sdram/phy: add simphy (software memtest OK in simulation with MT48LC4M16)
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Florent Kermarrec
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# This file is Copyright (c) 2015 Florent Kermarrec <florent@enjoy-digital.fr>
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# License: BSD
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# SDRAM simulation PHY at DFI level
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# Status:
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# - tested against software memtest with SDR with Verilator.
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# TODO:
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# - expose phy_settings to user
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# - test with DDR, LPDDR, DDR2 and DDR3
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# - add $display support to Migen and manage timing violations?
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from migen.fhdl.std import *
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from migen.fhdl.specials import *
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from misoclib.mem.sdram.phy.dfi import *
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from misoclib.mem import sdram
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class Bank(Module):
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def __init__(self, data_width, nrows, ncols):
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self.activate = Signal()
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self.activate_row = Signal(max=nrows)
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self.precharge = Signal()
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self.write = Signal()
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self.write_col = Signal(max=ncols)
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self.write_data = Signal(data_width)
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self.write_mask = Signal(data_width//8)
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self.read = Signal()
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self.read_col = Signal(max=ncols)
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self.read_data = Signal(data_width)
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###
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active = Signal()
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row = Signal(max=nrows)
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self.sync += \
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If(self.precharge,
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active.eq(0),
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).Elif(self.activate,
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active.eq(1),
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row.eq(self.activate_row)
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)
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self.specials.mem = mem = Memory(data_width, nrows*ncols)
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self.specials.write_port = write_port = mem.get_port(write_capable=True, we_granularity=8)
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self.specials.read_port = read_port = mem.get_port(async_read=True)
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self.comb += [
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If(active,
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write_port.adr.eq(row*ncols | self.write_col),
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write_port.dat_w.eq(self.write_data),
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write_port.we.eq(Replicate(self.write, data_width//8) & ~self.write_mask),
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If(self.read,
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read_port.adr.eq(row*ncols | self.read_col),
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self.read_data.eq(read_port.dat_r)
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)
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)
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]
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class DFIPhase(Module):
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def __init__(self, dfi, n):
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phase = getattr(dfi, "p"+str(n))
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self.bank = phase.bank
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self.address = phase.address
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self.wrdata = phase.wrdata
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self.wrdata_mask = phase.wrdata_mask
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self.rddata = phase.rddata
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self.rddata_valid = phase.rddata_valid
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self.activate = Signal()
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self.precharge = Signal()
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self.write = Signal()
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self.read = Signal()
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###
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self.comb += [
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If(~phase.cs_n & ~phase.ras_n & phase.cas_n,
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self.activate.eq(phase.we_n),
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self.precharge.eq(~phase.we_n)
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),
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If(~phase.cs_n & phase.ras_n & ~phase.cas_n,
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self.write.eq(~phase.we_n),
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self.read.eq(phase.we_n)
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)
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]
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class SDRAMPHYSim(Module):
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def __init__(self, module, nmodules=1):
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addressbits = module.geom_settings.addressbits
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databits = module.geom_settings.databits
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bankbits = module.geom_settings.bankbits
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rowbits = module.geom_settings.rowbits
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colbits = module.geom_settings.colbits
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# XXX expose this to user
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self.settings = sdram.PhySettings(
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memtype=module.memtype,
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dfi_databits=databits,
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nphases=1,
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rdphase=0,
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wrphase=0,
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rdcmdphase=0,
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wrcmdphase=0,
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cl=2,
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read_latency=4,
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write_latency=0
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)
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self.module = module
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self.dfi = Interface(addressbits, bankbits, databits)
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###
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nbanks = 2**bankbits
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nrows = 2**rowbits
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ncols = 2**colbits
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data_width = databits*nmodules
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# DFI phases
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phases = [DFIPhase(self.dfi, n) for n in range(self.settings.nphases)]
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self.submodules += phases
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# banks
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banks = [Bank(data_width, nrows, ncols) for i in range(nbanks)]
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self.submodules += banks
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# connect DFI phases to banks (cmds, write datapath)
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for nb, bank in enumerate(banks):
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# bank activate
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activates = Signal(len(phases))
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cases = {}
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for np, phase in enumerate(phases):
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self.comb += activates[np].eq(phase.activate)
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cases[2**np] = [
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bank.activate.eq(phase.bank == nb),
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bank.activate_row.eq(phase.address)
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]
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self.comb += Case(activates, cases)
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# bank precharge
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precharges = Signal(len(phases))
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cases = {}
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for np, phase in enumerate(phases):
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self.comb += precharges[np].eq(phase.precharge)
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cases[2**np] = [
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bank.precharge.eq((phase.bank == nb) | phase.address[10])
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]
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self.comb += Case(precharges, cases)
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# bank writes
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writes = Signal(len(phases))
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cases = {}
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for np, phase in enumerate(phases):
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self.comb += writes[np].eq(phase.write)
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cases[2**np] = [
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bank.write.eq(phase.bank == nb),
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bank.write_col.eq(phase.address)
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]
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self.comb += Case(writes, cases)
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self.comb += [
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bank.write_data.eq(Cat(*[phase.wrdata for phase in phases])),
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bank.write_mask.eq(Cat(*[phase.wrdata_mask for phase in phases]))
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]
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# bank reads
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reads = Signal(len(phases))
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read_data = Signal(data_width)
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cases = {}
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for np, phase in enumerate(phases):
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self.comb += reads[np].eq(phase.read)
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cases[2**np] = [
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bank.read.eq(phase.bank == nb),
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bank.read_col.eq(phase.address)
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]
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self.comb += Case(reads, cases)
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# connect banks to DFI phases (cmds, read datapath)
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banks_read = Signal()
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banks_read_data = Signal(data_width)
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self.comb += [
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banks_read.eq(optree("|", [bank.read for bank in banks])),
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banks_read_data.eq(optree("|", [bank.read_data for bank in banks]))
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]
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# simulate read latency
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for i in range(self.settings.read_latency):
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new_banks_read = Signal()
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new_banks_read_data = Signal(data_width)
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self.sync += [
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new_banks_read.eq(banks_read),
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new_banks_read_data.eq(banks_read_data)
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]
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banks_read = new_banks_read
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banks_read_data = new_banks_read_data
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self.comb += [
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Cat(iter([phase.rddata_valid for phase in phases])).eq(banks_read),
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Cat(iter([phase.rddata for phase in phases])).eq(banks_read_data)
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]
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