Placed hardware detail within the HARDWARE dir
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# DIY-LAPTOP
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Do It Yourself Open Source Hardware and Software Modular Hacker's Friendly Laptop
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# Hardware
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## Overview
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All hardware schematics and board files are designed using [KiCad](http://kicad-pcb.org) open-source CAD software.
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> KiCad is free software. KiCad is made available under the GNU General Public License(GPL) version 3 or greater.
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All KiCad design files are available within the [HARDWARE](HARDWARE) directory within this repository.
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You may download KiCad* and open for reviewing or editing each of the PCB files.
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The schematics are also available as PDF files for easier viewing and/or printing.
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**NOTE**: Make sure to download the latest KiCad nightly development build.
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The latest stable build may not have the features required.
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## Introduction to the hardware of TERES-I
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The TERES-I electronics part consists of five boards:
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### Main board (PCB1-A64-MAIN)
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The main board (PCB1-A64-MAIN) contains:
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* A64 processor
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* RAM and flash NAND memories
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* Power management unit
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* LCD converter
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* Connectors to different interfaces
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* and others
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It looks like this:
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![Main Board with Labels](../images/TERES-I/hardware/PCB-A64-MAIN-labeled.jpg "Main Board with Labels")
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We expect to release extra main boards with different processors and memory configurations in the future.
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These should work with all other existing boards.
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It is expected newer main boards to have higher laptop speed and improved memory performance.
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### Keyboard controller (TERES-PCB5-KEYBOARD)
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The **KEYBOARD controller** board (**TERES-PCB5-KEYBOARD**) is responsible for handling the keyboard and touch pad interfaces.
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This keyboard controller board allows you to completely reprogram the keyboard mapping and response according to your own taste.
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The TERES-PCB5-KEYBOARD contains an AVR processor.
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Sources, binaries and update procedures for the AVR firmware are available at GitHub.
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You can update the firmware of the keyboard/touch controller live on the board itself.
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It can also be programmed via an Arduino microcontroller.
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Touch screen parameters can also be changed.
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![Keyboard PCB with Labels](../images/TERES-I/hardware/TERES-PCB5-KEYBOARD-labeled.jpg "Keyboard PCB with Labels")
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### I/O board (TERES-PCB2-IO)
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The **IO** board (**TERES-PCB2-IO**) contains the USB connector, headphone/debug connector, SD card, speaker connector and microphone.
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![Power Button PCB with Labels](../images/TERES-I/hardware/TERES-PCB2-IO-labeled.jpg "Power Button PCB with Labels")
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### Power button (PCB4-PWR-BTN)
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The **PWR** button board (**PCB4-PWR-BTN**) handles the keys for powering on and off the laptop.
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### Touch buttons (TERES-PCB3-TOUCH-BTN)
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The **TOUCH** buttons board (**TERES-PCB3-TOUCH-BTN**) contains two buttons for left and right mouse click emulation.
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![Touch Button PCB](../images/TERES-I/hardware/TERES-PCB3-TOUCH-BTN.jpg "Touch Button PCB")
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27
README.md
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README.md
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## Overview
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TERES-I is a Do-It-Yourself (DIY) Free/Open Source Hardware ([FOSH](https://wikipedia.org/wiki/Open-source_hardware)) and Software ([FOSS](https://wikipedia.org/wiki/Free_and_open-source_software)) laptop design leveraging ARM64 and x86 processors.
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DIY kits are ready-to-assemble using the [instructions provided](doc/web/hw_assembly.md) and may be purchased [here](https://www.olimex.com/Products/DIY-Laptop/KITS/).
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DIY kits are ready-to-assemble using the [instructions provided](doc/web/hw_assembly.md) and may be purchased [here](https://www.olimex.com/Products/DIY-Laptop/KITS).
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* [What is TERES-I?](doc/web/intro_what-is-teres-i.md)
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* [Where does the name come from?](doc/web/intro_name-origin.md)
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@ -18,22 +18,17 @@ DIY kits are ready-to-assemble using the [instructions provided](doc/web/hw_asse
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* [Why does open-source matter so much?](doc/web/intro_importance-of-open-source.md)
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* [Where are the sources?](doc/web/intro_sources.md)
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## Hardware
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## Assembling your TERES-I
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All of the hardware schematics and board files are designed using [KiCad](http://kicad-pcb.org) FOSS software.
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> KiCad is free software. KiCad is made available under the GNU General Public License(GPL) version 3 or greater.
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All KiCad design files are available within the [HARDWARE](HARDWARE) directory within this repository.
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TERES-I is environmentally friendly.
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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.
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Spare parts are also available for purchase.
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* [Introduction to the hardware of TERES-I](doc/web/hw_intro.md)
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* [What do you get in the package?](doc/web/hw_in-the-box.md)
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* [Assembling your TERES-I laptop](doc/web/hw_assembly.md)
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## Hardware
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* [TERES-A64-WHITE](https://www.olimex.com/Products/DIY-Laptop/KITS/TERES-A64-WHITE/open-source-hardware)
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* [TERES-A64-BLACK](https://www.olimex.com/Products/DIY-Laptop/KITS/TERES-A64-BLACK/open-source-hardware)
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* [Spare parts](https://www.olimex.com/Products/DIY-Laptop/SPARE-PARTS/)
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## Software
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TERES-I was designed to run on Linux distributions, but may also run Android and Windows operating systems.
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@ -42,11 +37,7 @@ TERES-I was designed to run on Linux distributions, but may also run Android and
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* [Updating the image](doc/web/sw_updating-os.md)
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* [Building the software](doc/web/sw_building.md)
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## Resources
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* [TERES-A64-WHITE](https://www.olimex.com/Products/DIY-Laptop/KITS/TERES-A64-WHITE/open-source-hardware)
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* [TERES-A64-BLACK](https://www.olimex.com/Products/DIY-Laptop/KITS/TERES-A64-BLACK/open-source-hardware)
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* [Spare parts](https://www.olimex.com/Products/DIY-Laptop/SPARE-PARTS/)
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## Other resources
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* [FAQ](doc/web/res_faq.md)
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* [Troubleshooting](doc/web/res_troubleshooting.md)
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@ -1,49 +0,0 @@
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# Introduction to the hardware of TERES-I
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The TERES-I electronics part consists of five boards.
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Each board was designed with [KiCad](http://kicad-pcb.org/) open source CAD software.
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You may download KiCad* and open for reviewing or editing each of the PCB files.
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The schematics are also available as PDF exports for easier viewing.
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**NOTE**: Make sure to download the latest KiCad nightly development build.
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The latest stable build may not have the features required.
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The MAIN board (PCB1-A64-MAIN) contains:
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* A64 processor
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* RAM and flash NAND memories
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* Power management unit
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* LCD converter
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* Connectors to different interfaces
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* and others
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It looks like this:
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![Main Board with Labels](../images/TERES-I/hardware/PCB-A64-MAIN-labeled.jpg "Main Board with Labels")
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We expect to release extra main boards with different processors and memory configurations in the future.
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These should work with all other existing boards.
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It is expected newer main boards to have higher laptop speed and improved memory performance.
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|
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The KEYBOARD controller board (TERES-PCB5-KEYBOARD) has an AVR processor.
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You can update the firmware of the keyboard/touch controller live on the board itself.
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It can also be programmed via an Arduino microcontroller.
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This board is responsible for handling the keyboard and touch pad interfaces.
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![Keyboard PCB with Labels](../images/TERES-I/hardware/TERES-PCB5-KEYBOARD-labeled.jpg "Keyboard PCB with Labels")
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Sources, binaries and update procedures for the AVR firmware are available at GitHub.
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This keyboard controller board allows you to completely reprogram the keyboard mapping and response according to your own taste.
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The touch screen parameters can also be changed.
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The **IO** board (**TERES-PCB2-IO**) contains the USB connector, headphone/debug connector, SD card, speaker connector and microphone.
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![Power Button PCB with Labels](../images/TERES-I/hardware/TERES-PCB2-IO-labeled.jpg "Power Button PCB with Labels")
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The **PWR** button board (**PCB4-PWR-BTN**) handles the keys for powering on and off the laptop.
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The **TOUCH** buttons board (**TERES-PCB3-TOUCH-BTN**) contains two buttons for left and right mouse click emulation.
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![Touch Button PCB](../images/TERES-I/hardware/TERES-PCB3-TOUCH-BTN.jpg "Touch Button PCB")
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@ -16,8 +16,10 @@ We already have several ideas in mind.
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One of them is to expand the laptop capabilities with an FPGA module so it can act as a digital storage oscilloscope, and a logic analyzer, turning it into a powerful portable laboratory instrument.
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These FPGA expansion modules are currently work-in-progress and you can follow the development on web site at [www.olimex.com](https://www.olimex.com).
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Another advantage is that all the components of the laptop are available for purchase separately, so if a part fails you can replace just the broken part.
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TERES-I is environmentally friendly.
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All components of the TERES-I are available for individual purchase, so you can replace just the broken part if one were to fail.
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This lowers the maintenance costs and helps reducing the electronics waste.
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The main board may also be upgraded without major revisions to the design, vastly reducing waste and time when new faster and better processors become available.
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There are educational benefits in getting TERES-I – you can assemble it with your children and teach them about electronics or how computers work.
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Children may learn about basic computing components, how things are assembled together, and are able to learn to conduct repairs in case something goes wrong.
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