957 lines
32 KiB
TeX
957 lines
32 KiB
TeX
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\section{Introduction to Yosys}
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\begin{frame}
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\sectionpage
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\end{frame}
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\iffalse
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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\subsection{Representations of (digital) Circuits}
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\begin{frame}[t]{\subsecname}
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\begin{itemize}
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\item Graphical
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\begin{itemize}
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\item \alert<1>{Schematic Diagram}
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\item \alert<2>{Physical Layout}
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\end{itemize}
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\bigskip
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\item Non-graphical
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\begin{itemize}
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\item \alert<3>{Netlists}
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\item \alert<4>{Hardware Description Languages (HDLs)}
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\end{itemize}
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\end{itemize}
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\bigskip
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\begin{block}{Definition:
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\only<1>{Schematic Diagram}%
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\only<2>{Physical Layout}%
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\only<3>{Netlists}%
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\only<4>{Hardware Description Languages (HDLs)}}
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\only<1>{
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Graphical representation of the circuit topology. Circuit elements
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are represented by symbols and electrical connections by lines. The geometric
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layout is for readability only.
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}%
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\only<2>{
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The actual physical geometry of the device (PCB or ASIC manufacturing masks).
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This is the final product of the design process.
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}%
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\only<3>{
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A list of circuit elements and a list of connections. This is the raw circuit
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topology.
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}%
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\only<4>{
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Computer languages (like programming languages) that can be used to describe
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circuits. HDLs are much more powerful in describing huge circuits than
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schematic diagrams.
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}%
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\end{block}
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\end{frame}
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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\fi
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\subsection{Levels of Abstraction for Digital Circuits}
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\begin{frame}[t]{\subsecname}
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\begin{itemize}
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\item \alert<1>{System Level}
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\item \alert<2>{High Level}
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\item \alert<3>{Behavioral Level}
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\item \alert<4>{Register-Transfer Level (RTL)}
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\item \alert<5>{Logical Gate Level}
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\item \alert<6>{Physical Gate Level}
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\item \alert<7>{Switch Level}
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\end{itemize}
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\bigskip
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\begin{block}{Definition:
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\only<1>{System Level}%
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\only<2>{High Level}%
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\only<3>{Behavioral Level}%
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\only<4>{Register-Transfer Level (RTL)}%
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\only<5>{Logical Gate Level}%
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\only<6>{Physical Gate Level}%
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\only<7>{Switch Level}}
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\only<1>{
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Overall view of the circuit. E.g. block-diagrams or instruction-set architecture descriptions.
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}%
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\only<2>{
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Functional implementation of circuit in high-level programming language (C, C++, SystemC, Matlab, Python, etc.).
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}%
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\only<3>{
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Cycle-accurate description of circuit in hardware description language (Verilog, VHDL, etc.).
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}%
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\only<4>{
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List of registers (flip-flops) and logic functions that calculate the next state from the previous one. Usually
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a netlist utilizing high-level cells such as adders, multipliers, multiplexer, etc.
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}%
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\only<5>{
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Netlist of single-bit registers and basic logic gates (such as AND, OR,
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NOT, etc.). Popular form: And-Inverter-Graphs (AIGs) with pairs of primary
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inputs and outputs for each register bit.
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}%
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\only<6>{
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Netlist of cells that actually are available on the target architecture
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(such as CMOS gates in an ASIC or LUTs in an FPGA). Optimized for
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area, power, and/or speed (static timing or number of logic levels).
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}%
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\only<7>{
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Netlist of individual transistors.
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}%
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\end{block}
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\end{frame}
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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\subsection{Digital Circuit Synthesis}
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\begin{frame}{\subsecname}
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Synthesis Tools (such as Yosys) can transform HDL code to circuits:
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\bigskip
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\begin{center}
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\begin{tikzpicture}[scale=0.8, every node/.style={transform shape}]
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\tikzstyle{lvl} = [draw, fill=MyBlue, rectangle, minimum height=2em, minimum width=15em]
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\node[lvl] (sys) {System Level};
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\node[lvl] (hl) [below of=sys] {High Level};
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\node[lvl] (beh) [below of=hl] {Behavioral Level};
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\node[lvl] (rtl) [below of=beh] {Register-Transfer Level (RTL)};
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\node[lvl] (lg) [below of=rtl] {Logical Gate Level};
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\node[lvl] (pg) [below of=lg] {Physical Gate Level};
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\node[lvl] (sw) [below of=pg] {Switch Level};
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\draw[dotted] (sys.east) -- ++(1,0) coordinate (sysx);
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\draw[dotted] (hl.east) -- ++(1,0) coordinate (hlx);
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\draw[dotted] (beh.east) -- ++(1,0) coordinate (behx);
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\draw[dotted] (rtl.east) -- ++(1,0) coordinate (rtlx);
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\draw[dotted] (lg.east) -- ++(1,0) coordinate (lgx);
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\draw[dotted] (pg.east) -- ++(1,0) coordinate (pgx);
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\draw[dotted] (sw.east) -- ++(1,0) coordinate (swx);
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\draw[gray,|->] (sysx) -- node[right] {System Design} (hlx);
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\draw[|->|] (hlx) -- node[right] {High Level Synthesis (HLS)} (behx);
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\draw[->|] (behx) -- node[right] {Behavioral Synthesis} (rtlx);
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\draw[->|] (rtlx) -- node[right] {RTL Synthesis} (lgx);
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\draw[->|] (lgx) -- node[right] {Logic Synthesis} (pgx);
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\draw[gray,->|] (pgx) -- node[right] {Cell Library} (swx);
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\draw[dotted] (behx) -- ++(4,0) coordinate (a);
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\draw[dotted] (pgx) -- ++(4,0) coordinate (b);
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\draw[|->|] (a) -- node[right] {Yosys} (b);
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\end{tikzpicture}
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\end{center}
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\end{frame}
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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\subsection{What Yosys can and can't do}
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\begin{frame}{\subsecname}
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Things Yosys can do:
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\begin{itemize}
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\item Read and process (most of) modern Verilog-2005 code.
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\item Perform all kinds of operations on netlist (RTL, Logic, Gate).
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\item Perform logic optimizations and gate mapping with ABC\footnote[frame]{\url{http://www.eecs.berkeley.edu/~alanmi/abc/}}.
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\end{itemize}
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\bigskip
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Things Yosys can't do:
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\begin{itemize}
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\item Process high-level languages such as C/C++/SystemC.
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\item Create physical layouts (place\&route).
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\end{itemize}
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\bigskip
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A typical flow combines Yosys with with a low-level implementation tool, such
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as Qflow\footnote[frame]{\url{http://opencircuitdesign.com/qflow/}} for ASIC designs.
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\end{frame}
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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\subsection{Yosys Data- and Control-Flow}
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\begin{frame}{\subsecname}
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A (usually short) synthesis script controls Yosys.
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This scripts contain three types of commands:
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\begin{itemize}
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\item {\bf Frontends}, that read input files (usually Verilog).
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\item {\bf Passes}, that perform transformations on the design in memory.
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\item {\bf Backends}, that write the design in memory to a file (various formats are available: Verilog, BLIF, EDIF, SPICE, BTOR, \dots).
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\end{itemize}
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\bigskip
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\begin{center}
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\begin{tikzpicture}[scale=0.6, every node/.style={transform shape}]
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\path (-1.5,3) coordinate (cursor);
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\draw[-latex] ($ (cursor) + (0,-1.5) $) -- ++(1,0);
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\draw[fill=orange!10] ($ (cursor) + (1,-3) $) rectangle node[rotate=90] {Frontend} ++(1,3) coordinate (cursor);
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\draw[-latex] ($ (cursor) + (0,-1.5) $) -- ++(1,0);
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\draw[fill=green!10] ($ (cursor) + (1,-3) $) rectangle node[rotate=90] {Pass} ++(1,3) coordinate (cursor);
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\draw[-latex] ($ (cursor) + (0,-1.5) $) -- ++(1,0);
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\draw[fill=green!10] ($ (cursor) + (1,-3) $) rectangle node[rotate=90] {Pass} ++(1,3) coordinate (cursor);
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\draw[-latex] ($ (cursor) + (0,-1.5) $) -- ++(1,0);
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\draw[fill=green!10] ($ (cursor) + (1,-3) $) rectangle node[rotate=90] {Pass} ++(1,3) coordinate (cursor);
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\draw[-latex] ($ (cursor) + (0,-1.5) $) -- ++(1,0);
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\draw[fill=orange!10] ($ (cursor) + (1,-3) $) rectangle node[rotate=90] {Backend} ++(1,3) coordinate (cursor);
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\draw[-latex] ($ (cursor) + (0,-1.5) $) -- ++(1,0);
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\path (-3,-0.5) coordinate (cursor);
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\draw (cursor) -- node[below] {HDL} ++(3,0) coordinate (cursor);
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\draw[|-|] (cursor) -- node[below] {Internal Format (RTLIL)} ++(8,0) coordinate (cursor);
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\draw (cursor) -- node[below] {Netlist} ++(3,0);
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\path (-3,3.5) coordinate (cursor);
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\draw[-] (cursor) -- node[above] {High-Level} ++(3,0) coordinate (cursor);
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\draw[-] (cursor) -- ++(8,0) coordinate (cursor);
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\draw[->] (cursor) -- node[above] {Low-Level} ++(3,0);
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\end{tikzpicture}
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\end{center}
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\end{frame}
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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\subsection{Program Components and Data Formats}
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\begin{frame}{\subsecname}
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\begin{center}
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\begin{tikzpicture}[scale=0.6, every node/.style={transform shape}]
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\tikzstyle{process} = [draw, fill=green!10, rectangle, minimum height=3em, minimum width=10em, node distance=15em]
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\tikzstyle{data} = [draw, fill=blue!10, ellipse, minimum height=3em, minimum width=7em, node distance=15em]
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\node[process] (vlog) {Verilog Frontend};
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\node[process, dashed, fill=green!5] (vhdl) [right of=vlog] {VHDL Frontend};
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\node[process] (ilang) [right of=vhdl] {Other Frontends};
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\node[data] (ast) [below of=vlog, node distance=5em, xshift=7.5em] {AST};
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\node[process] (astfe) [below of=ast, node distance=5em] {AST Frontend};
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\node[data] (rtlil) [below of=astfe, node distance=5em, xshift=7.5em] {RTLIL};
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\node[process] (pass) [right of=rtlil, node distance=5em, xshift=7.5em] {Passes};
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\node[process] (vlbe) [below of=rtlil, node distance=7em, xshift=-13em] {Verilog Backend};
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\node[process] (ilangbe) [below of=rtlil, node distance=7em, xshift=0em] {ILANG Backend};
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\node[process, fill=green!5] (otherbe) [below of=rtlil, node distance=7em, xshift=+13em] {Other Backends};
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\draw[-latex] (vlog) -- (ast);
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\draw[-latex] (vhdl) -- (ast);
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\draw[-latex] (ast) -- (astfe);
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\draw[-latex] (astfe) -- (rtlil);
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\draw[-latex] (ilang) -- (rtlil);
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\draw[latex-latex] (rtlil) -- (pass);
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\draw[-latex] (rtlil) -- (vlbe);
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\draw[-latex] (rtlil) -- (ilangbe);
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\draw[-latex] (rtlil) -- (otherbe);
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\end{tikzpicture}
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\end{center}
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\end{frame}
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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\subsection{Example Project}
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\begin{frame}[t]{\subsecname}
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The following slides cover an example project. This project contains three files:
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\begin{itemize}
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\item A simple ASIC synthesis script
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\item A digital design written in Verilog
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\item A simple CMOS cell library
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\end{itemize}
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\vfill
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Direct link to the files: \\ \footnotesize
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\url{https://github.com/cliffordwolf/yosys/tree/master/manual/PRESENTATION_Intro}
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\end{frame}
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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\begin{frame}[t]{\subsecname{} -- Synthesis Script}
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\setbeamercolor{alerted text}{fg=white,bg=red}
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\begin{minipage}[t]{6cm}
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\tt\scriptsize
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{\color{YosysGreen}\# read design}\\
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\boxalert<1>{read\_verilog counter.v}\\
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\boxalert<2>{hierarchy -check -top counter}
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\medskip
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{\color{YosysGreen}\# the high-level stuff}\\
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\boxalert<3>{proc}; \boxalert<4>{opt}; \boxalert<5>{fsm}; \boxalert<6>{opt}; \boxalert<7>{memory}; \boxalert<8>{opt}
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\medskip
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{\color{YosysGreen}\# mapping to internal cell library}\\
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\boxalert<9>{techmap}; \boxalert<10>{opt}
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\end{minipage}
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\begin{minipage}[t]{5cm}
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\tt\scriptsize
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{\color{YosysGreen}\# mapping flip-flops to mycells.lib}\\
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\boxalert<11>{dfflibmap -liberty mycells.lib}
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\medskip
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{\color{YosysGreen}\# mapping logic to mycells.lib}\\
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\boxalert<12>{abc -liberty mycells.lib}
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\medskip
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{\color{YosysGreen}\# cleanup}\\
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\boxalert<13>{clean}
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\medskip
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{\color{YosysGreen}\# write synthesized design}\\
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\boxalert<14>{write\_verilog synth.v}
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\end{minipage}
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\vskip1cm
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\begin{block}{Command: \tt
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\only<1>{read\_verilog counter.v}%
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\only<2>{hierarchy -check -top counter}%
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\only<3>{proc}%
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\only<4>{opt}%
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\only<5>{fsm}%
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\only<6>{opt}%
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\only<7>{memory}%
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\only<8>{opt}%
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\only<9>{techmap}%
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\only<10>{opt}%
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\only<11>{dfflibmap -liberty mycells.lib}%
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\only<12>{abc -liberty mycells.lib}%
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\only<13>{clean}%
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\only<14>{write\_verilog synth.v}}
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\only<1>{
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Read Verilog source file and convert to internal representation.
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}%
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\only<2>{
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Elaborate the design hierarchy. Should always be the first
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command after reading the design. Can re-run AST front-end.
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}%
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\only<3>{
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Convert ``processes'' (the internal representation of behavioral
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Verilog code) into multiplexers and registers.
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}%
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\only<4>{
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Perform some basic optimizations and cleanups.
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}%
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\only<5>{
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Analyze and optimize finite state machines.
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}%
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\only<6>{
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Perform some basic optimizations and cleanups.
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}%
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\only<7>{
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Analyze memories and create circuits to implement them.
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}%
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\only<8>{
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Perform some basic optimizations and cleanups.
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}%
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\only<9>{
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Map coarse-grain RTL cells (adders, etc.) to fine-grain
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logic gates (AND, OR, NOT, etc.).
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}%
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\only<10>{
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Perform some basic optimizations and cleanups.
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}%
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\only<11>{
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Map registers to available hardware flip-flops.
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}%
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\only<12>{
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Map logic to available hardware gates.
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}%
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\only<13>{
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Clean up the design (just the last step of {\tt opt}).
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}%
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\only<14>{
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Write final synthesis result to output file.
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}%
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\end{block}
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\end{frame}
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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\begin{frame}[fragile]{\subsecname{} -- Verilog Source: \tt counter.v}
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\lstinputlisting[xleftmargin=1cm, language=Verilog]{PRESENTATION_Intro/counter.v}
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\end{frame}
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\begin{frame}[fragile]{\subsecname{} -- Cell Library: \tt mycells.lib}
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\begin{columns}
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\column[t]{5cm}
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\lstinputlisting[basicstyle=\ttfamily\fontsize{8pt}{10pt}\selectfont, language=liberty, lastline=20]{PRESENTATION_Intro/mycells.lib}
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\column[t]{5cm}
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|
\lstinputlisting[basicstyle=\ttfamily\fontsize{8pt}{10pt}\selectfont, language=liberty, firstline=21]{PRESENTATION_Intro/mycells.lib}
|
||
|
\end{columns}
|
||
|
\end{frame}
|
||
|
|
||
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
||
|
|
||
|
\subsection{Running the Synthesis Script}
|
||
|
|
||
|
\begin{frame}[t, fragile]{\subsecname{} -- Step 1/4}
|
||
|
\begin{verbatim}
|
||
|
read_verilog counter.v
|
||
|
hierarchy -check -top counter
|
||
|
\end{verbatim}
|
||
|
|
||
|
\vfill
|
||
|
\includegraphics[width=\linewidth,trim=0 0cm 0 0cm]{PRESENTATION_Intro/counter_00.pdf}
|
||
|
\end{frame}
|
||
|
|
||
|
\begin{frame}[t, fragile]{\subsecname{} -- Step 2/4}
|
||
|
\begin{verbatim}
|
||
|
proc; opt; fsm; opt; memory; opt
|
||
|
\end{verbatim}
|
||
|
|
||
|
\vfill
|
||
|
\includegraphics[width=\linewidth,trim=0 0cm 0 0cm]{PRESENTATION_Intro/counter_01.pdf}
|
||
|
\end{frame}
|
||
|
|
||
|
\begin{frame}[t, fragile]{\subsecname{} -- Step 3/4}
|
||
|
\begin{verbatim}
|
||
|
techmap; opt
|
||
|
\end{verbatim}
|
||
|
|
||
|
\vfill
|
||
|
\includegraphics[width=\linewidth,trim=0 0cm 0 2cm]{PRESENTATION_Intro/counter_02.pdf}
|
||
|
\end{frame}
|
||
|
|
||
|
\begin{frame}[t, fragile]{\subsecname{} -- Step 4/4}
|
||
|
\begin{verbatim}
|
||
|
dfflibmap -liberty mycells.lib
|
||
|
abc -liberty mycells.lib
|
||
|
clean
|
||
|
\end{verbatim}
|
||
|
|
||
|
\vfill\hfil
|
||
|
\includegraphics[width=10cm,trim=0 0cm 0 0cm]{PRESENTATION_Intro/counter_03.pdf}
|
||
|
\end{frame}
|
||
|
|
||
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
||
|
|
||
|
\subsection{The synth command}
|
||
|
|
||
|
\begin{frame}[fragile]{\subsecname{}}
|
||
|
Yosys contains a default (recommended example) synthesis script in form of the
|
||
|
{\tt synth} command. The following commands are executed by this synthesis command:
|
||
|
|
||
|
\begin{columns}
|
||
|
\column[t]{5cm}
|
||
|
\begin{lstlisting}[xleftmargin=1cm, basicstyle=\ttfamily\fontsize{8pt}{10pt}\selectfont, language=ys]
|
||
|
begin:
|
||
|
hierarchy -check [-top <top>]
|
||
|
|
||
|
coarse:
|
||
|
proc
|
||
|
opt
|
||
|
wreduce
|
||
|
alumacc
|
||
|
share
|
||
|
opt
|
||
|
fsm
|
||
|
opt -fast
|
||
|
memory -nomap
|
||
|
opt_clean
|
||
|
\end{lstlisting}
|
||
|
\column[t]{5cm}
|
||
|
\begin{lstlisting}[xleftmargin=1cm, basicstyle=\ttfamily\fontsize{8pt}{10pt}\selectfont, language=ys]
|
||
|
fine:
|
||
|
opt -fast -full
|
||
|
memory_map
|
||
|
opt -full
|
||
|
techmap
|
||
|
opt -fast
|
||
|
|
||
|
abc:
|
||
|
abc -fast
|
||
|
opt -fast
|
||
|
\end{lstlisting}
|
||
|
\end{columns}
|
||
|
\end{frame}
|
||
|
|
||
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
||
|
|
||
|
\subsection{Yosys Commands}
|
||
|
|
||
|
\begin{frame}[fragile]{\subsecname{} 1/3 \hspace{0pt plus 1 filll} (excerpt)}
|
||
|
Command reference:
|
||
|
\begin{itemize}
|
||
|
\item Use ``{\tt help}'' for a command list and ``{\tt help \it command}'' for details.
|
||
|
\item Or run ``{\tt yosys -H}'' or ``{\tt yosys -h \it command}''.
|
||
|
\item Or go to \url{http://www.clifford.at/yosys/documentation.html}.
|
||
|
\end{itemize}
|
||
|
|
||
|
\bigskip
|
||
|
Commands for design navigation and investigation:
|
||
|
\begin{lstlisting}[xleftmargin=1cm, basicstyle=\ttfamily\fontsize{8pt}{10pt}\selectfont, language=ys]
|
||
|
cd # a shortcut for 'select -module <name>'
|
||
|
ls # list modules or objects in modules
|
||
|
dump # print parts of the design in ilang format
|
||
|
show # generate schematics using graphviz
|
||
|
select # modify and view the list of selected objects
|
||
|
\end{lstlisting}
|
||
|
|
||
|
\bigskip
|
||
|
Commands for executing scripts or entering interactive mode:
|
||
|
\begin{lstlisting}[xleftmargin=1cm, basicstyle=\ttfamily\fontsize{8pt}{10pt}\selectfont, language=ys]
|
||
|
shell # enter interactive command mode
|
||
|
history # show last interactive commands
|
||
|
script # execute commands from script file
|
||
|
tcl # execute a TCL script file
|
||
|
\end{lstlisting}
|
||
|
\end{frame}
|
||
|
|
||
|
\begin{frame}[fragile]{\subsecname{} 2/3 \hspace{0pt plus 1 filll} (excerpt)}
|
||
|
Commands for reading and elaborating the design:
|
||
|
\begin{lstlisting}[xleftmargin=1cm, basicstyle=\ttfamily\fontsize{8pt}{10pt}\selectfont, language=ys]
|
||
|
read_ilang # read modules from ilang file
|
||
|
read_verilog # read modules from Verilog file
|
||
|
hierarchy # check, expand and clean up design hierarchy
|
||
|
\end{lstlisting}
|
||
|
|
||
|
\bigskip
|
||
|
Commands for high-level synthesis:
|
||
|
\begin{lstlisting}[xleftmargin=1cm, basicstyle=\ttfamily\fontsize{8pt}{10pt}\selectfont, language=ys]
|
||
|
proc # translate processes to netlists
|
||
|
fsm # extract and optimize finite state machines
|
||
|
memory # translate memories to basic cells
|
||
|
opt # perform simple optimizations
|
||
|
\end{lstlisting}
|
||
|
|
||
|
\bigskip
|
||
|
Commands for technology mapping:
|
||
|
\begin{lstlisting}[xleftmargin=1cm, basicstyle=\ttfamily\fontsize{8pt}{10pt}\selectfont, language=ys]
|
||
|
techmap # generic technology mapper
|
||
|
abc # use ABC for technology mapping
|
||
|
dfflibmap # technology mapping of flip-flops
|
||
|
hilomap # technology mapping of constant hi- and/or lo-drivers
|
||
|
iopadmap # technology mapping of i/o pads (or buffers)
|
||
|
flatten # flatten design
|
||
|
\end{lstlisting}
|
||
|
\end{frame}
|
||
|
|
||
|
\begin{frame}[fragile]{\subsecname{} 3/3 \hspace{0pt plus 1 filll} (excerpt)}
|
||
|
Commands for writing the results:
|
||
|
\begin{lstlisting}[xleftmargin=1cm, basicstyle=\ttfamily\fontsize{8pt}{10pt}\selectfont, language=ys]
|
||
|
write_blif # write design to BLIF file
|
||
|
write_btor # write design to BTOR file
|
||
|
write_edif # write design to EDIF netlist file
|
||
|
write_ilang # write design to ilang file
|
||
|
write_spice # write design to SPICE netlist file
|
||
|
write_verilog # write design to Verilog file
|
||
|
\end{lstlisting}
|
||
|
|
||
|
\bigskip
|
||
|
Script-Commands for standard synthesis tasks:
|
||
|
\begin{lstlisting}[xleftmargin=1cm, basicstyle=\ttfamily\fontsize{8pt}{10pt}\selectfont, language=ys]
|
||
|
synth # generic synthesis script
|
||
|
synth_xilinx # synthesis for Xilinx FPGAs
|
||
|
\end{lstlisting}
|
||
|
|
||
|
\bigskip
|
||
|
Commands for model checking:
|
||
|
\begin{lstlisting}[xleftmargin=1cm, basicstyle=\ttfamily\fontsize{8pt}{10pt}\selectfont, language=ys]
|
||
|
sat # solve a SAT problem in the circuit
|
||
|
miter # automatically create a miter circuit
|
||
|
scc # detect strongly connected components (logic loops)
|
||
|
\end{lstlisting}
|
||
|
|
||
|
\bigskip
|
||
|
... and many many more.
|
||
|
\end{frame}
|
||
|
|
||
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
||
|
|
||
|
\subsection{More Verilog Examples}
|
||
|
|
||
|
\begin{frame}[fragile]{\subsecname{} 1/3}
|
||
|
\begin{lstlisting}[xleftmargin=1cm, basicstyle=\ttfamily\fontsize{8pt}{10pt}\selectfont, language=Verilog]
|
||
|
module detectprime(a, y);
|
||
|
input [4:0] a;
|
||
|
output y;
|
||
|
|
||
|
integer i, j;
|
||
|
reg [31:0] lut;
|
||
|
|
||
|
initial begin
|
||
|
for (i = 0; i < 32; i = i+1) begin
|
||
|
lut[i] = i > 1;
|
||
|
for (j = 2; j*j <= i; j = j+1)
|
||
|
if (i % j == 0)
|
||
|
lut[i] = 0;
|
||
|
end
|
||
|
end
|
||
|
|
||
|
assign y = lut[a];
|
||
|
endmodule
|
||
|
\end{lstlisting}
|
||
|
\end{frame}
|
||
|
|
||
|
\begin{frame}[fragile]{\subsecname{} 2/3}
|
||
|
\begin{lstlisting}[xleftmargin=1cm, basicstyle=\ttfamily\fontsize{8pt}{10pt}\selectfont, language=Verilog]
|
||
|
module carryadd(a, b, y);
|
||
|
parameter WIDTH = 8;
|
||
|
input [WIDTH-1:0] a, b;
|
||
|
output [WIDTH-1:0] y;
|
||
|
|
||
|
genvar i;
|
||
|
generate
|
||
|
for (i = 0; i < WIDTH; i = i+1) begin:STAGE
|
||
|
wire IN1 = a[i], IN2 = b[i];
|
||
|
wire C, Y;
|
||
|
if (i == 0)
|
||
|
assign C = IN1 & IN2, Y = IN1 ^ IN2;
|
||
|
else
|
||
|
assign C = (IN1 & IN2) | ((IN1 | IN2) & STAGE[i-1].C),
|
||
|
Y = IN1 ^ IN2 ^ STAGE[i-1].C;
|
||
|
assign y[i] = Y;
|
||
|
end
|
||
|
endgenerate
|
||
|
endmodule
|
||
|
\end{lstlisting}
|
||
|
\end{frame}
|
||
|
|
||
|
\begin{frame}[fragile]{\subsecname{} 3/3}
|
||
|
\begin{lstlisting}[xleftmargin=1cm, basicstyle=\ttfamily\fontsize{7pt}{8.5pt}\selectfont, language=Verilog]
|
||
|
module cam(clk, wr_enable, wr_addr, wr_data, rd_data, rd_addr, rd_match);
|
||
|
parameter WIDTH = 8;
|
||
|
parameter DEPTH = 16;
|
||
|
localparam ADDR_BITS = $clog2(DEPTH-1);
|
||
|
|
||
|
input clk, wr_enable;
|
||
|
input [ADDR_BITS-1:0] wr_addr;
|
||
|
input [WIDTH-1:0] wr_data, rd_data;
|
||
|
output reg [ADDR_BITS-1:0] rd_addr;
|
||
|
output reg rd_match;
|
||
|
|
||
|
integer i;
|
||
|
reg [WIDTH-1:0] mem [0:DEPTH-1];
|
||
|
|
||
|
always @(posedge clk) begin
|
||
|
rd_addr <= 'bx;
|
||
|
rd_match <= 0;
|
||
|
for (i = 0; i < DEPTH; i = i+1)
|
||
|
if (mem[i] == rd_data) begin
|
||
|
rd_addr <= i;
|
||
|
rd_match <= 1;
|
||
|
end
|
||
|
if (wr_enable)
|
||
|
mem[wr_addr] <= wr_data;
|
||
|
end
|
||
|
endmodule
|
||
|
\end{lstlisting}
|
||
|
\end{frame}
|
||
|
|
||
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
||
|
|
||
|
\subsection{Currently unsupported Verilog-2005 language features}
|
||
|
|
||
|
\begin{frame}{\subsecname}
|
||
|
\begin{itemize}
|
||
|
\item Tri-state logic
|
||
|
\item The wor/wand wire types (maybe for 0.5)
|
||
|
\item Latched logic (is synthesized as logic with feedback loops)
|
||
|
\item Some non-synthesizable features that should be ignored in synthesis are not supported by the parser and cause a parser error (file a bug report if you encounter this problem)
|
||
|
\end{itemize}
|
||
|
\end{frame}
|
||
|
|
||
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
||
|
|
||
|
\subsection{Verification of Yosys}
|
||
|
|
||
|
\begin{frame}{\subsecname}
|
||
|
Continuously checking the correctness of Yosys and making sure that new features
|
||
|
do not break old ones is a high priority in Yosys.
|
||
|
|
||
|
\bigskip
|
||
|
Two external test suites have been built for Yosys: VlogHammer and yosys-bigsim
|
||
|
(see next slides)
|
||
|
|
||
|
\bigskip
|
||
|
In addition to that, yosys comes with $\approx\!200$ test cases used in ``{\tt make test}''.
|
||
|
|
||
|
\bigskip
|
||
|
A debug build of Yosys also contains a lot of asserts and checks the integrity of
|
||
|
the internal state after each command.
|
||
|
\end{frame}
|
||
|
|
||
|
\begin{frame}[fragile]{\subsecname{} -- VlogHammer}
|
||
|
VlogHammer is a Verilog regression test suite developed to test the different
|
||
|
subsystems in Yosys by comparing them to each other and to the output created
|
||
|
by some other tools (Xilinx Vivado, Xilinx XST, Altera Quartus II, ...).
|
||
|
|
||
|
\bigskip
|
||
|
Yosys Subsystems tested: Verilog frontend, const folding, const eval, technology mapping,
|
||
|
simulation models, SAT models.
|
||
|
|
||
|
\bigskip
|
||
|
Thousands of auto-generated test cases containing code such as:
|
||
|
\begin{lstlisting}[xleftmargin=1cm, basicstyle=\ttfamily\fontsize{8pt}{10pt}\selectfont, language=Verilog]
|
||
|
assign y9 = $signed(((+$signed((^(6'd2 ** a2))))<$unsigned($unsigned(((+a3))))));
|
||
|
assign y10 = (-((+((+{2{(~^p13)}})))^~(!{{b5,b1,a0},(a1&p12),(a4+a3)})));
|
||
|
assign y11 = (~&(-{(-3'sd3),($unsigned($signed($unsigned({p0,b4,b1}))))}));
|
||
|
\end{lstlisting}
|
||
|
|
||
|
\bigskip
|
||
|
Some bugs in Yosys where found and fixed thanks to VlogHammer. Over 50 bugs in
|
||
|
the other tools used as external reference where found and reported so far.
|
||
|
\end{frame}
|
||
|
|
||
|
\begin{frame}{\subsecname{} -- yosys-bigsim}
|
||
|
yosys-bigsim is a collection of real-world open-source Verilog designs and test
|
||
|
benches. yosys-bigsim compares the testbench outputs of simulations of the original
|
||
|
Verilog code and synthesis results.
|
||
|
|
||
|
\bigskip
|
||
|
The following designs are included in yosys-bigsim (excerpt):
|
||
|
\begin{itemize}
|
||
|
\item {\tt openmsp430} -- an MSP430 compatible 16 bit CPU
|
||
|
\item {\tt aes\_5cycle\_2stage} -- an AES encryption core
|
||
|
\item {\tt softusb\_navre} -- an AVR compatible 8 bit CPU
|
||
|
\item {\tt amber23} -- an ARMv2 compatible 32 bit CPU
|
||
|
\item {\tt lm32} -- another 32 bit CPU from Lattice Semiconductor
|
||
|
\item {\tt verilog-pong} -- a hardware pong game with VGA output
|
||
|
\item {\tt elliptic\_curve\_group} -- ECG point-add and point-scalar-mul core
|
||
|
\item {\tt reed\_solomon\_decoder} -- a Reed-Solomon Error Correction Decoder
|
||
|
\end{itemize}
|
||
|
\end{frame}
|
||
|
|
||
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
||
|
|
||
|
\subsection{Benefits of Open Source HDL Synthesis}
|
||
|
|
||
|
\begin{frame}{\subsecname}
|
||
|
\begin{itemize}
|
||
|
\item Cost (also applies to ``free as in free beer'' solutions)
|
||
|
\item Availability and Reproducibility
|
||
|
\item Framework- and all-in-one-aspects
|
||
|
\item Educational Tool
|
||
|
\end{itemize}
|
||
|
|
||
|
\bigskip
|
||
|
|
||
|
Yosys is open source under the ISC license.
|
||
|
\end{frame}
|
||
|
|
||
|
\begin{frame}{\subsecname{} -- 1/3}
|
||
|
\begin{itemize}
|
||
|
\item Cost (also applies to ``free as in free beer'' solutions): \smallskip\par
|
||
|
Today the cost for a mask set in $\unit[180]{nm}$ technology is far less than
|
||
|
the cost for the design tools needed to design the mask layouts. Open Source
|
||
|
ASIC flows are an important enabler for ASIC-level Open Source Hardware.
|
||
|
|
||
|
\bigskip
|
||
|
\item Availability and Reproducibility: \smallskip\par
|
||
|
If you are a researcher who is publishing, you want to use tools that everyone
|
||
|
else can also use. Even if most universities have access to all major
|
||
|
commercial tools, you usually do not have easy access to the version that was
|
||
|
used in a research project a couple of years ago. With Open Source tools you
|
||
|
can even release the source code of the tool you have used alongside your data.
|
||
|
\end{itemize}
|
||
|
\end{frame}
|
||
|
|
||
|
\begin{frame}{\subsecname{} -- 2/3}
|
||
|
\begin{itemize}
|
||
|
\item Framework: \smallskip\par
|
||
|
Yosys is not only a tool. It is a framework that can be used as basis for other
|
||
|
developments, so researchers and hackers alike do not need to re-invent the
|
||
|
basic functionality. Extensibility was one of Yosys' design goals.
|
||
|
|
||
|
\bigskip
|
||
|
\item All-in-one: \smallskip\par
|
||
|
Because of the framework characteristics of Yosys, an increasing number of features
|
||
|
become available in one tool. Yosys not only can be used for circuit synthesis but
|
||
|
also for formal equivalence checking, SAT solving, and for circuit analysis, to
|
||
|
name just a few other application domains. With proprietary software one needs to
|
||
|
learn a new tool for each of these applications.
|
||
|
\end{itemize}
|
||
|
\end{frame}
|
||
|
|
||
|
\begin{frame}{\subsecname{} -- 3/3}
|
||
|
\begin{itemize}
|
||
|
\item Educational Tool: \smallskip\par
|
||
|
Proprietary synthesis tools are at times very secretive about their inner
|
||
|
workings. They often are ``black boxes''. Yosys is very open about its
|
||
|
internals and it is easy to observe the different steps of synthesis.
|
||
|
\end{itemize}
|
||
|
|
||
|
\bigskip
|
||
|
\begin{block}{Yosys is licensed under the ISC license:}
|
||
|
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.
|
||
|
\end{block}
|
||
|
\end{frame}
|
||
|
|
||
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
||
|
|
||
|
\subsection{Typical Applications for Yosys}
|
||
|
|
||
|
\begin{frame}{\subsecname}
|
||
|
\begin{itemize}
|
||
|
\item Synthesis of final production designs
|
||
|
\item Pre-production synthesis (trial runs before investing in other tools)
|
||
|
\item Conversion of full-featured Verilog to simple Verilog
|
||
|
\item Conversion of Verilog to other formats (BLIF, BTOR, etc)
|
||
|
\item Demonstrating synthesis algorithms (e.g. for educational purposes)
|
||
|
\item Framework for experimenting with new algorithms
|
||
|
\item Framework for building custom flows\footnote[frame]{Not limited to synthesis
|
||
|
but also formal verification, reverse engineering, ...}
|
||
|
\end{itemize}
|
||
|
\end{frame}
|
||
|
|
||
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
||
|
|
||
|
\subsection{Projects (that I know of) using Yosys}
|
||
|
|
||
|
\begin{frame}{\subsecname{} -- (1/2)}
|
||
|
\begin{itemize}
|
||
|
\item Ongoing PhD project on coarse grain synthesis \\
|
||
|
{\setlength{\parindent}{0.5cm}\footnotesize
|
||
|
Johann Glaser and Clifford Wolf. Methodology and Example-Driven Interconnect
|
||
|
Synthesis for Designing Heterogeneous Coarse-Grain Reconfigurable
|
||
|
Architectures. In Jan Haase, editor, \it Models, Methods, and Tools for Complex
|
||
|
Chip Design. Lecture Notes in Electrical Engineering. Volume 265, 2014, pp
|
||
|
201-221. Springer, 2013.}
|
||
|
|
||
|
\bigskip
|
||
|
\item I know several people that use Yosys simply as Verilog frontend for other
|
||
|
flows (using either the BLIF and BTOR backends).
|
||
|
|
||
|
\bigskip
|
||
|
\item I know some analog chip designers that use Yosys for small digital
|
||
|
control logic because it is simpler than setting up a commercial flow.
|
||
|
\end{itemize}
|
||
|
\end{frame}
|
||
|
|
||
|
\begin{frame}{\subsecname{} -- (2/2)}
|
||
|
\begin{itemize}
|
||
|
\item Efabless
|
||
|
\begin{itemize}
|
||
|
\smallskip \item Not much information on the website (\url{http://efabless.com}) yet.
|
||
|
\smallskip \item Very cheap 180nm prototyping process (partnering with various fabs)
|
||
|
\smallskip \item A semiconductor company, NOT an EDA company
|
||
|
\smallskip \item Web-based design environment
|
||
|
\smallskip \item HDL Synthesis using Yosys
|
||
|
\smallskip \item Custom place\&route tool
|
||
|
|
||
|
\bigskip
|
||
|
\item efabless is building an Open Source IC as reference design. \\
|
||
|
\hskip1cm (to be announced soon: \url{http://www.openic.io})
|
||
|
\end{itemize}
|
||
|
\end{itemize}
|
||
|
\end{frame}
|
||
|
|
||
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
||
|
|
||
|
\subsection{Supported Platforms}
|
||
|
|
||
|
\begin{frame}{\subsecname}
|
||
|
\begin{itemize}
|
||
|
\item Main development OS: Kubuntu 14.04
|
||
|
\item There is a PPA for ubuntu (not maintained by me)
|
||
|
\item Any current Debian-based system should work out of the box
|
||
|
\item When building on other Linux distributions:
|
||
|
\begin{itemize}
|
||
|
\item Needs compiler with some C++11 support
|
||
|
\item See README file for build instructions
|
||
|
\item Post to the subreddit if you get stuck
|
||
|
\end{itemize}
|
||
|
\item Ported to OS X (Darwin) and OpenBSD
|
||
|
\item Native win32 build with VisualStudio
|
||
|
\item Cross win32 build with MXE
|
||
|
\end{itemize}
|
||
|
\end{frame}
|
||
|
|
||
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
||
|
|
||
|
\subsection{Other Open Source Tools}
|
||
|
|
||
|
\begin{frame}{\subsecname}
|
||
|
\begin{itemize}
|
||
|
\item Icarus Verilog \\
|
||
|
\smallskip\hskip1cm{}Verilog Simulation (and also a good syntax checker) \\
|
||
|
\smallskip\hskip1cm{}\url{http://iverilog.icarus.com/}
|
||
|
|
||
|
\bigskip
|
||
|
\item Qflow (incl. TimberWolf, qrouter and Magic) \\
|
||
|
\smallskip\hskip1cm{}A complete ASIC synthesis flow, using Yosys and ABC \\
|
||
|
\smallskip\hskip1cm{}\url{http://opencircuitdesign.com/qflow/}
|
||
|
|
||
|
\bigskip
|
||
|
\item ABC \\
|
||
|
\smallskip\hskip1cm{}Logic optimization, technology mapping, and more \\
|
||
|
\smallskip\hskip1cm{}\url{http://www.eecs.berkeley.edu/~alanmi/abc/}
|
||
|
\end{itemize}
|
||
|
\end{frame}
|
||
|
|
||
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
||
|
|
||
|
\subsection{Yosys needs you}
|
||
|
|
||
|
\begin{frame}{\subsecname}
|
||
|
\dots as an active user:
|
||
|
\begin{itemize}
|
||
|
\item Use Yosys for on your own projects
|
||
|
\item .. even if you are not using it as final synthesis tool
|
||
|
\item Join the discussion on the Subreddit
|
||
|
\item Report bugs and send in feature requests
|
||
|
\end{itemize}
|
||
|
|
||
|
\bigskip
|
||
|
\dots as a developer:
|
||
|
\begin{itemize}
|
||
|
\item Use Yosys as environment for your (research) work
|
||
|
\item .. you might also want to look into ABC for logic-level stuff
|
||
|
\item Fork the project on github or create loadable plugins
|
||
|
\item We need a VHDL frontend or a good VHDL-to-Verilog converter
|
||
|
\end{itemize}
|
||
|
\end{frame}
|
||
|
|
||
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
||
|
|
||
|
\subsection{Documentation, Downloads, Contacts}
|
||
|
|
||
|
\begin{frame}{\subsecname}
|
||
|
\begin{itemize}
|
||
|
\item Website: \\
|
||
|
\smallskip\hskip1cm\url{http://www.clifford.at/yosys/}
|
||
|
|
||
|
\bigskip
|
||
|
\item Manual, Command Reference, Application Notes: \\
|
||
|
\smallskip\hskip1cm\url{http://www.clifford.at/yosys/documentation.html}
|
||
|
|
||
|
\bigskip
|
||
|
\item Instead of a mailing list we have a SubReddit: \\
|
||
|
\smallskip\hskip1cm\url{http://www.reddit.com/r/yosys/}
|
||
|
|
||
|
\bigskip
|
||
|
\item Direct link to the source code: \\
|
||
|
\smallskip\hskip1cm\url{https://github.com/cliffordwolf/yosys}
|
||
|
\end{itemize}
|
||
|
\end{frame}
|
||
|
|
||
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
||
|
|
||
|
\subsection{Summary}
|
||
|
|
||
|
\begin{frame}{\subsecname}
|
||
|
\begin{itemize}
|
||
|
\item Yosys is a powerful tool and framework for Verilog synthesis.
|
||
|
\item It uses a command-based interface and can be controlled by scripts.
|
||
|
\item By combining existing commands and implementing new commands Yosys can
|
||
|
be used in a wide range of application far beyond simple synthesis.
|
||
|
\end{itemize}
|
||
|
|
||
|
\bigskip
|
||
|
\bigskip
|
||
|
\begin{center}
|
||
|
Questions?
|
||
|
\end{center}
|
||
|
|
||
|
\bigskip
|
||
|
\bigskip
|
||
|
\begin{center}
|
||
|
\url{http://www.clifford.at/yosys/}
|
||
|
\end{center}
|
||
|
\end{frame}
|
||
|
|