yosys/docs/source/yosys_internals/techmap.rst

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Techmap by example
------------------
As a quick recap, the `techmap` command replaces cells in the design with
implementations given as Verilog code (called "map files"). It can replace
Yosys' internal cell types (such as `$or`) as well as user-defined cell types.
- Verilog parameters are used extensively to customize the internal cell types.
- Additional special parameters are used by techmap to communicate meta-data to
the map files.
- Special wires are used to instruct techmap how to handle a module in the map
file.
- Generate blocks and recursion are powerful tools for writing map files.
Code examples used in this document are included in the Yosys code base under
|code_examples/techmap|_.
.. |code_examples/techmap| replace:: :file:`docs/source/code_examples/techmap`
.. _code_examples/techmap: https://github.com/YosysHQ/yosys/tree/main/docs/source/code_examples/techmap
Mapping OR3X1
~~~~~~~~~~~~~
.. todo:: add/expand supporting text
.. note::
This is a simple example for demonstration only. Techmap shouldn't be used
to implement basic logic optimization.
.. literalinclude:: /code_examples/techmap/red_or3x1_map.v
:language: verilog
:caption: :file:`red_or3x1_map.v`
.. figure:: /_images/code_examples/techmap/red_or3x1.*
:class: width-helper invert-helper
.. literalinclude:: /code_examples/techmap/red_or3x1_test.ys
:language: yoscrypt
:caption: :file:`red_or3x1_test.ys`
.. literalinclude:: /code_examples/techmap/red_or3x1_test.v
:language: verilog
:caption: :file:`red_or3x1_test.v`
Conditional techmap
~~~~~~~~~~~~~~~~~~~
- In some cases only cells with certain properties should be substituted.
- The special wire ``_TECHMAP_FAIL_`` can be used to disable a module in the map
file for a certain set of parameters.
- The wire ``_TECHMAP_FAIL_`` must be set to a constant value. If it is non-zero
then the module is disabled for this set of parameters.
- Example use-cases:
- coarse-grain cell types that only operate on certain bit widths
- memory resources for different memory geometries (width, depth, ports,
etc.)
Example:
.. figure:: /_images/code_examples/techmap/sym_mul.*
:class: width-helper invert-helper
.. literalinclude:: /code_examples/techmap/sym_mul_map.v
:language: verilog
:caption: :file:`sym_mul_map.v`
.. literalinclude:: /code_examples/techmap/sym_mul_test.v
:language: verilog
:caption: :file:`sym_mul_test.v`
.. literalinclude:: /code_examples/techmap/sym_mul_test.ys
:language: yoscrypt
:caption: :file:`sym_mul_test.ys`
Scripting in map modules
~~~~~~~~~~~~~~~~~~~~~~~~
- The special wires ``_TECHMAP_DO_*`` can be used to run Yosys scripts in the
context of the replacement module.
- The wire that comes first in alphabetical oder is interpreted as string (must
be connected to constants) that is executed as script. Then the wire is
removed. Repeat.
- You can even call techmap recursively!
- Example use-cases:
- Using always blocks in map module: call `proc`
- Perform expensive optimizations (such as `freduce`) on cells
where this is known to work well.
- Interacting with custom commands.
.. note:: PROTIP:
Commands such as `shell`, ``show -pause``, and `dump` can be used in the
``_TECHMAP_DO_*`` scripts for debugging map modules.
Example:
.. figure:: /_images/code_examples/techmap/mymul.*
:class: width-helper invert-helper
.. literalinclude:: /code_examples/techmap/mymul_map.v
:language: verilog
:caption: :file:`mymul_map.v`
.. literalinclude:: /code_examples/techmap/mymul_test.v
:language: verilog
:caption: :file:`mymul_test.v`
.. literalinclude:: /code_examples/techmap/mymul_test.ys
:language: yoscrypt
:caption: :file:`mymul_test.ys`
Handling constant inputs
~~~~~~~~~~~~~~~~~~~~~~~~
- The special parameters ``_TECHMAP_CONSTMSK_<port-name>_`` and
``_TECHMAP_CONSTVAL_<port-name>_`` can be used to handle constant input values
to cells.
- The former contains 1-bits for all constant input bits on the port.
- The latter contains the constant bits or undef (x) for non-constant bits.
- Example use-cases:
- Converting arithmetic (for example multiply to shift).
- Identify constant addresses or enable bits in memory interfaces.
Example:
.. figure:: /_images/code_examples/techmap/mulshift.*
:class: width-helper invert-helper
.. literalinclude:: /code_examples/techmap/mulshift_map.v
:language: verilog
:caption: :file:`mulshift_map.v`
.. literalinclude:: /code_examples/techmap/mulshift_test.v
:language: verilog
:caption: :file:`mulshift_test.v`
.. literalinclude:: /code_examples/techmap/mulshift_test.ys
:language: yoscrypt
:caption: :file:`mulshift_test.ys`
Handling shorted inputs
~~~~~~~~~~~~~~~~~~~~~~~
- The special parameters ``_TECHMAP_BITS_CONNMAP_`` and
``_TECHMAP_CONNMAP_<port-name>_`` can be used to handle shorted inputs.
- Each bit of the port correlates to an ``_TECHMAP_BITS_CONNMAP_`` bits wide
number in ``_TECHMAP_CONNMAP_<port-name>_``.
- Each unique signal bit is assigned its own number. Identical fields in the
``_TECHMAP_CONNMAP_<port-name>_`` parameters mean shorted signal bits.
- The numbers 0-3 are reserved for ``0``, ``1``, ``x``, and ``z`` respectively.
- Example use-cases:
- Detecting shared clock or control signals in memory interfaces.
- In some cases this can be used for for optimization.
Example:
.. figure:: /_images/code_examples/techmap/addshift.*
:class: width-helper invert-helper
.. literalinclude:: /code_examples/techmap/addshift_map.v
:language: verilog
:caption: :file:`addshift_map.v`
.. literalinclude:: /code_examples/techmap/addshift_test.v
:language: verilog
:caption: :file:`addshift_test.v`
.. literalinclude:: /code_examples/techmap/addshift_test.ys
:language: yoscrypt
:caption: :file:`addshift_test.ys`
Notes on using techmap
~~~~~~~~~~~~~~~~~~~~~~
- Don't use positional cell parameters in map modules.
- You can use the ``$__``-prefix for internal cell types to avoid collisions
with the user-namespace. But always use two underscores or the internal
consistency checker will trigger on these cells.
- Techmap has two major use cases:
- Creating good logic-level representation of arithmetic functions. This
also means using dedicated hardware resources such as half- and full-adder
cells in ASICS or dedicated carry logic in FPGAs.
- Mapping of coarse-grain resources such as block memory or DSP cells.