This helps to make output more predictable, reduce mistakes, and make your team happier (whoever used to have to trawl through the most spreadsheets will suddenly feel a lot better about their job!). Since a machine can run constantly without rest, you could have it process large sets of data on autopilot, 24/7. That’s something you’re not going to get out of even the most dedicated employee.
Summary: Previously known as QuickTest Professional (QTP), HP UFT automates GUI functionality and back-end service testing. It also offers reusable test components, helps convert manual testing assets into automated ones, embraces the shift left to make testing part of the Agile development cycle, and allows for testing across multiple machines and devices.

Automation technology has matured to a point where a number of other technologies have developed from it and have achieved a recognition and status of their own. Robotics is one of these technologies; it is a specialized branch of automation in which the automated machine possesses certain anthropomorphic, or humanlike, characteristics. The most typical humanlike characteristic of a modern industrial robot is its powered mechanical arm. The robot’s arm can be programmed to move through a sequence of motions to perform useful tasks, such as loading and unloading parts at a production machine or making a sequence of spot-welds on the sheet-metal parts of an automobile body during assembly. As these examples suggest, industrial robots are typically used to replace human workers in factory operations.
Automation tools perform a series of preplanned scenarios with expected results, and either check exact screen regions -- in record/playback -- or only what they are told to specifically check for -- in keyword-driven. A computer will never say "that looks odd," never explore or get inspired by one test to have a new idea. Nor will a computer note that a "failure" is actually a change in the requirements. Instead, the test automation will log a failure and a human will have to look at the false failure, analyze it, recognize that it is not a bug and "fix" the test. This creates a maintenance burden. Automated testing tools automate only the test execution and evaluation.
Once processes are built and tested it's time to roll them out to the relevant users. In some cases this could be the entire employee population, in other cases, it could be a single department, outside vendors or customers. Access to processes is provided through a Web portal where users can submit requests, check statuses or complete tasks depending on their role. This self-service portal houses all processes and forms but many employees will also interact through email alerts.
A variation on this type of tool is for testing of web sites. Here, the "interface" is the web page. However, such a framework utilizes entirely different techniques because it is rendering HTML and listening to DOM Events instead of operating system events. Headless browsers or solutions based on Selenium Web Driver are normally used for this purpose.[6][7][8]

Websites as well as mobile applications need to handle spikes in traffic effectively. Consumers have limited tolerance for latency and any performance degradation typically results in customers abandoning your website/app for a competitor’s site. Planning ahead for exceptional user experience and optimizing performance by ensuring system works under high load is essential to deliver onto customer expectations and prevent losing business to competitors. SmartBear's LoadComplete tool will prepare developers and testers to:
More CIOs are turning to an emerging technology practice called robotic process automation (RPA) to streamline enterprise operations and reduce costs. With RPA, businesses can automate mundane rules-based business processes, enabling business users to devote more time to serving customers or other higher-value work. Others see RPA as a stopgap en route to intelligent automation (IA) via machine learning (ML) and artificial intelligence (AI) tools, which can be trained to make judgments about future outputs.

At some point, someone may want to change the way the code works. Some operation you call a hundred times suddenly requires that the users fill out a captcha or click a button before they can proceed, and all of the automation breaks. Fixing it requires a great deal of searching and replacing, and that could take days, while the programmers continue to move further and further ahead of you. Once this happens a few times, the test process becomes messy and expensive, and fails to deliver much value.
Starting in 1958, various systems based on solid-state[27][28] digital logic modules for hard-wired programmed logic controllers (the predecessors of programmable logic controllers (PLC)) emerged to replace electro-mechanical relay logic in industrial control systems for process control and automation, including early Telefunken/AEG Logistat, Siemens Simatic (de), Philips/Mullard/Valvo (de) Norbit, BBC Sigmatronic, ACEC Logacec, Akkord (de) Estacord, Krone Mibakron, Bistat, Datapac, Norlog, SSR, or Procontic systems.[27][29][30][31][32][33]
Software tests have to be repeated often during development cycles to ensure quality. Every time source code is modified software tests should be repeated. For each release of the software it may be tested on all supported operating systems and hardware configurations. Manually repeating these tests is costly and time consuming. Once created, automated tests can be run over and over again at no additional cost and they are much faster than manual tests. Automated software testing can reduce the time to run repetitive tests from days to hours. A time savings that translates directly into cost savings.
The IT industry depends on similar Agile practices of different names to meet the market’s demand for their products and services. Test automation is vital to Agile and the companies using Continuous Integration and Delivery, TDD, and BDD. For the titans of technology and the IT industry at large to reap the benefits of test automation, they must rely on automation frameworks.
Within BPM, automated business processes are managed collectively to improve an organization’s overall workflow in terms of achieving greater efficiency, adapting to changing business needs, reducing human error and clarifying job roles and responsibilities. BPM is itself a subset of infrastructure management, which maintains and optimizes an organization's core operational components such as processes, equipment and data.
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