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The software testing process is essential to delivering many things.

The obvious answer is that, yes, it does help to deliver a finished product or a service to end users. However, the scope of the process of testing software goes well beyond the service aspect. We have testers of various kinds who measure the programs’ variables against different things.

Security, usability, stress testing, penetration testing all sorts of tests are part of the software test process, as a whole. In other words, it’s a means to an end. 

But, here’s the million-dollar question, what if you are an aspiring software developer, who wishes to seek a career pathway as a software tester? 

In this post, we’ll talk about the importance of software testing, and a general introduction to the software test process. 

Don’t be intimidated. 

We know that the mere sight of codebase and algorithms probably puts a lot of people to sleep. However, we’ll try to make this blog as descriptive as possible – and that too, without mentioning a single line of code!

Read on…

Fun Fact: Did you know that when working on a software project, good companies spend at least 50% of their budget on the software test process, and the remainder on the development aspect? That’s all the more reason that alludes to the importance of software testing.

What is Test Process in Software Development?

What is Software Test Process

Software testing, or the software test process, is a vital part of software development and the process that verifies if a program is functioning as it should. 

It involves executing a program or application with the intent of finding bugs and errors that could potentially cause it to crash or produce unexpected results. It also ensures that the program meets its requirements, both functionally and non-functionally.

Software testers analyze the code and look for any discrepancies between what developers have written in the code and what they expect the program to do. 

They use techniques such as black-box testing, white-box testing, unit testing, integration testing, acceptance testing, regression testing, performance testing, load testing, and stress testing to test programs thoroughly. 

These tests are designed to identify problems before they occur in production environments.

Software testers typically use bug-tracking tools such as JIRA or Bugzilla to track reported issues and follow up on them with developers until they are resolved. 

They also create test plans outlining all of the tests that need to be performed. This helps them ensure that all aspects of the software have been tested thoroughly before releasing it into production environments.

Why is the process of software testing important?

The process of software testing is critical  for ensuring quality in development. Without it, late deliveries or defects can harm a brand’s reputation and lead to frustrated customers.

 In severe cases, bugs can even disrupt interconnected systems or cause serious malfunctions.

For instance, Nissan had to recall over 1 million cars due to a software defect in airbag sensors, and a bug led to a $1.2 billion military satellite launch failure. 

These incidents highlight the significant impact of software failures. In 2016, such failures cost the US economy $1.1 trillion and affected 4.4 billion customers.

While testing does come with a cost, it can save companies millions annually in development and support. 

Early testing identifies issues before a product hits the market. This means development teams receive feedback sooner, allowing them to address problems like architectural flaws, poor design choices, incorrect functionality, security risks, and scalability issues.

When there’s ample room for testing in the development process, it boosts software reliability. This leads to the delivery of high-quality applications with minimal errors. 

Such a system that meets or exceeds customer expectations can result in increased sales and a larger market share.

What Are The Types of  Software Test Processes?

Types of  Software Test Processes

The process of testing any software is split into two main categories – i.e. automated testing, and manual testing. 

Furthermore, these categories branch into different forms of career specialties, such as QA (*Quality Assurance) testing, debugging, and vice versa. The basic ideology associated with the importance of software testing remains the same – developers want to create a fully-fledged program that’ll eventually deliver a delightful customer experience. 

Automatic Software Test Process

Automatic software testing is the process of automating the execution of tests to detect errors and bugs in software. 

This type of testing helps to ensure that software is functioning correctly, meeting the requirements, and performing as expected. Automatic software testing can be done in various ways such as creating test scripts, using automated test runners, or running automated tests through a continuous integration system. 

Automatic testing also helps to reduce manual effort in the testing process by running multiple tests at once. Automating the testing process also enables faster feedback and more efficient use of resources. 

Overall, automatic software testing can help improve the quality and reliability of software by detecting errors quickly and accurately. 

It is an essential part of any successful software development process because it helps developers to detect errors early on in the development lifecycle rather than at a later stage when they are more expensive and difficult to fix. 

In addition, automated tests can be run regularly as part of a continuous integration system which helps ensure that changes made to the codebase do not break existing functionality.

Manual Software Test Process

Manual software testing is the process of manually examining software to identify defects and ensure that it meets the specifications. 

This type of testing is done by a human tester as opposed to an automated program. During manual software testing, testers will go through each feature of the software and test that it works correctly. 

The focus of manual software testing is to uncover any bugs or issues that may exist in the software. This can be done by using various test cases, which are predetermined scenarios in which the tester will interact with the software to check its functionality. 

Manual testing requires extensive knowledge of the different tools and techniques used in the process, as well as a good understanding of how different types of software work. 

By having a thorough understanding of how manual software testing works, aspiring testers can gain valuable experience and knowledge for their career path in the industry.

Popular Types of Software Test Process

Having illustrated the basic concept of a software test process, let’s look at the main types of software tests. 

Dynamic Software Testing:

Dynamic software testing is a type of software testing process that focuses on analyzing the behavior and performance of the software program. It involves running the program through a variety of different scenarios and data sets in order to evaluate how the program behaves in different contexts. This type of testing is essential for ensuring that the program can handle various inputs and outputs, as well as any unexpected conditions. 

Dynamic testing can be broken down into two main categories: functional testing and non-functional testing. Functional testing evaluates how the program functions within its specified parameters. 

On the other hand, when we talk about software test process categories, you should know that non-functional tests measure how well something performs when subjected to various external factors such as load, performance, security, scalability, and usability. 

By having both types of tests in place, developers can ensure that their software meets all requirements set out by stakeholders and users. 

Static Software Testing:

Moving on with the software test process types, let’s see what static software testing is all about.

It is a type of program analysis that examines the structure, content, and syntax of code without executing it. It looks at the static elements of the software to identify any potential errors or vulnerabilities. 

One example of static software testing is code review, where developers read over code to find bugs and errors before it goes into production. Static software testing can also detect issues with coding conventions, such as coding style, formatting, and overall program structure.

Software testers use static software testing to identify potential issues in the early stages of development and to ensure that the end product meets quality standards. 

By running static tests early on in the development process, testers can proactively address bugs before they become more serious problems down the line. Additionally, static software testing allows testers to evaluate code without having access to an environment with all its dependencies. This makes it possible for testers to test code even if they don’t have access to a full-fledged test environment. 

Overall, static software testing plays an important role in ensuring quality throughout the development process and helps developers create reliable products that meet customer expectations. 

Software Testing Process – 11 Easy Steps in Software Testing

In this section, we’ll break down the software testing process into easy steps in software testing. The overall process of software testing is grounded in practical experience, offering a reliable solution for testing assignments.

Step 1: Assess Development Plan and Status

Before diving in, it’s crucial to evaluate the development plan and its current status. 

This sets the stage for creating a plan for Verification, Validation, and Testing. Testers carefully scrutinize the completeness and accuracy of the event plan. 

The project plan’s thoroughness guides testers in estimating the resources needed to test the implemented software solution.

Step 2: Develop the Test Plan

Creating a testing plan follows a similar pattern to other software planning processes. 

While the structure remains consistent, the content varies based on the perceived risks associated with the software under development.

Step 3: Test Software Requirements

Ensuring accurate, complete, and non-conflicting requirements is paramount, as these are often the root cause of software failures. 

Getting the requirements right from the start can significantly impact implementation costs.

Step 4: Test Software Design

This step of software testing process examines both the external and internal design, mainly through verification techniques.

Testers ensure that the design aligns with objectives and functions effectively on the designated hardware.

Step 5: Build Phase Testing

The method chosen for software construction influences the type and extent of testing required. 

As automation increases, fewer tests are needed in this phase. However, if the software follows a waterfall process, it must be rigorously verified. 

Detecting defects during the development phase proves far more cost-effective than dynamic testing during the execution phase.

Step 6: Execute and Record Results

This involves testing the code in its dynamic state. The tools and methods outlined in the test plan are applied to validate that the executable code meets the stated software requirements and the structural specifications of the design.

Step 7: Use Acceptance Test

Users get their hands on the software to assess its relevance and usefulness in their day-to-day tasks. 

This test gauges whether the software aligns with what users believe it should do, rather than just relying on documented requirements.

Step 8: Report Test Results

Reporting tests is an ongoing process, communicated through both oral and written means. 

It’s crucial to promptly report defects and concerns to the relevant parties to ensure corrections are made at the least cost.

Step 9: The Software Installation

Before deploying the software, it’s essential to test its functionality in the production environment. 

This step of software testing process involves checking its compatibility with operating systems, related software, and operating procedures.

Step 10: Test Software Changes

Throughout maintenance or implementation, adapting to changes in requirements is key. 

The test plan must evolve, and the impact on software systems needs thorough evaluation.

Step 11: Evaluate Test’s Effectiveness

After each software test assignment, it’s crucial to assess the testing’s effectiveness. 

This evaluation is primarily led by testers, but it should also involve developers, software users, and quality assurance professionals if they’re part of the IT organization.

4 Most Common Approaches To Software Testing Process For Beginners

The process of software testing is a culmination of different things. Aside from the ones that we have talked about earlier in this post, additional elements of steps in software testing involve the following aspects.

Unit Testing

It is the process of testing a single unit or component of a program to ensure that it meets the requirements and works as expected. 

This type of testing is done by developers during the development process, since it helps to identify bugs and defects early on, allowing for quicker resolution. 

Unit tests are structured as small, independent programs that check for specific outcomes when executed. In other words, they are used to make sure that individual components of an application work properly together in order to produce an expected result.

Unit testing can be used for a variety of purposes, including verifying code correctness, ensuring code compatibility with other modules or applications, validating user input data, and evaluating the performance of algorithms. 

By running unit tests regularly throughout the development process, developers can ensure that their code is correct and up-to-date with current standards. 

Doing so, reportedly, reduces the cost associated with fixing errors later in the development cycle and makes sure that any changes made do not break existing functionality. Unit testing also helps teams maintain high levels of quality assurance while developing complex applications.

Integration Testing

Integration testing is the process of combining different components and checking that they work together as expected. 

This type of testing is important to ensure that the software system functions correctly when connected to other systems, databases, or applications. 

Integration testing typically involves running multiple tests on the same test data and verifying the results. Doing so, helps developers identify bugs in their code and fix them before the software is released to end users.

Integration testing also helps identify potential issues with data compatibility between systems and assures that all components function properly when integrated. 

As a software tester, you will need to have a deep understanding of how different components interact with each other to be able to effectively identify any issues or problems that may arise from integration testing. 

In that order, we also feel that you should be familiar with the various types of integration tests such as unit tests, system tests, component tests, end-to-end tests, and regression tests to develop comprehensive test cases for integration testing. 

Moreover, having a fundamental understanding of integration testing can help open up many career opportunities.

System Testing

System testing is used to evaluate the overall system performance. This type of testing evaluates the entire system, including all components, integrations, and interactions. 

It is one of the last steps in the software development process before the product can be released to users. System testing seeks to identify errors that may have been missed in previous tests, such as integration and unit testing. 

This type of test is conducted from the user’s perspective and focuses on verifying that all components work together as expected. It is also used to assess how well the system meets its performance requirements. Additionally, system testing helps detect bugs or other issues that can cause instability or crashes in production environments. 

By running this type of test before a product is released, companies can ensure a high-quality product that meets their users’ needs and expectations.

Regression Testing

Regression testing involves re-testing software to ensure that any changes made have not caused any unintended behaviors. 

This type of testing helps to identify defects and bugs, while also verifying that existing functionality is still working as expected. It can be used to test a range of different features, from UI elements to code-level functions. 

This type of software test process is commonly used when changes are made to existing features or new features are added. It helps to ensure that the changes have not adversely affected any existing functionality and that the new features work as expected. 

In order to carry out effective regression testing, testers need to have a thorough understanding of the software being tested and its behavior in different scenarios. 

This allows them to create comprehensive test cases that cover all areas of the application. Automated tools can also be used to help speed up the process by running tests more quickly than manual tests would allow. 

Overall, regression testing is an essential part of managing programs in their development stage, while also helping developers to ensure that their applications remain stable and reliable in the face.

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Conclusion

Learning software testing is not as difficult as compared to software coding.

However, it requires effort, time, and the ability to think on your feet. QA testers have a knack for pointing out things that software developers normally don’t see on the first go. If you are looking to seek a degree, or a career as a QA tester, or any form of a software tester, you need to start soon.

All it takes is the determination and the desire to master your skills. 

FAQs

What is test process in software development?

Software testing is like giving a final check to a software program before it’s put into action. 

It’s about making sure everything works smoothly and meets the expected standards. This process helps catch any mistakes or missing parts.

What are the major steps in software testing?

Following are the major steps in the test procedure in software:

  • Understanding Requirements: This involves thoroughly grasping what the software is supposed to do.
  • Planning Tests: Here, one outlines a strategy on how to test the software effectively.
  • Creating Test Cases: This is like making a checklist of scenarios to test.
  • Setting up the Testing Environment: Ensuring the right conditions for testing.
  • Running the Tests: Executing the planned tests on the software.
  • Wrapping up Tests: Concluding the testing phase and documenting the results.

Is it advised to push software out to the open market without or with a minimum level of software test process performed on it?

No, it is not advised to push software without any prior software testing done on it. 

Software testing is an essential part of the software development process and helps to ensure that a developed product will be fit for purpose when released. 

Testing should take place before pushing the software to identify any potential errors or bugs, as well as to measure its functionality against predetermined requirements and user expectations.

Working with teams of dedicated testers helps project managers and developers identify issues more quickly, which can save time and money down the road by avoiding costly fixes after release. 

A deep dive into testing allows for greater customer satisfaction upon release, improving customer loyalty over time; furthermore, bug-free applications are less likely to require ongoing maintenance efforts thereby allowing companies to direct their resources towards other objectives moving forward.

As a QA engineer, how long does it take to master the software test process

Mastering the software testing process can take anywhere from a few months to several years. 

It depends on the individual’s experience and expertise in related technologies, as well as how quickly they can absorb new concepts and principles. 

The process of “mastering” software testing typically involves knowledge of multiple areas, including software coding languages and development tools, different types of tests like unit and integration tests, test automation frameworks (such as Selenium), and bug tracking systems (like JIRA). Additionally, QA engineers must understand the underlying software architecture to be able to properly build effective test cases. 

QA engineers should continuously practice their skills through active projects that involve writing automated scripts, coming up with different scenarios and dummy simulations for testing web applications or mobile apps.

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