What is SDLC?

The software development lifecycle (SDLC) is the cost-effective and time-efficient process that development teams use to design and build high-quality software. The goal of SDLC is to minimize project risks through forward planning so that software meets customer expectations during production and beyond. This methodology outlines a series of steps that divide the software development process into tasks you can assign, complete, and measure.

Why is SDLC important?

Software development can be challenging to manage due to changing requirements, technology upgrades, and cross-functional collaboration. The software development lifecycle (SDLC) methodology provides a systematic management framework with specific deliverables at every stage of the software development process. As a result, all stakeholders agree on software development goals and requirements upfront and also have a plan to achieve those goals.

Here are some benefits of SDLC:

  • Increased visibility of the development process for all stakeholders involved
  • Efficient estimation, planning, and scheduling
  • Improved risk management and cost estimation
  • Systematic software delivery and better customer satisfaction

How does SDLC work?

The software development lifecycle (SDLC) outlines several tasks required to build a software application. The development process goes through several stages as developers add new features and fix bugs in the software.

The details of the SDLC process vary for different teams. However, we outline some common SDLC phases below.

Plan

The planning phase typically includes tasks like cost-benefit analysis, scheduling, resource estimation, and allocation. The development team collects requirements from several stakeholders such as customers, internal and external experts, and managers to create a software requirement specification document.

The document sets expectations and defines common goals that aid in project planning. The team estimates costs, creates a schedule, and has a detailed plan to achieve their goals.

Design

In the design phase, software engineers analyze requirements and identify the best solutions to create the software. For example, they may consider integrating pre-existing modules, make technology choices, and identify development tools. They will look at how to best integrate the new software into any existing IT infrastructure the organization may have.

Implement

In the implementation phase, the development team codes the product. They analyze the requirements to identify smaller coding tasks they can do daily to achieve the final result.

Test

The development team combines automation and manual testing to check the software for bugs. Quality analysis includes testing the software for errors and checking if it meets customer requirements. Because many teams immediately test the code they write, the testing phase often runs parallel to the development phase.

Deploy

When teams develop software, they code and test on a different copy of the software than the one that the users have access to. The software that customers use is called production, while other copies are said to be in the build environment, or testing environment.

Having separate build and production environments ensures that customers can continue to use the software even while it is being changed or upgraded. The deployment phase includes several tasks to move the latest build copy to the production environment, such as packaging, environment configuration, and installation.

Maintain

In the maintenance phase, among other tasks, the team fixes bugs, resolves customer issues, and manages software changes. In addition, the team monitors overall system performance, security, and user experience to identify new ways to improve the existing software.

What are SDLC models?

A software development lifecycle (SDLC) model conceptually presents SDLC in an organized fashion to help organizations implement it. Different models arrange the SDLC phases in varying chronological order to optimize the development cycle. We look at some popular SDLC models below.

Waterfall

The waterfall model arranges all the phases sequentially so that each new phase depends on the outcome of the previous phase. Conceptually, the design flows from one phase down to the next, like that of a waterfall.

Pros and cons

The waterfall model provides discipline to project management and gives a tangible output at the end of each phase. However, there is little room for change once a phase is considered complete, as changes can affect the software's delivery time, cost, and quality. Therefore, the model is most suitable for small software development projects, where tasks are easy to arrange and manage and requirements can be pre-defined accurately.

Iterative

The iterative process suggests that teams begin software development with a small subset of requirements. Then, they iteratively enhance versions over time until the complete software is ready for production. The team produces a new software version at the end of each iteration.

Pros and cons

It’s easy to identify and manage risks, as requirements can change between iterations. However, repeated cycles could lead to scope change and underestimation of resources.

Spiral

The spiral model combines the iterative model's small repeated cycles with the waterfall model's linear sequential flow to prioritize risk analysis. You can use the spiral model to ensure software's gradual release and improvement by building prototypes at each phase.

Pros and cons

The spiral model is suitable for large and complex projects that require frequent changes. However, it can be expensive for smaller projects with a limited scope.

Agile

The agile model arranges the SDLC phases into several development cycles. The team iterates through the phases rapidly, delivering only small, incremental software changes in each cycle. They continuously evaluate requirements, plans, and results so that they can respond quickly to change. The agile model is both iterative and incremental, making it more efficient than other process models.

Pros and cons

Rapid development cycles help teams identify and address issues in complex projects early on and before they become significant problems. They can also engage customers and stakeholders to obtain feedback throughout the project lifecycle. However, overreliance on customer feedback could lead to excessive scope changes or end the project midway.

How does SDLC address security?

In traditional software development, security testing was a separate process from the software development lifecycle (SDLC). The security team discovered security flaws only after they had built the software. This led to a high number of bugs that remained hidden as well as increased security risks.

Today, most teams recognize that security is an integral part of the software development lifecycle. You can address security in SDLC following DevSecOps practices and conducting security assessments during the entire SDLC process.

DevSecOps

DevSecOps is the practice of integrating security testing at every stage of the software development process. It includes tools and processes that encourage collaboration between developers, security specialists, and operation teams to build software that can withstand modern threats. In addition, it ensures that security assurance activities such as code review, architecture analysis, and penetration testing are integral to development efforts.

Read about AWS DevOps Competency Partners »

How does SDLC compare with other lifecycle management methodologies?

The term software development lifecycle (SDLC) is frequently used in technology to refer to the entire process of technology innovation and support. We give other similar terms below.

Systems development lifecycle

The abbreviation SDLC can sometimes refer to the systems development lifecycle, the process for planning and creating an IT system. The system typically consists of several hardware and software components that work together to perform complex functions.

Software development lifecycle compared to systems development lifecycle

The software development lifecycle addresses only the development and testing of software components. On the other hand, system development is a broader superset involving the setup and management of the software, hardware, people, and processes that can make up a system. It can include tasks like organizational training and change management policies that don’t fall under the software development umbrella.

Application lifecycle management

Application lifecycle management (ALM) is the creation and maintenance of software applications until they are no longer required. It involves multiple processes, tools, and people working together to manage every lifecycle aspect, such as ideation, design and development, testing, production, support, and eventual redundancy.

SDLC compared to ALM

SDLC describes the application development phase in greater detail. It is a part of ALM. ALM includes the entire lifecycle of the application and continues beyond SDLC. ALM can have multiple SDLCs during an application's lifecycle.

How can AWS help you with your SDLC requirements?

AWS developer tools have several services that bring efficiency to your software development lifecycle (SDLC). Here are some examples:

  • Amazon CodeGuru is a developer tool that provides intelligent recommendations to improve code quality and identify an application's most expensive lines of code. Integrate CodeGuru into your existing software development workflow to automate code reviews and continuously monitor the application's performance in the production environment.
  • AWS CodePipeline is a fully managed service that helps you automate your release cycles for fast, reliable application and infrastructure updates.
  • AWS CodeBuild is a fully managed service that compiles source code, runs tests, and produces ready-to-deploy software packages. CodeBuild scales continuously and processes multiple builds concurrently, so your builds are not left waiting in a queue.
  • Amazon Elastic Container Service (Amazon ECS) is a fully managed service that makes it easy for you to deploy, manage, and scale containerized applications.

In addition, Amazon Managed Grafana is a fully managed service for open-source Grafana developed in collaboration with Grafana Labs. Grafana is a popular open-source analytics platform that enables you to query, visualize, alert, and understand your metrics no matter where they are stored. 

With an optional upgrade to Grafana Enterprise, you can access more third-party plugins that provide SDLC monitoring capabilities, such as ServiceNow and Atlassian Jira. Using these plugins, you can pull incident details and SDLC deliverables into Amazon Managed Grafana. Then, you can track incident statuses, pull requests and code commits, and monitor software releases alongside their application health and performance data, all in one place.

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