soc/interconnect/axi: separate AXI Lite converter channels
This commit is contained in:
Jędrzej Boczar
parent
8bdf6941a3
commit
32160e615f
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@ -714,31 +714,28 @@ class AXILiteSRAM(Module):
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# AXILite Data Width Converter ---------------------------------------------------------------------
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class AXILiteDownConverter(Module):
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class _AXILiteDownConverterWrite(Module):
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def __init__(self, master, slave):
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assert isinstance(master, AXILiteInterface) and isinstance(slave, AXILiteInterface)
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dw_from = len(master.r.data)
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dw_to = len(slave.r.data)
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ratio = dw_from//dw_to
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dw_from = len(master.w.data)
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dw_to = len(slave.w.data)
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ratio = dw_from//dw_to
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master_align = log2_int(master.data_width//8)
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slave_align = log2_int(slave.data_width//8)
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skip = Signal()
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counter = Signal(max=ratio)
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aw_ready = Signal()
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w_ready = Signal()
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resp = Signal.like(master.b.resp)
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addr_counter = Signal(master_align)
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# # #
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skip = Signal()
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counter = Signal(max=ratio)
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do_read = Signal()
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do_write = Signal()
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last_was_read = Signal()
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aw_ready = Signal()
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w_ready = Signal()
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resp = Signal.like(master.b.resp)
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# Slave address counter
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master_align = log2_int(master.data_width//8)
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slave_align = log2_int(slave.data_width//8)
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addr_counter = Signal(master_align)
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self.comb += addr_counter[slave_align:].eq(counter)
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# Write path
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# Data path
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self.comb += [
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slave.aw.addr.eq(Cat(addr_counter, master.aw.addr[master_align:])),
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Case(counter, {i: slave.w.data.eq(master.w.data[i*dw_to:]) for i in range(ratio)}),
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@ -746,46 +743,23 @@ class AXILiteDownConverter(Module):
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master.b.resp.eq(resp),
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]
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# Read path
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# shift the data word
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r_data = Signal(dw_from, reset_less=True)
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self.sync += If(slave.r.ready, r_data.eq(master.r.data))
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self.comb += master.r.data.eq(Cat(r_data[dw_to:], slave.r.data))
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# address, resp
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self.comb += [
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slave.ar.addr.eq(Cat(addr_counter, master.ar.addr[master_align:])),
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master.r.resp.eq(resp),
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]
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# Control Path
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fsm = FSM(reset_state="IDLE")
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fsm = ResetInserter()(fsm)
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self.submodules.fsm = fsm
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self.comb += fsm.reset.eq(~(master.aw.valid | master.ar.valid))
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# Reset the converter state if master breaks a request, we can do that as
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# aw.valid and w.valid are kept high in CONVERT and RESPOND-SLAVE, and
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# acknowledged only when moving to RESPOND-MASTER, and then b.valid is 1
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self.comb += fsm.reset.eq(~((master.aw.valid | master.w.valid) | master.b.valid))
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fsm.act("IDLE",
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NextValue(counter, 0),
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NextValue(resp, RESP_OKAY),
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# If the last access was a read, do a write, and vice versa
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If(master.aw.valid & master.ar.valid,
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do_write.eq(last_was_read),
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do_read.eq(~last_was_read),
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).Else(
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do_write.eq(master.aw.valid),
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do_read.eq(master.ar.valid),
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),
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# Start reading/writing immediately not to waste a cycle
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If(do_write & master.w.valid,
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NextValue(last_was_read, 0),
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NextState("WRITE")
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).Elif(do_read,
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NextValue(last_was_read, 1),
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NextState("READ")
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If(master.aw.valid & master.w.valid,
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NextState("CONVERT")
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)
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)
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# Write conversion
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fsm.act("WRITE",
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fsm.act("CONVERT",
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skip.eq(slave.w.strb == 0),
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slave.aw.valid.eq(~skip & ~aw_ready),
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slave.w.valid.eq(~skip & ~w_ready),
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@ -802,33 +776,33 @@ class AXILiteDownConverter(Module):
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If(counter == (ratio - 1),
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master.aw.ready.eq(1),
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master.w.ready.eq(1),
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NextState("WRITE-RESPONSE-MASTER")
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NextState("RESPOND-MASTER")
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)
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# Write current word and wait for write response
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).Elif((slave.aw.ready | aw_ready) & (slave.w.ready | w_ready),
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NextState("WRITE-RESPONSE-SLAVE")
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NextState("RESPOND-SLAVE")
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)
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)
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fsm.act("WRITE-RESPONSE-SLAVE",
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fsm.act("RESPOND-SLAVE",
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NextValue(aw_ready, 0),
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NextValue(w_ready, 0),
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If(slave.b.valid,
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slave.b.ready.eq(1),
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# Any errors is sticky, so the first one is always sent
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# Errors are sticky, so the first one is always sent
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If((resp == RESP_OKAY) & (slave.b.resp != RESP_OKAY),
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NextValue(resp, slave.b.resp)
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),
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If(counter == (ratio - 1),
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master.aw.ready.eq(1),
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master.w.ready.eq(1),
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NextState("WRITE-RESPONSE-MASTER")
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NextState("RESPOND-MASTER")
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).Else(
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NextValue(counter, counter + 1),
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NextState("WRITE")
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NextState("CONVERT")
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)
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)
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)
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fsm.act("WRITE-RESPONSE-MASTER",
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fsm.act("RESPOND-MASTER",
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NextValue(aw_ready, 0),
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NextValue(w_ready, 0),
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master.b.valid.eq(1),
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@ -837,32 +811,76 @@ class AXILiteDownConverter(Module):
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)
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)
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# Read conversion
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fsm.act("READ",
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slave.ar.valid.eq(1),
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If(slave.ar.ready,
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NextState("READ-RESPONSE-SLAVE")
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class _AXILiteDownConverterRead(Module):
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def __init__(self, master, slave):
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assert isinstance(master, AXILiteInterface) and isinstance(slave, AXILiteInterface)
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dw_from = len(master.r.data)
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dw_to = len(slave.r.data)
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ratio = dw_from//dw_to
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master_align = log2_int(master.data_width//8)
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slave_align = log2_int(slave.data_width//8)
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skip = Signal()
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counter = Signal(max=ratio)
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resp = Signal.like(master.r.resp)
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addr_counter = Signal(master_align)
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# # #
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# Slave address counter
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self.comb += addr_counter[slave_align:].eq(counter)
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# Data path
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# shift the data word
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r_data = Signal(dw_from, reset_less=True)
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self.sync += If(slave.r.ready, r_data.eq(master.r.data))
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self.comb += master.r.data.eq(Cat(r_data[dw_to:], slave.r.data))
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# address, resp
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self.comb += [
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slave.ar.addr.eq(Cat(addr_counter, master.ar.addr[master_align:])),
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master.r.resp.eq(resp),
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]
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# Control Path
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fsm = FSM(reset_state="IDLE")
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fsm = ResetInserter()(fsm)
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self.submodules.fsm = fsm
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# Reset the converter state if master breaks a request, we can do that as
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# ar.valid is high in CONVERT and RESPOND-SLAVE, and r.valid in RESPOND-MASTER
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self.comb += fsm.reset.eq(~(master.ar.valid | master.r.valid))
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fsm.act("IDLE",
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NextValue(counter, 0),
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NextValue(resp, RESP_OKAY),
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If(master.ar.valid,
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NextState("CONVERT")
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)
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)
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fsm.act("READ-RESPONSE-SLAVE",
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fsm.act("CONVERT",
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slave.ar.valid.eq(1),
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If(slave.ar.ready,
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NextState("RESPOND-SLAVE")
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)
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)
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fsm.act("RESPOND-SLAVE",
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If(slave.r.valid,
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# Any errors is sticky, so the first one is always sent
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If((resp == RESP_OKAY) & (slave.b.resp != RESP_OKAY),
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NextValue(resp, slave.b.resp)
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# Errors are sticky, so the first one is always sent
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If((resp == RESP_OKAY) & (slave.r.resp != RESP_OKAY),
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NextValue(resp, slave.r.resp)
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),
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# On last word acknowledge ar and hold slave.r.valid until we get master.r.ready
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If(counter == (ratio - 1),
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master.ar.ready.eq(1),
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NextState("READ-RESPONSE-MASTER")
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NextState("RESPOND-MASTER")
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# Acknowledge the response and continue conversion
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).Else(
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slave.r.ready.eq(1),
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NextValue(counter, counter + 1),
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NextState("READ")
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NextState("CONVERT")
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)
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)
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)
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fsm.act("READ-RESPONSE-MASTER",
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fsm.act("RESPOND-MASTER",
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master.r.valid.eq(1),
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If(master.r.ready,
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slave.r.ready.eq(1),
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@ -870,6 +888,11 @@ class AXILiteDownConverter(Module):
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)
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)
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class AXILiteDownConverter(Module):
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def __init__(self, master, slave):
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self.submodules.write = _AXILiteDownConverterWrite(master, slave)
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self.submodules.read = _AXILiteDownConverterRead(master, slave)
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class AXILiteConverter(Module):
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"""AXILite data width converter"""
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def __init__(self, master, slave):
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@ -948,12 +971,7 @@ class AXILiteTimeout(Module):
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# AXILite Interconnect -----------------------------------------------------------------------------
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class AXILiteInterconnectPointToPoint(Module):
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def __init__(self, master, slave):
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self.comb += master.connect(slave)
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class AXILiteRequestCounter(Module):
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class _AXILiteRequestCounter(Module):
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def __init__(self, request, response, max_requests=256):
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self.counter = counter = Signal(max=max_requests)
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self.full = full = Signal()
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@ -977,6 +995,10 @@ class AXILiteRequestCounter(Module):
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),
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]
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class AXILiteInterconnectPointToPoint(Module):
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def __init__(self, master, slave):
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self.comb += master.connect(slave)
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class AXILiteArbiter(Module):
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"""AXI Lite arbiter
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@ -1011,9 +1033,9 @@ class AXILiteArbiter(Module):
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self.comb += dest.eq(source)
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# allow to change rr.grant only after all requests from a master have been responded to
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self.submodules.wr_lock = wr_lock = AXILiteRequestCounter(
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self.submodules.wr_lock = wr_lock = _AXILiteRequestCounter(
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request=target.aw.valid & target.aw.ready, response=target.b.valid & target.b.ready)
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self.submodules.rd_lock = rd_lock = AXILiteRequestCounter(
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self.submodules.rd_lock = rd_lock = _AXILiteRequestCounter(
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request=target.ar.valid & target.ar.ready, response=target.r.valid & target.r.ready)
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# switch to next request only if there are no responses pending
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@ -1064,10 +1086,10 @@ class AXILiteDecoder(Module):
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# we need to hold the slave selected until all responses come back
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# TODO: we could reuse arbiter counters
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locks = {
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"write": AXILiteRequestCounter(
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"write": _AXILiteRequestCounter(
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request=master.aw.valid & master.aw.ready,
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response=master.b.valid & master.b.ready),
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"read": AXILiteRequestCounter(
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"read": _AXILiteRequestCounter(
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request=master.ar.valid & master.ar.ready,
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response=master.r.valid & master.r.ready),
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}
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@ -96,6 +96,21 @@ class AXILiteChecker:
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yield from self.handle_read(axi_lite)
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yield
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@passive
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def _write_handler(self, axi_lite):
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while True:
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yield from self.handle_write(axi_lite)
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yield
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@passive
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def _read_handler(self, axi_lite):
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while True:
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yield from self.handle_read(axi_lite)
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yield
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def parallel_handlers(self, axi_lite):
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return self._write_handler(axi_lite), self._read_handler(axi_lite)
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class AXILitePatternGenerator:
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def __init__(self, axi_lite, pattern, delay=0):
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# patter: (rw, addr, data)
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@ -241,7 +256,7 @@ class TestAXILite(unittest.TestCase):
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run_simulation(dut, [generator(dut, init)])
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self.assertEqual(dut.errors, 0)
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def converter_test(self, width_from, width_to,
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def converter_test(self, width_from, width_to, parallel_rw=False,
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write_pattern=None, write_expected=None,
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read_pattern=None, read_expected=None):
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assert not (write_pattern is None and read_pattern is None)
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@ -263,20 +278,31 @@ class TestAXILite(unittest.TestCase):
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self.slave = AXILiteInterface(data_width=width_to)
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self.submodules.converter = AXILiteConverter(self.master, self.slave)
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def generator(axi_lite):
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prng = random.Random(42)
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def write_generator(axi_lite):
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for addr, data, strb in write_pattern or []:
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resp = (yield from axi_lite.write(addr, data, strb))
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self.assertEqual(resp, RESP_OKAY)
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for _ in range(prng.randrange(3)):
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yield
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for _ in range(16):
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yield
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def read_generator(axi_lite):
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for addr, refdata in read_pattern or []:
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data, resp = (yield from axi_lite.read(addr))
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self.assertEqual(resp, RESP_OKAY)
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self.assertEqual(data, refdata)
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for _ in range(prng.randrange(3)):
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yield
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for _ in range(4):
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yield
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def sequential_generator(axi_lite):
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yield from write_generator(axi_lite)
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yield from read_generator(axi_lite)
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def rdata_generator(adr):
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for a, v in read_expected:
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if a == adr:
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@ -291,7 +317,12 @@ class TestAXILite(unittest.TestCase):
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dut = DUT(width_from=width_from, width_to=width_to)
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checker = AXILiteChecker(ready_latency=latency, rdata_generator=rdata_generator)
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run_simulation(dut, [generator(dut.master), checker.handler(dut.slave)])
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if parallel_rw:
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generators = [write_generator(dut.master), read_generator(dut.master)]
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else:
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generators = [sequential_generator(dut.master)]
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generators += checker.parallel_handlers(dut.slave)
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run_simulation(dut, generators)
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self.assertEqual(checker.writes, write_expected)
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self.assertEqual(checker.reads, read_expected)
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@ -314,9 +345,11 @@ class TestAXILite(unittest.TestCase):
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]
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read_pattern = write_pattern
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read_expected = [(adr, data) for (adr, data, _) in write_expected]
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self.converter_test(width_from=32, width_to=16,
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write_pattern=write_pattern, write_expected=write_expected,
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read_pattern=read_pattern, read_expected=read_expected)
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for parallel in [False, True]:
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with self.subTest(parallel=parallel):
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self.converter_test(width_from=32, width_to=16, parallel_rw=parallel,
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write_pattern=write_pattern, write_expected=write_expected,
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read_pattern=read_pattern, read_expected=read_expected)
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def test_axilite_down_converter_32to8(self):
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write_pattern = [
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@ -335,9 +368,11 @@ class TestAXILite(unittest.TestCase):
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]
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read_pattern = write_pattern
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read_expected = [(adr, data) for (adr, data, _) in write_expected]
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self.converter_test(width_from=32, width_to=8,
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write_pattern=write_pattern, write_expected=write_expected,
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read_pattern=read_pattern, read_expected=read_expected)
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for parallel in [False, True]:
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with self.subTest(parallel=parallel):
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self.converter_test(width_from=32, width_to=8, parallel_rw=parallel,
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write_pattern=write_pattern, write_expected=write_expected,
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read_pattern=read_pattern, read_expected=read_expected)
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def test_axilite_down_converter_64to32(self):
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write_pattern = [
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@ -352,9 +387,11 @@ class TestAXILite(unittest.TestCase):
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]
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read_pattern = write_pattern
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read_expected = [(adr, data) for (adr, data, _) in write_expected]
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self.converter_test(width_from=64, width_to=32,
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write_pattern=write_pattern, write_expected=write_expected,
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read_pattern=read_pattern, read_expected=read_expected)
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for parallel in [False, True]:
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with self.subTest(parallel=parallel):
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self.converter_test(width_from=64, width_to=32, parallel_rw=parallel,
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write_pattern=write_pattern, write_expected=write_expected,
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read_pattern=read_pattern, read_expected=read_expected)
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def test_axilite_down_converter_strb(self):
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write_pattern = [
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@ -705,7 +742,7 @@ class TestAXILiteInterconnect(unittest.TestCase):
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for i, (slave, checker) in enumerate(zip(dut.slaves, checkers))
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if i not in (disconnected_slaves or [])]
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generators += [timeout_generator(timeout)]
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run_simulation(dut, generators, vcd_name='sim.vcd')
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run_simulation(dut, generators)
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|
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return pattern_generators, checkers
|
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|
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Reference in New Issue