Introduction To keep pace with ever-increasing customer demands on software functionality and time-to-market expectations, software developers have had to evolve the course they develop code to be both faster and higher quality. As part of this trend, the Waterfall method of software development began to give course of action in the late 1990s to a more lightweight method of software development: Agile. The application of Agile has grown in the persist decade and is still maturing. Software organizations are constantly looking for ways to improve their Agile environments, and minimizing software bugs is one area of focus. This paper will demonstrate that assorted of the core principles of Agile cannot be fully realized without implementing a repeatable action for ensuring code that is as bug-free as possible. The approach recommended in this paper is the employ of automated source code analysis (SCA) technology to locate and describe areas of weakness in software source co
de, such as security vulnerabilities, logic errors, code vulnerability analysis, implementation defects, concurrency violations, rare boundary conditions, or any number of other types of problem-causing code. After providing brief overviews of Agile and SCA, and discussing the importance of bug-free code in enabling Agile development, this paper demonstrates how key elements of SCA enhance the Agile development processes and empower Agile teams. You will learn the relationship between bug-free code and Agile development, as well as how to deploy SCA tools seamlessly into your Agile development operation to ensure that it runs at peak optimization. Agile Development - A Brief Overview Simply put, Agile software development is an approach that provides flexibility to accommodate continuous alter throughout the software development cycle. It stresses rapid delivery of working software, empowerment of developers, and emphasises collaboration between developers and t
he rest of the team, including business people. Agile contrasts with the still-popular Waterfall development approach, which is front-end loaded with comprehensive scope and requirements definitions, and which employs clear, consecutive hand-offs from requirements definition to design to coding and then to quality assurance. In contrast, Agile incorporates a continuous stream of requirements gathering that continues throughout development. Business mankind are involved early and often throughout the release cycle, ensuring that the software being developed meets the true needs of both the end-user and the business. Alternate to the requirements and to the overall feature place is expected to occur as outside opportunities or threats arise. In short, Agile fully embraces modify and Agile teams are structured in such a plan that they can receive and act on constant feedback provided by the build process, by other developers, from QA, and from business stakeholders. C
onclusion The ubiquitous nature of software today, coupled with the pressure to rapidly develop market-ready features and products in just weeks, has led to two related phenomena: The widespread adoption of Agile software development principles; and, The adoption of various tools by Agile teams designed to aid streamline and de-risk development projects. Full text: http://computerandtechnologies.com/computers-and-technology/news_2009-01-01-18-30-03-485.html
Thursday, January 1, 2009
Subscribe to:
Post Comments (Atom)
No comments:
Post a Comment