2019-09-01 22:35:37 -04:00
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#!/usr/bin/env python3
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2020-08-23 09:00:17 -04:00
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#
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# This file is part of LiteX-Boards.
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#
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# Copyright (c) 2019 Sean Cross <sean@xobs.io>
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# Copyright (c) 2018 David Shah <dave@ds0.me>
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# SPDX-License-Identifier: BSD-2-Clause
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2019-09-01 22:35:37 -04:00
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2020-05-05 09:11:38 -04:00
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import os
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2019-09-01 22:35:37 -04:00
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import argparse
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from migen import *
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from migen.genlib.resetsync import AsyncResetSynchronizer
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from litex.soc.cores import up5kspram
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2019-11-24 23:46:21 -05:00
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from litex.soc.integration.soc_core import SoCCore
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2019-09-01 22:35:37 -04:00
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from litex.soc.integration.builder import Builder, builder_argdict, builder_args
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from litex.soc.integration.soc_core import soc_core_argdict, soc_core_args
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2019-11-22 23:55:26 -05:00
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from litex.soc.integration.doc import AutoDoc
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2019-09-01 22:35:37 -04:00
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from valentyusb.usbcore import io as usbio
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2020-02-02 19:57:56 -05:00
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from valentyusb.usbcore.cpu import dummyusb, epfifo, eptri
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2019-09-01 22:35:37 -04:00
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import os, shutil, subprocess
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# CRG ----------------------------------------------------------------------------------------------
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2019-11-22 23:55:26 -05:00
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class _CRG(Module, AutoDoc):
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"""Fomu Clock Resource Generator
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Fomu is a USB device, which means it must have a 12 MHz clock. Valentyusb
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oversamples the clock by 4x, which drives the requirement for a 48 MHz clock.
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The ICE40UP5k is a relatively low speed grade of FPGA that is incapable of
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running the entire design at 48 MHz, so the majority of the logic is placed
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in the 12 MHz domain while only critical USB logic is placed in the fast
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48 MHz domain.
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Fomu has a 48 MHz crystal on it, which provides the raw clock input. This
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signal is fed through the ICE40 PLL in order to divide it down into a 12 MHz
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signal and keep the clocks within 1ns of phase. Earlier designs used a simple
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flop, however this proved unreliable when the FPGA became very full.
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The following clock domains are available on this design:
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+---------+------------+---------------------------------+
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| Name | Frequency | Description |
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+=========+============+=================================+
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| usb_48 | 48 MHz | Raw USB signals and pulse logic |
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+---------+------------+---------------------------------+
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| usb_12 | 12 MHz | USB control logic |
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+---------+------------+---------------------------------+
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| sys | 12 MHz | System CPU and wishbone bus |
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+---------+------------+---------------------------------+
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"""
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2019-09-01 22:35:37 -04:00
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def __init__(self, platform):
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clk48_raw = platform.request("clk48")
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clk12 = Signal()
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reset_delay = Signal(12, reset=4095)
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self.clock_domains.cd_por = ClockDomain()
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self.reset = Signal()
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self.clock_domains.cd_sys = ClockDomain()
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self.clock_domains.cd_usb_12 = ClockDomain()
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self.clock_domains.cd_usb_48 = ClockDomain()
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platform.add_period_constraint(self.cd_usb_48.clk, 1e9/48e6)
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platform.add_period_constraint(self.cd_sys.clk, 1e9/12e6)
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platform.add_period_constraint(self.cd_usb_12.clk, 1e9/12e6)
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platform.add_period_constraint(clk48_raw, 1e9/48e6)
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# POR reset logic- POR generated from sys clk, POR logic feeds sys clk
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# reset.
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self.comb += [
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self.cd_por.clk.eq(self.cd_sys.clk),
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self.cd_sys.rst.eq(reset_delay != 0),
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self.cd_usb_12.rst.eq(reset_delay != 0),
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]
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# POR reset logic- POR generated from sys clk, POR logic feeds sys clk
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# reset.
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self.comb += [
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self.cd_usb_48.rst.eq(reset_delay != 0),
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]
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self.comb += self.cd_usb_48.clk.eq(clk48_raw)
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self.specials += Instance(
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"SB_PLL40_CORE",
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# Parameters
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p_DIVR = 0,
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p_DIVF = 15,
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p_DIVQ = 5,
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p_FILTER_RANGE = 1,
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p_FEEDBACK_PATH = "SIMPLE",
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p_DELAY_ADJUSTMENT_MODE_FEEDBACK = "FIXED",
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p_FDA_FEEDBACK = 15,
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p_DELAY_ADJUSTMENT_MODE_RELATIVE = "FIXED",
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p_FDA_RELATIVE = 0,
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p_SHIFTREG_DIV_MODE = 1,
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p_PLLOUT_SELECT = "GENCLK_HALF",
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p_ENABLE_ICEGATE = 0,
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# IO
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i_REFERENCECLK = clk48_raw,
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o_PLLOUTCORE = clk12,
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# o_PLLOUTGLOBAL = clk12,
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#i_EXTFEEDBACK,
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#i_DYNAMICDELAY,
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#o_LOCK,
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i_BYPASS = 0,
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i_RESETB = 1,
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#i_LATCHINPUTVALUE,
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#o_SDO,
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#i_SDI,
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)
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self.comb += self.cd_sys.clk.eq(clk12)
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self.comb += self.cd_usb_12.clk.eq(clk12)
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self.sync.por += \
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If(reset_delay != 0,
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reset_delay.eq(reset_delay - 1)
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)
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self.specials += AsyncResetSynchronizer(self.cd_por, self.reset)
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# BaseSoC ------------------------------------------------------------------------------------------
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class BaseSoC(SoCCore):
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"""A SoC on Fomu, optionally with a softcore CPU"""
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# Create a default CSR map to prevent values from getting reassigned.
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# This increases consistency across litex versions.
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SoCCore.csr_map = {
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"ctrl": 0, # provided by default (optional)
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"crg": 1, # user
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"uart_phy": 2, # provided by default (optional)
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"uart": 3, # provided by default (optional)
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"identifier_mem": 4, # provided by default (optional)
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"timer0": 5, # provided by default (optional)
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"cpu_or_bridge": 8,
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"usb": 9,
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"picorvspi": 10,
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"touch": 11,
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"reboot": 12,
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"rgb": 13,
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"version": 14,
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}
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# Statically-define the memory map, to prevent it from shifting across
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# various litex versions.
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SoCCore.mem_map = {
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"rom": 0x00000000, # (default shadow @0x80000000)
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"sram": 0x10000000, # (default shadow @0xa0000000)
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"spiflash": 0x20000000, # (default shadow @0xa0000000)
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"main_ram": 0x40000000, # (default shadow @0xc0000000)
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"csr": 0xe0000000, # (default shadow @0x60000000)
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}
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def __init__(self, board,
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pnr_placer="heap", pnr_seed=0, usb_core="dummyusb", usb_bridge=False,
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use_dsp=True, **kwargs):
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"""Create a basic SoC for Fomu.
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Create a basic SoC for Fomu, including a 48 MHz and 12 MHz clock
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domain called `usb_48` and `usb_12`. The `sys` frequency will
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run at 12 MHz.
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The USB core will optionally have a bridge to the Wishbone bus.
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Args:
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board (str): Which Fomu board to build for: pvt, evt, or hacker
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pnr_placer (str): Which placer to use in nextpnr
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pnr_seed (int): Which seed to use in nextpnr
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usb_core (str): The name of the USB core to use, if any: dummyusb, epfifo, eptri
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usb_bridge (bool): Whether to include a USB-to-Wishbone bridge
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Raises:
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ValueError: If either the `usb_core` or `board` are unrecognized
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Returns:
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Newly-constructed SoC
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"""
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if board == "pvt":
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from litex_boards.platforms.fomu_pvt import Platform
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elif board == "hacker":
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from litex_boards.platforms.fomu_hacker import Platform
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elif board == "evt":
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from litex_boards.platforms.fomu_evt import Platform
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else:
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raise ValueError("unrecognized fomu board: {}".format(board))
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platform = Platform()
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2019-09-17 05:06:23 -04:00
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if "cpu_type" not in kwargs:
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kwargs["cpu_type"] = None
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kwargs["cpu_variant"] = None
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2019-09-01 22:35:37 -04:00
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clk_freq = int(12e6)
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2020-02-02 19:57:56 -05:00
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if "with_uart" not in kwargs:
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kwargs["with_uart"] = False
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if "with_ctrl" not in kwargs:
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kwargs["with_ctrl"] = False
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2020-01-13 11:00:01 -05:00
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kwargs["integrated_sram_size"] = 0
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SoCCore.__init__(self, platform, clk_freq, **kwargs)
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self.submodules.crg = _CRG(platform)
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# UP5K has single port RAM, which is a dedicated 128 kilobyte block.
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# Use this as CPU RAM.
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spram_size = 128*1024
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self.submodules.spram = up5kspram.Up5kSPRAM(size=spram_size)
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self.register_mem("sram", self.mem_map["sram"], self.spram.bus, spram_size)
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if usb_core is not None:
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# Add USB pads. We use DummyUsb, which simply enumerates as a USB
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# device. Then all interaction is done via the wishbone bridge.
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usb_pads = platform.request("usb")
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usb_iobuf = usbio.IoBuf(usb_pads.d_p, usb_pads.d_n, usb_pads.pullup)
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if usb_core == "dummyusb":
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self.submodules.usb = dummyusb.DummyUsb(usb_iobuf, debug=usb_bridge)
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elif usb_core == "epfifo":
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self.submodules.usb = epfifo.PerEndpointFifo(usb_iobuf, debug=usb_bridge)
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elif usb_core == "eptri":
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self.submodules.usb = eptri.TriEndpointInterface(usb_iobuf, debug=usb_bridge)
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else:
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raise ValueError("unrecognized usb_core: {}".format(usb_core))
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if usb_bridge:
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self.add_wb_master(self.usb.debug_bridge.wishbone)
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2020-01-02 08:55:09 -05:00
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# Override default LiteX's yosys/build templates
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assert hasattr(platform.toolchain, "yosys_template")
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assert hasattr(platform.toolchain, "build_template")
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platform.toolchain.yosys_template = [
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"{read_files}",
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"attrmap -tocase keep -imap keep=\"true\" keep=1 -imap keep=\"false\" keep=0 -remove keep=0",
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"synth_ice40 -json {build_name}.json -top {build_name}",
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]
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platform.toolchain.build_template = [
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"yosys -q -l {build_name}.rpt {build_name}.ys",
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"nextpnr-ice40 --json {build_name}.json --pcf {build_name}.pcf --asc {build_name}.txt \
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--pre-pack {build_name}_pre_pack.py --{architecture} --package {package}",
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"icepack {build_name}.txt {build_name}.bin"
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]
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2019-09-01 22:35:37 -04:00
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# Add "-relut -dffe_min_ce_use 4" to the synth_ice40 command.
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# The "-reult" adds an additional LUT pass to pack more stuff in,
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# and the "-dffe_min_ce_use 4" flag prevents Yosys from generating a
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# Clock Enable signal for a LUT that has fewer than 4 flip-flops.
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# This increases density, and lets us use the FPGA more efficiently.
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platform.toolchain.yosys_template[2] += " -relut -abc2 -dffe_min_ce_use 4 -relut"
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if use_dsp:
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platform.toolchain.yosys_template[2] += " -dsp"
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# Disable final deep-sleep power down so firmware words are loaded
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# onto softcore's address bus.
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platform.toolchain.build_template[2] = "icepack -s {build_name}.txt {build_name}.bin"
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# Allow us to set the nextpnr seed
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platform.toolchain.build_template[1] += " --seed " + str(pnr_seed)
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2020-02-02 19:57:56 -05:00
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if pnr_placer is not None:
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platform.toolchain.build_template[1] += " --placer {}".format(pnr_placer)
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2019-09-01 22:35:37 -04:00
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2019-09-17 05:08:05 -04:00
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class USBSoC(BaseSoC):
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"""A SoC for Fomu with interrupts for a softcore CPU"""
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interrupt_map = {
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"usb": 3,
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}
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interrupt_map.update(SoCCore.interrupt_map)
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2019-09-01 22:35:37 -04:00
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# Build --------------------------------------------------------------------------------------------
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def add_dfu_suffix(fn):
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fn_base, _ext = os.path.splitext(fn)
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fn_dfu = fn_base + '.dfu'
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shutil.copyfile(fn, fn_dfu)
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subprocess.check_call(['dfu-suffix', '--pid', '1209', '--vid', '5bf0', '--add', fn_dfu])
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def main():
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parser = argparse.ArgumentParser(description="LiteX SoC on Fomu")
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parser.add_argument("--build", action="store_true", help="Build bitstream")
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parser.add_argument("--board", choices=["evt", "pvt", "hacker"], required=True, help="Build for a particular hardware board")
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parser.add_argument("--seed", default=0, help="Seed to use in Nextpnr")
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parser.add_argument("--placer", default="heap", choices=["sa", "heap"], help="Which placer to use in Nextpnr")
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builder_args(parser)
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soc_core_args(parser)
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args = parser.parse_args()
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soc = BaseSoC(board=args.board, pnr_placer=args.placer, pnr_seed=args.seed, debug=True, **soc_core_argdict(args))
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builder = Builder(soc, **builder_argdict(args))
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builder.build(run=args.build)
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if __name__ == "__main__":
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main()
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