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tools/litex_sim_new: remove

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Florent Kermarrec 2020-02-11 14:05:01 +01:00
parent 21d38701df
commit 0d7430fc69
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litex/tools/litex_sim_new.py
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#!/usr/bin/env python3
# This file is Copyright (c) 2015-2020 Florent Kermarrec <florent@enjoy-digital.fr>
# This file is Copyright (c) 2020 Piotr Binkowski <pbinkowski@antmicro.com>
# This file is Copyright (c) 2017 Pierre-Olivier Vauboin <po@lambdaconcept>
# License: BSD
import argparse
from migen import *
from litex.build.generic_platform import *
from litex.build.sim import SimPlatform
from litex.build.sim.config import SimConfig
from litex.soc.integration.common import *
from litex.soc.integration.soc import *
from litex.soc.integration.soc_core import *
from litex.soc.integration.soc_sdram import *
from litex.soc.integration.builder import *
from litex.soc.cores import uart
from litedram import modules as litedram_modules
from litedram.common import *
from litedram.phy.model import SDRAMPHYModel
from liteeth.phy.model import LiteEthPHYModel
from liteeth.mac import LiteEthMAC
from liteeth.core import LiteEthUDPIPCore
from liteeth.frontend.etherbone import LiteEthEtherbone
from litescope import LiteScopeAnalyzer
# IOs ----------------------------------------------------------------------------------------------
_io = [
("sys_clk", 0, Pins(1)),
("sys_rst", 0, Pins(1)),
("serial", 0,
Subsignal("source_valid", Pins(1)),
Subsignal("source_ready", Pins(1)),
Subsignal("source_data", Pins(8)),
Subsignal("sink_valid", Pins(1)),
Subsignal("sink_ready", Pins(1)),
Subsignal("sink_data", Pins(8)),
),
("eth_clocks", 0,
Subsignal("tx", Pins(1)),
Subsignal("rx", Pins(1)),
),
("eth", 0,
Subsignal("source_valid", Pins(1)),
Subsignal("source_ready", Pins(1)),
Subsignal("source_data", Pins(8)),
Subsignal("sink_valid", Pins(1)),
Subsignal("sink_ready", Pins(1)),
Subsignal("sink_data", Pins(8)),
),
]
# Platform -----------------------------------------------------------------------------------------
class Platform(SimPlatform):
def __init__(self):
SimPlatform.__init__(self, "SIM", _io)
# DFI PHY model settings ---------------------------------------------------------------------------
sdram_module_nphases = {
"SDR": 1,
"DDR": 2,
"LPDDR": 2,
"DDR2": 2,
"DDR3": 4,
"DDR4": 4,
}
def get_sdram_phy_settings(memtype, data_width, clk_freq):
nphases = sdram_module_nphases[memtype]
if memtype == "SDR":
# Settings from gensdrphy
rdphase = 0
wrphase = 0
rdcmdphase = 0
wrcmdphase = 0
cl = 2
cwl = None
read_latency = 4
write_latency = 0
elif memtype in ["DDR", "LPDDR"]:
# Settings from s6ddrphy
rdphase = 0
wrphase = 1
rdcmdphase = 1
wrcmdphase = 0
cl = 3
cwl = None
read_latency = 5
write_latency = 0
elif memtype in ["DDR2", "DDR3"]:
# Settings from s7ddrphy
tck = 2/(2*nphases*clk_freq)
cmd_latency = 0
cl, cwl = get_cl_cw(memtype, tck)
cl_sys_latency = get_sys_latency(nphases, cl)
cwl = cwl + cmd_latency
cwl_sys_latency = get_sys_latency(nphases, cwl)
rdcmdphase, rdphase = get_sys_phases(nphases, cl_sys_latency, cl)
wrcmdphase, wrphase = get_sys_phases(nphases, cwl_sys_latency, cwl)
read_latency = 2 + cl_sys_latency + 2 + 3
write_latency = cwl_sys_latency
elif memtype == "DDR4":
# Settings from usddrphy
tck = 2/(2*nphases*clk_freq)
cmd_latency = 0
cl, cwl = get_cl_cw(memtype, tck)
cl_sys_latency = get_sys_latency(nphases, cl)
cwl = cwl + cmd_latency
cwl_sys_latency = get_sys_latency(nphases, cwl)
rdcmdphase, rdphase = get_sys_phases(nphases, cl_sys_latency, cl)
wrcmdphase, wrphase = get_sys_phases(nphases, cwl_sys_latency, cwl)
read_latency = 2 + cl_sys_latency + 1 + 3
write_latency = cwl_sys_latency
sdram_phy_settings = {
"nphases": nphases,
"rdphase": rdphase,
"wrphase": wrphase,
"rdcmdphase": rdcmdphase,
"wrcmdphase": wrcmdphase,
"cl": cl,
"cwl": cwl,
"read_latency": read_latency,
"write_latency": write_latency,
}
return PhySettings(
memtype = memtype,
databits = data_width,
dfi_databits = data_width if memtype == "SDR" else 2*data_width,
**sdram_phy_settings,
)
# Simulation SoC -----------------------------------------------------------------------------------
class SimSoC(SoCCore):
mem_map = {
"ethmac": 0xb0000000,
}
mem_map.update(SoCCore.mem_map)
def __init__(self,
with_sdram = False,
with_ethernet = False,
with_etherbone = False,
etherbone_mac_address = 0x10e2d5000000,
etherbone_ip_address = "192.168.1.50",
with_analyzer = False,
sdram_module = "MT48LC16M16",
sdram_init = [],
sdram_data_width = 32,
**kwargs):
platform = Platform()
sys_clk_freq = int(1e6)
# SoCCore ---------------------------------------------------------------------------------
SoCCore.__init__(self, platform, clk_freq=sys_clk_freq,
ident = "LiteX Simulation", ident_version=True,
with_uart = False,
**kwargs)
# CRG --------------------------------------------------------------------------------------
self.submodules.crg = CRG(platform.request("sys_clk"))
# Serial -----------------------------------------------------------------------------------
self.submodules.uart_phy = uart.RS232PHYModel(platform.request("serial"))
self.submodules.uart = uart.UART(self.uart_phy)
self.csr.add("uart")
self.irq.add("uart")
# SDRAM ------------------------------------------------------------------------------------
if with_sdram:
sdram_clk_freq = int(100e6) # FIXME: use 100MHz timings
sdram_module_cls = getattr(litedram_modules, sdram_module)
sdram_rate = "1:{}".format(sdram_module_nphases[sdram_module_cls.memtype])
sdram_module = sdram_module_cls(sdram_clk_freq, sdram_rate)
phy_settings = get_sdram_phy_settings(
memtype = sdram_module.memtype,
data_width = sdram_data_width,
clk_freq = sdram_clk_freq)
self.submodules.sdrphy = SDRAMPHYModel(sdram_module, phy_settings, init=sdram_init)
self.add_sdram("sdram",
phy = self.sdrphy,
module = sdram_module,
origin = self.mem_map["main_ram"]
)
# Reduce memtest size for simulation speedup
self.add_constant("MEMTEST_DATA_SIZE", 8*1024)
self.add_constant("MEMTEST_ADDR_SIZE", 8*1024)
assert not (with_ethernet and with_etherbone)
# Ethernet ---------------------------------------------------------------------------------
if with_ethernet:
# Ethernet PHY
self.submodules.ethphy = LiteEthPHYModel(self.platform.request("eth", 0))
self.csr.add("ethphy")
# Ethernet MAC
ethmac = LiteEthMAC(phy=self.ethphy, dw=32,
interface = "wishbone",
endianness = self.cpu.endianness)
self.submodules.ethmac = ethmac
self.bus.add_slave("ethmac", self.ethmac.bus, SoCRegion(size=0x2000, cached=False))
self.csr.add("ethmac")
self.irq.add("ethmac")
# Etherbone --------------------------------------------------------------------------------
if with_etherbone:
# Ethernet PHY
self.submodules.ethphy = LiteEthPHYModel(self.platform.request("eth", 0)) # FIXME
self.csr.add("ethphy")
# Ethernet Core
ethcore = LiteEthUDPIPCore(self.ethphy,
mac_address = etherbone_mac_address,
ip_address = etherbone_ip_address,
clk_freq = sys_clk_freq)
self.submodules.ethcore = ethcore
# Etherbone
self.submodules.etherbone = LiteEthEtherbone(self.ethcore.udp, 1234, mode="master")
self.bus.add_master(master=self.etherbone.wishbone.bus)
# Analyzer ---------------------------------------------------------------------------------
if with_analyzer:
analyzer_signals = [
self.cpu.ibus,
self.cpu.dbus
]
self.submodules.analyzer = LiteScopeAnalyzer(analyzer_signals, 512)
self.csr.add("analyzer")
# Build --------------------------------------------------------------------------------------------
def main():
parser = argparse.ArgumentParser(description="Generic LiteX SoC Simulation")
builder_args(parser)
soc_sdram_args(parser)
parser.add_argument("--threads", default=1, help="Set number of threads (default=1)")
parser.add_argument("--rom-init", default=None, help="rom_init file")
parser.add_argument("--ram-init", default=None, help="ram_init file")
parser.add_argument("--with-sdram", action="store_true", help="Enable SDRAM support")
parser.add_argument("--sdram-module", default="MT48LC16M16", help="Select SDRAM chip")
parser.add_argument("--sdram-data-width", default=32, help="Set SDRAM chip data width")
parser.add_argument("--sdram-init", default=None, help="SDRAM init file")
parser.add_argument("--with-ethernet", action="store_true", help="Enable Ethernet support")
parser.add_argument("--with-etherbone", action="store_true", help="Enable Etherbone support")
parser.add_argument("--with-analyzer", action="store_true", help="Enable Analyzer support")
parser.add_argument("--trace", action="store_true", help="Enable VCD tracing")
parser.add_argument("--trace-start", default=0, help="Cycle to start VCD tracing")
parser.add_argument("--trace-end", default=-1, help="Cycle to end VCD tracing")
parser.add_argument("--opt-level", default="O3", help="Compilation optimization level")
args = parser.parse_args()
soc_kwargs = soc_sdram_argdict(args)
builder_kwargs = builder_argdict(args)
sim_config = SimConfig(default_clk="sys_clk")
sim_config.add_module("serial2console", "serial")
# Configuration --------------------------------------------------------------------------------
cpu_endianness = "little"
if "cpu_type" in soc_kwargs:
if soc_kwargs["cpu_type"] in ["mor1kx", "lm32"]:
cpu_endianness = "big"
if args.rom_init:
soc_kwargs["integrated_rom_init"] = get_mem_data(args.rom_init, cpu_endianness)
if not args.with_sdram:
soc_kwargs["integrated_main_ram_size"] = 0x10000000 # 256 MB
if args.ram_init is not None:
soc_kwargs["integrated_main_ram_init"] = get_mem_data(args.ram_init, cpu_endianness)
else:
assert args.ram_init is None
soc_kwargs["integrated_main_ram_size"] = 0x0
soc_kwargs["sdram_module"] = args.sdram_module
soc_kwargs["sdram_data_width"] = int(args.sdram_data_width)
if args.with_ethernet or args.with_etherbone:
sim_config.add_module("ethernet", "eth", args={"interface": "tap0", "ip": "192.168.1.100"})
# SoC ------------------------------------------------------------------------------------------
soc = SimSoC(
with_sdram = args.with_sdram,
with_ethernet = args.with_ethernet,
with_etherbone = args.with_etherbone,
with_analyzer = args.with_analyzer,
sdram_init = [] if args.sdram_init is None else get_mem_data(args.sdram_init, cpu_endianness),
**soc_kwargs)
if args.ram_init is not None:
soc.add_constant("ROM_BOOT_ADDRESS", 0x40000000)
# Build/Run ------------------------------------------------------------------------------------
builder_kwargs["csr_csv"] = "csr.csv"
builder = Builder(soc, **builder_kwargs)
vns = builder.build(run=False, threads=args.threads, sim_config=sim_config,
opt_level=args.opt_level,
trace=args.trace, trace_start=int(args.trace_start), trace_end=int(args.trace_end))
if args.with_analyzer:
soc.analyzer.export_csv(vns, "analyzer.csv")
builder.build(build=False, threads=args.threads, sim_config=sim_config,
opt_level = args.opt_level,
trace = args.trace,
trace_start = int(args.trace_start),
trace_end = int(args.trace_end)
)
if __name__ == "__main__":
main()