Showing posts with label System Development Life Cycle. Show all posts
Showing posts with label System Development Life Cycle. Show all posts

Wednesday, March 13, 2024

Benefits of Popular Software Development Models

 A software development process is a structure obligatory on the development of a software product. Similar terms incorporate software life cycle and software process. There are numerous models for such methods, each recounting advances to a diversity of tasks or activities that take place throughout the development.


The following are some basic popular models that are adopted by many software development firms

A. System Development Life Cycle (SDLC) Model

B. Prototyping Model

C. Rapid Application Development Model

D. Component Assembly Model

 

A. System Development Life Cycle (SDLC) Model

This is also known as Classic Life Cycle Model (or) Linear Sequential Model (or) Waterfall Method. This model has the following activities.

1. System/Information Engineering and Modeling

Software is perpetually of an outsized system or business, work starts by creating the needs for all system elements and then allocating some subset of these requirements to software.

2. Software Requirement Analysis

This process is also known as possibility study. In this phase, the development team visits the customer and studies their system. They examine the requirement for possible software automation in the given system. By the end of the possibility study, the team provides a document that holds the diverse specific recommendations for the candidate system.

3. System Analysis and Design

In this phase, the software development process, the software's general structure and its gradations are defined. In terms of the client - server technology needed for the package architecture, the database design, and the data structure design etc. are all helpful in this phase.

4. Code Generation

The design should be interpret into a machine readable form. The code generation step achieves this task. If the design is executed in a detailed manner, code generation can be accomplished without much complication.

5. Testing

Once the code is generated, after that the software program testing starts. Different testing methodologies are available to unravel the bugs that were committed during the previous phases.

6. Maintenance

The software will unquestionably experience change once it is delivered to the customer. There can be many reasons for this change to occur. Change could happen because of some surprising input values into the system.

B. Prototyping Model

This is a cyclic version of the linear model. In this model, once the need examination is over and the design for an example is complete, the development process begins. Once the prototype is shaped, it is given to the customer for evaluation. The customer tests the package and gives his/her feed back to the developer who purify the product according to the customer's precise expectation.

C. Rapid Application Development (RAD) Model

The RAD model is linear sequential software development processes that highlight an extremely short development cycle.  The RAD model is a "high speed" adaptation of the linear chronological model in which rapid development is attained by using a component-based construction approach. Used primarily for information systems applications, the RAD approach includes the following phases: Business modeling, Data modeling, Process modeling, Application generation, and Testing and turnover.

D. Component Assembly Model

Object technologies supply the technical framework for a component-based procedure model for software engineering. The object oriented paradigm highlights the construction of classes that summarize both data and the algorithm that are used to maneuver the data.

All these different software development models have their own advantages and disadvantages. Nevertheless, in the contemporary commercial software development world, the synthesis of all these methodologies is included.

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