3d7214cb70
Previously changed in 27063a3b.
I haven't realized the .bin file is the same as the .bit file without
a small header. That means generating it is free and it's just easier
to let programming tools to be able to always rely on its existence.
395 lines
14 KiB
Python
395 lines
14 KiB
Python
from abc import abstractproperty
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from ..hdl.ast import *
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from ..hdl.dsl import *
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from ..hdl.ir import *
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from ..build import *
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__all__ = ["XilinxSpartan3APlatform", "XilinxSpartan6Platform"]
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# The interface to Spartan 3 and 6 are substantially the same. Handle
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# differences internally using one class and expose user-aliases for
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# convenience.
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class XilinxSpartan3Or6Platform(TemplatedPlatform):
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"""
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Required tools:
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* ISE toolchain:
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* ``xst``
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* ``ngdbuild``
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* ``map``
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* ``par``
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* ``bitgen``
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The environment is populated by running the script specified in the environment variable
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``NMIGEN_ISE_env``, if present.
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Available overrides:
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* ``script_after_run``: inserts commands after ``run`` in XST script.
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* ``add_constraints``: inserts commands in UCF file.
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* ``xst_opts``: adds extra options for XST.
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* ``ngdbuild_opts``: adds extra options for NGDBuild.
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* ``map_opts``: adds extra options for MAP.
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* ``par_opts``: adds extra options for PAR.
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* ``bitgen_opts``: adds extra and overrides default options for BitGen;
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default options: ``-g Compress``.
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Build products:
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* ``{{name}}.srp``: synthesis report.
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* ``{{name}}.ngc``: synthesized RTL.
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* ``{{name}}.bld``: NGDBuild log.
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* ``{{name}}.ngd``: design database.
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* ``{{name}}_map.map``: MAP log.
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* ``{{name}}_map.mrp``: mapping report.
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* ``{{name}}_map.ncd``: mapped netlist.
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* ``{{name}}.pcf``: physical constraints.
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* ``{{name}}_par.par``: PAR log.
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* ``{{name}}_par_pad.txt``: I/O usage report.
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* ``{{name}}_par.ncd``: place and routed netlist.
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* ``{{name}}.drc``: DRC report.
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* ``{{name}}.bgn``: BitGen log.
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* ``{{name}}.bit``: binary bitstream with metadata.
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* ``{{name}}.bin``: raw binary bitstream.
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"""
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toolchain = "ISE"
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device = abstractproperty()
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package = abstractproperty()
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speed = abstractproperty()
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@property
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def family(self):
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device = self.device.upper()
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if device.startswith("XC3S"):
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if device.endswith("A"):
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return "3A"
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elif device.endswith("E"):
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raise NotImplementedError("""Spartan 3E family is not supported
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as a nMigen platform.""")
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else:
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raise NotImplementedError("""Spartan 3 family is not supported
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as a nMigen platform.""")
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elif device.startswith("XC6S"):
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return "6"
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else:
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assert False
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file_templates = {
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**TemplatedPlatform.build_script_templates,
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"{{name}}.v": r"""
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/* {{autogenerated}} */
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{{emit_design("verilog")}}
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""",
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"{{name}}.prj": r"""
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# {{autogenerated}}
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{% for file in platform.iter_extra_files(".vhd", ".vhdl") -%}
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vhdl work {{file}}
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{% endfor %}
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{% for file in platform.iter_extra_files(".v") -%}
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verilog work {{file}}
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{% endfor %}
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verilog work {{name}}.v
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""",
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"{{name}}.xst": r"""
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# {{autogenerated}}
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run
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-ifn {{name}}.prj
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-ofn {{name}}.ngc
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-top {{name}}
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{% if platform.family in ["3", "3E", "3A"] %}
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-use_new_parser yes
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{% endif %}
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-p {{platform.device}}{{platform.package}}-{{platform.speed}}
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{{get_override("script_after_run")|default("# (script_after_run placeholder)")}}
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""",
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"{{name}}.ucf": r"""
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# {{autogenerated}}
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{% for port_name, pin_name, attrs in platform.iter_port_constraints_bits() -%}
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{% set port_name = port_name|replace("[", "<")|replace("]", ">") -%}
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NET "{{port_name}}" LOC={{pin_name}};
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{% for attr_name, attr_value in attrs.items() -%}
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NET "{{port_name}}" {{attr_name}}={{attr_value}};
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{% endfor %}
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{% endfor %}
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{% for signal, frequency in platform.iter_clock_constraints() -%}
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NET "{{signal.name}}" TNM_NET="PRD{{signal.name}}";
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TIMESPEC "TS{{signal.name}}"=PERIOD "PRD{{signal.name}}" {{1000000000/frequency}} ns HIGH 50%;
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{% endfor %}
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{{get_override("add_constraints")|default("# (add_constraints placeholder)")}}
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"""
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}
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unix_interpreter = "bash"
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command_templates = [
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r"""
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{{get_tool("xst")}}
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{{get_override("xst_opts")|options}}
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-ifn {{name}}.xst
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""",
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r"""
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{{get_tool("ngdbuild")}}
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{{quiet("-quiet")}}
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{{verbose("-verbose")}}
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{{get_override("ngdbuild_opts")|options}}
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-uc {{name}}.ucf
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{{name}}.ngc
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""",
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r"""
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{{get_tool("map")}}
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{{verbose("-detail")}}
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{{get_override("map_opts")|default([])|options}}
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-w
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-o {{name}}_map.ncd
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{{name}}.ngd
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{{name}}.pcf
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""",
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r"""
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{{get_tool("par")}}
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{{get_override("par_opts")|default([])|options}}
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-w
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{{name}}_map.ncd
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{{name}}_par.ncd
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{{name}}.pcf
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""",
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r"""
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{{get_tool("bitgen")}}
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{{get_override("bitgen_opts")|default(["-g Compress"])|options}}
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-w
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-g Binary:Yes
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{{name}}_par.ncd
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{{name}}.bit
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"""
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]
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def create_missing_domain(self, name):
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# No additional reset logic needed.
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return super().create_missing_domain(name)
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def _get_xdr_buffer(self, m, pin, i_invert=None, o_invert=None):
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def get_dff(clk, d, q):
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# SDR I/O is performed by packing a flip-flop into the pad IOB.
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for bit in range(len(q)):
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_q = Signal()
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_q.attrs["IOB"] = "TRUE"
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m.submodules += Instance("FDCE",
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i_C=clk,
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i_CE=Const(1),
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i_CLR=Const(0),
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i_D=d[bit],
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o_Q=_q,
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)
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m.d.comb += q[bit].eq(_q)
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def get_iddr(clk, d, q0, q1):
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for bit in range(len(q0)):
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m.submodules += Instance("IDDR2",
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p_DDR_ALIGNMENT="C0",
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p_SRTYPE="ASYNC",
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p_INIT_Q0=0, p_INIT_Q1=0,
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i_C0=clk, i_C1=~clk,
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i_CE=Const(1),
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i_S=Const(0), i_R=Const(0),
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i_D=d[bit],
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o_Q0=q0[bit], o_Q1=q1[bit]
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)
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def get_oddr(clk, d0, d1, q):
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for bit in range(len(q)):
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m.submodules += Instance("ODDR2",
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p_DDR_ALIGNMENT="C0",
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p_SRTYPE="ASYNC",
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p_INIT=0,
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i_C0=clk, i_C1=~clk,
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i_CE=Const(1),
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i_S=Const(0), i_R=Const(0),
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i_D0=d0[bit], i_D1=d1[bit],
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o_Q=q[bit]
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)
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def get_ixor(y, invert):
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if invert is None:
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return y
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else:
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a = Signal.like(y, name_suffix="_x{}".format(1 if invert else 0))
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for bit in range(len(y)):
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m.submodules += Instance("LUT1",
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p_INIT=0b01 if invert else 0b10,
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i_I0=a[bit],
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o_O=y[bit]
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)
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return a
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def get_oxor(a, invert):
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if invert is None:
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return a
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else:
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y = Signal.like(a, name_suffix="_x{}".format(1 if invert else 0))
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for bit in range(len(a)):
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m.submodules += Instance("LUT1",
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p_INIT=0b01 if invert else 0b10,
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i_I0=a[bit],
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o_O=y[bit]
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)
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return y
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if "i" in pin.dir:
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if pin.xdr < 2:
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pin_i = get_ixor(pin.i, i_invert)
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elif pin.xdr == 2:
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pin_i0 = get_ixor(pin.i0, i_invert)
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pin_i1 = get_ixor(pin.i1, i_invert)
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if "o" in pin.dir:
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if pin.xdr < 2:
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pin_o = get_oxor(pin.o, o_invert)
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elif pin.xdr == 2:
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pin_o0 = get_oxor(pin.o0, o_invert)
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pin_o1 = get_oxor(pin.o1, o_invert)
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i = o = t = None
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if "i" in pin.dir:
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i = Signal(pin.width, name="{}_xdr_i".format(pin.name))
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if "o" in pin.dir:
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o = Signal(pin.width, name="{}_xdr_o".format(pin.name))
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if pin.dir in ("oe", "io"):
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t = Signal(1, name="{}_xdr_t".format(pin.name))
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if pin.xdr == 0:
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if "i" in pin.dir:
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i = pin_i
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if "o" in pin.dir:
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o = pin_o
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if pin.dir in ("oe", "io"):
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t = ~pin.oe
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elif pin.xdr == 1:
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if "i" in pin.dir:
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get_dff(pin.i_clk, i, pin_i)
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if "o" in pin.dir:
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get_dff(pin.o_clk, pin_o, o)
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if pin.dir in ("oe", "io"):
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get_dff(pin.o_clk, ~pin.oe, t)
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elif pin.xdr == 2:
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if "i" in pin.dir:
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# Re-register first input before it enters fabric. This allows both inputs to
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# enter fabric on the same clock edge, and adds one cycle of latency.
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i0_ff = Signal.like(pin_i0, name_suffix="_ff")
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get_dff(pin.i_clk, i0_ff, pin_i0)
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get_iddr(pin.i_clk, i, i0_ff, pin_i1)
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if "o" in pin.dir:
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get_oddr(pin.o_clk, pin_o0, pin_o1, o)
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if pin.dir in ("oe", "io"):
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get_dff(pin.o_clk, ~pin.oe, t)
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else:
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assert False
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return (i, o, t)
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def get_input(self, pin, port, attrs, invert):
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self._check_feature("single-ended input", pin, attrs,
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valid_xdrs=(0, 1, 2), valid_attrs=True)
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m = Module()
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i, o, t = self._get_xdr_buffer(m, pin, i_invert=True if invert else None)
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for bit in range(len(port)):
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m.submodules["{}_{}".format(pin.name, bit)] = Instance("IBUF",
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i_I=port[bit],
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o_O=i[bit]
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)
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return m
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def get_output(self, pin, port, attrs, invert):
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self._check_feature("single-ended output", pin, attrs,
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valid_xdrs=(0, 1, 2), valid_attrs=True)
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m = Module()
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i, o, t = self._get_xdr_buffer(m, pin, o_invert=True if invert else None)
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for bit in range(len(port)):
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m.submodules["{}_{}".format(pin.name, bit)] = Instance("OBUF",
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i_I=o[bit],
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o_O=port[bit]
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)
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return m
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def get_tristate(self, pin, port, attrs, invert):
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self._check_feature("single-ended tristate", pin, attrs,
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valid_xdrs=(0, 1, 2), valid_attrs=True)
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m = Module()
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i, o, t = self._get_xdr_buffer(m, pin, o_invert=True if invert else None)
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for bit in range(len(port)):
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m.submodules["{}_{}".format(pin.name, bit)] = Instance("OBUFT",
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i_T=t,
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i_I=o[bit],
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o_O=port[bit]
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)
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return m
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def get_input_output(self, pin, port, attrs, invert):
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self._check_feature("single-ended input/output", pin, attrs,
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valid_xdrs=(0, 1, 2), valid_attrs=True)
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m = Module()
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i, o, t = self._get_xdr_buffer(m, pin, i_invert=True if invert else None,
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o_invert=True if invert else None)
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for bit in range(len(port)):
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m.submodules["{}_{}".format(pin.name, bit)] = Instance("IOBUF",
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i_T=t,
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i_I=o[bit],
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o_O=i[bit],
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io_IO=port[bit]
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)
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return m
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def get_diff_input(self, pin, p_port, n_port, attrs, invert):
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self._check_feature("differential input", pin, attrs,
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valid_xdrs=(0, 1, 2), valid_attrs=True)
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m = Module()
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i, o, t = self._get_xdr_buffer(m, pin, i_invert=True if invert else None)
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for bit in range(len(p_port)):
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m.submodules["{}_{}".format(pin.name, bit)] = Instance("IBUFDS",
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i_I=p_port[bit], i_IB=n_port[bit],
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o_O=i[bit]
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)
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return m
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def get_diff_output(self, pin, p_port, n_port, attrs, invert):
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self._check_feature("differential output", pin, attrs,
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valid_xdrs=(0, 1, 2), valid_attrs=True)
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m = Module()
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i, o, t = self._get_xdr_buffer(m, pin, o_invert=True if invert else None)
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for bit in range(len(p_port)):
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m.submodules["{}_{}".format(pin.name, bit)] = Instance("OBUFDS",
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i_I=o[bit],
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o_O=p_port[bit], o_OB=n_port[bit]
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)
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return m
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def get_diff_tristate(self, pin, p_port, n_port, attrs, invert):
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self._check_feature("differential tristate", pin, attrs,
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valid_xdrs=(0, 1, 2), valid_attrs=True)
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m = Module()
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i, o, t = self._get_xdr_buffer(m, pin, o_invert=True if invert else None)
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for bit in range(len(p_port)):
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m.submodules["{}_{}".format(pin.name, bit)] = Instance("OBUFTDS",
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i_T=t,
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i_I=o[bit],
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o_O=p_port[bit], o_OB=n_port[bit]
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)
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return m
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def get_diff_input_output(self, pin, p_port, n_port, attrs, invert):
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self._check_feature("differential input/output", pin, attrs,
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valid_xdrs=(0, 1, 2), valid_attrs=True)
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m = Module()
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i, o, t = self._get_xdr_buffer(m, pin, i_invert=True if invert else None,
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o_invert=True if invert else None)
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for bit in range(len(p_port)):
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m.submodules["{}_{}".format(pin.name, bit)] = Instance("IOBUFDS",
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i_T=t,
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i_I=o[bit],
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o_O=i[bit],
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io_IO=p_port[bit], io_IOB=n_port[bit]
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)
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return m
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XilinxSpartan3APlatform = XilinxSpartan3Or6Platform
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XilinxSpartan6Platform = XilinxSpartan3Or6Platform
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