%--*- latex -*----------------------------------------------------------------- %$Author: saulius $ %$Date: 2020-06-04 14:58:32 +0300 (Thu, 04 Jun 2020) $ %$Revision: 1524 $ %$URL: svn+ssh://saulius-grazulis.lt/home/saulius/svn-repositories/seminarai/2020-verifikacjos-seminarui/slides.tex $ %------------------------------------------------------------------------------ \documentclass[mathserif]{beamer} \usetheme{Warwick} \useoutertheme{infolines} \setbeamertemplate{headline}{} % removes the headline the infolines inserts %\setbeamertemplate{footline}[frame number] \renewcommand\familydefault{\rmdefault} % For XeLaTeX: % https://tex.stackexchange.com/questions/452151/how-do-i-render-the-word-v%C7%ABlundarkvi%C3%B0a-with-bookman-and-xelatex % "Use an OpenType clone of Bookman, for instance TeX Gyre Bonum": \usepackage{fontspec} \setmainfont{TeX Gyre Bonum} \usepackage[style=authoryear,maxnames=1,doi=true,url=true,backend=biber]{biblatex} %\addbibresource{bibliography/citations.bib} \addbibresource{bibliography/Chiang.bib} \addbibresource{bibliography/Groves.bib} \addbibresource{bibliography/Backus.bib} \addbibresource{bibliography/Brown.bib} \addbibresource{bibliography/LatticeSemiconductor.bib} \addbibresource{bibliography/Alom.bib} \addbibresource{bibliography/McCulloch.bib} \addbibresource{bibliography/Rosenblatt.bib} \addbibresource{bibliography/Caska.bib} \addbibresource{bibliography/Schoeberl.bib} \addbibresource{bibliography/Minsky.bib} \addbibresource{bibliography/FPGA-for-bioinformatics.bib} \addbibresource{bibliography/non-traditional.bib} \newcommand{\mycite}{\parencite} \usepackage{colordvi} \usepackage{graphicx} \usepackage{tikz} \usetikzlibrary{snakes} \usepackage{chemfig} \usepackage{listings} % https://en.wikibooks.org/wiki/LaTeX/Algorithms % http://mirror.datacenter.by/pub/mirrors/CTAN/macros/latex/contrib/algorithmicx/algorithmicx.pdf \usepackage{algpseudocode} \usepackage{algorithm} \usepackage{amssymb} \include{commands} \newcommand{\RCSid}[1]{\fontsize{7pt}{7pt}\selectfont $#1$ \today} %%BEGIN LANGUAGE lt \title{Netradicinės ir ateities architektūros} %%END LANGUAGE lt \author{Saulius Gražulis} \date{Vilnius, \the\year} % Define colors as in % https://venngage.com/blog/color-blind-friendly-palette/ ``Retro'' \definecolor{Bluish}{HTML}{63ACBE} \definecolor{Magentish}{HTML}{601A4A} \definecolor{Orangish}{HTML}{EE442F} \begin{document} \colorlet{IdentifierColor}{red!40!black} \colorlet{StringColor}{green!70!black} \colorlet{KwdColor}{Bluish} \colorlet{CommentColor}{Orangish} \colorlet{SignColor}{Bluish} \colorlet{ExponentColor}{Magentish} \colorlet{SignificandColor}{Orangish} \colorlet{SC}{SignColor} \colorlet{EC}{ExponentColor} \colorlet{FC}{SignificandColor} % a.k.a. ``Fraction Color'' %------------------------------------------------------------------------------ \begin{frame} \titlepage \input{affiliation_lt} \begin{center} \mbox{} \hfill\hfill\hfill \includegraphics[height=1.5cm]{images/sp_VU_zenklas.eps} \hfill \includegraphics[height=1.5cm]{images/2019-05-02_Melynas_MIF-zenklas242x244.png} \hfill\hfill\hfill \mbox{} \end{center} \vfill %% \tiny %% \RCSid{ %% $Id: slides.tex 1524 2020-06-04 11:58:32Z saulius $ %% } \begin{flushright} \begin{minipage}[c]{0.67\textwidth} \tiny\raggedright %%BEGIN LANGUAGE lt Šį skaidrių rinkinį galima kopijuoti, kaip nurodyta Creative Commons %%END LANGUAGE lt \myhref{http://creativecommons.org/licenses/by-sa/4.0/}{Attribution-ShareAlike 4.0 International} licenzijoje \end{minipage} %% \begin{minipage}[c]{1.5cm} \myhref{http://creativecommons.org/licenses/by-sa/4.0/}{ \includegraphics[width=1.5cm]{images/CC-BY-SA.eps} } \end{minipage} \end{flushright} \end{frame} %============================================================================== \begin{frame} \frametitle{ENIAC} ENIAC – had to be rewired... \begin{center} \includegraphics[width=8.5cm]{images/ENIAC/Eniac.jpg} \leftline{\scriptsize\myhref{https://commons.wikimedia.org/w/index.php?curid=55124}{U.S. Army Photo, Public Domain}} \end{center} \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{Harvardo/fon Noimano kompiuteriai} SSEM „Manchester Baby“ – first (?) stored program vacuum tube computer... \begin{center} \includegraphics[width=8cm]{images/Manchester-Baby/800px_SSEM_Manchester_museum_close_up.jpg} \leftline{\scriptsize By \myhref{https://commons.wikimedia.org/wiki/User:Parrot_of_Doom}{Parrot of Doom,} \myhref{https://creativecommons.org/licenses/by-sa/3.0}{CC BY-SA 3.0}, via \myhref{https://commons.wikimedia.org/wiki/File:SSEM_Manchester_museum_close_up.jpg}{Wikimedia Commons}} \end{center} \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{Von Neumann architecture bottleneck} \begin{center} \includegraphics<1>[height=2cm]{drawings/von-Neumann-architecture-bottleneck/von-Neumann.eps} \includegraphics<2>[height=2cm]{drawings/von-Neumann-architecture-bottleneck/von-Neumann-red.eps} \end{center} \begin{center} \includegraphics<1>[height=2cm]{drawings/von-Neumann-architecture-bottleneck/Harvard.eps} \includegraphics<2>[height=2cm]{drawings/von-Neumann-architecture-bottleneck/Harvard-red.eps} \end{center} \only<3>{ \vspace{-4\baselineskip} \begin{center} \includegraphics<3>[height=1.5cm]{drawings/von-Neumann-architecture-bottleneck/von-Neumann-red.eps} \end{center} \vspace{-1\baselineskip} \begin{center} \includegraphics[height=5.5cm,page=9,trim=0cm 16.5cm 0cm 3cm,clip]{bibliography/PDF/1995_Groves_147.pdf} \leftline{\scriptsize\mycite{Groves1995}} \end{center} } \only<4>{ \vspace{-5\baselineskip} \begin{center} \includegraphics[height=2cm]{drawings/von-Neumann-architecture-bottleneck/von-Neumann-red.eps} \end{center} \begin{quote} In its simplest form a von Neumann computer has three parts: a central processing unit (or CPU), a store, and a connecting tube that can transmit a single word between the CPU and the store (and send an address to the store). I propose to call this tube {\rm\bf the von Neumann bottleneck}. \end{quote} \rightline{\scriptsize John Backus, 1977 ACM Turing Award Lecture \mycite{Backus1978}} } \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{UMA} UMA: Uniform Memory Access \mycite{Groves1995} \begin{center} \includegraphics[width=12cm]{drawings/UMA/UMA.eps} \end{center} \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{UMA} NUMA: Non-Uniform Memory Access \mycite{Groves1995} \begin{center} \includegraphics<1>[width=12cm]{drawings/NUMA/NUMA.eps} \includegraphics<2>[height=7cm]{drawings/NUMA/NUMA.eps} \end{center} \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{NORMA} NORMA: No Remote Memory Access \mycite{Groves1995} \begin{center} \includegraphics[height=7cm]{drawings/NORMA/NORMA.eps} \end{center} \end{frame} %------------------------------------------------------------------------------ \lstset{ basicstyle=\tt\scriptsize, keywordstyle=\color{KwdColor}, commentstyle=\color{CommentColor}\ttfamily, identifierstyle=\color{IdentifierColor}, stringstyle=\color{StringColor}, } \begin{frame} \frametitle{Programming parallel machines} \small \begin{itemize} \item For NORMA/MUMA/UMA: MPI: Message Passing Interface (\mywebref{https://www.open-mpi.org/}) \item For NUMA/UMA: OpenMP: Open Multi-Processing API (\mywebref{https://www.openmp.org/}) \end{itemize} OpenMP example: \begin{minipage}[t]{0.5\textwidth} \lstinputlisting[language=C,frame=trLB,linerange={1-1,3-3,5-13,15-16}]{examples/OpenMP/loop.c} \end{minipage} \hspace{2em} \begin{minipage}[t]{0.4\textwidth} \lstinputlisting[language=bash,frame=trLB,morekeywords=fopenmp]{examples/OpenMP/compile.sh} \end{minipage} \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{Grafiniai procesoriai (GPU)} \mbox{ %% \fbox{ \includegraphics[width=5cm,page=2,trim=3cm 20cm 12cm 1.5cm, clip]{bibliography/PDF/2004_Buck_777.pdf} %% } \includegraphics[width=6.8cm,page=4,trim=1.5cm 4.2cm 2.5cm 11.5cm, clip]{bibliography/PDF/2008_Nickolls_40.pdf} } \mycite{Buck2004,Nickolls2008} \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{Grafinių procesorių programavimas} \begin{center} \mbox{ \begin{minipage}[c]{6cm} \includegraphics[width=\linewidth,page=6,trim=1.6cm 9.85cm 11cm 13.35cm, clip]{bibliography/PDF/2008_Nickolls_40.pdf} \end{minipage} \begin{minipage}[c]{5.5cm} \includegraphics[width=\linewidth,page=6,trim=1.6cm 3.75cm 11cm 18.30cm, clip]{bibliography/PDF/2008_Nickolls_40.pdf} \end{minipage} } \end{center} \mycite{Nickolls2008} \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{Brain wiring} \begin{center} \includegraphics[width=10cm]{images/www.flycircuit.tw/female.jpg} \leftline{\scriptsize\mywebref{http://www.flycircuit.tw} \mycite{Chiang2011}} \end{center} \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{Neuron models} \small McCulloch–Pitts neuron \mycite{McCulloch1943,Alom2018}: \begin{center} \parbox[c]{4cm}{ \includegraphics[width=\linewidth,trim=11.3cm 11.3cm 6cm 14.9cm,clip]{bibliography/PDF/1943_McCulloch_115_p7.pdf} } \hspace{1em} \parbox[c]{5cm}{ \includegraphics[width=\linewidth]{drawings/neurons/neuron-schema.eps} } \end{center} $$ f(x_1, x_2, \dots, x_n) = \varphi \left( b + \sum_{i=1}^{n} w_i x_i \right) $$ \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{Neural Networks} \begin{center} \includegraphics[width=10cm]{drawings/neural-network/neural-network.eps} \end{center} \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{Neurons as logic gates} \begin{center} \includegraphics[width=10cm,trim=5cm 17.5cm 5cm 5.5cm,clip]{bibliography/PDF/1967_Minsky_Finite_and_Infinite_machines_p35.pdf} \hspace{-2cm} \raisebox{1.8cm}{ \parbox{2.5cm}{ \includegraphics[width=\linewidth]{drawings/logic-gates/AND-gate-A0-B0.png} \includegraphics[width=\linewidth]{drawings/logic-gates/OR-gate-A0-B0.png} } } \end{center} \leftline{\scriptsize\mycite{Minsky1967}} \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{Perceptron} \small \begin{center} \begin{tabular}{cc} \parbox{5.5cm}{ \raggedright Frank Rosenblatt's \mbox{Perceptron}\\ \mycite{Rosenblatt1957}: } & \parbox{4cm}{ \raggedright Deep learning ANNs \mycite{Alom2018}: } \\ \parbox[c]{4cm}{ \vspace{\baselineskip} \includegraphics[width=\linewidth]{images/Perceptron/en.wikipedia.org/Mark_I_perceptron.jpeg} \vspace{0.2\baselineskip} } & \parbox[c]{6cm}{ \includegraphics[width=\linewidth,page=12,trim= 2.2cm 22.7cm 11cm 2cm,clip]{bibliography/PDF/2018_Alom_1.pdf} } \\ Single layer & Multilayer \end{tabular} \end{center} \leftline{ \scriptsize Single layer can not do XOR: \mycite{Minsky1969}} \end{frame} %------------------------------------------------------------------------------ %% \begin{frame} %% %%LANGUAGE en \frametitle{PLD-PAL} %% %%LANGUAGE lt \frametitle{PLD-PAL} %% %%LANGUAGE ru \frametitle{PLD-PAL} %% %% \begin{center} %% \includegraphics[width=8cm]{images/PLD-PAL/Programmable_Logic_Device.eps} %% \end{center} %% \leftline{\scriptsize %% \myhref{https://en.wikipedia.org/wiki/User:DnetSvg}{DnetSvg}, %% Public domain, via %% \myhref{https://commons.wikimedia.org/wiki/File:Programmable_Logic_Device.svg}{Wikimedia %% Commons}} %% %% \end{frame} %% %% %------------------------------------------------------------------------------ %% %% \begin{frame} %% %%LANGUAGE en \frametitle{PLA} %% %%LANGUAGE lt \frametitle{PLA} %% %%LANGUAGE ru \frametitle{PLA} %% %% \begin{center} %% \includegraphics[width=6cm]{images/PLA/Programmable_logic_array_example.eps} %% \end{center} %% \leftline{\scriptsize %% \myhref{https://commons.wikimedia.org/w/index.php?title=User:Ilia_Kr.&action=edit&redlink=1}{Ilia %% Kr.}, \myhref{https://creativecommons.org/licenses/by-sa/3.0}{CC %% BY-SA 3.0}, via %% \myhref{https://commons.wikimedia.org/wiki/File:Programmable_logic_array_(schematic_drawing_example).svg}{Wikimedia %% Commons}} %% %% \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{FPGA} \begin{center} \includegraphics<1>[height=7cm]{drawings/FPGA/FPGA-concept.eps} \includegraphics<2>[height=7cm]{drawings/FPGA/FPGA-concept-connected.eps} \end{center} \leftline{\scriptsize Adapted from \mycite{Brown2000}} \end{frame} \begin{frame} \frametitle{Lattice Semiconductor FPGA} \begin{center} \includegraphics<1>[height=7cm,page=4,trim=3.7cm 10.6cm 3cm 7cm,clip]{bibliography/PDF/iCE40LPHXFamilyDataSheet.pdf} \includegraphics<2>[height=7cm,page=5,trim=3.7cm 13.5cm 3cm 5cm,clip]{bibliography/PDF/iCE40LPHXFamilyDataSheet.pdf} \includegraphics<3>[height=6cm,page=9,trim=3.7cm 12cm 3cm 8.5cm,clip]{bibliography/PDF/iCE40LPHXFamilyDataSheet.pdf} \end{center} \leftline{\scriptsize \mycite{LatticeSemiconductor2017}} \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{FPGA ANN} \begin{quote} This reference design implements \myhref{https://www.latticesemi.com/Products/DesignSoftwareAndIP/IntellectualProperty/IPCore/IPCores04/CNN}{Convolutional Neural Network} (CNN) based human face identification on Lattice’s low power \myhref{https://www.latticesemi.com/Products/FPGAandCPLD/ECP5}{ECP5} FPGA using an image sensor. \end{quote} \rightline{\scriptsize\myhref{https://www.latticesemi.com/products/designsoftwareandip/intellectualproperty/referencedesigns/referencedesign04/humanfaceidentification}{Lattice Semiconductor Reference Designs}} Features: \begin{itemize} \item VGG8 like – 8x (Convolution, Batch Normalisation) + 4x Pooling + 1 fully connected CNN \item Runs at 2 frames per second with 90 x 90 RGB Input \item Total ECP5 power consumption of 850mW \end{itemize} \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{CPU in FPGA} CPUs can be implemented in FPGA: \begin{center} \includegraphics[width=11cm,page=2,trim=3cm 20cm 2cm 1cm,clip]{bibliography/PDF/2011_Caska_1.pdf} \end{center} \leftline{\scriptsize\mycite{Caska2011,Schoeberl2011}} \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{Hardware description languages} \begin{itemize} \item Verilog (\mywebref{https://en.wikipedia.org/wiki/Verilog}) \item VHDL (\mywebref{https://en.wikipedia.org/wiki/VHDL}) \item Chissel (\mywebref{https://www.chisel-lang.org/}) \end{itemize} Project stages/system capabilities \begin{enumerate} \item Describe \item Simulate \item Verify \item Synthesise (for FPGA or Silicon foundry) \end{enumerate} \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{Verilog example} \parbox[t]{0.5\textwidth}{ \lstinputlisting[language=verilog,basicstyle=\tt\tiny]{examples/Verilog/rng/rng-no-commented-code-no-spaces.v} } % \hspace{-2cm} \only<2>{ \parbox[t]{0.6\textwidth}{ \lstinputlisting[language=bash,basicstyle=\tt\tiny,frame=tlBR]{examples/Verilog/rng/synthesis-and-upload.log} } } \only<3>{ \parbox[t]{0.6\textwidth}{ \raisebox{-2cm}{ \colorbox{white}{ \lstinputlisting[language=bash,basicstyle=\tt\tiny,frame=trBL]{examples/Verilog/rng/rng-simulate-iverilog.log} } } } } \leftline{\scriptsize\mywebref{https://github.com/RGD2/icestorm\_example}} \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{Open Cores} \small \mywebref{https://opencores.org/} \begin{center} \includegraphics[height=7cm]{images/opencores/opencores-2021-01-04.png} \end{center} \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{FPGA for bioinformatics} \begin{itemize} \item Hall, A. Short-Read DNA Sequence Alignment with Custom Designed FPGA-based Hardware \mycite{Hall2010}; \item FPGA based molecular dynamics: \mycite{Khan2012,Yang2019b,Waidyasooriya2016}. \end{itemize} \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{Cell Matrix} \begin{center} \includegraphics<1>[height=6cm,page=12,trim=3cm 7.9cm 3cm 7.15cm,clip]{bibliography/PDF/datasheets/Cell-Matrix/mod88.pdf} \includegraphics<2>[height=6cm,page=11,trim=3cm 7.9cm 3cm 7.15cm,clip]{bibliography/PDF/datasheets/Cell-Matrix/mod88.pdf} \end{center} \leftline{\scriptsize\mywebref{https://cellmatrix.com/entryway/entryway/branchAbout.html}} \leftline{\scriptsize\mywebref{https://www.cellmatrix.com}} \end{frame} %------------------------------------------------------------------------------ %% \begin{frame} %% %%LANGUAGE en \frametitle{Neuromorphic computers/sensors} %% %%LANGUAGE lt \frametitle{Neuromodfiniai komputeriai/jutikliai} %% %% Neuromorphic vision: %% %% \mycite{Indiveri2000,Zhou2023} %% %% \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{Sistoliniai procesoriai} \begin{center} \includegraphics[width=5.4cm,page=2,trim=1cm 2.5cm 10cm 19cm,clip]{bibliography/PDF/1982_Kung_37.pdf} \includegraphics[width=6cm,page=1,trim=11.2cm 6.4cm 4cm 17.2cm,clip]{bibliography/PDF/2002_Sinha_460.pdf} \end{center} \mycite{Kung1982,Sinha2002} \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{Duomenų perdavimu paremtos architektūros} \begin{center} \includegraphics[width=5cm,page=2,trim=11.5cm 23cm 1.5cm 1.5cm,clip]{bibliography/PDF/2002_Heikkinen_87.pdf} \includegraphics[width=6cm,page=4,trim=3cm 22.3cm 11cm 2.0cm,clip]{bibliography/PDF/2002_Heikkinen_87.pdf} \end{center} \mycite{Janssen2001,Heikkinen2002} \end{frame} %------------------------------------------------------------------------------ \begin{frame} \frametitle{Other possibilities...} \begin{itemize} \item Cellular automata (e.g. J. H. Conway's ``Life''); Turing complete! \item DNA data storage \item DNA computing \end{itemize} \end{frame} %------------------------------------------------------------------------------ %% %% \begin{frame} %% %%LANGUAGE en \frametitle{Cellular automata} %% %%LANGUAGE lt \frametitle{Cellular automata} %% %%LANGUAGE ru \frametitle{Cellular automata} %% %% Cellular automata machines. Von Neumann, self replicating %% machines. Norman Margolus, CAM-6. S. Wolfram. %% %% Conway (?). Life. Turing complete. %% %% 1D automata; Rule 110 is Turing complete. %% %% Firing Squad problem. %% %% \end{frame} %% %% %------------------------------------------------------------------------------ %% %% \begin{frame} %% %%LANGUAGE en \frametitle{Data Flow Computers} %% %%LANGUAGE lt \frametitle{Data Flow Computers} %% %%LANGUAGE ru \frametitle{Data Flow Computers} %% %% \end{frame} %% %% %------------------------------------------------------------------------------ %% %% \begin{frame} %% %%LANGUAGE en \frametitle{DNA computing} %% %%LANGUAGE lt \frametitle{DNA computing} %% %%LANGUAGE ru \frametitle{DNA computing} %% %% \end{frame} %% %% %------------------------------------------------------------------------------ %% %% \begin{frame} %% %%LANGUAGE en \frametitle{Quantum computing} %% %%LANGUAGE lt \frametitle{Quantum computing} %% %%LANGUAGE ru \frametitle{Quantum computing} %% %% \end{frame} %% %% %------------------------------------------------------------------------------ %% %% \begin{frame} %% %%LANGUAGE en \frametitle{Microcontrollers} %% %%LANGUAGE lt \frametitle{Microcontrollers} %% %%LANGUAGE ru \frametitle{Microcontrollers} %% %% \end{frame} %------------------------------------------------------------------------------ \begin{frame}[allowframebreaks] \frametitle{Šaltiniai} \setmainfont{Liberation Serif} \renewcommand{\bibfont}{\scriptsize} \printbibliography \end{frame} %------------------------------------------------------------------------------ \end{document} % 2024-12-23 18:28:50 EET