fhdl/memory: Simplify logic generation and improve intermediate address/data register naming.

This commit is contained in:
Florent Kermarrec 2021-10-28 11:25:53 +02:00
parent 95e5f20bd8
commit 3d4e45145d
1 changed files with 15 additions and 18 deletions

View File

@ -24,7 +24,6 @@ def memory_emit_verilog(memory, ns, add_data_file):
# Parameters.
# -----------
r = ""
adrbits = bits_for(memory.depth-1)
adr_regs = {}
data_regs = {}
@ -78,35 +77,33 @@ def memory_emit_verilog(memory, ns, add_data_file):
# Port Intermediate Signals.
# --------------------------
for port in memory.ports:
for n, port in enumerate(memory.ports):
# No Intermediate Signal for Async Read.
if port.async_read:
continue
# Create Address Register in Write-First mode.
if port.mode in [WRITE_FIRST]:
adr_reg = Signal(name_override="memadr")
r += f"reg [{adrbits-1}:0] {gn(adr_reg)};\n"
adr_regs[id(port)] = adr_reg
adr_regs[n] = Signal(name_override=f"{gn(memory)}_adr{n}")
r += f"reg [{bits_for(memory.depth-1)-1}:0] {gn(adr_regs[n])};\n"
# Create Data Register in Read-First/No Change mode.
if port.mode in [READ_FIRST, NO_CHANGE]:
data_reg = Signal(name_override="memdat")
r += f"reg [{memory.width-1}:0] {gn(data_reg)};\n"
data_regs[id(port)] = data_reg
data_regs[n] = Signal(name_override=f"{gn(memory)}_dat{n}")
r += f"reg [{memory.width-1}:0] {gn(data_regs[n])};\n"
# Ports Write/Read Logic.
# -----------------------
for port in memory.ports:
for n, port in enumerate(memory.ports):
r += f"always @(posedge {gn(port.clock)}) begin\n"
# Write Logic.
if port.we is not None:
# Split Write Logic when Granularity.
if port.we_granularity:
for n in range(memory.width//port.we_granularity):
r += f"\tif ({gn(port.we)}[{n}])\n"
lbit = n*port.we_granularity
hbit = (n+1)*port.we_granularity-1
for i in range(memory.width//port.we_granularity):
r += f"\tif ({gn(port.we)}[{i}])\n"
lbit = i*port.we_granularity
hbit = (i+1)*port.we_granularity-1
r += f"\t\t{gn(memory)}[{gn(port.adr)}][{hbit}:{lbit}] <= {gn(port.dat_w)}[{hbit}:{lbit}];\n"
# Else use common Write Logic.
else:
@ -117,11 +114,11 @@ def memory_emit_verilog(memory, ns, add_data_file):
if not port.async_read:
# In Write-First mode, Read from Address Register.
if port.mode in [WRITE_FIRST]:
rd = f"\t{gn(adr_regs[id(port)])} <= {gn(port.adr)};\n"
rd = f"\t{gn(adr_regs[n])} <= {gn(port.adr)};\n"
# In Write-First/No Change mode:
if port.mode in [READ_FIRST, NO_CHANGE]:
bassign = f"{gn(data_regs[id(port)])} <= {gn(memory)} [{gn(port.adr)}];\n"
bassign = f"{gn(data_regs[n])} <= {gn(memory)} [{gn(port.adr)}];\n"
# Always Read in Read-First mode.
if port.mode == READ_FIRST:
rd = f"\t{bassign}"
@ -139,7 +136,7 @@ def memory_emit_verilog(memory, ns, add_data_file):
# Ports Read Mapping.
# -------------------
for port in memory.ports:
for n, port in enumerate(memory.ports):
# Direct (Asynchronous) Read on Async-Read mode.
if port.async_read:
r += f"assign {gn(port.dat_r)} = {gn(memory)}[{gn(port.adr)}];\n"
@ -147,11 +144,11 @@ def memory_emit_verilog(memory, ns, add_data_file):
# Write-First mode: Do Read through Address Register.
if port.mode in [WRITE_FIRST]:
r += f"assign {gn(port.dat_r)} = {gn(memory)}[{gn(adr_regs[id(port)])}];\n"
r += f"assign {gn(port.dat_r)} = {gn(memory)}[{gn(adr_regs[n])}];\n"
# Read-First/No-Change mode: Data already Read on Data Register.
if port.mode in [READ_FIRST, NO_CHANGE]:
r += f"assign {gn(port.dat_r)} = {gn(data_regs[id(port)])};\n"
r += f"assign {gn(port.dat_r)} = {gn(data_regs[n])};\n"
r += "//" + "-"*80 + "\n\n"
return r