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* /README.md derived from https://www.olimex.com/Products/DIY-Laptop/ * Moved DOCS/ to doc/ standard * Added TERES-A64-{BLACK,WHITE} images for docs * Added link to DIY kit purchase page * Add OLIMEX logo * Added images to /README.md; minor text revision * Moved TERES-I odt+pdf to doc/manuals/ * Create index.rst This file allows public documentation to be compiled and hosted at sites such as <proj>.readthedocs.io * Partial commit of web-based TERES-I manual * Added links from guide (index.rst) to /README.md * Added link to d/l manuals; fixed link typos * Fixed image links * Mis-labeled image title * Fixed image path * Changed to HTML for image size control * Added facebook+twitter svg light icons * Relinked facebook+twitter to light svg icons * Adding github+wordpress svg icons * Relinked to github+wordpress svg icons * Made icons into links; still have size issues * Added 50x50px icons * 50x50 pixel icons to addres sizing issue * Initial table of contents for DIY kit * Added kit inventory images * Remove duplicate image * Premature commit because my computer keeps crashing and losing my data * Iterative commit of docs as to be cautious * Another iterative commit * Last iterative commit for assembly walkthrough * Need a ! in front of images for them to appear
3.1 KiB
TERES-I Laptop
Overview
TERES-I is a Do-It-Yourself (DIY) Free/Open Source Hardware (FOSH) and Software (FOSS) laptop design leveraging ARM64 and x86 processors. DIY kits are ready-to-assemble using the instructions provided and may be found here.
- What is TERES-I?
- Where does the name come from?
- What makes this laptop different?
- Why does open-source matter so much?
- Where are the sources?
Hardware
Open-source hardware delivers transparency and freedom to the user (you) as you are able to tailor the PCBs according to your needs. You are able to add more processors, memories, etc. All of the hardware schematics and board files are designed using KiCad FOSS software.
KiCad is free software. KiCad is made available under the GNU General Public License(GPL) version 3 or greater.
All KiCad design files are available in this repository.
Different main board configurations: the first iterration comes with ARM64 and x86 and later MIPS architecture. Other architectures may follow. The concept is to make templates which others may use to customize so other SOCs can be used for a main board. TERES-I comes with 1376x768 LCD configuration. Future main boards aim at 1920x1080 pixels.
TERES-I is environmentally friendly. The main board may be upgraded without major revisions to the design, vastly reducing waste and time when new faster and better processors become available. Spare parts are also available for purchase.
Software
TERES-I primarily runs on Linux distributions, but Android and Windows are also possible.
Laptop Assembly
Assembling this DIY laptop you would probably learn a lot of new things. You can build it together with your kids or students, sparking interest in electronics and technology in general. You will know every bit of your laptop and will be able to fix if something doesn't suit your needs or gets damaged.