Sad comparison between waterfall model and spiral model

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  • 1. Comparison Between Waterfall Model and Spiral Model While developing a software, developers are often confused about the waterfall model vs spiral model. It is because they are not able to decide, which of these models is better for the software they are developing. Software development on a broader level includes all the activities, between the manifestation of the idea for the software to the maintenance of the said software. Sometimes, it may also be referred to the actual task of writing the software code, and also maintaining it over a period of time. Over a period of time, there are different software development models, that have been used for the said purpose. The first of the software model to be used was the waterfall model. The other model, which is commonly used is the spiral model. Both these models are among the most popular models in the field of software development. The older of the two models is the waterfall model. There is often the waterfall model vs spiral model debate, which can be heard in the corridors, when a new software development process is undertaken. Understanding the difference between the two models will make it easier to decide, which is the right model to be used for software development. However, it is equally important to understand each of these models, which will help in better understanding of difference between both of them. Waterfall Model The waterfall model is often also referred to as the linear and sequential model, for the flow of activities in this model are rather linear and sequential as the name suggests. In this model, the software development activities move to the next phase only after the activities in the current phase are over. However, like is the case with a waterfall, one cannot return to the previous stage. The phases of this model are:

2. Requirement Gathering and Analysis Phase Design Phase Coding Phase System Integration Phase Testing and Debugging Phase Delivery Phase Maintenance Phase Advantages The most important advantage of the waterfall model lies in the fact, that there is minimum planning overhead for the steps that are to follow, since the activities in each of the phase is carried out upfront, it is feasible that one does not have to plan for the entire phase. There is certain amount of discipline that is enforced as one has to only look into one phase of the process at any given point of time. In other models it is often difficult to nail the start and end of the said phase, which is not the case with the waterfall model. The most important of the advantage is that the project does not slip on its schedule. The number of resources working on the project does not keep on increasing with each passing day, as the planning for the same is done at the start of the phase itself. Disadvantages As there are advantages of the waterfall model, there are also some disadvantages of the said model. The first and the foremost disadvantage of this model is the inability of making changes to the system, once the system requirements have been frozen. It is not uncommon to see the requirements changing in the initial phases. In other words, one cannot go back to the previous stage. This is a disadvantage, due to which this model was relegated to the back. The same happens to be the case with the hardware and the software requirement for the software. If the software development process extends for a longer period of time, there are chances that the hardware and the software options chosen for the software may become obsolete at the end of the development process. Spiral Model 3. The spiral model was introduced, due to the shortcomings in the waterfall and prototype models of software engineering. It is a combination of the said two models of software development. From the name of the model, it can be derived that the activities of software development are carried out like a spiral. To explain the model further, the entire software development process is broken down into small projects. The phases of the spiral model are as follows: Planning Phase Risk Analysis Phase Engineering Phase Coding and Implementation Phase Evaluation Phase Advantages The disadvantage of the waterfall model is the advantage of the spiral model. It is a realistic model, which is often used in the development of large software. There is a systematic approach used in the spiral model, which is integrated into the iterative framework. This helps in ensuring there is no problems in the software. Since changes to the software can be made at any point of time in the software development process. Disadvantages In the spiral model, it is important to have a member in the team, who is an expert at risk assessment. Without correct risk assessment, there are chances that the software can utterly be a failure. The client may have to spend a lot of time with the development team to fix the issues that have cropped up in the software. This may at times become like a overhead for the both the client as 4. well as the software development company. This also leads to the over involvement of the customer in the process of software development, which may cause the customer to ignore certain risks and cause harm to the project. Difference Between Waterfall Model and Spiral Model While in the spiral model, the customer is made aware of all the happenings in the software development, in the waterfall model the customer is not involved. This often leads to situations, where the software is not developed according to the needs of the customer. In the spiral model, the customer is involved in the software development process from the word go. This helps in ensuring that the software meets the needs of the customer. In the waterfall model, when the development process shifts to the next stage, there is no going back. This often leads to roadblocks, especially during the coding phase. Many times it is seen that the design of the software looks feasible on paper, however, in the implementation phase it may be difficult to code for the same. However, in the spiral model, since there are different iterations, it is rather easier to change the design and make the software feasible. In the spiral model, one can revisit the different phases of software development, as many times as one wants, during the entire development process. This also helps in back tracking, reversing or revising the process. However, the same is not possible in the waterfall model, which allows no such scope. Often people have the waterfall model or spiral model confusion due to the fact, that the spiral model seems to be a complex model. It can be attributed to the fact that there are many iterations, which go into the model. At the same time, often there is no documentation involved in the spiral model, which makes it difficult to keep a track of the entire process. On the other hand, the waterfall model has sequential progression, along with clear documentation of the entire process. This ensures one has a better hold over the entire process. From the above discussion on spiral model vs waterfall model, it is clear that both the models have their own advantages and shortcomings. While one is stuck between the waterfall model vs spiral model debate, it is best to evaluate the software that is being developed and then decide the right approach. The size of the project and the urgency of the software will have to be taken into consideration for the same. At the same time, the resources available will have an important role to play in the software development process. 5. The characters in the fable of the Tortoise and the Hare can easily be used to demonstrate the similarities and differences between the Waterfall and Prototyping software development models. This children fable is about a race between a consistently slow moving but steadfast turtle and an extremely fast but unreliable rabbit. After closely comparing each characters attributes in correlation with both software development models, a trend seems to appear in that the Waterfall closely resembles the Tortoise in that Waterfall Model is typically a slow moving process that is broken up in to multiple sequential steps that must be executed in a standard linear pattern. The Tortoise can be quoted several times in the story saying Slow and steady wins the race. This is the perfect mantra for the Waterfall Model in that this model is seen as a cumbersome and slow moving. Waterfall Model Phases Requirement Analysis & Definition o This phase focuses on defining requirements for a project that is to be developed and determining if the project is even feasible. Requirements are collected by analyzing existing systems and functionality in correlation with the needs of the business and the desires of the end users. The desired output for this phase is a list of specific requirements from the business that are to be designed and implemented in the subsequent steps. In addition this phase is used to determine if any value will be gained by completing the project. System Design o This phase focuses primarily on the actual architectural design of a system, and how it will interact within itself and with other existing applications. Projects at this level should be viewed at a high level so that actual implementation details are decided in the implementation phase. However major environmental decision like hardware and platform decision are typically decided in this phase. Furthermore the basic goal of this phase is to design an application at the system level in those classes, interfaces, and interactions are defined. Additionally decisions about scalability, distribution and reliability should also be considered for all decisions. The desired output for this phase is a functional design document that states all of the architectural decisions that have been made in regards to the project as well as a diagrams like a sequence and class diagrams. Software Design o This phase focuses primarily on the refining of the decisions found in the functional design document. Classes and interfaces are further broken down in to logical modules based on the interfaces and interactions previously indicated. The output of this phase is a formal design document. Implementation / Coding o This phase focuses primarily on implementing the previously defined modules in to units of code. These units are developed independently are intergraded as the system is put together as part of a whole system. Software Integration & Verification o This phase primarily focuses on testing each of the units of code developed as well as testing the system as a whole. There are basic types of testing at this phase and 6. they include: Unit Test and Integration Test. Unit Test are built to test the functionality of a code unit to ensure that it preforms its desired task. Integration testing test the system as a whole because it focuses on results of combining specific units of code and validating it against expected results. The output of this phase is a test plan that includes test with expected results and actual results. System Verification o This phase primarily focuses on testing the system as a whole in regards to the list of project requirements and desired operating environment. Operation & Maintenance o his phase primarily focuses on handing off the competed project over to the customer so that they can verify that all of their requirements have been met based on their original requirements. This phase will also validate the correctness of their requirements and if any changed need to be made. In addition, any problems not resolved in the previous phase will be handled in this section. The Waterfall Models linear and sequential methodology does offer a project certain advantages and disadvantages. Advantages of the Waterfall Model Simplistic to implement and execute for projects and/or company wide Limited demand on resources Large emphasis on documentation Disadvantages of the Waterfall Model Completed phases cannot be revisited regardless if issues arise within a project Accurate requirement are never gather prior to the completion of the requirement phase due to the lack of clarification in regards to clients desires. Small changes or errors that arise in applications may cause additional problems The client cannot change any requirements once the requirements phase has been completed leaving them no options for changes as they see their requirements changes as the customers desires change. Excess documentation Phases are cumbersome and slow moving Conversely, the Hare shares similar traits with the prototyping software development model in that ideas are rapidly converted to basic working examples and subsequent changes are made to quickly align the project with customers desires as they are formulated and as software strays from the customers vision. The basic concept of prototyping is to eliminate the use of well-defined project requirements. Projects are allowed to grow as the customer needs and request grow. Projects are initially designed according to basic requirements and are refined as requirement become more refined. This process allows customer to feel their way around the application to ensure that they are developing exactly what they want in the application 7. This model also works well for determining the feasibility of certain approaches in regards to an application. Prototypes allow for quickly developing examples of implementing specific functionality based on certain techniques. Advantages of Prototyping May provide the proof of concept necessary to attract funding Early visibility of the prototype gives users an idea of what the final system looks like Encourages active participation among users and producer Enables a higher output for user Cost effective (Development costs reduced). Increases system development speed Assists to identify any problems with the efficacy of earlier design, requirements analysis and coding activities Helps to refine the potential risks associated with the delivery of the system being developed Various aspects can be tested and quicker feedback can be gained from the user Helps to deliver the product in quality easily User interaction available during development cycle of prototype Disadvantages of Prototyping Producer might produce a system inadequate for overall organization needs User can get too involved whereas the program can not be to a high standard Structure of system can be damaged since many changes could be made Producer might get too attached to it (might cause legal involvement) [verification needed] 8. Not suitable for large applications Over long periods, can cause loss in consumer interest and subsequent cancellation due to a lack of a market (for commercial products) May slow the development process, if there are large number of end users to satisfy. When companies trying to decide between the...


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