Monday, 16 November 2015

What do You Understand By Software Engineering ? Explain the Evolution Role Of Software ?

Software engineering is the study and an application of engineering to the design, development and maintenance of software.

Defination Of SE :
"the systematic application of scientific and technological knowledge, methods, and experience to the design, implementation, testing, and documentation of software".

"the application of a systematic, disciplined, quantifiable approach to the development, operation, and maintenance of software"

Evolution Role Of Software:

Today, software takes on a dual role. It is a product and, at the same time, the vehicle for delivering a product. As a product, it delivers the computing potential embodied by computer hardware or, more broadly, a network of computers that are accessible by local hardware. Whether it resides within a cellular phone or operates inside a mainframe computer, software is an information transformer—producing, managing, acquiring, modifying, displaying, or transmitting information that can be as simple as a single bit or as complex as a multimedia presentation. As the vehicle used to deliver the product, software acts as the basis for the control of the computer (operating systems), the communication of information (networks), and the creation and control of other programs (software tools and environments). Software delivers the most important product of our time—information.

Software transforms personal data (e.g., an individual’s financial transactions) so that the data can be more useful in a local context; it manages business information to enhance competitiveness; it provides a gateway to worldwide information networks (e.g., Internet) and provides the means for acquiring information in all of its forms.

The role of computer software has undergone significant change over a time span of little more    than 50 years. Dramatic improvements in hardware performance, profound changes in computing architectures, vast increases in memory and storage capacity, and a wide variety of exotic input and output options have all precipitated more sophisticated and complex computer-based systems.

The lone programmer of an earlier era has been replaced by a team of software specialists, each focusing on one part of the technology required to deliver a complex application.

And yet, the same questions asked of the lone programmer are being asked when modern computer-based systems are built:

1)Why does it take so long to get software finished?
2)Why are development costs so high?
3)Why can't we find all the errors before we give the software to customers?
4)Why do we continue to have difficulty in measuring progress as software is being developed?

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