Uncategorized Software Testing Life Cycle: STLC Phases and More – ARC

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This guide introduces shift-left testing and its benefits. Learn to increase your SDLC velocity and minimize bugs at release by shifting testing left.
Software testing is at the core of exceptional digital experiences. If you can’t sufficiently and thoroughly validate your products before customers use them, you risk alienating them. Software testing isn’t just a stage before release; it must be a multi-faceted, organization-wide, ongoing effort.
Just as there is a software development life cycle (SDLC) for developing digital products, there is a software testing life cycle (STLC) for validating them. Different members of the organization get involved at different stages to help businesses achieve their quality goals in a strategic, documented manner.
So, what is the software testing life cycle? We’ll provide an explanation of the process, as well as the individual STLC phases with examples.
The software testing life cycle is a sequence of tasks designed to understand the state of a system and make recommendations for improvement. The STLC involves strategizing, planning, executing and completing test cycles.
Traditionally, QA testing occurred shortly before product release as a way to ensure digital products don’t contain defects that negatively affect core functionality. However, as digital systems became more complex and businesses released batches of software and apps more often, the STLC evolved. In many organizations, testing no longer waits until a product is fully developed. Over the last couple of decades, some organizations have included STLC phases before and during development to maximize resources, employing some of the following tactics:
Test automation
Test-driven development
Shift-left testing
Shift-right testing
An effective STLC produces more comprehensive and valid results than a traditional post-development testing stage, helping organizations make changes that ultimately drive customer satisfaction and, thus, more revenue. The STLC process should be less a pre-release obligation than an effort to discover key insights that will benefit the business over the short- and long-term.
The software testing life cycle provides confidence in a software release. The STLC delivers that confidence through a series of tasks that take validation through ideation to design and execution. Each STLC phase is useful in its own way to achieve high-quality software releases. Likewise, each part of the STLC process comes with its own goals and deliverables, all intended to catch defects and optimize test coverage.
Let’s dig into these sequential phases of the software testing life cycle:
Requirement analysis
Test planning
Test case design and development
Test environment setup
Test execution
Test cycle closure
1. Requirement analysis
Most development initiatives begin with software requirements that specify what the business expects from the project. Software requirements often include high-level business needs, architectural requirements that detail how the feature will be designed and supported, and detailed system requirements from which developers build the product. System requirements include functional and non-functional specifications, both of which present opportunities to test and validate.
In this STLC phase, testers work both within their own teams and cross-functionally to contextualize how they will test the software. Requirement analysis often includes brainstorming sessions, identifying blind spots or unclear areas in the requirements, and prioritizing certain assessments.
When in doubt or lacking requirements documentation, the QA team will question the engineering or business side to clarify and calcify a testing strategy.
2. Test planning
The second STLC phase is important, as it guides much of the work to follow. Test planning takes the insights found during requirements or product analysis and turns them into a documented QA strategy.
The test team leadership determines what resources and efforts will evaluate the release. The resulting test plan documentation both informs testers and other departments how the testing work will commence, keeping everyone on the same page. This plan is especially helpful if other members of the organization will take part in testing and bug remediation, such as developers executing unit tests and writing hotfixes.
The test plan spells out several details of the QA work to be done, including the scope, objectives, types of functional and non-functional tests (both automated and manual), and details for the test environments. Once these details are determined, test management sets roles and timelines for the work. Finally, the testing team can determine what deliverables it will provide upon completion of the STLC phases.
3. Test case design and development
With the test plan in place, testers can begin to write and create detailed test cases. In this STLC phase, the QA team fleshes out the details of the structured tests they will run, including any test data they will need to facilitate those tests. While tests must ultimately validate the areas defined by requirements, testers can exert their skills and creativity in how they achieve this task.
When conceptualizing test cases, the tester’s goal should be to validate functionality within the allotted time and scope, especially core functionality. Test cases should be simple and well understood for any member of the team, but also unique from other test cases. Test cases should aim to achieve full coverage of the requirements in the specifications document — a traceability matrix can help track coverage. It’s important that test cases be identifiable and repeatable, as developers will add new functionality to the product over time, requiring tests to run again. They must also not alter the test environment for future tests, especially when validating configurations.
Test cases might also require maintenance or updates over time to validate both new and existing functionality. This work also occurs at this STLC stage.
Once test cases are ready, a test team lead or peer can review them. They might also review and update automated test scripts at this STLC stage. Ultimately, the team prioritizes and organizes these test cases into test suites that run later.
4. Test environment setup
The test environment provides the setting where the actual testing occurs. This is a crucial software testing life cycle phase, and it requires help from other members of the organization. Testers must have access to bug reporting capabilities, as well as the application architecture to support the product. Without these elements, testers might not be able to do their jobs.
Once ready, testers establish the parameters for the test environment, which include the hardware, software, test data, frameworks, configurations and network. In this STLC phase, testers adjust these environment parameters depending on what the test case requires. For example, the majority of a product’s users might be on an Android device, use a certain version of a Chrome browser and have a certain amount of processing power on those devices — these are parameters the test environment would include.
Smoke tests within these test environments provide a very early and rudimentary check that the software is ready for more comprehensive testing. These smoke tests against the builds are part of the deliverable in this STLC phase.
5. Test execution
Next in the software testing life cycle, it’s time to fully test the product. At this STLC stage, testers execute all of the test cases, or as many as is possible within the allotted time. QA professionals and automated scripts execute a number of functional and non-functional tests.
Here in the STLC, testers will identify and report detailed bugs that arise from test case execution and log the system’s performance compared to its requirements. As developers make fixes, testers often retest the product to make sure new defects don’t materialize. With all of these tests piling up in the test execution STLC phase, it’s important to make use of test automation where possible to achieve the test coverage and velocity you need.
6. Test cycle closure
The final STLC phase is test cycle closure. In this stage, the testing team provides a test closure report, which summarizes and communicates its findings with the rest of the team. This report typically includes summaries of the testing work and results, an assessment of the testing and the manager’s approval.
During the test cycle closure, the testing team checks its deliverables, which include details relevant to the testing work, such as the test strategy, test case documents, automated test scripts and test results. The team will then complete and close incident reports, which detail unusual or unexpected behavior that the test team observes during testing. The team must also archive the resources it used during testing, such as scripts, tools and environments, for later use.
From there, the organization plans the product for support and release, which often includes acceptance and feedback from customer representatives.
Communication is key in this STLC phase, as additional perspectives might uncover a quality, cost or coverage issue that the rest of the group missed. These discussions can yield additional analysis or inform how to improve QA work in the future.
The common software testing life cycle phases above follow a sequential approach similar to Waterfall application development. However, as many businesses rethink how they develop products, testing must also adapt to align with iterative organizational practices and pace of releases.
The QA team might follow an Agile testing method instead, which impacts the STLC phases above in various ways. Most notably, an Agile testing team might not file a report or an assessment of the testing work — the release would simply be planned for delivery.
Additionally, Agile testing places an emphasis on shift-left and shift-right testing to alleviate QA bottlenecks. While test automation is included in the STLC phases above, Agile testing might place a higher priority on methods like in-sprint testing and test-driven development, both of which generally result in cleaner, simpler bits of code. Production testing, or shift-right testing, helps the QA team identify defects after the test cycle closure. While these defects are often more costly to correct, it’s better late than never when it comes to fixing a bug. Shift-right often involves exploratory testing and user testing to find defects that test cases failed to uncover.
In short, the STLC phases above might change slightly depending on the organization’s development and testing philosophies.
There’s no time to spare when it comes to testing. The pressure to meet tight release deadlines is higher than ever. QA teams must look for any edge throughout the software testing life cycle that helps them release a high-quality product quickly.
Applause can be there with you from the very outset of the project as a strategic testing partner, genuinely invested in your company’s success. At any STLC phase, Applause can step in to provide the expertise of our world-class, worldwide community of experts and help you release exceptional products.
Testing with Applause opens up additional testing possibilities, such as testing on a broader range of devices and in different locations, which lets you focus on what to test, not how you will do it. From the very beginning of the STLC, Applause can pose important strategic QA questions to inform manual or automated QA strategy.
We’re flexible to your needs. Applause works where and how you need us. Once you determine testing priorities, we can help you determine the scope and timelines of the testing — or simply work within the ones you define.
Whatever your test execution needs are, Applause is ready to help facilitate it. Whether you need an enterprise-grade automation framework, manual testers in a specific market and with specific characteristics, or a partner to help facilitate shift-left testing, Applause is ready to deliver — and exceed — your testing goals.
Let’s have a conversation about how we can make your software testing life cycle more efficient.
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