ISO/IEC 29110: Systems and Software Life Cycle Profiles and Guidelines for Very Small Entities (VSEs) International Standards (IS) and Technical Reports (TR) are targeted at Very Small Entities (VSEs). A Very Small Entity (VSE) is an enterprise, an organization, a department or a project having up to 25 people. The ISO/IEC 29110 is a series of international standards and guides entitled "Systems and Software Engineering — Lifecycle Profiles for Very Small Entities (VSEs)". The standards and technical reports were developed by working group 24 (WG24) of sub-committee 7 (SC7) of Joint Technical Committee 1 (JTC1) of the International Organization for Standardization and the International Electrotechnical Commission.
Industries around the world have agreed that there are certain ways of working that produce predictable results. Companies that agree to use these agreed methods and then to have their compliance measured are called ISO certificated. Some ISO-certificated organizations require that their vendors also be ISO certificated. The general standard for software development, ISO/IEC/IEEE 12207, is appropriate for medium and large software development efforts. Similarly, the general standard for system development, ISO/IEC/IEEE 15288, is appropriate for medium and large system development efforts. Systems, in the context of ISO/IEC 29110, are typically composed of hardware and software components. Things work differently in small organisations; ISO 29110 reflects that.
The need for lightweight Systems and Software Engineering standards and guides
Industry and public organizations (e.g., government agency, non-profit organization) recognize that VSEs make valuable products and services. VSEs also develop and maintain systems and software used in larger systems, so there is a need to recognize VSEs as suppliers of high quality systems and software.
According to the Organisation for Economic Co-operation and Development (OECD)[1] SME and Entrepreneurship Outlook report (2005), Small and Medium Enterprises (SMEs) constitute the dominant form of business organisation in all countries worldwide, accounting for 95% to 99% of the business population depending on country. The challenge facing OECD governments is to provide a business environment that supports the competitiveness of this large heterogeneous business population and that promotes a vibrant entrepreneurial culture.
Studies and surveys[2][3] conclude that the majority of International Standards do not address the needs of VSEs. Conformance with these standards is difficult, if not impossible, giving VSEs no way, or very limited ways, to be recognized as entities that produce quality software. Therefore, VSEs are often cut off from some economic activities.
It has been found that VSEs find it difficult to relate international standards to their business needs and to justify their application to their business practices. Most VSEs can neither afford the resources, in terms of number of employees, budget and time, nor see a net benefit in establishing software life cycle processes. To rectify some of these difficulties, a set of standards and technical reports has been developed according to a set of VSE characteristics.[4][5]
The documents are based on subsets of appropriate standards elements, referred to as VSE profiles. The purpose of a VSE profile is to define a subset of international Standards relevant to the VSE context, for example, processes elements of ISO/IEC/IEEE 12207 for the software engineering ISO/IEC 29110, ISO/IEC/IEEE 15288 for the systems engineering ISO/IEC 29110, and products of ISO/IEC/IEEE 15289.
ISO/IEC 29110 series, targeted by audience, have been developed to improve product and/or service quality, and process performance, as shown in the table below. ISO/IEC 29110 is not intended to preclude the use of different life cycles such as: waterfall, iterative, incremental, evolutionary or agile.
VSEs and their customers, assessors, standards producers, tool vendors, and methodology vendors.
Part 2
Framework for profile preparation
Profile producers, tool vendors and methodology vendors. Not intended for VSEs
Part 3
Certification and Assessment guidance
VSEs and their customers, assessors, accreditation bodies
Part 4
Profile specifications
VSEs, customers, standards producers, tool vendors and methodology vendors.
Part 5
Management, engineering and service delivery guidelines
VSEs and their customers
Part 6
Specific Profile specifications
VSEs, customers, standards producers, tool vendors and methodology vendors
Part 7
Specific Profile guidelines
VSEs and their customers
If a new profile is needed, ISO/IEC 29110-4[6] and ISO/IEC 29110-5[7] can be developed without impacting existing documents and they become ISO/IEC 29110-4-m and ISO/IEC 29110-5-m-n respectively through the ISO/IEC process.
Profiles
The core characteristic of the entities targeted by ISO/IEC 29110 is size, however there are other aspects and characteristics of VSEs that may affect profile preparation or selection, such as: Business Models (commercial, contracting, in-house development, etc.); Situational factors (such as criticality, uncertainty environment, etc.); and Risk Levels. Creating one profile for each possible combination of values of the various dimensions introduced above would result in an unmanageable set of profiles. Accordingly, VSE's profiles are grouped in such a way as to be applicable to more than one category. Profile Groups are a collection of profiles which are related either by composition of processes (i.e. activities, tasks), or by capability level, or both.
Generic Profile Group
The Generic Profile Group has been defined as applicable to a vast majority of VSEs that do not develop critical systems and/or software and have typical situational factors. The Generic Profile Group is a collection of four profiles (Entry, Basic, Intermediate, Advanced), providing a progressive approach to satisfying a vast majority of VSEs. The four-stage roadmap provides a progressive approach to satisfying a vast majority of VSEs. VSEs targeted by the Entry Profile are VSEs working on small projects (e.g. at most six person-months effort) and start-ups. The Basic Profile targets VSEs developing a single application by a single work team. The Intermediate Profile is targeted at VSEs developing more than one project in parallel with more than one work team. The Advanced Profile is target to VSEs that want to sustain and grow as an independent competitive system and/or software development business.
The Software Engineering Generic Profile Group is mainly based on the ISO/IEC/IEEE 12207 Software Life Cycle Processes standard. The ISO working group mandated to develop ISO/IEC 29110 used the Mexican software process model MoProSoft[8] to help the development of ISO/IEC 29110.
A process is composed of a set of activities, and an activity is composed of a set of tasks. The figure below illustrates the 2 processes and the activities of the software engineering Basic profile. The 2 processes are described at the task level in the ISO/IEC 29110 Software engineering Management and Engineering Guide of the Basic profile.
Processes and activities of the software engineering Basic profile
The software engineering Entry profile has the same 2 processes and activities. But the number of tasks and the number of documents is lower than the Basic profile. The table below lists the number of tasks for each process of the software generic profile group. A conditional process is a process that can be mandatory under some specific conditions, can be optional under specified conditions, and can be out of scope or not applicable under specified conditions.
The 4-Step Software Roadmap
The table below lists the number of work products and roles for each process of the software generic profile group.
Number of Work Products and Roles
The Systems Engineering Generic Profile Group is mainly based on the ISO/IEC/IEEE 15288 System Life Cycle Processes standard. The figure below illustrates the systems engineering Basic profile. Systems, in the context of ISO/IEC 29110, are typically composed of hardware and software components.
Processes and activities of the systems engineering Basic profile
Published Standards (IS) and Technical Reports (TR)
ISO/IEC 29110 series is a set of five different Parts. Part 1, ISO/IEC TR 29110-1,[9] defines the business terms common to the VSE Profile Set of Documents. It introduces processes, lifecycle and standardization concepts, and the ISO/IEC 29110 series. It also introduces the characteristics and requirements of a VSE, and clarifies the rationale for VSE-specific profiles, documents, standards and guides.[10] introduces the concepts for software engineering standardized profiles for VSEs, and defines the terms common to the VSE Profile Set of Documents. It establishes the logic behind the definition and application of standardized profiles. It specifies the elements common to all standardized profiles (structure, conformance, assessment) and introduces the taxonomy (catalogue) of ISO/IEC 29110 profiles.
Part 3, ISO/IEC TR 29110-3-1,[11] defines the process assessment guidelines and compliance requirements needed to meet the purpose of the defined VSE Profiles. ISO/IEC TR 29110-3-1 also contains information that can be useful to developers of assessment methods and assessment tools. ISO/IEC TR 29110-3-1 is addressed to people who have direct relation with the assessment process, e.g. the assessor and the sponsor of the assessment, who need guidance on ensuring that the requirements for performing an assessment have been met.[12]
Part 4, ISO/IEC 29110-4-1, provides the specification for all the profiles of the Generic Profile Group. The Generic Profile Group is applicable to VSEs that do not develop critical software products. The profiles are based on subsets of appropriate standards elements. VSE Profiles apply and are targeted at authors/providers of guides and authors/providers of tools and other support material.
Part 5, ISO/IEC 29110-5-m-n, provides systems engineering or software engineering project management and engineering guides and service delivery guidelines for the VSE Profile described in ISO/IEC 29110-4-m.
The figure below illustrates the components of the ISO/IEC 29110 series. The boxes in light blue are documents in development.
Components of the ISO/IEC 29110 series
Deployment Packages
A Deployment Package (DP) is a set of artifacts developed to facilitate the implementation of a set of practices, of the selected framework, in a Very Small Entity (VSE). The Deployment Packages, described below, have been developed to help implement the processes of the Generic Profile Group. The Generic profile group is applicable to VSEs that do not develop critical systems or software. The Generic profile group is composed of 4 profiles: Entry, Basic, Intermediate and Advanced. The Generic profile group does not imply any specific application domain.
The content of a typical deployment package is listed in table 2. The mapping to standards and models is given as information to show that a Deployment Package has explicit links to Part 5 and to selected ISO standards, such as ISO/IEC/IEEE 15288, ISO/IEC/IEEE 12207, or models such as the CMMI developed by the Software Engineering Institute. By implementing a deployment package, a VSE can see its concrete step to achieve or demonstrate coverage to ISO/IEC 29110 Part 5. Deployment Packages are designed such that a VSE can implement its content, without having to implement the complete framework at the same time.
Table 2. Content of a Deployment Package (ISO/IEC 29110-5-1-2)
1. Technical Description
Purpose of this document
Why this Topic is important?
2. Definitions
3. Relationships with ISO/IEC 29110
4. Overview of Processes, Activities, Tasks, Roles and Products
5. Description of Processes, Activities, Tasks, Steps, Roles and Products
Role Description
Product Description
Artefact Description
6. Template
7. Example
8. Checklist
9. Tool
10. References to other Standards and Models (e.g. ISO 9001, ISO/IEC 12207, CMMI®)
11. References
12. Evaluation Form
The systems engineering or software engineering Basic Profile describes development of a single application by a single project team with no special risk or situational factors. The set of DPs for the software Basic Profile is illustrated in figure 2.
Figure 2. Deployment Packages to support the Software Basic Profile
A set of DPs to support the Systems Engineering Basic profile is under development in collaboration with members of INCOSE as illustrated in the figure below.
Deployment Packages to support the ISO/IEC 29110 Systems Engineering Basic Profile
Deployment packages as well as other support material, such as a plug-in, are available at no cost on Internet (see below).
Implementation of ISO/IEC 29110 in software development organizations
An implementation in an IT start-up VSE by a team of two developers.[13] Their web application allows users to collaborate, share and plan their trips simply and accessible to all. The use of the Basic profile of ISO 29110 has guided the start-up to develop an application of high quality while using proven practices of ISO 29110. The total effort of this project was nearly 1000 hours. The IT start-up has recorded the effort, in person-hours, spent on tasks of the project. Only 12.6% of total effort has been spent on rework (i.e. 125 hours/990.5 hours). This indicates that the use of appropriate standards can guide all the phases of the development of a product such that the wasted effort (i.e. rework) is about the same as a more mature organization.
An implementation in a large Canadian utility provider.[14] The IT division of a large Canadian utility provider has 1950 employees that support more than 2,100 software applications. The organization had already implemented 12 level 2 and 3 process areas of the CMMI-DEV. Traditional lifecycles were used for the development of this division.
A small department within the IT division, the Mobility and Georeferenced Solutions department, is composed of 6 developers and 3 analysts, an architect and a manager. Typical projects of the department are requests from internal customers to improve a few applications. The small department was required to develop applications more quickly, and with very different technologies. Increasingly, the department had to develop proof of concepts. The problem was that the deliverables requested by the current methodology for typical projects of the IT division were too numerous, the level of documentation required was not suitable for small projects and small teams.
A project was launched within the small department to tailor ISO 29110 to their needs and adapt it to a Scrum approach. A pilot project, involving the creation of a web application for property management, has been conducted. This application greatly facilitated geographic data consultation. The total effort of this project was 1,511 hours. The table below shows, for each major task, the effort to execute the task, the effort required to review a document, such as the software specification document, in order to detect errors and, the effort required to correct the errors (i.e. the rework).
Title of task
Prevention (hours)
Execution (hours)
Evaluation (hours)
Correction (hours)
Environment installation
35
-
-
-
Project Management
-
252
2
2
Requirement Specification
-
56
14
14
Code development
35
798
105
112
Maintenance document
-
49
7
2
Web site deployment
1
7
-
-
Project closure
-
4
-
-
Total hours
71
1166
128
146
About 8.5% of the effort was invested in prevention tasks while only 9.6% was spent in rework tasks. The ISO 29110 process improvement project allowed the small department to shine within the IT division, as it became a model for future small IT projects.
Implementation in a large financial institution.[15] The IT division of a large Canadian financial institution has over 3,000 employees developing new applications and maintaining over 1250 applications. The Cash Management IT department, of 6 developers, is responsible for the development and maintenance of software tools used by traders. Each year, the department is faced with an increase in the numbers of requests to add, correct or modify features related to supported applications.
Before the implementation of the ISO 29110-agile process, customers had the following complaints:
Very difficult to know the status of specific requests
Very often, there is an incident when a change is put in production.
There is a large number of faults detected by the quality assurance department
The development process is painful and the documentation produced is not very useful.
In response to these problems, processes were evaluated by comparing the activities of the actual maintenance process to those of the Basic profile. Some shortcomings were found in the actual project management process and in the software implementation process.
The new project management process has been adapted to the context of the division, by injecting a few tasks of the SCRUM methodology. The new agile process, using the Basic profile of the ISO 29110, has been tested on three pilot projects. Recently, a team of 5-person team was added to the department to carry out all non-urgent maintenance projects using the ISO 29110 agile process.
The table below shows the number of ISO29110-Basic profile certified Thai organizations.
Type of Organization
2012
2013
2014
2015
2016
2018
2019
2020
2021
Total
Private
148
40
57
29
48
100
20
33
125
600
Public
4
6
2
1
2
-
-
-
-
15
Totals
152
46
59
30
50
100
20
33
125
615
Implementation of ISO/IEC 29110 in systems engineering organizations
The systems engineering Basic profile has been used in a few systems engineering organizations. As an example, in the south of France, 6 organizations implemented the Basic profile in the development of their products.[17]
In Canada, a young company involved in the design and development of communication systems for public transport. The company has been successfully audited by a third-party audit composed of 2 auditors in 2016.[18]
ISO/IEC 29110 in Academia
Over 21 countries are known to be teaching ISO/IEC 29110 at the undergraduate and graduate levels. The figure below shows a few countries that are teaching ISO/IEC 29110.
Known countries teaching ISO 29110
As an example, in the state of Zacatecas of Mexico, 11 universities have implemented the software Basic profile of the ISO/IEC 29110 in their Software Development Center (SDC). A SDC provides an environment in which students apply their knowledge in a software development project. The SDCs where audited against the Basic profile of ISO/IEC 29110 by auditors of NYCE (Normalización y Certificación Electrónica), the Mexican Certification Body. As an example, 4 SDCs achieved the ISO/IEC 29110 certification in 2017.
In Thailand, over 10 universities are teaching ISO/IEC 29110.[19]
Current version: ISO/IEC TR 29110-1:2016, ISO/IEC TR 29110-3-1 and are freely available from ISO/ITTF as a free download
Current version: ISO/IEC TR 29110-5-2-1:2016 - Organizational management guidelines
For Software Engineering:
Current version: ISO/IEC TR 29110-5-1-1:2012 - Management and engineering guide for the software engineering Entry profile has been published in English and French in September 2012 and are freely available from ISO/ITTF as a free download
Current version: ISO/IEC TR 29110-5-1-2:2011 - Management and engineering guide for the software engineering Basic profile has been published in English and French in September 2012 and are freely available from ISO/ITTF as a free download
Current version: ISO/IEC TR 29110-5-1-3:2017 - Management and engineering guide for the software engineering Intermediate profile.
Current version: ISO/IEC TR 29110-5-1-4:2018 Management and engineering guide for the software engineering Advanced profile.
For Systems Engineering:
Current version: ISO/IEC TR 29110-5-6-1:2015 - Systems engineering Entry Profile - Management and engineering guide - Published in November 2015. Freely available from ISO/ITTF as a free download
Current version: ISO/IEC TR 29110-5-6-2:2014 Systems engineering Basic profile - Management and engineering guide. Published in August 2014. Freely available from ISO/ITTF as a free download
Current version: ISO/IEC TR 29110-5-6-3:2019 - Systems engineering Intermediate Profile - Management and engineering guide - Published in September 2019.
For Service Delivery:
Current version: ISO/IEC TR 29110-5-3:2018 - Service Delivery Guidelines
Current version ISO/IEC 29110-4-3:2018 - Service delivery – Profile specifications
In preparation
For Systems Engineering:
For Systems engineering: ISO/IEC 29110-4-6 Systems Engineering - Profile Specifications - publication expected in 2022
For the Systems engineering Advanced Profile: ISO/IEC TR 29110-5-6-4 Management and engineering guide - publication expected in 2021.
For Agile:
For Agile: ISO/IEC TR 29110-5-4 Agile Software Development Guidelines - publication expected in 2021.
For Agile: ISO/IEC 29110-4-4 Agile Software Development - Profile specifications: Generic Profile - publication expected in 2022.
For DevOps:
For DevOps: ISO/IEC TR 29110-5-5 DevOps Guidelines - publication expected in 2021.
For DevOps: ISO/IEC 29110-4-5 DevOps - Profile specifications - publication expected in 2022.
Miscellaneous:
For Organizational Management: ISO/IEC 29110-4-2 – Organizational Profile Specifications - publication expected in 2020.
Articles and other communications
Laporte, C.Y., Miranda, J., “Delivering Software and Systems Engineering Standards for Small Teams - Feedback from Very Small Entities, their customers, auditors and academia on ISO/IEC 29110.”, IEEE Computer, Vol. 53, Issue 8, August 2020, pp. 79-83
Muñoz, M., Mejía, J., & Laporte, C. Y. (2021). Analysis of the Evolution of Eight VSEs Using the ISO/IEC 29110 to Reinforce Their Agile Approaches. In Mora, M., Gómez, J. M., O'Connor, R. V., & Buchalcevová, A. (Ed.), Balancing Agile and Disciplined Engineering and Management Approaches for IT Services and Software Products (pp. 28-51). IGI Global. http://doi:10%5B%5D.4018/978-1-7998-4165-4.ch002
Muñoz, M., Mejia, J., Peña, A., Lara, G., Laporte, C.Y., Transitioning International Software Engineering Standards to Academia: Analyzing the Results of the Adoption of ISO/IEC 29110 in Four Mexican Universities, Computer Standards & Interfaces, 66 (2019), DOI: https://doi.org/10.1016/j.csi.2019.03.008
Muñoz, M., Mejia, J., & Laporte, C. Y. (2019). Reinforcing very small entities using agile methodologies with the ISO/IEC 29110. In Advances in Intelligent Systems and Computing (Vol. 865, pp. 88–98). Springer Verlag. https://doi.org/10.1007/978-3-030-01171-0_8
Muñoz, M., Mejia, J., Laporte, C.Y., Implementing ISO/IEC 29110 to Reinforce Four Very Small Entities of Mexico under an agile approach, IET Software, Volume 14, Issue 2, April 2020, p. 75 – 81, DOI: 10.1049/iet-sen.2019.0040
Munoz, M., Mejia, J., Laporte, C.Y., Implementación del Estándar ISO/IEC 29110 en Centros de Desarrollo de Software de Universidades Mexicanas: Experiencia del Estado de Zacatecas, XI Seminario Internacional de Ciencias de la Computación, October 10–12, 2018, Medellín, Colombia.
Muñoz M., Mejia J., Laporte C.Y. (2019) Reinforcing Very Small Entities Using Agile Methodologies with the ISO/IEC 29110. In: Mejia J., Muñoz M., Rocha Á., Peña A., Pérez-Cisneros M. (eds) Trends and Applications in Software Engineering. CIMPS 2018. Advances in Intelligent Systems and Computing, vol. 865. Springer, Cham, October 17–19, 2018, Guadalajara, Mexico.
Galinier, S., Laporte, C. Y., Connecting Business Development and System Engineering with ISO/IEC 29110 Standard in Small and Medium Enterprises of France, 2018 IEEE International Systems Engineering Symposium (ISSE), Rome, Italy, 2018, pp.1–7.
Muñoz M., Negrón A.P.P., Mejia J., Lopez G.L. (2018) ISO/IEC 29110 and curricula programs related to Computer Science and Informatics in Mexico: Analysis of practices coverage. In: Mejia J., Muñoz M., Rocha Á., Quiñonez Y., Calvo-Manzano J. (eds) Trends and Applications in Software Engineering. CIMPS 2017. Advances in Intelligent Systems and Computing, vol 688. Springer, Cham
Laporte, C.Y., Munoz, M., Mejia Miranda, J., O’Connor, R.V., Applying Software Engineering Standards in Very Small Entities-From Startups to Grownups, IEEE Software, Vol. 35, Issue 1, pp 99–103
Marvin et al., A SE VSE Company Use Case, 27th Annual INCOSE International Symposium, Adelaide, Australia, July 15–20, 2017.
Laporte, C.Y., O’Connor, R.V. (2016), Systems and Software Engineering Standards for Very Small Entities: Accomplishments and Overview, IEEE Computer, volume 49, number 8, pp 84–87.
X. Larrucea et al., “Software Process Improvement in Very Small Organizations,” IEEE Software, vol. 33, no. 2, 2016, pp.85–89.
Laporte, C.Y., O'Connor, R., Software Process Improvement Standards and Guides for Very Small Organizations - An Overview of Eight Implementation, CrossTalk - The Journal of Defense Software Engineering, May/June 2017. Vol. 30, No 3, pp 23–27.
Laporte, C. Y., Munoz, M., Gerançon, B., The Education of Students About Software Engineering Standards and Their Implementations in Very Small Entities. IEEE Canada-International Humanitarian Technology Conference, July 20–21, 2017, Toronto, Ontario, Canada, pp.94–98
Laporte, C.Y., Tremblay, N., Menaceur, J., Poliquin, D., Houde, R., Systems Engineering and Management Processes for Small Organizations with ISO/IEC 29110 - An Implementation in a Small Public Transportation Company, 11th Annual IEEE International Systems Conference, April 24–27, 2017, Montreal, Quebec, Canada, pp.112–119
Sanchez-Gordon, M.L., O’Connor, R. V., Colomo-Palacios, R. and Sanchez-Gordon, S.: A Learning Tool for the ISO/IEC 29110 Standard: Understanding the Project Management of Basic Profile. In Proceedings 16th International Conference on Software Process Improvement and Capability dEtermination (SPICE 2016). Springer-Verlag. (2016)
Sanchez-Gordon, M.L., O’Connor, R. V., Colomo-Palacios, R. and Herranz, E.: Bridging the Gap between SPI and SMEs in Educational Settings: A Learning Tool Supporting ISO/IEC 29110. 23nd European Conference on Systems, Software and Services Process Improvement (EuroSPI 2016), Springer-Verlag. (2016)
Laporte, C.Y., O’Connor, R.V., García Paucar, L.H., The Implementation of ISO/IEC 29110 Software Engineering Standards and Guides in Very Small Entities, 10th International Conference on Evolution of Novel Approaches to Software Engineering (ENASE 2015), Barcelona, Spain, April 29-30, 2015. Revised Selected Papers, Editors: Leszek A. Maciaszek, Joaquim Filipe.
Laporte, C.Y., O'Connor, R, Software Process Improvement in Graduate Software Engineering Programs, in: O’Connor, R.V., Mitasiunas, A. and Ross, M. (Eds), Proceedings of the 1st International Workshop on Software Process Education, Training and Professionalism (SPETP 2015), CEUR Electronic Workshop Proceedings, Vol. 1368, 2015, pp.18–24.
Laporte, C.Y., Hébert, C., Mineau, C., Development of a Social Network Website Using the New ISO/IEC 29110 Standard Developed Specifically for Very Small Entities, Software Quality Professional Journal, ASQ, vol. 16, no. 4, pp 4–25.
Laporte, C.Y., O'Connor, R., A Systems Process Lifecycle Standard for Very Small Entities: Development and Pilot Trials, 21st European Software Process Improvement Conference (Euro SPI 2014), CCIS 425, pp.13–24, Springer-Verlag, Heidelberg, Luxembourg, June 25–27, 2014.
See also
Video in English about ISO/IEC 29110
ISO/IEC/IEEE 12207, Systems and software engineering - Software life cycle processes.
ISO/IEC/IEEE 15288, Systems and software engineering - System life cycle processes.
ISO/IEC/IEEE 15289, Systems and software engineering - Content of systems and software life cycle process information products (Documentation)
In engineering and its various subdisciplines, acceptance testing is a test conducted to determine if the requirements of a specification or contract are met. It may involve chemical tests, physical tests, or performance tests.
Software architecture is the set of structures needed to reason about a software system and the discipline of creating such structures and systems. Each structure comprises software elements, relations among them, and properties of both elements and relations.
The following outline is provided as an overview of and topical guide to software engineering:
ISO/IEC/IEEE 12207Systems and software engineering – Software life cycle processes is an international standard for software lifecycle processes. First introduced in 1995, it aims to be a primary standard that defines all the processes required for developing and maintaining software systems, including the outcomes and/or activities of each process.
ISO/IEC 15504Information technology – Process assessment, also termed Software Process Improvement and Capability Determination (SPICE), is a set of technical standards documents for the computer software development process and related business management functions. It is one of the joint International Organization for Standardization (ISO) and International Electrotechnical Commission (IEC) standards, which was developed by the ISO and IEC joint subcommittee, ISO/IEC JTC 1/SC 7.
Software quality assurance (SQA) is a means and practice of monitoring all software engineering processes, methods, and work products to ensure compliance against defined standards. It may include ensuring conformance to standards or models, such as ISO/IEC 9126, SPICE or CMMI.
This is an alphabetical list of articles pertaining specifically to software engineering.
Capability Immaturity Model (CIMM) in software engineering is a parody acronym, a semi-serious effort to provide a contrast to the Capability Maturity Model (CMM). The Capability Maturity Model is a five point scale of capability in an organization, ranging from random processes at level 1 to fully defined, managed and optimized processes at level 5. The ability of an organization to carry out its mission on time and within budget is claimed to improve as the CMM level increases.
The ISO/IEC 15288 is a technical standard in systems engineering which covers processes and lifecycle stages, developed by the International Organization for Standardization (ISO) and the International Electrotechnical Commission (IEC). Planning for the ISO/IEC 15288:2002(E) standard started in 1994 when the need for a common systems engineering process framework was recognized. The previously accepted standard MIL STD 499A (1974) was cancelled after a memo from the United States Secretary of Defense (SECDEF) prohibited the use of most U.S. Military Standards without a waiver. The first edition was issued on 1 November 2002. Stuart Arnold was the editor and Harold Lawson was the architect of the standard. In 2004 this standard was adopted by the Institute of Electrical and Electronics Engineers as IEEE 15288. ISO/IEC 15288 has been updated 1 February 2008 as well as on 15 May 2015.
The Standard CMMI Appraisal Method for Process Improvement (SCAMPI) is the official Software Engineering Institute (SEI) method to provide benchmark-quality ratings relative to Capability Maturity Model Integration (CMMI) models. SCAMPI appraisals are used to identify strengths and weaknesses of current processes, reveal development/acquisition risks, and determine capability and maturity level ratings. They are mostly used either as part of a process improvement program or for rating prospective suppliers. The method defines the appraisal process as consisting of preparation; on-site activities; preliminary observations, findings, and ratings; final reporting; and follow-on activities.
A concept of operations is a document describing the characteristics of a proposed system from the viewpoint of an individual who will use that system. Examples include business requirements specification or stakeholder requirements specification (StRS). CONOPS is used to communicate the quantitative and qualitative system characteristics to all stakeholders. CONOPS are widely used in the military, governmental services and other fields.
In software engineering, a software development process is a process of dividing software development work into smaller, parallel, or sequential steps or sub-processes to improve design and/or product management. It is also known as a software development life cycle (SDLC). The methodology may include the pre-definition of specific deliverables and artifacts that are created and completed by a project team to develop or maintain an application.
ISO/IEC JTC 1/SC 7 Software and systems engineering is a standardization subcommittee of the Joint Technical Committee ISO/IEC JTC 1 of the International Organization for Standardization (ISO) and the International Electrotechnical Commission (IEC), that develops and facilitates standards within the field of engineering of software products and systems. The international secretariat of ISO/IEC JTC 1/SC 7 is the Bureau of Indian Standards (BIS) located in India.
ISO/IEC/IEEE 29119Software and systems engineering -- Software testing is a series of five international standards for software testing. First developed in 2007 and released in 2013, the standard "defines vocabulary, processes, documentation, techniques, and a process assessment model for testing that can be used within any software development lifecycle."
ISO/IEC 33001Information technology -- Process assessment -- Concepts and terminology is a set of technical standards documents for the computer software development process and related business management functions.
↑ Land, S. K., Results of the IEEE Survey of Software Engineering Standards Users. Software Engineering Standards Symposium and Forum, 1997. Emerging International Standards. ISESS 97, Walnut Creek, CA, June 1–6, pp. 242 – 270, 1997.
↑ Habra, N., Alexandre, S., Desharnais, J-M, Laporte, C.Y., Renault, A., Initiating Software Process Improvement in Very Small Enterprises Experience with a Light Assessment Tool, Information and Software Technology, Volume 50, June 2008, Pages 763-771. (Draft Version)
↑ ISO/IEC 29110-4-1:2011, "Software Engineering -- Lifecycle Profiles for Very Small Entities (VSEs) - Part 4-1: Profile specifications: Generic profile group". Geneva: International Organization for Standardization (ISO), 2011.
↑ ISO/IEC TR 29110-5-1-2:2011Archived 2012-12-24 at the Library of Congress Web Archives, "Software Engineering - Lifecycle Profiles for Very Small Entities (VSEs) - Part 5-1-2: Management and engineering guide: Generic Profile Group: Basic Profile". Geneva: International Organization for Standardization (ISO), 2011.
↑ ISO/IEC TR 29110-1, "Software Engineering - Lifecycle Profiles for Very Small Entities (VSEs) - Part 1: Overview". Geneva: International Organization for Standardization (ISO), 2016.
↑ Part 2-1, ISO/IEC 29110-2-1, Software Engineering - Lifecycle Profiles for Very Small Entities (VSEs) - Part 2-1: Framework and taxonomy, Geneva: International Organization for Standardization (ISO), 2015.
↑ ISO/IEC TR 29110-3-1, "Software Engineering - Lifecycle Profiles for Very Small Entities (VSEs) - Part 3: Assessment Guide". Geneva: International Organization for Standardization (ISO), 2015.
↑ Laporte, C.Y., Hébert, C., Mineau, C., Development of a Social Network Website Using the New ISO/IEC 29110 Standard Developed Specifically for Very Small Entities, Software Quality Professional Journal, ASQ, vol. 16, no. 4, pp. 4-25 (2014).
↑ Laporte, C.Y., O'Connor, R., Software Process Improvement Standards and Guides for Very Small Organizations - An Overview of Eight Implementation, CrossTalk - The Journal of Defense Software Engineering, May/June 2017. Vol. 30, No 3, pp 23-27.
↑ Laporte, C.Y., O'Connor, R., Software Process Improvement Standards and Guides for Very Small Organizations - An Overview of Eight Implementation, CrossTalk - The Journal of Defense Software Engineering, May/June 2017. Vol. 30, No 3, pp 23-27.
↑ Laporte, C. Y., Munoz, M., Gerançon, B., The Education of Students About Software Engineering Standards and Their Implementations in Very Small Entities. IEEE Canada-International Humanitarian Technology Conference, July 20–21, 2017, Toronto, Ontario, Canada, pp. 94-98
↑ Galinier, S., Laporte, C. Y., Connecting Business Development and System Engineering with ISO/IEC 29110 Standard in Small and Medium Enterprises of France, 2018 IEEE International Systems Engineering Symposium (ISSE), Rome, Italy, 2018, pp. 1-7.
↑ Laporte, C.Y., Tremblay, N., Menaceur, J., Poliquin, D., Houde, R., Systems Engineering and Management Processes for Small Organizations with ISO/IEC 29110 - An Implementation in a Small Public Transportation Company, 11th Annual IEEE International Systems Conference, April 24–27, 2017, Montreal, Quebec, Canada, pp. 112-119
↑ Laporte, C. Y., Munoz, M., Gerançon, B., The Education of Students About Software Engineering Standards and Their Implementations in Very Small Entities. IEEE Canada-International Humanitarian Technology Conference, July 20–21, 2017, Toronto, Ontario, Canada, pp. 94-98
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