freechips/slides/index.html

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          # Free Chips

          Pierre, _gnugen_, 3.5.2023
          
          ![gnugen logo](img/gnugen.svg)

        </section>
        <section>
        
           <h2>A bit of context</h2>
          
           <img src="img/circuit.jpg" width="30%">
           <img src="img/chips.jpg" width="30%">
           <img src="img/dye.jpg" width="30%">

        </section>
        <section>
        
           <h2>More context</h2>
          
           <img src="img/macro.jpg" width="50%">

        </section>
        <section>
          <h2>Wik'history</h2>
          <ul>
          <li><b>1958</b> - First IC (Jack Kilby, <em>Texas Instruments</em>) 🤖</li>
          <li><b>1973</b> - SPICE is born! (Laurence Nagel, <em>California</em>) 🔥</li>
          <li><b>1981</b> - EDA becomes an industry 🏭</li>
          <li><b>1984</b> - First FPGA is born! (<em>Altera</em>) ♻️</li>
          <li><b>1994</b> - First generation of HLS (<em>Synopsys</em>) 🪄</li>
          <li><b>2018</b> - Open-source RTL2GDSII flow (<em>OpenROAD</em>) 🚀</li>
          </ul>
          <p class="fragment fade-up"><b>Ready to install 50 years of history in 10 minutes?</b></p>
        </section>
        <section>
          <h2>More Wik'history</h2>
          
          <p>Available technologies are <b>180nm</b> (<em>GlobalFoundries</em>), <b>130nm</b> (<em>SkyWater</em>)  and <b>90nm</b> (<em>SkyWater</em>, FDSOI).</p>
          
          <p>First used in the industry between 1999 and 2003. Old but cheap.</p>
          
          <p class="fragment fade-up"><b>Keep in mind that performance can be traded off!</b></p>
        </section>
        <section data-markdown>
          ## Why to Open Source?
          
          * No license 📜
          * No restriction ⛔
          * No NDA 🤐
          
        </section>
        <section data-markdown>
          ## Why to Open Source?
          
          * No integration overhead 🪢
          * No knowledge overhead 🧠
          * No strategical overhead 👑
          * No compliance overhead 🦺
          
          > Streamlined workflow makes engineers (at least me) happy.
        </section>
        <section data-markdown>
          ## Now give real reasons!
          
          Silicon is a **basic commodity**.
          
          _Politicians sometimes forget this..._
          
          * You can go into politics. 🗳️
          * You can go into low techs. 🚵
          * You can go into free chips. 🎀
          
          **🫵 You can also do the three. 🫵**
        </section>
        
        <section data-markdown>
          ## Quick Landsgemeinde
          

          > Who wants overhead?

          > Who wants reproducibility?

          > Who wants to reinvent the wheel?

          > Who wants to keep their IP?

        </section>
        
        <section data-markdown data-background='img/hype.jpg'>
          ## 🤩 Are you hyped enough? 🫨
          
          * Some technical bits
          * Practical work (if ya fancy 😊)
        </section>
        </section>
			  <section data-background='img/back.svg'>
        <section data-markdown>
           # Some technical bits
           
           * Meet the Process Design Kit (PDK)
           * Check out the workflows
           * Addition contextual knowledge (Rules & MOSFETs)

        </section>
        <section>
        
           <h2>Hello Sky130!</h2>
          
           <img style="background-color:white;" src="img/sky130_stack.svg" height="500vh">

        </section>
        <section>
        
           <h2>Semicustom workflow</h2>
          
           <img style="background-color:white;" src="img/semicustom.svg" height="500vh">

        </section>
        <section>
        
           <h2>Fullcustom workflow</h2>
          
           <img style="background-color:white;" src="img/fullcustom.svg" height="500vh">

        </section>
        <section>
        
           <h2>Related knowledge: Rules</h2>
          
           <img style="background-color:white;" src="img/constraints.svg" height="500vh">

        </section>
        <section>
        
           <h2>Related knowledge: MOSFETs</h2>
          
           <img style="background-color:white;display:inline-block;vertical-align: middle;" src="img/fet-cross.svg" height="350vw">
           <img style="background-color:white;display:inline-block;vertical-align: middle;" src="img/fet-floor.png" height="350vh">

        </section>
        </section>
			  <section data-background='img/back.svg'>
        <section data-markdown>
           # Practical work
           
           ```sh
           # 🐂/🐧 + 🍏 + 🪟  (Ubuntu 22.04.2 LTS under WSL)
           git clone https://forge.slowte.ch/workshops/freechips.git
           
           # 🐋
           docker build --tag freechips https://forge.slowte.ch/workshops/freechips.git#main
           docker run --interactive --publish 1853:1853 --tty --network=host freechips
           ```

        </section>
        <section data-markdown>
           ## Semicustom digital design
           
           ```sh
           # Prepare the conda environment
           cd semicustom
           conda env create # Already fulfilled under the docker build
           conda activate semicustom
           
           # Launch the jupyter notebook
           jupyter-notebook # When using GNU/Linux, MacOS, WSL
           jupyter-notebook --ip 0.0.0.0 --port 1853 --no-browser --allow-root
           ```

        </section>
        <section data-markdown>
           ## Fullcustom digital design
           
           ```sh
           # Prepare the conda environment
           cd fullcustom
           conda env create # Already fulfilled under the docker build
           conda activate fullcustom
           
           # Launch the jupyter notebook
           jupyter-notebook # When using GNU/Linux, MacOS, WSL
           jupyter-notebook --ip 0.0.0.0 --port 1853 --no-browser --allow-root
           ```

        </section>
        </section>
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        <section data-markdown>
           # Sources
           
           ```
[1] « 90 nm process », Wikipedia. 10 janvier 2023. Consulté le: 10 avril 2023. [En ligne]. Disponible sur: https://en.wikipedia.org/w/index.php?title=90_nm_process&oldid=1132820400
[2] « 130 nm process », Wikipedia. 19 décembre 2022. Consulté le: 10 avril 2023. [En ligne]. Disponible sur: https://en.wikipedia.org/w/index.php?title=130_nm_process&oldid=1128389908
[3] « 180 nm process », Wikipedia. 19 décembre 2022. Consulté le: 10 avril 2023. [En ligne]. Disponible sur: https://en.wikipedia.org/w/index.php?title=180_nm_process&oldid=1128389505
[4] « Electronic design automation », Wikipedia. 4 avril 2023. Consulté le: 10 avril 2023. [En ligne]. Disponible sur: https://en.wikipedia.org/w/index.php?title=Electronic_design_automation&oldid=1148158141
[5] M. Granger, English:  « Tyrrells hand-cooked vegetable crisps - veg crisps - parsnip, beetroot & carrot crisps with sea salt » according to the packaging. Sold in the United Kingdom. 2021. Consulté le: 10 avril 2023. [En ligne]. Disponible sur: https://commons.wikimedia.org/wiki/File:Tyrrells_veg_crisps_1.jpg
[6] F. Fritz, English:  AMD@7nm@Zen2_RDNA_APU@Oberon@PlayStation5@CXD90060GG_100-000000189_WM33440U00089_S___DSCx9_poly@5xLED Fritzchens Fritz die photo. 2021. Consulté le: 10 avril 2023. [En ligne]. Disponible sur: https://commons.wikimedia.org/wiki/File:Via@16nm@Centaur_Technology@CHA_SoC@CNS_NCORE_DSC08626-DSC08626_12.jpg
[7] Epop, English:  Integrated circuit MC1488D from Signetics Corporation : Quad Line EIA-232D Driver. 2013. Consulté le: 10 avril 2023. [En ligne]. Disponible sur: https://commons.wikimedia.org/wiki/File:MC1488D_S_KME4828_9206KJ.jpg
[8] K. Palosaari, English:  Three 4016 ICs, manufactured by ST Microelectronics. 2006. Consulté le: 10 avril 2023. [En ligne]. Disponible sur: https://commons.wikimedia.org/wiki/File:Three_IC_circuit_chips.JPG
[9] hello@bgjar.com, « Free svg background generator », BGJar. https://bgjar.com/ (consulté le 10 avril 2023).
[10] J. Helebrant, microphoto of some electronics circuit board. 2021. Consulté le: 10 avril 2023. [En ligne]. Disponible sur: https://commons.wikimedia.org/wiki/File:Electronics_PCB_circuit_board_003_(51131861191).jpg
[11] J. Helebrant, microphoto of some electronics circuit board. 2021. Consulté le: 10 avril 2023. [En ligne]. Disponible sur: https://commons.wikimedia.org/wiki/File:Electronics_PCB_circuit_board_007_(51132658884).jpg

           ```

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