# Computer-on-module

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{{Short description|Type of single-board computer}}
{{Distinguish|Computer module}}
<!-- {{Refimprove|date=September 2014}} -->[[File:Raspberry Pi Compute Module 3+ Development Kit - 50641587998 (cropped).jpg|thumb|Raspberry Pi Compute Module 3+, a computer-on-module, which offers a quad-core CPU, 1{{Nbsp}}GB RAM, and up to 32{{Nbsp}}GB of [flash storage](/source/EMMC) in the compact [SO-DIMM](/source/SO-DIMM) form factor used for RAM modules on laptops.]]
A '''computer-on-module''' ('''COM''') is a type of [single-board computer](/source/single-board_computer) (SBC), a subtype of an [embedded computer](/source/embedded_computer) system. An extension of the concept of [system on chip](/source/System_on_a_chip) (SoC) and [system in package](/source/system_in_package) (SiP), COM lies between a full-up [computer](/source/computer) and a [microcontroller](/source/microcontroller) in nature.  It is very similar to a [system on module](/source/system_on_module) (SOM).

== Design ==
COMs are complete [embedded computer](/source/embedded_computer)s built on a single [circuit board](/source/circuit_board).<ref name=icp_coms>[https://www.icp-deutschland.de/out/media/categories/files/Module-INFO.pdf Typical COM product line]</ref>  The design is centered on a [microprocessor](/source/microprocessor) with [RAM](/source/random-access_memory), [input/output](/source/input%2Foutput) controllers and all other features needed to be a functional computer on the one board.  However, unlike a single-board computer, the COM usually lacks the standard connectors for any input/output peripherals to be attached directly to the board.

The module usually needs to be mounted on a carrier board (or "baseboard") which breaks the bus out to standard peripheral connectors. Some COMs also include [peripheral](/source/peripheral) connectors. Some can be used without a carrier.

A COM solution offers a dense package computer system for use in small or specialized applications requiring low power consumption or small physical size as is needed in [embedded system](/source/embedded_system)s. As a COM is very compact and highly integrated, even complex CPUs, including multi-core technology, can be realized on a COM.

Some devices also incorporate [field-programmable gate array](/source/field-programmable_gate_array) (FPGA) components. FPGA-based functions can be added as [IP cores](/source/Semiconductor_intellectual_property_core) to the COM itself or to the carrier card. Using FPGA IP cores adds to the modularity of a COM concept because I/O functions can be adapted to special needs without extensive rewiring on the [printed circuit board](/source/printed_circuit_board).<ref name=ts_com_fpga>[http://www.embeddedarm.com/products/computer-on-modules.php Technologic Systems FPGA based COM modules]</ref>

A "computer-on-module" is also called a "[system-on-module](/source/System_on_module)" (SOM).<ref>
[https://www.pcmag.com/encyclopedia/term/computer-on-module "computer-on-module"].
PCMag Encyclopedia.
</ref><ref>
[https://www.arrow.com/en/research-and-events/articles/system-on-modules-and-small-board-computer-make-or-buy "Make or Buy: System on Modules and Small Board Computers"].
</ref>

== History ==
The terms "Computer-on-Module" and "COM" were coined by VDC Research Group, Inc. (formerly Venture Development Corporation) to describe this class of embedded computer boards.

Dr. Gordon Kruberg, founder and CEO of Gumstix, is credited for creating the first COM, predating the next recognizable COM entries by almost 18 months.

Gumstix ARM Linux Machine number is 373, established 9 September 2003, while Kontron's is 735, established 18 April 2005, and Keith & Koep's (now part of SECO<ref>
[https://north.seco.com/en/company/news/details/garz-fricke-group-becomes-seco-northern-europe-and-seco-mind-germany "Garz & Fricke (incl. Keith & Koep) now part of SECO"] SECO Northern Europe</ref>) is 776, established 20 June 2005.  Boards numbered below 373 were larger and single board computers as opposed to modules, for example, the Itsy, a tiny hand-held device based on the StrongARM.

The rapid development paradigm (COM + expansion board) Dr. Kruberg established has been at the heart of leading edge development since then and used at leading consumer products companies worldwide.

COM's have proven useful in launching entire industries{{citation needed|date=March 2022}} requiring rapid development efforts.  For example, in 2005 Apple used a [Gumstix](/source/Gumstix) COM to test the original iPhone concept.

== Benefits ==
thumb|Raspberry Pi Compute Module 3 (center) mounted onto a carrier board intended for development

Using a carrier board is a benefit in many cases, as it can implement special I/O interfaces, memory devices, connectors or form factors. Separating the design of the carrier board and COM makes design concepts more modular, if needed. A carrier tailored to a special application may involve high design overhead by itself. If the actual processor and main I/O controllers are located on a COM, it is much easier, for example, to upgrade a CPU component to the next generation, without having to redesign a very specialized carrier as well. This can save costs and shorten development times. However, this only works if the board-to-board connection between the COM and its carrier remains compatible between upgrades.

Other benefits of using COM products instead of ground-up development include reducing [time to market](/source/time_to_market) (TTM), risk reduction, cost savings, choice of a variety of CPUs, reduced requirements and time for customer design, and the ability to conduct both hardware and software development simultaneously.<ref name=matthewdoo>[https://www.toradex.com/products/computer-on-modules Computer on Modules - Technical Reference Manuals]</ref>

== See also ==
* [COM Express](/source/COM_Express)
* [CoreExpress](/source/CoreExpress)
* [Embedded System Module](/source/Embedded_System_Module)
* [ESMexpress](/source/ESMexpress)
* [ETX (form factor)](/source/ETX_(form_factor))
* [Qseven](/source/Qseven)
* [SMARC](/source/Smart_Mobility_Architecture)
* [XTX](/source/XTX)

==References==
{{reflist}}

==External links==
*{{cite web
|title = gumstix Introduces Smallest Commercially Available Linux Boards and Computers
|url = https://www.gumstix.com/images/Launch.pdf
|date = May 14, 2004
|language = en}}

*{{cite web
|url = https://hardware.slashdot.org/story/04/01/28/1645213/a-linux-machine-for-your-collar
|title =  A Linux Machine For Your Collar
|website = [Slashdot](/source/Slashdot)
|date = January 28, 2004
|language = en}}

*{{cite book
|title = Dogfight: How Apple and Google Went to War and Started a Revolution
|first = Fred
|last = Vogelstein
|year = 2013
|isbn = 9780374711009
|url = https://books.google.com/books?id=qDOdHNAb3aMC&q=gumstix
|language = en}}

{{Computer sizes}}
{{Prone to spam|date=December 2013}}

Category:Microcomputers
Category:Embedded systems

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Adapted from the Wikipedia article [Computer-on-module](https://en.wikipedia.org/wiki/Computer-on-module) by Wikipedia contributors ([contributor history](https://en.wikipedia.org/wiki/Computer-on-module?action=history)). Available under [Creative Commons Attribution-ShareAlike 4.0 International](https://creativecommons.org/licenses/by-sa/4.0/). Changes may have been made.
