from litedram.phy.dfi import Interface as DFIInterface
from litex.soc.cores.spi import SPIMaster
from litex.soc.cores.pwm import PWM
-from litex.soc.cores.bitbang import I2CMaster
+#from litex.soc.cores.bitbang import I2CMaster
from litex.soc.cores import uart
from litex.tools.litex_sim import sdram_module_nphases, get_sdram_phy_settings
# GPIO Tristate -------------------------------------------------------
# doesn't work properly.
#from litex.soc.cores.gpio import GPIOTristate
-from litex.soc.interconnect.csr import CSRStorage, CSRStatus
+from litex.soc.interconnect.csr import CSRStorage, CSRStatus, CSRField
from migen.genlib.cdc import MultiReg
# Imports
from litex.build.io import SDROutput, SDRInput
+# I2C Master Bit-Banging --------------------------------------------------
+
+class I2CMaster(Module, AutoCSR):
+ """I2C Master Bit-Banging
+
+ Provides the minimal hardware to do software I2C Master bit banging.
+
+ On the same write CSRStorage (_w), software can control SCL (I2C_SCL),
+ SDA direction and value (I2C_OE, I2C_W). Software get back SDA value
+ with the read CSRStatus (_r).
+ """
+ pads_layout = [("scl", 1), ("sda", 1)]
+ def __init__(self, pads):
+ self.pads = pads
+ self._w = CSRStorage(fields=[
+ CSRField("scl", size=1, offset=0),
+ CSRField("oe", size=1, offset=1),
+ CSRField("sda", size=1, offset=2)],
+ name="w")
+ self._r = CSRStatus(fields=[
+ CSRField("sda", size=1, offset=0)],
+ name="r")
+
+ self.connect(pads)
+
+ def connect(self, pads):
+ _sda_w = Signal()
+ _sda_oe = Signal()
+ _sda_r = Signal()
+ self.comb += [
+ pads.scl.eq(self._w.fields.scl),
+ pads.sda_oe.eq( self._w.fields.oe),
+ pads.sda_o.eq( self._w.fields.sda),
+ self._r.fields.sda.eq(pads.sda_i),
+ ]
+
+
class GPIOTristateASIC(Module, AutoCSR):
def __init__(self, pads):
nbits = len(pads.oe) # hack
self.mem_map["main_ram"] = 0x90000000
self.mem_map["sram"] = 0x00000000
+ self.mem_map["sram1"] = 0x00001000
+ self.mem_map["sram2"] = 0x00002000
+ self.mem_map["sram3"] = 0x00003000
# SoCCore -------------------------------------------------------------
SoCCore.__init__(self, platform, clk_freq=sys_clk_freq,
cpu_type = "microwatt",
cpu_cls = LibreSoC if cpu == "libresoc" \
else Microwatt,
- #bus_data_width = 64,
+ bus_data_width = 64,
csr_address_width = 14, # limit to 0x8000
cpu_variant = variant,
csr_data_width = 8,
sdram_module = sdram_module,
sdram_data_width = sdram_data_width,
integrated_rom_size = 0, # if ram_fname else 0x10000,
+ #integrated_sram_size = 0x1000, - problem with yosys ABC
integrated_sram_size = 0x200,
#integrated_main_ram_init = ram_init,
integrated_main_ram_size = 0x00000000 if with_sdram \
)
self.platform.name = "ls180"
+ # add 3 more 4k integrated SRAMs
+ self.add_ram("sram1", self.mem_map["sram1"], 0x1000)
+ self.add_ram("sram2", self.mem_map["sram2"], 0x1000)
+ self.add_ram("sram3", self.mem_map["sram3"], 0x1000)
+
# SDR SDRAM ----------------------------------------------
if False: # not self.integrated_main_ram_size:
self.submodules.sdrphy = sdrphy_cls(platform.request("sdram"))
self.submodules.crg = CRG(platform.request("sys_clk"),
platform.request("sys_rst"))
+ # PLL/Clock Select
+ clksel_i = platform.request("sys_clksel_i")
+ pll18_o = platform.request("sys_pll_18_o")
+ pll_lck_o = platform.request("sys_pll_lck_o")
+
+ self.comb += self.cpu.clk_sel.eq(clksel_i) # allow clock src select
+ self.comb += pll18_o.eq(self.cpu.pll_18_o) # "test feed" from the PLL
+ self.comb += pll_lck_o.eq(self.cpu.pll_lck_o) # PLL lock flag
+
#ram_init = []
# SDRAM ----------------------------------------------------
clk_freq = sdram_clk_freq)
#sdrphy_cls = HalfRateGENSDRPHY
sdrphy_cls = GENSDRPHY
- self.submodules.sdrphy = sdrphy_cls(platform.request("sdram"))
+ sdram_pads = self.cpu.cpupads['sdr']
+ self.submodules.sdrphy = sdrphy_cls(sdram_pads)
#self.submodules.sdrphy = sdrphy_cls(sdram_module,
# phy_settings,
# init=ram_init
# SDRAM clock
sys_clk = ClockSignal()
- sdr_clk = platform.request("sdram_clock")
+ sdr_clk = self.cpu.cpupads['sdram_clock']
#self.specials += DDROutput(1, 0, , sdram_clk)
self.specials += SDROutput(clk=sys_clk, i=sys_clk, o=sdr_clk)
self.submodules.uart = ResetInserter()(uart.UART(self.uart_phy,
tx_fifo_depth = 16,
rx_fifo_depth = 16))
- # "real" pads connect to C4M JTAG iopad
- uart_pads = platform.request(uart_name) # "real" (actual) pin
- uart_io_pads = self.cpu.iopads['uart'] # C4M JTAG pads
- self.comb += uart_pads.tx.eq(uart_io_pads.tx)
- self.comb += uart_io_pads.rx.eq(uart_pads.rx)
self.csr.add("uart_phy", use_loc_if_exists=True)
self.csr.add("uart", use_loc_if_exists=True)
self.submodules.gpio = GPIOTristateASIC(gpio_core_pads)
self.add_csr("gpio")
- gpio_pads = platform.request("gpio") # "real" (actual) pins
- gpio_io_pads = self.cpu.iopads['gpio'] # C4M JTAG pads
- self.comb += gpio_io_pads.i.eq(gpio_pads.i)
- self.comb += gpio_pads.o.eq(gpio_io_pads.o)
- self.comb += gpio_pads.oe.eq(gpio_io_pads.oe)
-
# SPI Master
- self.submodules.spi_master = SPIMaster(
- pads = platform.request("spi_master"),
+ print ("cpupadkeys", self.cpu.cpupads.keys())
+ self.submodules.spimaster = SPIMaster(
+ pads = self.cpu.cpupads['mspi1'],
data_width = 8,
sys_clk_freq = sys_clk_freq,
spi_clk_freq = 8e6,
)
- self.add_csr("spi_master")
+ self.add_csr("spimaster")
+
+ # SPI SDCard (1 wide)
+ spi_clk_freq = 400e3
+ pads = self.cpu.cpupads['mspi0']
+ spisdcard = SPIMaster(pads, 8, self.sys_clk_freq, spi_clk_freq)
+ spisdcard.add_clk_divider()
+ setattr(self.submodules, 'spisdcard', spisdcard)
+ self.add_csr('spisdcard')
# EINTs - very simple, wire up top 3 bits to ls180 "eint" pins
- self.comb += self.cpu.interrupt[12:16].eq(platform.request("eint"))
+ eintpads = self.cpu.cpupads['eint']
+ print ("eintpads", eintpads)
+ self.comb += self.cpu.interrupt[12:16].eq(eintpads)
# JTAG
jtagpads = platform.request("jtag")
self.sync += self.dummy[i].eq(self.nc[i] | self.cpu.interrupt[0])
# PWM
+ pwmpads = self.cpu.cpupads['pwm']
for i in range(2):
name = "pwm%d" % i
- setattr(self.submodules, name, PWM(platform.request("pwm", i)))
+ setattr(self.submodules, name, PWM(pwmpads[i]))
self.add_csr(name)
- if False: # TODO: convert to _i _o _oe
- # I2C Master
- self.submodules.i2c = I2CMaster(platform.request("i2c"))
- self.add_csr("i2c")
+ # I2C Master
+ i2c_core_pads = self.cpu.cpupads['mtwi']
+ self.submodules.i2c = I2CMaster(i2c_core_pads)
+ self.add_csr("i2c")
# SDCard -----------------------------------------------------
# Emulator / Pads
- sdcard_pads = self.platform.request("sdcard")
+ sdcard_pads = self.cpu.cpupads['sd0']
# Core
self.submodules.sdphy = SDPHY(sdcard_pads,
if not debug:
return
+ jtag_en = ('jtag' in variant) or variant == 'ls180'
+
# setup running of DMI FSM
dmi_addr = Signal(4)
dmi_din = Signal(64)
if args.platform == 'ls180':
soc = LibreSoCSim(cpu=args.cpu, debug=args.debug,
platform=args.platform)
- soc.add_spi_sdcard()
builder = Builder(soc, compile_gateware = True)
builder.build(run = True)
os.chdir("../")