Software is a set of instructions, data or programs used to operate computers and execute specific tasks. It is the opposite of hardware, which describes the physical aspects of a computer. Software is a generic term used to refer to applications, scripts and programs that run on a device. It can be thought of as the variable part of a computer, while hardware is the invariable part.

The two main categories of software are application software and system software. An application is software that fulfills a specific need or performs tasks. System software is designed to run a computer's hardware and provides a platform for applications to run on top of.

Other types of software include programming software, which provides the programming tools software developers need; middleware, which sits between system software and applications; and driver software, which operates computer devices and peripherals.

Early software was written for specific computers and sold with the hardware it ran on. In the 1980s, software began to be sold on floppy disks, and later on CDs and DVDs. Today, most software is purchased and directly downloaded over the internet. Software can be found on vendor websites or application service provider websites.

Examples and types of software Among the various categories of software, the most common types include the following: Application software. The most common type of software, application software is a computer software package that performs a specific function for a user, or in some cases, for another application. An application can be self-contained, or it can be a group of programs that run the application for the user. Examples of modern applications include office suites, graphics software, databases and database management programs, web browsers, word processors, software development tools, image editors and communication platforms.

The most common type of software, application software is a computer software package that performs a specific function for a user, or in some cases, for another application. An application can be self-contained, or it can be a group of programs that run the application for the user. Examples of modern applications include office suites, graphics software, databases and database management programs, web browsers, word processors, software development tools, image editors and communication platforms. System software. These software programs are designed to run a computer's application programs and hardware. System software coordinates the activities and functions of the hardware and software. In addition, it controls the operations of the computer hardware and provides an environment or platform for all the other types of software to work in. The OS is the best example of system software; it manages all the other computer programs. Other examples of system software include the firmware, computer language translators and system utilities.

These software programs are designed to run a computer's application programs and hardware. System software coordinates the activities and functions of the hardware and software. In addition, it controls the operations of the computer hardware and provides an environment or platform for all the other types of software to work in. The OS is the best example of system software; it manages all the other computer programs. Other examples of system software include the firmware, computer language translators and system utilities. Driver software. Also known as device drivers, this software is often considered a type of system software. Device drivers control the devices and peripherals connected to a computer, enabling them to perform their specific tasks. Every device that is connected to a computer needs at least one device driver to function. Examples include software that comes with any nonstandard hardware, including special game controllers, as well as the software that enables standard hardware, such as USB storage devices, keyboards, headphones and printers.

Also known as device drivers, this software is often considered a type of system software. Device drivers control the devices and peripherals connected to a computer, enabling them to perform their specific tasks. Every device that is connected to a computer needs at least one device driver to function. Examples include software that comes with any nonstandard hardware, including special game controllers, as well as the software that enables standard hardware, such as USB storage devices, keyboards, headphones and printers. Middleware. The term middleware describes software that mediates between application and system software or between two different kinds of application software. For example, middleware enables Microsoft Windows to talk to Excel and Word. It is also used to send a remote work request from an application in a computer that has one kind of OS, to an application in a computer with a different OS. It also enables newer applications to work with legacy ones.

The term middleware describes software that mediates between application and system software or between two different kinds of application software. For example, middleware enables Microsoft Windows to talk to Excel and Word. It is also used to send a remote work request from an application in a computer that has one kind of OS, to an application in a computer with a different OS. It also enables newer applications to work with legacy ones. Programming software. Computer programmers use programming software to write code. Programming software and programming tools enable developers to develop, write, test and debug other software programs. Examples of programming software include assemblers, compilers, debuggers and interpreters. Here is a complete picture of the full software stack.

How does software work? All software provides the directions and data computers need to work and meet users' needs. However, the two different types -- application software and system software -- work in distinctly different ways. Application software Application software consists of many programs that perform specific functions for end users, such as writing reports and navigating websites. Applications can also perform tasks for other applications. Applications on a computer cannot run on their own; they require a computer's OS, along with other supporting system software programs, to work. These desktop applications are installed on a user's computer and use the computer memory to carry out tasks. They take up space on the computer's hard drive and do not need an internet connection to work. However, desktop applications must adhere to the requirements of the hardware devices they run on. Web applications, on the other hand, only require internet access to work; they do not rely on the hardware and system software to run. Consequently, users can launch web applications from devices that have a web browser. Since the components responsible for the application functionality are on the server, users can launch the app from Windows, Mac, Linux or any other OS. System software System software sits between the computer hardware and the application software. Users do not interact directly with system software as it runs in the background, handling the basic functions of the computer. This software coordinates a system's hardware and software so users can run high-level application software to perform specific actions. System software executes when a computer system boots up and continues running as long as the system is on. Here are the key differences between system and application software.

Design and implementation The software development lifecycle is a framework that project managers use to describe the stages and tasks associated with designing software. The first steps in the design lifecycle are planning the effort and then analyzing the needs of the individuals who will use the software and creating detailed requirements. After the initial requirements analysis, the design phase aims to specify how to fulfill those user requirements. The next is step is implementation, where development work is completed, and then software testing happens. The maintenance phase involves any tasks required to keep the system running. The software design includes a description of the structure of the software that will be implemented, data models, interfaces between system components and potentially the algorithms the software engineer will use. The software design process transforms user requirements into a form that computer programmers can use to do the software coding and implementation. The software engineers develop the software design iteratively, adding detail and correcting the design as they develop it. The different types of software design include the following: Architectural design. This is the foundational design, which identifies the overall structure of the system, its main components and their relationships with one another using architectural design tools.

This is the foundational design, which identifies the overall structure of the system, its main components and their relationships with one another using architectural design tools. High-level design. This is the second layer of design that focuses on how the system, along with all its components, can be implemented in forms of modules supported by a software stack. A high-level design describes the relationships between data flow and the various modules and functions of the system.

This is the second layer of design that focuses on how the system, along with all its components, can be implemented in forms of modules supported by a software stack. A high-level design describes the relationships between data flow and the various modules and functions of the system. Detailed design. This third layer of design focuses on all the implementation details necessary for the specified architecture. Find out the six main steps involved in developing software.

How to maintain software quality Software quality measures if the software meets both its functional and nonfunctional requirements. Functional requirements identify what the software should do. They include technical details, data manipulation and processing, calculations or any other specific function that specifies what an application aims to accomplish. Nonfunctional requirements -- also known as quality attributes -- determine how the system should work. Nonfunctional requirements include portability, disaster recovery, security, privacy and usability. Software testing detects and solves technical issues in the software source code and assesses the overall usability, performance, security and compatibility of the product to ensure it meets its requirements. The dimensions of software quality include the following characteristics: Accessibility. The degree to which a diverse group of people, including individuals who require adaptive technologies such as voice recognition and screen magnifiers, can comfortably use the software.

The degree to which a diverse group of people, including individuals who require adaptive technologies such as voice recognition and screen magnifiers, can comfortably use the software. Compatibility . The suitability of the software for use in a variety of environments, such as with different OSes, devices and browsers.

The suitability of the software for use in a variety of environments, such as with different OSes, devices and browsers. Efficiency. The ability of the software to perform well without wasting energy, resources, effort, time or money.

The ability of the software to perform well without wasting energy, resources, effort, time or money. Functionality. Software's ability to carry out its specified functions.

Software's ability to carry out its specified functions. Installability. The ability of the software to be installed in a specified environment.

The ability of the software to be installed in a specified environment. Localization. The various languages, time zones and other such features a software can function in.

The various languages, time zones and other such features a software can function in. Maintainability. How easily the software can be modified to add and improve features, fix bugs, etc.

How easily the software can be modified to add and improve features, fix bugs, etc. Performance. How fast the software performs under a specific load.

How fast the software performs under a specific load. Portability. The ability of the software to be easily transferred from one location to another.

The ability of the software to be easily transferred from one location to another. Reliability. The software's ability to perform a required function under specific conditions for a defined period of time without any errors.

The software's ability to perform a required function under specific conditions for a defined period of time without any errors. Scalability . The measure of the software's ability to increase or decrease performance in response to changes in its processing demands.

The measure of the software's ability to increase or decrease performance in response to changes in its processing demands. Security. The software's ability to protect against unauthorized access, invasion of privacy, theft, data loss, malicious software, etc.

The software's ability to protect against unauthorized access, invasion of privacy, theft, data loss, malicious software, etc. Testability. How easy it is to test the software.

How easy it is to test the software. Usability. How easy it is to use the software. To maintain software quality once it is deployed, developers must constantly adapt it to meet new customer requirements and handle problems customers identify. This includes improving functionality, fixing bugs and adjusting software code to prevent issues. How long a product lasts on the market depends on developers' ability to keep up with these maintenance requirements. When it comes to performing maintenance, there are four types of changes developers can make, including: Corrective. Users often identify and report bugs that developers must fix, including coding errors and other problems that keep the software from meeting its requirements. Adaptive. Developers must regularly make changes to their software to ensure it is compatible with changing hardware and software environments, such as when a new version of the OS comes out. Perfective. These are changes that improve system functionality, such as improving the user interface or adjusting software code to enhance performance. Preventive. These changes are done to keep software from failing and include tasks such as restructuring and optimizing code. Modern software development DevOps is an organizational approach that brings together software development and IT operations teams. It promotes communication and collaboration between these two groups. The term also describes the use of iterative software development practices that use automation and programmable infrastructure. Get the full picture in our ultimate guide to DevOps.

Software licensing and patents A software license is a legally binding document that restricts the use and distribution of software. Typically, software licenses provide users with the right to one or more copies of the software without violating copyright. The license outlines the responsibilities of the parties that enter into the agreement and may place restrictions on how the software can be used. Software licensing terms and conditions generally include fair use of the software, the limitations of liability, warranties, disclaimers and protections if the software or its use infringes on the intellectual property rights of others. Licenses typically are for proprietary software, which remains the property of the organization, group or individual that created it; or for free software, where users can run, study, change and distribute the software. Open source is a type of software where the software is developed collaboratively, and the source code is freely available. With open source software licenses, users can run, copy, share and change the software similar to free software. Over the last two decades, software vendors have moved away from selling software licenses on a one-time basis to a software-as-a-service subscription model. Software vendors host the software in the cloud and make it available to customers, who pay a subscription fee and access the software over the internet. Although copyright can prevent others from copying a developer's code, a copyright cannot stop them from developing the same software independently without copying. A patent, on the other hand, enables a developer to prevent another person from using the functional aspects of the software a developer claims in a patent, even if that other person developed the software independently. In general, the more technical software is, the more likely it can be patented. For example, a software product could be granted a patent if it creates a new kind of database structure or enhances the overall performance and function of a computer.

Tomasz David
Tomasz David

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