mirror of https://github.com/YosysHQ/yosys.git
507 lines
19 KiB
Markdown
507 lines
19 KiB
Markdown
```
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yosys -- Yosys Open SYnthesis Suite
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Copyright (C) 2012 - 2018 Clifford Wolf <clifford@clifford.at>
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Permission to use, copy, modify, and/or distribute this software for any
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purpose with or without fee is hereby granted, provided that the above
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copyright notice and this permission notice appear in all copies.
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THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
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WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
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MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
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ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
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WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
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ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
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OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
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```
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yosys – Yosys Open SYnthesis Suite
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===================================
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This is a framework for RTL synthesis tools. It currently has
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extensive Verilog-2005 support and provides a basic set of
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synthesis algorithms for various application domains.
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Yosys can be adapted to perform any synthesis job by combining
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the existing passes (algorithms) using synthesis scripts and
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adding additional passes as needed by extending the yosys C++
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code base.
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Yosys is free software licensed under the ISC license (a GPL
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compatible license that is similar in terms to the MIT license
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or the 2-clause BSD license).
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Web Site and Other Resources
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============================
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More information and documentation can be found on the Yosys web site:
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- http://www.clifford.at/yosys/
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The "Documentation" page on the web site contains links to more resources,
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including a manual that even describes some of the Yosys internals:
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- http://www.clifford.at/yosys/documentation.html
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The file `CodingReadme` in this directory contains additional information
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for people interested in using the Yosys C++ APIs.
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Users interested in formal verification might want to use the formal verification
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front-end for Yosys, SymbiYosys:
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- https://symbiyosys.readthedocs.io/en/latest/
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- https://github.com/YosysHQ/SymbiYosys
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Setup
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======
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You need a C++ compiler with C++11 support (up-to-date CLANG or GCC is
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recommended) and some standard tools such as GNU Flex, GNU Bison, and GNU Make.
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TCL, readline and libffi are optional (see ``ENABLE_*`` settings in Makefile).
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Xdot (graphviz) is used by the ``show`` command in yosys to display schematics.
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For example on Ubuntu Linux 16.04 LTS the following commands will install all
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prerequisites for building yosys:
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$ sudo apt-get install build-essential clang bison flex \
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libreadline-dev gawk tcl-dev libffi-dev git \
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graphviz xdot pkg-config python3 libboost-system-dev \
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libboost-python-dev libboost-filesystem-dev zlib1g-dev
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Similarily, on Mac OS X MacPorts or Homebrew can be used to install dependencies:
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$ brew tap Homebrew/bundle && brew bundle
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$ sudo port install bison flex readline gawk libffi \
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git graphviz pkgconfig python36 boost zlib
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On FreeBSD use the following command to install all prerequisites:
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# pkg install bison flex readline gawk libffi\
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git graphviz pkgconf python3 python36 tcl-wrapper boost-libs
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On FreeBSD system use gmake instead of make. To run tests use:
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% MAKE=gmake CC=cc gmake test
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For Cygwin use the following command to install all prerequisites, or select these additional packages:
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setup-x86_64.exe -q --packages=bison,flex,gcc-core,gcc-g++,git,libffi-devel,libreadline-devel,make,pkg-config,python3,tcl-devel,boost-build,zlib-devel
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There are also pre-compiled Yosys binary packages for Ubuntu and Win32 as well
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as a source distribution for Visual Studio. Visit the Yosys download page for
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more information: http://www.clifford.at/yosys/download.html
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To configure the build system to use a specific compiler, use one of
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$ make config-clang
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$ make config-gcc
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For other compilers and build configurations it might be
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necessary to make some changes to the config section of the
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Makefile.
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$ vi Makefile # ..or..
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$ vi Makefile.conf
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To build Yosys simply type 'make' in this directory.
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$ make
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$ sudo make install
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Note that this also downloads, builds and installs ABC (using yosys-abc
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as executable name).
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Tests are located in the tests subdirectory and can be executed using the test target. Note that you need gawk as well as a recent version of iverilog (i.e. build from git). Then, execute tests via:
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$ make test
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Getting Started
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===============
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Yosys can be used with the interactive command shell, with
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synthesis scripts or with command line arguments. Let's perform
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a simple synthesis job using the interactive command shell:
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$ ./yosys
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yosys>
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the command ``help`` can be used to print a list of all available
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commands and ``help <command>`` to print details on the specified command:
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yosys> help help
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reading and elaborating the design using the Verilog frontend:
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yosys> read -sv tests/simple/fiedler-cooley.v
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yosys> hierarchy -top up3down5
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writing the design to the console in Yosys's internal format:
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yosys> write_ilang
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convert processes (``always`` blocks) to netlist elements and perform
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some simple optimizations:
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yosys> proc; opt
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display design netlist using ``xdot``:
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yosys> show
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the same thing using ``gv`` as postscript viewer:
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yosys> show -format ps -viewer gv
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translating netlist to gate logic and perform some simple optimizations:
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yosys> techmap; opt
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write design netlist to a new Verilog file:
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yosys> write_verilog synth.v
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or using a simple synthesis script:
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$ cat synth.ys
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read -sv tests/simple/fiedler-cooley.v
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hierarchy -top up3down5
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proc; opt; techmap; opt
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write_verilog synth.v
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$ ./yosys synth.ys
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If ABC is enabled in the Yosys build configuration and a cell library is given
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in the liberty file ``mycells.lib``, the following synthesis script will
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synthesize for the given cell library:
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# read design
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read -sv tests/simple/fiedler-cooley.v
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hierarchy -top up3down5
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# the high-level stuff
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proc; fsm; opt; memory; opt
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# mapping to internal cell library
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techmap; opt
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# mapping flip-flops to mycells.lib
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dfflibmap -liberty mycells.lib
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# mapping logic to mycells.lib
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abc -liberty mycells.lib
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# cleanup
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clean
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If you do not have a liberty file but want to test this synthesis script,
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you can use the file ``examples/cmos/cmos_cells.lib`` from the yosys sources
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as simple example.
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Liberty file downloads for and information about free and open ASIC standard
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cell libraries can be found here:
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- http://www.vlsitechnology.org/html/libraries.html
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- http://www.vlsitechnology.org/synopsys/vsclib013.lib
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The command ``synth`` provides a good default synthesis script (see
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``help synth``):
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read -sv tests/simple/fiedler-cooley.v
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synth -top up3down5
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# mapping to target cells
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dfflibmap -liberty mycells.lib
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abc -liberty mycells.lib
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clean
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The command ``prep`` provides a good default word-level synthesis script, as
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used in SMT-based formal verification.
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Unsupported Verilog-2005 Features
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=================================
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The following Verilog-2005 features are not supported by
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Yosys and there are currently no plans to add support
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for them:
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- Non-synthesizable language features as defined in
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IEC 62142(E):2005 / IEEE Std. 1364.1(E):2002
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- The ``tri``, ``triand`` and ``trior`` net types
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- The ``config`` and ``disable`` keywords and library map files
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Verilog Attributes and non-standard features
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============================================
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- The ``full_case`` attribute on case statements is supported
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(also the non-standard ``// synopsys full_case`` directive)
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- The ``parallel_case`` attribute on case statements is supported
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(also the non-standard ``// synopsys parallel_case`` directive)
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- The ``// synopsys translate_off`` and ``// synopsys translate_on``
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directives are also supported (but the use of ``` `ifdef .. `endif ```
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is strongly recommended instead).
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- The ``nomem2reg`` attribute on modules or arrays prohibits the
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automatic early conversion of arrays to separate registers. This
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is potentially dangerous. Usually the front-end has good reasons
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for converting an array to a list of registers. Prohibiting this
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step will likely result in incorrect synthesis results.
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- The ``mem2reg`` attribute on modules or arrays forces the early
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conversion of arrays to separate registers.
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- The ``nomeminit`` attribute on modules or arrays prohibits the
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creation of initialized memories. This effectively puts ``mem2reg``
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on all memories that are written to in an ``initial`` block and
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are not ROMs.
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- The ``nolatches`` attribute on modules or always-blocks
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prohibits the generation of logic-loops for latches. Instead
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all not explicitly assigned values default to x-bits. This does
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not affect clocked storage elements such as flip-flops.
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- The ``nosync`` attribute on registers prohibits the generation of a
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storage element. The register itself will always have all bits set
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to 'x' (undefined). The variable may only be used as blocking assigned
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temporary variable within an always block. This is mostly used internally
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by Yosys to synthesize Verilog functions and access arrays.
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- The ``onehot`` attribute on wires mark them as one-hot state register. This
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is used for example for memory port sharing and set by the fsm_map pass.
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- The ``blackbox`` attribute on modules is used to mark empty stub modules
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that have the same ports as the real thing but do not contain information
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on the internal configuration. This modules are only used by the synthesis
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passes to identify input and output ports of cells. The Verilog backend
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also does not output blackbox modules on default. ``read_verilog``, unless
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called with ``-noblackbox`` will automatically set the blackbox attribute
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on any empty module it reads.
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- The ``noblackbox`` attribute set on an empty module prevents ``read_verilog``
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from automatically setting the blackbox attribute on the module.
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- The ``whitebox`` attribute on modules triggers the same behavior as
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``blackbox``, but is for whitebox modules, i.e. library modules that
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contain a behavioral model of the cell type.
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- The ``lib_whitebox`` attribute overwrites ``whitebox`` when ``read_verilog``
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is run in `-lib` mode. Otherwise it's automatically removed.
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- The ``dynports`` attribute is used by the Verilog front-end to mark modules
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that have ports with a width that depends on a parameter.
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- The ``hdlname`` attribute is used by some passes to document the original
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(HDL) name of a module when renaming a module.
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- The ``keep`` attribute on cells and wires is used to mark objects that should
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never be removed by the optimizer. This is used for example for cells that
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have hidden connections that are not part of the netlist, such as IO pads.
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Setting the ``keep`` attribute on a module has the same effect as setting it
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on all instances of the module.
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- The ``keep_hierarchy`` attribute on cells and modules keeps the ``flatten``
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command from flattening the indicated cells and modules.
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- The ``init`` attribute on wires is set by the frontend when a register is
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initialized "FPGA-style" with ``reg foo = val``. It can be used during
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synthesis to add the necessary reset logic.
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- The ``top`` attribute on a module marks this module as the top of the
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design hierarchy. The ``hierarchy`` command sets this attribute when called
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with ``-top``. Other commands, such as ``flatten`` and various backends
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use this attribute to determine the top module.
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- The ``src`` attribute is set on cells and wires created by to the string
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``<hdl-file-name>:<line-number>`` by the HDL front-end and is then carried
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through the synthesis. When entities are combined, a new |-separated
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string is created that contains all the string from the original entities.
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- The ``defaultvalue`` attribute is used to store default values for
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module inputs. The attribute is attached to the input wire by the HDL
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front-end when the input is declared with a default value.
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- The ``parameter`` and ``localparam`` attributes are used to mark wires
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that represent module parameters or localparams (when the HDL front-end
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is run in -pwires mode).
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- In addition to the ``(* ... *)`` attribute syntax, Yosys supports
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the non-standard ``{* ... *}`` attribute syntax to set default attributes
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for everything that comes after the ``{* ... *}`` statement. (Reset
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by adding an empty ``{* *}`` statement.)
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- In module parameter and port declarations, and cell port and parameter
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lists, a trailing comma is ignored. This simplifies writing Verilog code
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generators a bit in some cases.
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- Modules can be declared with ``module mod_name(...);`` (with three dots
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instead of a list of module ports). With this syntax it is sufficient
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to simply declare a module port as 'input' or 'output' in the module
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body.
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- When defining a macro with `define, all text between triple double quotes
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is interpreted as macro body, even if it contains unescaped newlines. The
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triple double quotes are removed from the macro body. For example:
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`define MY_MACRO(a, b) """
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assign a = 23;
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assign b = 42;
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"""
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- The attribute ``via_celltype`` can be used to implement a Verilog task or
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function by instantiating the specified cell type. The value is the name
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of the cell type to use. For functions the name of the output port can
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be specified by appending it to the cell type separated by a whitespace.
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The body of the task or function is unused in this case and can be used
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to specify a behavioral model of the cell type for simulation. For example:
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module my_add3(A, B, C, Y);
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parameter WIDTH = 8;
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input [WIDTH-1:0] A, B, C;
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output [WIDTH-1:0] Y;
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...
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endmodule
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module top;
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...
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(* via_celltype = "my_add3 Y" *)
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(* via_celltype_defparam_WIDTH = 32 *)
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function [31:0] add3;
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input [31:0] A, B, C;
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begin
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add3 = A + B + C;
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end
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endfunction
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...
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endmodule
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- A limited subset of DPI-C functions is supported. The plugin mechanism
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(see ``help plugin``) can be used to load .so files with implementations
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of DPI-C routines. As a non-standard extension it is possible to specify
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a plugin alias using the ``<alias>:`` syntax. For example:
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module dpitest;
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import "DPI-C" function foo:round = real my_round (real);
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parameter real r = my_round(12.345);
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endmodule
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$ yosys -p 'plugin -a foo -i /lib/libm.so; read_verilog dpitest.v'
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- Sized constants (the syntax ``<size>'s?[bodh]<value>``) support constant
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expressions as ``<size>``. If the expression is not a simple identifier, it
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must be put in parentheses. Examples: ``WIDTH'd42``, ``(4+2)'b101010``
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- The system tasks ``$finish``, ``$stop`` and ``$display`` are supported in
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initial blocks in an unconditional context (only if/case statements on
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expressions over parameters and constant values are allowed). The intended
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use for this is synthesis-time DRC.
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- There is limited support for converting specify .. endspecify statements to
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special ``$specify2``, ``$specify3``, and ``$specrule`` cells, for use in
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blackboxes and whiteboxes. Use ``read_verilog -specify`` to enable this
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functionality. (By default specify .. endspecify blocks are ignored.)
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Non-standard or SystemVerilog features for formal verification
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==============================================================
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- Support for ``assert``, ``assume``, ``restrict``, and ``cover`` is enabled
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when ``read_verilog`` is called with ``-formal``.
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- The system task ``$initstate`` evaluates to 1 in the initial state and
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to 0 otherwise.
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- The system function ``$anyconst`` evaluates to any constant value. This is
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equivalent to declaring a reg as ``rand const``, but also works outside
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of checkers. (Yosys also supports ``rand const`` outside checkers.)
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- The system function ``$anyseq`` evaluates to any value, possibly a different
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value in each cycle. This is equivalent to declaring a reg as ``rand``,
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but also works outside of checkers. (Yosys also supports ``rand``
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variables outside checkers.)
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- The system functions ``$allconst`` and ``$allseq`` can be used to construct
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formal exist-forall problems. Assumptions only hold if the trace satisfies
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the assumption for all ``$allconst/$allseq`` values. For assertions and cover
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statements it is sufficient if just one ``$allconst/$allseq`` value triggers
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the property (similar to ``$anyconst/$anyseq``).
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- Wires/registers declared using the ``anyconst/anyseq/allconst/allseq`` attribute
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(for example ``(* anyconst *) reg [7:0] foobar;``) will behave as if driven
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by a ``$anyconst/$anyseq/$allconst/$allseq`` function.
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- The SystemVerilog tasks ``$past``, ``$stable``, ``$rose`` and ``$fell`` are
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supported in any clocked block.
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- The syntax ``@($global_clock)`` can be used to create FFs that have no
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explicit clock input (``$ff`` cells). The same can be achieved by using
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``@(posedge <netname>)`` or ``@(negedge <netname>)`` when ``<netname>``
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is marked with the ``(* gclk *)`` Verilog attribute.
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Supported features from SystemVerilog
|
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=====================================
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When ``read_verilog`` is called with ``-sv``, it accepts some language features
|
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from SystemVerilog:
|
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- The ``assert`` statement from SystemVerilog is supported in its most basic
|
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form. In module context: ``assert property (<expression>);`` and within an
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always block: ``assert(<expression>);``. It is transformed to an ``$assert`` cell.
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- The ``assume``, ``restrict``, and ``cover`` statements from SystemVerilog are
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also supported. The same limitations as with the ``assert`` statement apply.
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- The keywords ``always_comb``, ``always_ff`` and ``always_latch``, ``logic``
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and ``bit`` are supported.
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- Declaring free variables with ``rand`` and ``rand const`` is supported.
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- Checkers without a port list that do not need to be instantiated (but instead
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behave like a named block) are supported.
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- SystemVerilog packages are supported. Once a SystemVerilog file is read
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into a design with ``read_verilog``, all its packages are available to
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SystemVerilog files being read into the same design afterwards.
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- SystemVerilog interfaces (SVIs) are supported. Modports for specifying whether
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ports are inputs or outputs are supported.
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Building the documentation
|
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==========================
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Note that there is no need to build the manual if you just want to read it.
|
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Simply download the PDF from http://www.clifford.at/yosys/documentation.html
|
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instead.
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On Ubuntu, texlive needs these packages to be able to build the manual:
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sudo apt-get install texlive-binaries
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sudo apt-get install texlive-science # install algorithm2e.sty
|
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sudo apt-get install texlive-bibtex-extra # gets multibib.sty
|
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sudo apt-get install texlive-fonts-extra # gets skull.sty and dsfont.sty
|
||
sudo apt-get install texlive-publishers # IEEEtran.cls
|
||
|
||
Also the non-free font luximono should be installed, there is unfortunately
|
||
no Ubuntu package for this so it should be installed separately using
|
||
`getnonfreefonts`:
|
||
|
||
wget https://tug.org/fonts/getnonfreefonts/install-getnonfreefonts
|
||
sudo texlua install-getnonfreefonts # will install to /usr/local by default, can be changed by editing BINDIR at MANDIR at the top of the script
|
||
getnonfreefonts luximono # installs to /home/user/texmf
|
||
|
||
Then execute, from the root of the repository:
|
||
|
||
make manual
|
||
|
||
Notes:
|
||
|
||
- To run `make manual` you need to have installed Yosys with `make install`,
|
||
otherwise it will fail on finding `kernel/yosys.h` while building
|
||
`PRESENTATION_Prog`.
|