(self.stage.ospec, "data_r")
+ m.d.comb += nmoperator.eq(data_r, self._postprocess(self.data_r))
+
+ with m.If(self.latchmode):
+ r_busy = Signal()
+ r_latch = _spec(self.stage.ospec, "r_latch")
+
+ # establish if the data should be passed on. cancellation is
+ # a global signal.
+ p_valid_i = Signal(reset_less=True)
+ #print ("self.p.data_i", self.p.data_i)
+ maskedout = Signal(len(self.p.mask_i), reset_less=True)
+ m.d.comb += maskedout.eq(self.p.mask_i & ~self.p.stop_i)
+
+ # establish some combinatorial temporaries
+ n_ready_i = Signal(reset_less=True, name="n_i_rdy_data")
+ p_valid_i_p_ready_o = Signal(reset_less=True)
+ m.d.comb += [p_valid_i.eq(self.p.valid_i_test & maskedout.bool()),
+ n_ready_i.eq(self.n.ready_i_test),
+ p_valid_i_p_ready_o.eq(p_valid_i & self.p.ready_o),
+ ]
+
+ # if idmask nonzero, mask gets passed on (and register set).
+ # register is left as-is if idmask is zero, but out-mask is set to
+ # zero
+ # note however: only the *uncancelled* mask bits get passed on
+ m.d.sync += mask_r.eq(Mux(p_valid_i, maskedout, 0))
+ m.d.comb += self.n.mask_o.eq(mask_r)
+
+ # always pass on stop (as combinatorial: single signal)
+ m.d.comb += self.n.stop_o.eq(self.p.stop_i)
+
+ stor = Signal(reset_less=True)
+ m.d.comb += stor.eq(p_valid_i_p_ready_o | n_ready_i)
+ with m.If(stor):
+ # store result of processing in combinatorial temporary
+ m.d.sync += nmoperator.eq(r_latch, data_r)
+
+ # previous valid and ready
+ with m.If(p_valid_i_p_ready_o):
+ m.d.sync += r_busy.eq(1) # output valid
+ # previous invalid or not ready, however next is accepting
+ with m.Elif(n_ready_i):
+ m.d.sync += r_busy.eq(0) # ...so set output invalid
+
+ # output set combinatorially from latch
+ m.d.comb += nmoperator.eq(self.n.data_o, r_latch)
+
+ m.d.comb += self.n.valid_o.eq(r_busy)
+ # if next is ready, so is previous
+ m.d.comb += self.p._ready_o.eq(n_ready_i)
+
+ with m.Else():
+ # pass everything straight through. p connected to n: data,
+ # valid, mask, everything. this is "effectively" just a
+ # StageChain: MaskCancellable is doing "nothing" except
+ # combinatorially passing everything through
+ # (except now it's *dynamically selectable* whether to do that)
+ m.d.comb += self.n.valid_o.eq(self.p.valid_i_test)
+ m.d.comb += self.p._ready_o.eq(self.n.ready_i_test)
+ m.d.comb += self.n.stop_o.eq(self.p.stop_i)
+ m.d.comb += self.n.mask_o.eq(self.p.mask_i)
+ m.d.comb += nmoperator.eq(self.n.data_o, data_r)
return self.m
m.submodules.fn = fn = NextControl()
fn.valid_o, fn.ready_i, fn.data_o = fifo.readable, fifo.re, fifo.dout
connections = fn._connect_out(self.n, fn=nmoperator.cat)
+ valid_eq, ready_eq, data_o = connections
# ok ok so we can't just do the ready/valid eqs straight:
# first 2 from connections are the ready/valid, 3rd is data.
if self.fwft:
- m.d.comb += connections[:2] # combinatorial on next ready/valid
+ m.d.comb += [valid_eq, ready_eq] # combinatorial on next ready/valid
else:
- m.d.sync += connections[:2] # non-fwft mode needs sync
- data_o = connections[2] # get the data
+ m.d.sync += [valid_eq, ready_eq] # non-fwft mode needs sync
data_o = self._postprocess(data_o) # XXX TBD, does nothing right now
m.d.comb += data_o