yosys/README

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/-----------------------------------------------------------------------------\
| |
| yosys -- Yosys Open SYnthesis Suite |
| |
| Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> |
| |
| Permission to use, copy, modify, and/or distribute this software for any |
| purpose with or without fee is hereby granted, provided that the above |
| copyright notice and this permission notice appear in all copies. |
| |
| THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES |
| WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF |
| MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR |
| ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES |
| WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN |
| ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF |
| OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. |
| |
\-----------------------------------------------------------------------------/
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yosys -- Yosys Open SYnthesis Suite
===================================
This is a framework for RTL synthesis tools. It currently has
extensive Verilog-2005 support and provides a basic set of
synthesis algorithms for various application domains.
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Yosys can be adapted to perform any synthesis job by combining
the existing passes (algorithms) using synthesis scripts and
adding additional passes as needed by extending the yosys C++
code base.
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Yosys is free software licensed under the ISC license (a GPL
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
========
More information and documentation can be found on the Yosys web site:
http://www.clifford.at/yosys/
Getting Started
===============
You need a C++ compiler with C++11 support (up-to-date CLANG or GCC is
recommended) and some standard tools such as GNU Flex, GNU Bison, and GNU Make.
The Qt4 library is needed for the yosys SVG viewer, that is used to display
schematics, the minisat library is required for the SAT features in yosys
and TCL for the scripting functionality. The extensive test suite requires
Icarus Verilog. For example on Ubuntu Linux 12.04 LTS the following commands
will install all prerequisites for building yosys:
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$ yosys_deps="git g++ clang make bison flex libreadline-dev
tcl8.5-dev zlib1g-dev libqt4-dev libffi-dev
mercurial iverilog graphviz"
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$ sudo apt-get install $yosys_deps
There are also pre-compiled packages for Yosys on Ubuntu. Visit the Yosys
download page to learn more about this:
http://www.clifford.at/yosys/download.html
To configure the build system to use a specific set of compiler and
build configuration, use one of
$ make config-clang-debug
$ make config-gcc-debug
$ make config-release
For other compilers and build configurations it might be
necessary to make some changes to the config section of the
Makefile.
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$ vi Makefile ..or..
$ vi Makefile.conf
To build Yosys simply type 'make' in this directory.
$ make
$ make test
$ sudo make install
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Note that this also downloads, builds and installs ABC (using yosys-abc
as executeable name).
Yosys can be used with the interactive command shell, with
synthesis scripts or with command line arguments. Let's perform
a simple synthesis job using the interactive command shell:
$ ./yosys
yosys>
the command "help" can be used to print a list of all available
commands and "help <command>" to print details on the specified command:
yosys> help help
reading the design using the verilog frontend:
yosys> read_verilog tests/simple/fiedler-cooley.v
writing the design to the console in yosys's internal format:
yosys> write_ilang
elaborate design hierarchy:
yosys> hierarchy
convert processes ("always" blocks) to netlist elements and perform
some simple optimizations:
yosys> proc; opt
display design netlist using the yosys svg viewer:
yosys> show
the same thing using 'gv' as postscript viewer:
yosys> show -format ps -viewer gv
translating netlist to gate logic and perform some simple optimizations:
yosys> techmap; opt
write design netlist to a new verilog file:
yosys> write_verilog synth.v
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a similar synthesis can be performed using yosys command line options only:
$ ./yosys -o synth.v -p hierarchy -p proc -p opt \
-p techmap -p opt tests/simple/fiedler-cooley.v
or using a simple synthesis script:
$ cat synth.ys
read_verilog tests/simple/fiedler-cooley.v
hierarchy; proc; opt; techmap; opt
write_verilog synth.v
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$ ./yosys synth.ys
It is also possible to only have the synthesis commands but not the read/write
commands in the synthesis script:
$ cat synth.ys
hierarchy; proc; opt; techmap; opt
$ ./yosys -o synth.v tests/simple/fiedler-cooley.v synth.ys
The following synthesis script works reasonable for all designs:
# check design hierarchy
hierarchy
# translate processes (always blocks) and memories (arrays)
proc; memory; opt
# detect and optimize FSM encodings
fsm; opt
# convert to gate logic
techmap; opt
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If ABC is enabled in the Yosys build configuration and a cell library is given
in the liberty file mycells.lib, the following synthesis script will synthesize
for the given cell library:
# the high-level stuff
hierarchy; proc; memory; opt; fsm; opt
# mapping to internal cell library
techmap; opt
# mapping flip-flops to mycells.lib
dfflibmap -liberty mycells.lib
# mapping logic to mycells.lib
abc -liberty mycells.lib
# cleanup
clean
If you do not have a liberty file but want to test this synthesis script,
you can use the file techlibs/cmos/cmos_cells.lib from the yosys sources.
Various more complex liberty files (for testing) can be found here:
http://vlsiarch.ecen.okstate.edu/flows/MOSIS_SCMOS/latest/..
../cadence/lib/tsmc025/signalstorm/osu025_stdcells.lib
../cadence/lib/ami035/signalstorm/osu035_stdcells.lib
../cadence/lib/tsmc018/signalstorm/osu018_stdcells.lib
../cadence/lib/ami05/signalstorm/osu05_stdcells.lib
Yosys is under construction. A more detailed documentation will follow.
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Unsupported Verilog-2005 Features
=================================
The following Verilog-2005 features are not supported by
yosys and there are currently no plans to add support
for them:
- Non-sythesizable language features as defined in
IEC 62142(E):2005 / IEEE Std. 1364.1(E):2002
- The "tri", "triand", "trior", "wand" and "wor" net types
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- The "config" keyword and library map files
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- The "disable", "primitive" and "specify" statements
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- Latched logic (is synthesized as logic with feedback loops)
Verilog Attributes and non-standard features
============================================
- The 'full_case' attribute on case statements is supported
(also the non-standard "// synopsys full_case" directive)
- The 'parallel_case' attribute on case statements is supported
(also the non-standard "// synopsys parallel_case" directive)
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- The "// synopsys translate_off" and "// synopsys translate_on"
directives are also supported (but the use of `ifdef .. `endif
is strongly recommended instead).
- The "nomem2reg" attribute on modules or arrays prohibits the
automatic early conversion of arrays to separate registers.
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- The "mem2reg" attribute on modules or arrays forces the early
conversion of arrays to separate registers.
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- The "nolatches" attribute on modules or always-blocks
prohibits the generation of logic-loops for latches. Instead
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all not explicitly assigned values default to x-bits. This does
not affect clocked storage elements such as flip-flops.
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- The "nosync" attribute on registers prohibits the generation of a
storage element. The register itself will always have all bits set
to 'x' (undefined). The variable may only be used as blocking assigned
temporary variable within an always block. This is mostly used internally
by yosys to synthesize verilog functions and access arrays.
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- The "blackbox" attribute on modules is used to mark empty stub modules
that have the same ports as the real thing but do not contain information
on the internal configuration. This modules are only used by the synthesis
passes to identify input and output ports of cells. The verilog backend
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also does not output blackbox modules on default.
- The "keep" attribute on cells and wires is used to mark objects that should
never be removed by the optimizer. This is used for example for cells that
have hidden connections that are not part of the netlist, such as IO pads.
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- The "init" attribute on wires is set by the frontend when a register is
initialized "FPGA-style" with 'reg foo = val'. It can be used during synthesis
to add the necessary reset logic.
- The "top" attribute on a module marks this module as the top of the
design hierarchy. The "hierarchy" command sets this attribute when called
with "-top". Other commands, such as "flatten" and various backends
use this attribute to determine the top module.
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- In addition to the (* ... *) attribute syntax, yosys supports
the non-standard {* ... *} attribute syntax to set default attributes
for everything that comes after the {* ... *} statement. (Reset
by adding an empty {* *} statement.)
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- Modules can be declared with "module mod_name(...);" (with three dots
instead of a list of moudle ports). With this syntax it is sufficient
to simply declare a module port as 'input' or 'output' in the module
body.
- When defining a macro with `define, all text between tripple double quotes
is interpreted as macro body, even if it contains unescaped newlines. The
tripple double quotes are removed from the macro body. For example:
`define MY_MACRO(a, b) """
assign a = 23;
assign b = 42;
"""
- The attribute "via_celltype" can be used to implement a verilog task or
function by instantiating the specified cell type. The value is the name
of the cell type to use. For functions the name of the output port can
be specified by appending it to the cell type separated by a whitespace.
The body of the task or function is unused in this case and can be used
to specify a behavioral model of the cell type for simulation. For example:
module my_add3(A, B, C, Y);
parameter WIDTH = 8;
input [WIDTH-1:0] A, B, C;
output [WIDTH-1:0] Y;
...
endmodule
module top;
...
(* via_celltype = "my_add3 Y" *)
(* via_celltype_defparam_WIDTH = 32 *)
function [31:0] add3;
input [31:0] A, B, C;
begin
add3 = A + B + C;
end
endfunction
...
endmodule
- A limited subset of DPI-C functions is supported. The plugin mechanism
(see "help plugin") can be used load .so files with implementations of
DPI-C routines. As a non-standard extension it is possible to specify
a plugin alias using the "<alias>:" syntax. for example:
module dpitest;
import "DPI-C" function foo:round = real my_round (real);
parameter real r = my_round(12.345);
endmodule
$ yosys -p 'plugin -a foo -i /lib/libm.so; read_verilog dpitest.v'
- Sized constants (the syntax <size>'s?[bodh]<value>) support constant
expressions as <size>. If the expresion is not a simple identifier, it
must be put in parentheses. Examples: WIDTH'd42, (4+2)'b101010
Supported features from SystemVerilog
=====================================
When read_verilog is called with -sv, it accepts some language features
from SystemVerilog:
- The "assert" statement from SystemVerilog is supported in its most basic
form. In module context: "assert property (<expression>);" and within an
always block: "assert(<expression>);". It is transformed to a $assert cell
that is supported by the "sat" and "write_btor" commands.
- The keywords "always_comb", "always_ff" and "always_latch", "logic" and
"bit" are supported.
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Roadmap / Large-scale TODOs
===========================
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- Verification and Regression Tests
- VlogHammer: http://www.clifford.at/yosys/vloghammer.html
- yosys-bigsim: https://github.com/cliffordwolf/yosys-bigsim
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- Technology mapping for real-world applications
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- Rewrite current techmap.v rules (modular and clean)
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- Improve Xilinx FGPA synthesis (RAMB, CARRY4, SLR, etc.)
- Implement SAT-based formal equivialence checker
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- Write equiv pass based on hint-based register mapping
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- Re-implement Verilog frontend (far future)
- cleaner (easier to use, harder to use wrong) AST format
- pipeline of well structured AST transformations
- true contextual name lookup
Other Unsorted TODOs
====================
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- Implement missing Verilog 2005 features:
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- Support for real (float) const. expressions and parameters
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- ROM modeling using $readmemh/$readmemb in "initial" blocks
- Ignore what needs to be ignored (e.g. drive and charge strengths)
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- Check standard vs. implementation to identify missing features
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- Miscellaneous TODO items:
- Add brief source code documentation to most passes and kernel code
- Implement mux-to-tribuf pass and rebalance mixed mux/tribuf trees
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- Add more commands for changing the design (delete, add, modify objects)
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- Add full support for $lut cell type (const evaluation, sat solving, etc.)
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- Smarter resource sharing pass (add MUXes and get rid of duplicated cells)
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