specification (computing)
   HOME

TheInfoList



Click Here for Items Related To - specification (computing)
OR:
specification (computing) on:   [Wikipedia]   [Google]   [Amazon]

In computer science, formal specifications are mathematically based techniques whose purpose are to help with the implementation of systems and software. They are used to describe a system, to analyze its behavior, and to aid in its design by verifying key properties of interest through rigorous and effective reasoning tools. These specifications are ''formal'' in the sense that they have a syntax, their semantics fall within one domain, and they are able to be used to infer useful information.


Motivation

In each passing decade, computer systems have become increasingly more powerful and, as a result, they have become more impactful to society. Because of this, better techniques are needed to assist in the design and implementation of reliable software. Established engineering disciplines use mathematical analysis as the foundation of creating and validating product design. Formal specifications are one such way to achieve this in software engineering reliability as once predicted. Other methods such as
testing An examination (exam or evaluation) or test is an educational assessment intended to measure a test-taker's knowledge, skill, aptitude, physical fitness, or classification in many other topics (e.g., beliefs). A test may be administered verba ...
are more commonly used to enhance code quality.


Uses

Given such a specification, it is possible to use formal verification techniques to demonstrate that a system design is correct with respect to its specification. This allows incorrect system designs to be revised before any major investments have been made into an actual implementation. Another approach is to use probably correct
refinement Refinement may refer to: Mathematics * Equilibrium refinement, the identification of actualized equilibria in game theory * Refinement of an equivalence relation, in mathematics ** Refinement (topology), the refinement of an open cover in mathem ...
steps to transform a specification into a design, which is ultimately transformed into an implementation that is ''correct by construction''. It is important to note that a formal specification is ''not'' an implementation, but rather it may be used to develop an implementation. Formal specifications describe ''what'' a system should do, not ''how'' the system should do it. A good specification must have some of the following attributes: adequate, internally consistent, unambiguous, complete, satisfied, minimal A good specification will have: * Constructability, manageability and evolvability * Usability * Communicability * Powerful and efficient analysis One of the main reasons there is interest in formal specifications is that they will provide an ability to perform proofs on software implementations. These proofs may be used to validate a specification, verify correctness of design, or to prove that a program satisfies a specification.


Limitations

A design (or implementation) cannot ever be declared “correct” on its own. It can only ever be “correct with respect to a given specification”. Whether the formal specification correctly describes the problem to be solved is a separate issue. It is also a difficult issue to address since it ultimately concerns the problem constructing abstracted formal representations of an informal concrete
problem domain Problem solving is the process of achieving a goal by overcoming obstacles, a frequent part of most activities. Problems in need of solutions range from simple personal tasks (e.g. how to turn on an appliance) to complex issues in business an ...
, and such an abstraction step is not amenable to formal proof. However, it is possible to validate a specification by proving “challenge” theorems concerning properties that the specification is expected to exhibit. If correct, these theorems reinforce the specifier's understanding of the specification and its relationship with the underlying problem domain. If not, the specification probably needs to be changed to better reflect the domain understanding of those involved with producing (and implementing) the specification. Formal methods of software development are not widely used in industry. Most companies do not consider it cost-effective to apply them in their software development processes. This may be for a variety of reasons, some of which are: * Time ** High initial start up cost with low measurable returns * Flexibility ** A lot of software companies use agile methodologies that focus on flexibility. Doing a formal specification of the whole system up front is often perceived as being the opposite of flexible. However, there is some research into the benefits of using formal specifications with "agile" development * Complexity ** They require a high level of mathematical expertise and the analytical skills to understand and apply them effectively ** A solution to this would be to develop tools and models that allow for these techniques to be implemented but hide the underlying mathematics * Limited scope ** They do not capture properties of interest for all stakeholders in the project ** They do not do a good job of specifying user interfaces and user interaction * Not cost-effective ** This is not entirely true, by limiting their use to only core parts of critical systems they have shown to be cost-effective Other limitations: * Isolation * Low-level ontologies * Poor guidance * Poor separation of concerns * Poor tool feedback


Paradigms

Formal specification techniques have existed in various domains and on various scales for quite some time. Implementations of formal specifications will differ depending on what kind of system they are attempting to model, how they are applied and at what point in the software life cycle they have been introduced. These types of models can be categorized into the following specification paradigms: * History-based specification ** behavior based on system histories ** assertions are interpreted over time * State-based specification ** behavior based on system states ** series of sequential steps, (e.g. a financial transaction) ** languages such as Z, VDM or B rely on this paradigm * Transition-based specification ** behavior based on transitions from state-to-state of the system ** best used with a reactive system ** languages such as Statecharts, PROMELA, STeP-SPL, RSML or SCR rely on this paradigm * Functional specification ** specify a system as a structure of mathematical functions ** OBJ, ASL, PLUSS, LARCH, HOL or PVS rely on this paradigm * Operational Specification ** early languages such as Paisley, GIST, Petri nets or process algebras rely on this paradigm In addition to the above paradigms, there are ways to apply certain heuristics to help improve the creation of these specifications. The paper referenced here best discusses heuristics to use when designing a specification. They do so by applying a divide-and-conquer approach.


Software tools

The
Z notation The Z notation is a formal specification language used for describing and modelling computing systems. It is targeted at the clear specification of computer programs and computer-based systems in general. History In 1974, Jean-Raymond Abrial ...
is an example of a leading formal specification language. Others include the Specification Language (VDM-SL) of the
Vienna Development Method The Vienna Development Method (VDM) is one of the longest-established formal methods for the development of computer-based systems. Originating in work done at the IBM Laboratory Vienna in the 1970s, it has grown to include a group of techniques ...
and the
Abstract Machine Notation Abstract may refer to: * ''Abstract'' (album), 1962 album by Joe Harriott * Abstract of title a summary of the documents affecting title to parcel of land * Abstract (law), a summary of a legal document * Abstract (summary), in academic publishin ...
(AMN) of the B-Method. In the Web services area, formal specification is often used to describe non-functional propertiesS-Cube Knowledge Model
Formal Specification
/ref> (Web services quality of service). Some tools are: * Algebraic *# Larch *# OBJ *# Lotos * Model-based *# Z *# B *# VDM *# CSP *# Petri Nets *# TLA+


Examples

For implementation examples, refer to the links in
software tools A programming tool or software development tool is a computer program that software developers use to create, debug, maintain, or otherwise support other programs and applications. The term usually refers to relatively simple programs, that can ...
section.


See also

* Algebraic specification * Formal methods *
Model-based specification Model-based specification is an approach to formal specification where the system specification is expressed as a system model, system state model. This state model is constructed using well-understood mathematical entities such as sets and Funct ...
* Software engineering * Specification language * Specification (technical standard)


References


External links

*
A Case for Formal Specification (Technology)
' {{Webarchive, url=https://web.archive.org/web/20051021002908/http://www.kuro5hin.org/story/2005/7/29/04553/9714 , date=2005-10-21 by Coryoth 2005-07-30 Formal methods Formal specification