re-bba-rb/re-bba/ReBba/amaranth_boards/ice40_up5k_b_evn.py

67 lines
2.3 KiB
Python

import os
import subprocess
from amaranth.build import *
from amaranth.vendor.lattice_ice40 import *
from .resources import *
__all__ = ["ICE40UP5KBEVNPlatform"]
class ICE40UP5KBEVNPlatform(LatticeICE40Platform):
device = "iCE40UP5K"
package = "SG48"
default_clk = "clk12"
resources = [
# J51 must be connected to use clk12 (it is by default)
Resource("clk12", 0, Pins("35", dir="i"),
Clock(12e6), Attrs(GLOBAL=True, IO_STANDARD="SB_LVCMOS")),
# 3 LEDs are present in an RGB common-anode package.
*LEDResources(
pins="39 40 41", invert=True,
attrs=Attrs(IO_STANDARD="SB_LVCMOS")
),
Resource("led_b", 0, PinsN("39", dir="o"),
Attrs(IO_STANDARD="SB_LVCMOS")),
Resource("led_g", 0, PinsN("40", dir="o"),
Attrs(IO_STANDARD="SB_LVCMOS")),
Resource("led_r", 0, PinsN("41", dir="o"),
Attrs(IO_STANDARD="SB_LVCMOS")),
# 4 DIP switches are available, requiring internal pull-ups.
# The switches' "ON" label points to the position which
# connects them to ground, so invert the inputs.
*SwitchResources(pins="23 25 34 43", invert=True,
attrs=Attrs(IO_STANDARD="SB_LVCMOS", PULLUP=1)
),
*SPIFlashResources(0,
cs_n="16", clk="15", copi="14", cipo="17",
attrs=Attrs(IO_STANDARD="SB_LVCMOS")
),
]
connectors = [
Connector("aardvark", 0, # J1
"- - - - 14 - 15 17 16 -"),
Connector("pmod", 0, # U6 (board), U11 (schematic)
"16 14 17 15 - - 27 26 32 31 - -"),
Connector("j", 0, # 'Header A' (J52)
"- - 39 14 40 17 - 15 41 16 - -"),
Connector("j", 1, # 'Header B' (J2)
"- - 23 - 25 - 26 36 27 42 32 38 31 28 37 15 34 - 43 -"),
Connector("j", 2, # 'Header C' (J3)
"- 12 3 21 3 13 48 20 45 19 47 18 44 11 46 10 2 9 - 6"),
]
def toolchain_program(self, products, name):
iceprog = os.environ.get("ICEPROG", "iceprog")
with products.extract("{}.bin".format(name)) as bitstream_fn:
subprocess.check_call([iceprog, bitstream_fn])
if __name__ == "__main__":
from .test.blinky import *
ICE40UP5KBEVNPlatform().build(Blinky(), do_program=True)