forked from M-Labs/artiq
doc: add overview slides
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\documentclass{beamer}
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\usepackage{marvosym}
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\usepackage{wasysym}
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\usepackage{siunitx}
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\usepackage{moreverb}
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\usepackage{lato}
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\definecolor{UniBlue}{RGB}{43,61,81}
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\definecolor{UniBlueHL}{RGB}{67,98,129}
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\definecolor{UniGreen}{RGB}{54,188,123}
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\renewcommand*{\familydefault}{fla}
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\renewcommand*{\sfdefault}{fla}
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\setbeamercolor{title}{fg=white}
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\setbeamercolor{frametitle}{fg=UniGreen}
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\setbeamercolor{structure}{fg=white}
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\setbeamercolor{normal text}{fg=white}
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\setbeamercolor{background canvas}{bg=UniBlue}
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\begin{document}
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\fontseries{l}\selectfont
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\title{ARTIQ}
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\subtitle{A new control system for trapped ion experiments}
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\author{\fontseries{el}\selectfont S\'ebastien Bourdeauducq}
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\date{\fontseries{el}\selectfont july 2014}
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\frame{\titlepage}
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\begin{frame}
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\frametitle{\fontseries{l}\selectfont Key points}
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\begin{itemize}
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\item High performance --- nanosecond resolution, hundreds of ns latency
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\item Expressive --- describe algorithms with few lines of code
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\item Portable --- treat FPGA boards as commodity
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\item Modular --- separate components as much as possible
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\item Flexible --- hard-code as little as possible
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\end{itemize}
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\end{frame}
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\begin{frame}
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\frametitle{\fontseries{l}\selectfont Kernels}
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\begin{itemize}
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\item The real-time parts of the experiments
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\item Written in a subset of Python
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\item Executed on a CPU embedded in a FPGA (\textit{core device})
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\item Special constructs to specify timing
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\end{itemize}
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\end{frame}
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\begin{frame}[fragile]
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\frametitle{\fontseries{l}\selectfont Timing}
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\begin{itemize}
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\item Exact time of interactions with the outside world is kept in an internal variable
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\item That variable only loosely tracks the execution time of CPU instructions
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\item The value of that variable is exchanged with the \textit{RTIO core} that does precise timing
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\end{itemize}
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\begin{verbatimtab}
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self.mains_sync.wait_edge()
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for i in range(10):
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delay(10*us)
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self.X.pulse(100*MHz, 100*us)
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\end{verbatimtab}
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\center First X pulse is emitted exactly \SI{10}{\micro\second} after mains edge
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\end{frame}
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\begin{frame}[fragile]
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\frametitle{\fontseries{l}\selectfont Parallel and sequential blocks}
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\begin{itemize}
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\item All statements in a \verb!parallel! block are executed at the same exact time
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\item A \verb!parallel! block can spawn a \verb!sequential! block, where exact time increases
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\item \verb!Parallel! and \verb!sequential! blocks can be arbitrarily nested
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\end{itemize}
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\begin{verbatimtab}
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with parallel:
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with sequential:
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self.a.pulse(100*MHz, 20*us)
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self.b.pulse(200*MHz, 20*us)
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with sequential:
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self.c.pulse(300*MHz, 10*us)
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self.d.pulse(400*MHz, 20*us)
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\end{verbatimtab}
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\end{frame}
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\begin{frame}[fragile]
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\frametitle{\fontseries{l}\selectfont Object orientation and code reuse}
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\begin{verbatimtab}
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class Main(MPO):
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def build(self):
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self.ion1 = Ion(...)
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self.ion2 = Ion(...)
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self.transporter = Transporter(...)
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@kernel
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def run(self):
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self.ion1.cool(duration=10*us)
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self.ion2.cool(frequency=...)
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self.transporter.move(speed=...)
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self.ion1.detect(duration=...)
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\end{verbatimtab}
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\end{frame}
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\begin{frame}[fragile]
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\frametitle{\fontseries{l}\selectfont Communication with the kernel}
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\begin{itemize}
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\item When the kernel function calls a non-kernel function, it generates a RPC
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\item The callee is executed on the host
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\item The callee may receive parameters from the kernel and may return a value to the kernel
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\item The kernel must have a loose real-time constraint (a long \verb!delay!) to cover communication and host delays
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\item Mechanism to report results and control slow devices
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\end{itemize}
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\end{frame}
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\begin{frame}
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\frametitle{\fontseries{l}\selectfont Kernel deployment process}
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\begin{enumerate}
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\item Constants and called kernels are inlined
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\item Loops are unrolled
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\item Statements from concurrent sequential blocks are interleaved. Threads are currently unsupported.
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\item Time is converted to RTIO clock units
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\item The Python AST is converted to LLVM IR
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\item The LLVM IR is compiled to OpenRISC machine code
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\item The OpenRISC binary is sent to the core device
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\item The runtime in the core device links and run the kernel
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\item The kernel calls the runtime for communication (RPC) and access to core device peripherals (RTIO, DDS)
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\end{enumerate}
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\end{frame}
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\begin{frame}[fragile]
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\frametitle{\fontseries{l}\selectfont Channels and parameters}
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\begin{itemize}
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\item A kernel is a method of a class that derives from the \verb!MPO! class
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\item The entry point for an experiment is called \verb!run! --- may or may not be a kernel
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\item The \verb!MPO! class manages channels and parameters, and sets them as attributes
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\item If channels/parameters are passed as constructor arguments, those are used
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\item Otherwise, they are looked up in the device and parameter databases
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\end{itemize}
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\end{frame}
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\end{document}
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