Want this question answered?
-Software should deliver the required functionality and performance to the user and should be maintainable, dependable and acceptable. -Maintainability -Software must evolve to meet changing need. -Dependability -Software must trustworthy -Efficiency -Software should not make wasteful use of system resources. -Acceptability -Software must accepted by the users for which it was designed. This means it must be understandable, usable and compatible with other systems.
-Software should deliver the required functionality and performance to the user and should be maintainable, dependable and acceptable. -Maintainability -Software must evolve to meet changing need. -Dependability -Software must trustworthy -Efficiency -Software should not make wasteful use of system resources. -Acceptability -Software must accepted by the users for which it was designed. This means it must be understandable, usable and compatible with other systems.
Because maintenance is the most expensive part of the life cycle
third maintainability
As per my understanding the Suitability Criteria can be defined as Accessability of application, Usability, Maintainability and so on.
Virginia Rae Gibson has written: 'A study of complexity metrics as surrogate measures of software maintainability' -- subject(s): Computer programming, Software maintenance
maintainability
essential and important attributes that every software product must contain are the following: 1) maintainability 2)dependiabilty 3) efficiency 4) usabilty
Security, Reliability, Usability, Robustness, Maintainability, Correctness, Speed etc You can look at Software Dependability, Quality, Other keywords like being User-friendly, you can add Software + "feature" like Software Security and search for more explanations.
One of the features to look for in software testing tools is flexibility so that they can be applied to several different projects over time. Automatic testing software can save time and make testing over the course of development
According to Wikipedia there are 11 classes of flexibility:Machine flexibility - The different operation types that a machine can perform.Material handling flexibility - The ability to move the products within a manufacturing facility.Operation flexibility - The ability to produce a product in different ways.Process flexibility - The set of products that the system can produce.Product flexibility - The ability to add new products in the system.Routing flexibility - The different routes (through machines and workshops) that can be used to produce a product in the system.Volume flexibility - The ease to profitably increase or decrease the output of an existing system.Expansion flexibility - The ability to build out the capacity of a system.Program flexibility - The ability to run a system automatically.Production flexibility - The number of products a system currently can produce.Market flexibility - The ability of the system to adapt to market demands.
According to Wikipedia there are 11 classes of flexibility:Machine flexibility - The different operation types that a machine can perform.Material handling flexibility - The ability to move the products within a manufacturing facility.Operation flexibility - The ability to produce a product in different ways.Process flexibility - The set of products that the system can produce.Product flexibility - The ability to add new products in the system.Routing flexibility - The different routes (through machines and workshops) that can be used to produce a product in the system.Volume flexibility - The ease to profitably increase or decrease the output of an existing system.Expansion flexibility - The ability to build out the capacity of a system.Program flexibility - The ability to run a system automatically.Production flexibility - The number of products a system currently can produce.Market flexibility - The ability of the system to adapt to market demands.