Moved education information to child page

README.md

@@ -9,8 +9,8 @@
 
 ## 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](https://www.olimex.com/Products/DIY-Laptop/KITS/).
+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.
+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/).
 
 * [What is TERES-I?](doc/web/intro_what-is-teres-i.md)
 * [Where does the name come from?](doc/web/intro_name-origin.md)
@@ -20,18 +20,11 @@ DIY kits are ready-to-assemble using the instructions provided and may be found
 
 ## 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](http://kicad-pcb.org) 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.
+All KiCad design files are available within the [HARDWARE](HARDWARE) directory within this repository.
 
 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.
@@ -39,23 +32,16 @@ Spare parts are also available for purchase.
 
 * [Introduction to the hardware of TERES-I](doc/web/hw_intro.md)
 * [What do you get in the package?](doc/web/hw_in-the-box.md)
+* [Assembling your TERES-I laptop](doc/web/hw_assembly.md)
 
 ## Software
 
-TERES-I primarily runs on Linux distributions, but Android and Windows are also possible.
+TERES-I was designed to run on Linux distributions, but may also run Android and Windows operating systems.
 
 * [Installing a fresh official image to TERES-I](doc/web/sw_fresh-os.md)
 * [Updating the image](doc/web/sw_updating-os.md)
 * [Building the software](doc/web/sw_building.md)
 
-## 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.
-
-* [How do I assemble my TERES-I?](doc/web/hw_assembly.md)
-
 ## Resources
 
 * [TERES-A64-WHITE](https://www.olimex.com/Products/DIY-Laptop/KITS/TERES-A64-WHITE/open-source-hardware)