System integration

System integration is defined in engineering as the process of bringing together the component sub-systems into one system (an aggregation of subsystems cooperating so that the system is able to deliver the overarching functionality) and ensuring that the subsystems function together as a system,[1] and in information technology[2] as the process of linking together different computing systems and software applications physically or functionally,[3] to act as a coordinated whole.

Software development
Core activities
Paradigms and models
Methodologies and frameworks
Supporting disciplines
Practices
Tools
Standards and Bodies of Knowledge
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Outlines

The system integrator integrates discrete systems utilizing a variety of techniques such as computer networking, enterprise application integration, business process management or manual programming.[4]

System integration involves integrating existing, often disparate systems in such a way "that focuses on increasing value to the customer"[5] (e.g., improved product quality and performance) while at the same time providing value to the company (e.g., reducing operational costs and improving response time).[5] In the modern world connected by Internet, the role of system integration engineers is important: more and more systems are designed to connect, both within the system under construction and to systems that are already deployed.[6]

Methods of integration

Vertical integration (as opposed to "horizontal integration") is the process of integrating subsystems according to their functionality by creating functional entities also referred to as silos.[7] The benefit of this method is that the integration is performed quickly and involves only the necessary vendors, therefore, this method is cheaper in the short term. On the other hand, cost-of-ownership can be substantially higher than seen in other methods, since in case of new or enhanced functionality, the only possible way to implement (scale the system) would be by implementing another silo. Reusing subsystems to create another functionality is not possible.[8]

Star integration, also known as spaghetti integration, is a process of systems integration where each system is interconnected to each of the remaining subsystems. When observed from the perspective of the subsystem which is being integrated, the connections are reminiscent of a star, but when the overall diagram of the system is presented, the connections look like spaghetti, hence the name of this method. The cost varies because of the interfaces that subsystems are exporting. In a case where the subsystems are exporting heterogeneous or proprietary interfaces, the integration cost can substantially rise. Time and costs needed to integrate the systems increase exponentially when adding additional subsystems. From the feature perspective, this method often seems preferable, due to the extreme flexibility of the reuse of functionality.[8]

Horizontal integration or Enterprise Service Bus (ESB) is an integration method in which a specialized subsystem is dedicated to communication between other subsystems. This allows cutting the number of connections (interfaces) to only one per subsystem which will connect directly to the ESB. The ESB is capable of translating the interface into another interface. This allows cutting the costs of integration and provides extreme flexibility. With systems integrated using this method, it is possible to completely replace one subsystem with another subsystem which provides similar functionality but exports different interfaces, all this completely transparent for the rest of the subsystems. The only action required is to implement the new interface between the ESB and the new subsystem.[8]

The horizontal scheme can be misleading, however, if it is thought that the cost of intermediate data transformation or the cost of shifting responsibility over business logic can be avoided.[8]

A common data format is an integration method to avoid every adapter having to convert data to/from every other applications' formats, Enterprise application integration (EAI) systems usually stipulate an application-independent (or common) data format.[9] The EAI system usually provides a data transformation service as well to help convert between application-specific and common formats. This is done in two steps: the adapter converts information from the application's format to the bus' common format. Then, semantic transformations are applied on this (converting zip codes to city names, splitting/merging objects from one application into objects in the other applications, and so on).

Challenges of integration

System integration can be challenging for organizations and these challenges can diminish their overall return on investment after implementing new software solutions. Some of these challenges include lack of trust and willing to share data with other companies, unwillingness to outsource various operations to a third party, lack of clear communication and responsibilities, disagreement from partners on where functionality should reside, high cost of integration, difficulty finding good talents, and common API standards.[10] These challenges result in creating hurdles that “prevent or slow down business systems integration within and among companies”.[11] Clear communication and simplified information exchange are key elements in building long term system integrations that can support business requirements.

gollark: Actually, for Ryzen it has a significant performance impact because the DRAM speed controls the infinity fabric speed.
gollark: I "fixed" the problem by fully downgrading my system to the package versions of about a week ago, adding everything with "qt" in the name to the "do not update" list, and updating again.
gollark: There's a relevant bug report but it just says "Fixed" and is closed, with the comment "plasma-integration 5.7.5-2/5.7.90-2 ", and others got closed as duplicates.
gollark: How I hate dynamic libraries.
gollark: I ran a broken program in `gdb` and this happened?```Program received signal SIGSEGV, Segmentation fault.0x00007ffff7fde4c1 in _dl_relocate_object () from /lib64/ld-linux-x86-64.so.2```

See also

References

  1. Gilkey, Herbert T (1960), "New Air Heating Methods", New methods of heating buildings: a research correlation conference conducted by the Building Research Institute, Division of Engineering and Industrial Research, as one of the programs of the BRI fall conferences, November 1959., Washington: National Research Council (U.S.). Building Research Institute, p. 60, OCLC 184031
  2. For computer systems, the term "systems integration" has included the plural word "systems" although the singular form has also been used in referring to computer systems.
  3. CIS 8020 – Systems Integration, Georgia State University OECD
  4. Moore, June (13 December 1982), "Software Reviews, BusinessMaster II+, ledger for CP/M systems", InfoWorld, InfoWorld Media Group, Inc, p. 31, ISSN 0199-6649
  5. Vonderembse, M.A.; Raghunathan, T.S.; Rao, S.S. (1997). "A post-industrial paradigm: To integrate and automate manufacturing". International Journal of Production Research. 35 (9): 2579–2600. doi:10.1080/002075497194679.CS1 maint: multiple names: authors list (link)
  6. Merriman, Dan (19 Feb 1996), "Tying it all together", Network World, IDG Network World Inc, p. 51, ISSN 0887-7661
  7. Lau, Edwin (2005), "Multi-channel Service Delivery", OECD e-Government Studies e-Government for Better Government, Paris: OECD, p. 52, OCLC 224889830
  8. Gold-Bernstein, Beth; Ruh, William A (2005), Enterprise integration: the essential guide to integration solutions, Addison Wesley, ISBN 0-321-22390-X
  9. Aircraft/Store Common Interface Control Document Format Standard, SAE International, doi:10.4271/as5609a
  10. Gulledge, Thomas (September 2002). "B2B eMarketplaces and small- and medium-sized enterprises". Computers in Industry. 49 (1): 47–58. doi:10.1016/s0166-3615(02)00058-1. ISSN 0166-3615.
  11. Hvolby, Hans-Henrik; Trienekens, Jacques H. (December 2010). "Challenges in business systems integration". Computers in Industry. 61 (9): 808–812. doi:10.1016/j.compind.2010.07.006. ISSN 0166-3615.
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