Move (most of) ExOth and ExAdv slides

docs/source/yosys_internals/flow/command_ordering.rst

@@ -0,0 +1,271 @@
+Command ordering
+----------------
+
+.. TODO: copypaste
+
+Intro to coarse-grain synthesis
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+In coarse-grain synthesis the target architecture has cells of the same
+complexity or larger complexity than the internal RTL representation.
+
+For example:
+
+.. code:: verilog
+
+	wire [15:0] a, b;
+	wire [31:0] c, y;
+	assign y = a * b + c;
+
+This circuit contains two cells in the RTL representation: one multiplier and
+one adder. In some architectures this circuit can be implemented using
+a single circuit element, for example an FPGA DSP core. Coarse grain synthesis
+is this mapping of groups of circuit elements to larger components.
+
+Fine-grain synthesis would be matching the circuit elements to smaller
+components, such as LUTs, gates, or half- and full-adders.
+
+The extract pass
+~~~~~~~~~~~~~~~~
+
+- Like the ``techmap`` pass, the ``extract`` pass is called with a map file. It
+  compares the circuits inside the modules of the map file with the design and
+  looks for sub-circuits in the design that match any of the modules in the map
+  file.
+- If a match is found, the ``extract`` pass will replace the matching subcircuit
+  with an instance of the module from the map file.
+- In a way the ``extract`` pass is the inverse of the techmap pass.
+
+.. TODO: copypaste
+
+.. figure:: ../../../images/res/PRESENTATION_ExAdv/macc_simple_test_00a.*
+    :class: width-helper
+    
+    before `extract`
+
+.. figure:: ../../../images/res/PRESENTATION_ExAdv/macc_simple_test_00b.*
+    :class: width-helper
+    
+    after `extract`
+
+.. literalinclude:: ../../../resources/PRESENTATION_ExAdv/macc_simple_test.v
+   :language: verilog
+   :caption: ``docs/resources/PRESENTATION_ExAdv/macc_simple_test.v``
+
+.. literalinclude:: ../../../resources/PRESENTATION_ExAdv/macc_simple_xmap.v
+   :language: verilog
+   :caption: ``docs/resources/PRESENTATION_ExAdv/macc_simple_xmap.v``
+
+.. code:: yoscrypt
+
+    read_verilog macc_simple_test.v
+    hierarchy -check -top test
+
+    extract -map macc_simple_xmap.v;;
+
+.. literalinclude:: ../../../resources/PRESENTATION_ExAdv/macc_simple_test_01.v
+   :language: verilog
+   :caption: ``docs/resources/PRESENTATION_ExAdv/macc_simple_test_01.v``
+
+.. figure:: ../../../images/res/PRESENTATION_ExAdv/macc_simple_test_01a.*
+    :class: width-helper
+
+.. figure:: ../../../images/res/PRESENTATION_ExAdv/macc_simple_test_01b.*
+    :class: width-helper
+
+.. literalinclude:: ../../../resources/PRESENTATION_ExAdv/macc_simple_test_02.v
+   :language: verilog
+   :caption: ``docs/resources/PRESENTATION_ExAdv/macc_simple_test_02.v``
+
+.. figure:: ../../../images/res/PRESENTATION_ExAdv/macc_simple_test_02a.*
+    :class: width-helper
+
+.. figure:: ../../../images/res/PRESENTATION_ExAdv/macc_simple_test_02b.*
+    :class: width-helper
+
+The wrap-extract-unwrap method
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+Often a coarse-grain element has a constant bit-width, but can be used to
+implement operations with a smaller bit-width. For example, a 18x25-bit multiplier
+can also be used to implement 16x20-bit multiplication.
+
+A way of mapping such elements in coarse grain synthesis is the wrap-extract-unwrap method:
+
+wrap
+  Identify candidate-cells in the circuit and wrap them in a cell with a constant
+  wider bit-width using ``techmap``. The wrappers use the same parameters as the original cell, so
+  the information about the original width of the ports is preserved.
+  Then use the ``connwrappers`` command to connect up the bit-extended in- and
+  outputs of the wrapper cells.
+
+extract
+  Now all operations are encoded using the same bit-width as the coarse grain
+  element. The ``extract`` command can be used to replace circuits with cells
+  of the target architecture.
+
+unwrap
+  The remaining wrapper cell can be unwrapped using ``techmap``.
+
+Example: DSP48_MACC
+~~~~~~~~~~~~~~~~~~~
+
+This section details an example that shows how to map MACC operations of
+arbitrary size to MACC cells with a 18x25-bit multiplier and a 48-bit adder
+(such as the Xilinx DSP48 cells).
+
+Preconditioning: ``macc_xilinx_swap_map.v``
+
+Make sure ``A`` is the smaller port on all multipliers
+
+.. TODO: copypaste
+
+.. literalinclude:: ../../../resources/PRESENTATION_ExAdv/macc_xilinx_swap_map.v
+   :language: verilog
+   :caption: ``docs/resources/PRESENTATION_ExAdv/macc_xilinx_swap_map.v``
+
+Wrapping multipliers: ``macc_xilinx_wrap_map.v``
+
+.. literalinclude:: ../../../resources/PRESENTATION_ExAdv/macc_xilinx_wrap_map.v
+   :language: verilog
+   :lines: 1-46
+   :caption: ``docs/resources/PRESENTATION_ExAdv/macc_xilinx_wrap_map.v``
+
+Wrapping adders: ``macc_xilinx_wrap_map.v``
+
+.. literalinclude:: ../../../resources/PRESENTATION_ExAdv/macc_xilinx_wrap_map.v
+   :language: verilog
+   :lines: 48-89
+   :caption: ``docs/resources/PRESENTATION_ExAdv/macc_xilinx_wrap_map.v``
+
+Extract: ``macc_xilinx_xmap.v``
+
+.. literalinclude:: ../../../resources/PRESENTATION_ExAdv/macc_xilinx_xmap.v
+   :language: verilog
+   :caption: ``docs/resources/PRESENTATION_ExAdv/macc_xilinx_xmap.v``
+
+... simply use the same wrapping commands on this module as on the design to create a template for the ``extract`` command.
+
+Unwrapping multipliers: ``macc_xilinx_unwrap_map.v``
+
+.. literalinclude:: ../../../resources/PRESENTATION_ExAdv/macc_xilinx_unwrap_map.v
+   :language: verilog
+   :lines: 1-30
+   :caption: ``docs/resources/PRESENTATION_ExAdv/macc_xilinx_unwrap_map.v``
+
+Unwrapping adders: ``macc_xilinx_unwrap_map.v``
+
+.. literalinclude:: ../../../resources/PRESENTATION_ExAdv/macc_xilinx_unwrap_map.v
+   :language: verilog
+   :lines: 32-61
+   :caption: ``docs/resources/PRESENTATION_ExAdv/macc_xilinx_unwrap_map.v``
+
+.. literalinclude:: ../../../resources/PRESENTATION_ExAdv/macc_xilinx_test.v
+   :language: verilog
+   :lines: 1-6
+   :caption: ``test1`` of ``docs/resources/PRESENTATION_ExAdv/macc_xilinx_test.v``
+
+.. figure:: ../../../images/res/PRESENTATION_ExAdv/macc_xilinx_test1a.*
+    :class: width-helper
+
+.. figure:: ../../../images/res/PRESENTATION_ExAdv/macc_xilinx_test1b.*
+    :class: width-helper
+
+.. literalinclude:: ../../../resources/PRESENTATION_ExAdv/macc_xilinx_test.v
+   :language: verilog
+   :lines: 8-13
+   :caption: ``test2`` of ``docs/resources/PRESENTATION_ExAdv/macc_xilinx_test.v``
+
+.. figure:: ../../../images/res/PRESENTATION_ExAdv/macc_xilinx_test2a.*
+    :class: width-helper
+
+.. figure:: ../../../images/res/PRESENTATION_ExAdv/macc_xilinx_test2b.*
+    :class: width-helper
+
+Wrapping in ``test1``:
+
+.. figure:: ../../../images/res/PRESENTATION_ExAdv/macc_xilinx_test1b.*
+    :class: width-helper
+
+.. code:: yoscrypt
+
+    techmap -map macc_xilinx_wrap_map.v
+
+    connwrappers -unsigned $__mul_wrapper \
+                                Y Y_WIDTH \
+                -unsigned $__add_wrapper \
+                                Y Y_WIDTH ;;
+
+.. figure:: ../../../images/res/PRESENTATION_ExAdv/macc_xilinx_test1c.*
+    :class: width-helper
+
+Wrapping in ``test2``:
+
+.. figure:: ../../../images/res/PRESENTATION_ExAdv/macc_xilinx_test2b.*
+    :class: width-helper
+
+.. code:: yoscrypt
+
+    techmap -map macc_xilinx_wrap_map.v
+
+    connwrappers -unsigned $__mul_wrapper \
+                                Y Y_WIDTH \
+                 -unsigned $__add_wrapper \
+                                Y Y_WIDTH ;;
+
+.. figure:: ../../../images/res/PRESENTATION_ExAdv/macc_xilinx_test2c.*
+    :class: width-helper
+
+Extract in ``test1``:
+
+.. code:: yoscrypt
+
+    design -push
+    read_verilog macc_xilinx_xmap.v
+    techmap -map macc_xilinx_swap_map.v
+    techmap -map macc_xilinx_wrap_map.v;;
+    design -save __macc_xilinx_xmap
+    design -pop
+
+    extract -constports -ignore_parameters \
+            -map %__macc_xilinx_xmap       \
+            -swap $__add_wrapper A,B ;;
+
+.. figure:: ../../../images/res/PRESENTATION_ExAdv/macc_xilinx_test1c.*
+    :class: width-helper
+
+.. figure:: ../../../images/res/PRESENTATION_ExAdv/macc_xilinx_test1d.*
+    :class: width-helper
+
+Extract in ``test2``:
+
+.. code:: yoscrypt
+
+    design -push
+    read_verilog macc_xilinx_xmap.v
+    techmap -map macc_xilinx_swap_map.v
+    techmap -map macc_xilinx_wrap_map.v;;
+    design -save __macc_xilinx_xmap
+    design -pop
+
+    extract -constports -ignore_parameters \
+            -map %__macc_xilinx_xmap       \
+            -swap $__add_wrapper A,B ;;
+
+.. figure:: ../../../images/res/PRESENTATION_ExAdv/macc_xilinx_test2c.*
+    :class: width-helper
+
+.. figure:: ../../../images/res/PRESENTATION_ExAdv/macc_xilinx_test2d.*
+    :class: width-helper
+
+Unwrap in ``test2``:
+
+.. figure:: ../../../images/res/PRESENTATION_ExAdv/macc_xilinx_test2d.*
+    :class: width-helper
+
+.. figure:: ../../../images/res/PRESENTATION_ExAdv/macc_xilinx_test2e.*
+    :class: width-helper
+
+.. code:: yoscrypt
+
+    techmap -map macc_xilinx_unwrap_map.v ;;

docs/source/yosys_internals/flow/index.rst

@@ -17,4 +17,6 @@ This scripts contain three types of commands:
 	overview
 	control_and_data
 	verilog_frontend
+	command_ordering
+	model_checking
 

docs/source/yosys_internals/flow/model_checking.rst

@@ -0,0 +1,106 @@
+Symbolic model checking
+-----------------------
+
+.. TODO: copypaste
+
+.. note:: 
+    
+    While it is possible to perform model checking directly in Yosys, it 
+    is highly recommended to use SBY or EQY for formal hardware verification.
+
+Symbolic Model Checking (SMC) is used to formally prove that a circuit has (or
+has not) a given property.
+
+One application is Formal Equivalence Checking: Proving that two circuits are
+identical. For example this is a very useful feature when debugging custom
+passes in Yosys.
+
+Other applications include checking if a module conforms to interface standards.
+
+The ``sat`` command in Yosys can be used to perform Symbolic Model Checking.
+
+Checking techmap
+~~~~~~~~~~~~~~~~
+
+Remember the following example from :doc:`/getting_started/typical_phases`?
+
+.. literalinclude:: ../../../resources/PRESENTATION_ExSyn/techmap_01_map.v
+   :language: verilog
+   :caption: ``docs/resources/PRESENTATION_ExSyn/techmap_01_map.v``
+
+.. literalinclude:: ../../../resources/PRESENTATION_ExSyn/techmap_01.v
+   :language: verilog
+   :caption: ``docs/resources/PRESENTATION_ExSyn/techmap_01.v``
+
+.. literalinclude:: ../../../resources/PRESENTATION_ExSyn/techmap_01.ys
+   :language: yoscrypt
+   :caption: ``docs/resources/PRESENTATION_ExSyn/techmap_01.ys``
+
+Lets see if it is correct..
+
+.. code:: yoscrypt
+
+    # read test design
+    read_verilog techmap_01.v
+    hierarchy -top test
+
+    # create two version of the design: test_orig and test_mapped
+    copy test test_orig
+    rename test test_mapped
+
+    # apply the techmap only to test_mapped
+    techmap -map techmap_01_map.v test_mapped
+
+    # create a miter circuit to test equivalence
+    miter -equiv -make_assert -make_outputs test_orig test_mapped miter
+    flatten miter
+
+    # run equivalence check
+    sat -verify -prove-asserts -show-inputs -show-outputs miter
+
+Result:
+
+.. code::
+
+    Solving problem with 945 variables and 2505 clauses..
+    SAT proof finished - no model found: SUCCESS!
+
+AXI4 Stream Master
+~~~~~~~~~~~~~~~~~~
+
+The following AXI4 Stream Master has a bug. But the bug is not exposed if the
+slave keeps ``tready`` asserted all the time. (Something a test bench might do.)
+
+Symbolic Model Checking can be used to expose the bug and find a sequence of
+values for ``tready`` that yield the incorrect behavior.
+
+.. literalinclude:: ../../../resources/PRESENTATION_ExOth/axis_master.v
+   :language: verilog
+   :caption: ``docs/resources/PRESENTATION_ExOth/axis_master.v``
+
+.. literalinclude:: ../../../resources/PRESENTATION_ExOth/axis_test.v
+   :language: verilog
+   :caption: ``docs/resources/PRESENTATION_ExOth/axis_test.v``
+
+
+.. code:: yoscrypt
+
+    read_verilog -sv axis_master.v axis_test.v
+    hierarchy -top axis_test
+
+    proc; flatten;;
+    sat -seq 50 -prove-asserts
+
+Result with unmodified ``axis_master.v``:
+
+.. code::
+
+    Solving problem with 159344 variables and 442126 clauses..
+    SAT proof finished - model found: FAIL!
+
+Result with fixed ``axis_master.v``:
+
+.. code::
+
+    Solving problem with 159144 variables and 441626 clauses..
+    SAT proof finished - no model found: SUCCESS!