Embedded Open Modular Architecture/EOMA68
NOTE TO WIKIPEDIA EDITORS AND WIKIPEDIA READERS REGARDING FALSE AND MISLEADING INFORMATION ON WIKIPEDIA
A Wikipedia page covering the EOMA68 Standard was created recently and is being edited by people who have clearly not read the standard nor are familiar with the standard's background. In a little under two weeks at the time of writing there have been no less than SIX separate individuals providing false and misleading statements. The page on the site known as "Wikipedia" is NOT AUTHORITATIVE: considerable effort is being expended to ensure that factually inaccurate statements are not made, however at any one time there may be another editor who has, once again, not read the standard, edited the page without thinking of the consequences, and thus brought both EOMA68 and Wikipedia into disrepute as a direct result. If you intend to edit the page on Wikipedia and are unsure of any facts CONSULT THE AUTHOR OF THIS STANDARD. Update 26sep2016: the false and misleading page has been moved to a user page and is currently being developed in a safe environment that clearly carries no implicit "authority" - not that the Wikipedia page will ever be granted "authority"
Table of contents
- 1 NOTE TO WIKIPEDIA EDITORS AND WIKIPEDIA READERS REGARDING FALSE AND MISLEADING INFORMATION ON WIKIPEDIA
- 2 Table of contents
- 3 Glossary of Terms
- 4 EOMA68 Introduction
- 5 External Considerations
- 6 EOMA68 Hardware-related Specification
- 7 EOMA68 Software / OS Requirements
- 8 Example Housings
- 9 Contact and Discussion
- 10 Slides
- 11 FAQ
Glossary of Terms
- EOMA68: name of the standard (not EOMA-68). stands for "an Embedded Open Modular Architecture Standard (68 pin connector variant)".
- EOMA68-<designation>: recommended unique naming convention for Cards that implement the EOMA68 standard. Examples: EOMA68-A20 (contains an Allwinner A20 SoC). EOMA68-jz4775 (contains an Ingenic jz4775).
- Housings: a "base board" into which (one or more) EOMA68 Cards can be plugged. similar to a "motherboard" but "motherboard" is subtly misleading (motherboards typically allow CPU and RAM to be replaced: EOMA68 Cards are where the entire computer is typically housed). previous names used during the development of EOMA68 include "Dock" and "Chassis" - both now deprecated.
- Card: short-hand for "EOMA68 Card". It slots into "Housings". may contain a fully-functioning computer (Single-Board Computer), but legitimate implementations of the EOMA68 Standard include FPGA Cards and something known as a "Pass-through" Card.
- MIC: stands for "Manufacturer Identification Code", similar to USB and PCI Manufacturer Identification codes. Currently defined as 4 bytes in length, and present in the EOMA68 I2C EEPROM.
The primary purpose of the EOMA68 specification is to bring end-users the right to upgrade their own mass-produced Computing Appliances. To make end-users lives easier, purchasing decision-making should be made not on technical interface capabilities, neither should they be expected to have significant technological expertise. This is the primary reason why EOMA specifications have no optional interfaces of any kind. The tag-line is "Just Plug It In: It Will Work". To achieve this level of simplicity for the lifetime of the specification (anticipated to be at least a decade) all Cards compliant with the EOMA68 specification have to be compatible with all compliant "Housings".
The trade-off between choosing a single-board design or even another modular form-factor is as follows:
- EOMA68 products will not use all of the integrated functions of single-board designs, automatically resulting in minor cost increases for products, however this cost is negligeable compared to the long-term end-user cost savings.
- EOMA68 products are user-upgradeable. The Housings can be kept out of landfill - kept in useful service - for the lifetime of its components. Only the Cards need be upgraded at a much lower cost than a single-board design in order to continuously give the product a new lease of life.
- EOMA68 Cards can be shared by the same end-user across multiple products, automatically resulting in a cost saving that far outweighs the minor overhead of a single EOMA68 system when compared to a single hermetically-sealed throw-away product.
- However, single-board designs are typically throw-away products where the lifetime of the product is critically dependent on an extremely fast-changing market.
- Single-board designs are typically throw-away hermetically-sealed products with neither user-serviceable nor user-replaceable parts.
- Old Housings and Cards can be re-purposed instead of discarded as e-waste.
- Q-Seven and other similar standards are not realistically user-upgradeable (not for the average person) because products require tools, technical knowledge in the selection of technically-compatible replacement parts, and expert knowledge in the handling of electronics for ESD-precautions before even opening the case.
- EOMA68 products are upgraded by pushing a button and popping out the module: it literally takes seconds to install a new Card.
So the benefits for end-users are very clear: EOMA68 is easily understandable as a long-term investment for its end-users with significant long-term cost savings and reductions in e-waste. The benefits for factories are very clear: Cards aggregated across multiple products means much better bulk purchasing power, and Housings can also continue to be produced without requiring redesigns pretty much until the components go end-of-life.
No other modular computing standard available today has been designed with these aims in mind. An analysis of the standard is covered in-depth in a whitepaper on Ecocomputing at http://rhombus-tech.net/whitepapers/ecocomputing_07sep2015/
External Factors and Considerations is now on its own page.
Hardware-related Requirements is now on its own page.
EOMA68 Software / OS Requirements
Software / OS Requirements is now on its own page.
Here is a list of example designs which conform to the EOMA68 Standard:
- Mini Engineering Board - suitable for Free Software Developers, ODM Development, SoC "Board Support Packages", Experimentation, Prototyping, Electrical Engineers, Training and R&D purposes.
- Monster Engineering Board - suitable for ODM Development "Demonstration" Purposes: designed to be "cut down to size", requiring the minimum amount of CAD/CAM Development effort and maximising return on investment.
- The Obligatory Tablet - a simple tablet motherboard which could potentially be developed as a very low cost single-sided 2-layer PCB. Components are chosen to reduce development cost and risk, as well as reduce manufacturing cost.
- Laptop - a laptop motherboard which could potentially be developed as a very low cost single-sided 2-layer PCB, through the use of modular and optional components for WIFI and 3G.
- LCD (TV) - an LCD Monitor (or Picture Frame) which can be upgraded into a TV or an All-in-One Computer or an Internet TV or Personal Video Recorder or Media Centre. very versatile yet simple to do.
- Passthrough or "Blank" Card - a special type of card which simply passes through the connectors, with little or no signal conversion.
Contact and Discussion
For questions, comments and general discussion, please use arm-netbook mailing list
The FAQ is now on its own page.