Download All of our Software free with SERIAL and CRACK

Download any Windows SOFTWARE,

   Download any Mac SOFTWARE

 

 

 

 

In the SpotLight


PDFConvert
PDFConvert
PDFConvert is an all-in-one PDF converter software to create PDF and convert PDF. PDFConvert can create PDF from or convert PDF to Word document, e-book document, HTML files, plain text and image files. PDFConvert can also secu...
downloadmore info

ISeePass
ISeePass
Type a password in a browser, or let it store your passwords, and you will see asterisks. The passwords are hidden even from your eyes. Click the ISeePass bookmarklet, and all passwords on the page are revealed. Click it again, an...
downloadmore info


Adobe Flash Player - Cross-platform browser plug-in that delivers breakthrough web experie.

Google Toolbar - Puts a search box in your browser. Add gadgets to view your favorite content from any site.

Adobe Reader - Lets you open, view, search, and print Adobe Portable Document Format (PDF) file.

WinRAR - Complete support for RAR and ZIP, compress 8 to 30 percent better than ZIP!

Google Chrome - A browser with sophisticated technology to make the web faster, safer, and easier.

iTunes - iTunes is an audio player for playing and organizing digital music files.

Firefox - The award-winning Web browser is better than ever. Browse the Web with confidence.

Windows Live Messenger - It has everything you already love about Messenger, and much more!


Software As you Need :-




Astrology software

When personal computers generally became available, astrologers and astrology hobbyists were able to purchase them and use astrological or astronomical calculation software or make such programs themselves. Astrologer and computer programmer Michael Erlewine was involved early in making astrological software for microcomputers available to the general public in the late 1970s. In 1978, Erlewine founded Matrix Software, and in 1980 he published a book with all the algorithms and data required for owners of microcomputers to make their own complete astrological programs.At first, astrology software was opposed by American astrologers who did not approve of computers in their field. However, acceptance grew as it became clear how more efficient and profitable such software could be.
 

 


Features :

Computer astrology programs today typically make accurate planet position calculations, display and print these positions using astrological glyph symbols in graphic charts, save and retrieve individuals' data to and from database files, compare the planet positions of different charts to find the astrological aspects between them (e.g. for compatibility), calculate the dates of important events in the future for a chart, and research the saved chart database. Some generate colorful geographical maps with lines showing where the planets rise and culminate at a significant time, usually the time of birth or the time of inception of an organization (called astrocartography). Astrology programs usually come bundled with an electronic atlas, allowing the review of the longitudes, latitudes, and time zone observance histories for cities and towns. Many assemble interpretive text about the various element combinations in a chart into comprehensive printed reports.




Business software

Business software or business application is any software or set of computer programs that are used by business users to perform various business functions. These business applications are used to increase productivity, to measure productivity and to perform business functions accurately.
Some business applications are interactive, i.e., they have a graphical user interface or user interface and user can query/modify/input data and view results instantaneously. They can also run reports instantaneously. Some business applications run in batch mode i.e. they are set up to run based on a predetermined event/time and business user does not need to initiate them or monitor them.
Some business applications are built in-house and some are bought from vendors (off the shelf software products). These business applications either are installed on desktops or on big servers.


Features :

Digital dashboards - Also known as business intelligence dashboards, enterprise dashboards, or executive dashboards, these are visually based summaries of business data that show at-a-glance understanding of conditions through metrics and key performance indicators (KPIs). A very popular BI tool that has arisen in the last few years.[when?]
Online analytical processing, commonly known as OLAP (including HOLAP, ROLAP and MOLAP) - a capability of some management, decision support, and executive information systems that supports interactive examination of large amounts of data from many perspectives.
Reporting software generates aggregated views of data to keep the management informed about the state of their business.
Data mining - extraction of consumer information from a database by utilizing software that can isolate and identify previously unknown patterns or trends in large amounts of data. There are a variety of data mining techniques that reveal different types of patterns. Some of the techniques that belong here are statistical methods (particularly business statistics) and neural networks as very advanced means of analysing data.
Business performance management (BPM)
Document management - made for organizing and management of multiple documents of various types. Some of the  have storage functions for security and back-up of valuable business information.



Communication software

Communication software is used to provide remote access to systems and exchange files and messages in text, audio and/or video formats between different computers or users. This includes terminal emulators, file transfer programs, chat and instant messaging programs, as well as similar functionality integrated within MUDs. The term is also applied to software operating a bulletin board system, but seldom to that operating a computer network or Stored Program Control exchange.

E-mail started in 1965 as a way for multiple users of a time-sharing mainframe computer to communicate. Basic text chat functionality has existed on multi-user computer systems and bulletin board systems since the early 1970s. In the 1980s, a terminal emulator was a piece of software necessary to log into mainframes and thus access e-mail. Prior to the rise of the Internet, computer files were exchanged over dialup lines, requiring ways to send binary files over communication systems that were primarily intended for plain text; programs implementing special transfer modes were implemented using various de facto standards, most notably Kermit.


In 1985 the first decentralized chat system was created called Bitnet Relay, whereas Minitel probably provided the largest chat system at the same time. In August 1988 the Internet Relay Chat followed. CU-SeeMe was the first chat system to be equipped with a video camera. Instant messaging featuring a buddy list and the notion of online presence was introduced by ICQ in 1996. In the days of the Internet boom, web chats were very popular.







Computer-aided manufacturing

Computer-aided manufacturing (CAM) is the use of computer software to control machine tools and related machinery in the manufacturing of workpieces. This is not the only definition for CAM, but it is the most common; CAM may also refer to the use of a computer to assist in all operations of a manufacturing plant, including planning, management, transportation and storage.


Traditionally, CAM has been considered as a numerical control (NC) programming tool, wherein two-dimensional (2-D) or three-dimensional (3-D) models of components generated in CAD software are used to generate G-code or M-code etc, which may be company/controller specific, to drive computer numerically controlled (CNC) machines. In modern day Controllers, CNC Machines, simple designs such as bolt circles or basic contours do not necessitate importing a CAD file for manufacturing operation.

As with other “Computer-Aided” technologies, CAM does not eliminate the need for skilled professionals such as manufacturing engineers, NC programmers, or machinists. CAM, in fact, leverages both the value of the most skilled manufacturing professionals through advanced productivity tools, while building the skills of new professionals through visualization, simulation and optimization tools.



Data management software

A database is an organized collection of data. The data are typically organized to model relevant aspects of reality in a way that supports processes requiring this information. For example, modeling the availability of rooms in hotels in a way that supports finding a hotel with vacancies.

Database management systems (DBMSs) are specially designed applications that interact with the user, other applications, and the database itself to capture and analyze data. A general-purpose database management system (DBMS) is a software system designed to allow the definition, creation, querying, update, and administration of databases. Well-known DBMSs include MySQL, MariaDB, PostgreSQL, SQLite, Microsoft SQL Server, Oracle, SAP, dBASE, FoxPro, IBM DB2, LibreOffice Base and FileMaker Pro. A database is not generally portable across different DBMS, but different DBMSs can interoperate by using standards such as SQL and ODBC or JDBC to allow a single application to work with more than one database.

The interactions catered for by most existing DBMS fall into four main groups:
  • Data definition. Defining new data structures for a database, removing data structures from the database, modifying the structure of existing data.
  • Update. Inserting, modifying, and deleting data.
  • Retrieval. Obtaining information either for end-user queries and reports or for processing by applications.
  • Administration. Registering and monitoring users, enforcing data security, monitoring performance, maintaining data integrity, dealing with concurrency control, and recovering information if the system fails.


Editing software



Computer software, or simply software, refers to the non-tangible components of computers, known as computer programs. The term is used to contrast with computer hardware, which denotes the physical tangible components of computers. It may be used as an adjective to mean "non-tangible component" or as a group noun to mean "all computer programs when taken as a whole". Computer hardware and software require each other and neither can be realistically used without the other.

The term is generic, in that it refers to all computer programs regardless of their architecture; for example, executable files, libraries and scripts are computer software. Yet, it shares their mutual properties: software consists of clearly-defined instructions that upon execution, instructs hardware to perform the tasks for which it is designed. Software is stored in computer memory and cannot be touched, just as a 3D model shown in an illustration cannot be touched.


 






























Based on the goal, computer software can be divided into:

    Application software uses the computer system to perform useful work or provide entertainment functions beyond the basic operation of the computer itself.
    System software is designed to operate the computer hardware, to provide basic functionality, and to provide a platform for running application software. System software includes:
        Operating system, an essential collection of computer programs that manages resources and provides common services for other software. Supervisory programs, boot loaders, shells and window systems are core parts of operating systems. In practice, an operating system comes bundled with additional software (including application software) so that a user can potentially do some work with a computer that only has an operating system.
        Device driver, a computer program that operates or controls a particular type of device that is attached to a computer. Each device needs at least one corresponding device driver; thus a computer needs more than one device driver.
        Utilities, software designed to assist users in maintenance and care of their computers.


Educational software

The use of computer hardware and software in education and training dates to the early 1940s, when American researchers developed flight simulators which used analog computers to generate simulated onboard instrument data. One such system was the type19 synthetic radar trainer, built in 1943. From these early attempts in the WWII era through the mid-1970s, educational software was directly tied to the hardware, usually mainframe computers, on which it ran. Pioneering educational computer systems in this era included the PLATO system (1960), developed at the University of Illinois, and TICCIT (1969). In 1963, IBM had established a partnership with Stanford University's Institute for Mathematical 
Studies in the Social Sciences (IMSSS), directed by Patrick Suppes, to develop the first comprehensive CAI elementary school curriculum which was implemented on a large scale in schools in both California and Mississippi.[1] In 1967 Computer Curriculum Corporation (CCC, now Pearson Education Technologies[2]) was formed to market to schools the materials developed through the IBM partnership. Early terminals that ran educational systems cost over $10,000, putting them out of reach of most institutions. Some programming languages from this period, particularly BASIC (1963), and LOGO (1967) can also be considered educational, as they were specifically targeted to students and novice computer users. The PLATO IV system, released in 1972, supported many features which later became standard in educational software running on home computers. Its features included bitmap graphics, primitive sound generation, and support for non-keyboard input devices, including the touchscreen.



Graphics software

In computer graphics, graphics software or image editing software is a program or collection of programs that enable a person to manipulate visual images on a computer.

Computer graphics can be classified into two distinct categories: raster graphics and vector graphics. Many graphics programs focus exclusively on either vector or raster graphics, but there are a few that combine them in interesting ways. It is simple to convert from vector graphics to raster graphics, but going the other way is harder. Some software attempts to do this.





Most graphics programs have the ability to import and export one or more graphics file formats. It also can export files to one or more files. Computer graphics also can be used by other editing software such as Adobe Photoshop, Pizap, Microsoft Publisher, Picasa and etc. Other software that can be used is animation software, video editor software such as Windows Movie Maker, etc.

The use of a swatch is a palette of active colours that are selected and rearranged by the preference of the user. A swatch may be used in a program or be part of the universal palette on an operating system. It is used to change the colour of a text or image and in video editing. Vector graphics animation can be described as a series of mathematical transformations that are applied in sequence to one or more shapes in a scene. Raster graphics animation works in a similar fashion to film-based animation, where a series of still images produces the illusion of continuous movement.


Industrial software

OSSICS, an acronym for Open Software Solutions Industrial Cooperative Society Limited, is the first business enterprise for software development in the co-operative sector of Kerala, India. OSSICS was started in the year 1998 and has its head office in Ernakulam in Kerala. The co-operative society began working with a team of 11 software professionals. Currently, it has a strength of nearly 60 professionals. Its members include engineers, revenue-model experts and economy advisers.




Products

OSSICS owns one of the largest client base in Kerala in the free software sector. The flagship product is Sanghamitra, an open source software targeted at the cooperative banks and societies in Kerala.
Smart Asset

Smart Asset is a package designed as a Fixed Assets Management System which captures the complete life-cycle from estimation to scrap sale. Within an enterprise, this software integrates the functions of the planning wing, the operations and maintenance wing and the audit and accounting wing into a single database. This product has been implemented in the Ernakulam Secondary Switching Area of Bharat Sanchar Nigam Limited.
Collection Manager

Collection Counter is a package designed as a Collection Counter Management System and it provides a front-end interface for bill collection and integrates the back-end to existing legacy systems. The Ernakulam Central Telegraph Office of Bharat Sanchar Nigam Limited currently uses this package.
 

Multimedia software

Multimedia software refers to that software that can allow the user to use a mixture of sound, pictures and film as well as writing. Multimedia software normally enhances the visual as well as the auditory qualities of an audio file.


Multimedia software is software that can play and view all sorts of media, such as Music, Videos, Pictures, etc. Examples: VLC Media Player, Windows Media Player.


Multimedia refers to content that uses a combination of different content forms. This contrasts with media that use only rudimentary computer displays such as text-only or traditional forms of printed or hand-produced material. Multimedia includes a combination of text, audio, still images, animation, video, or interactivity content forms.

Multimedia is usually recorded and played, displayed, or accessed by information content processing devices, such as computerized and electronic devices, but can also be part of a live performance. Multimedia devices are electronic media devices used to store and experience multimedia content. Multimedia is distinguished from mixed media in fine art; by including audio, for example, it has a broader scope. The term "rich media" is synonymous for interactive multimedia. Hypermedia can be considered one particular multimedia application.

Science software

The Science Software Quarterly (SSQ) was a scientific journal for scientists of all disciplines who used computers in the 1980s, particularly desktop platforms such as the IBM-PC (introduced in 1981), the Apple Macintosh (introduced in 1984), and the Apple II (introduced in 1977). The journal featured reviews of scientific applications and other software that were available at the time for many different disciplines and branches of science. Each issue also contained articles about scientific computing, and regular features. Available by individual subscription, SSQ was published quarterly, or four times per year. Each issue contained about 110 pages.


Features

The Features section of the journal contained a variety of information each month, including:


    "New Products and Software in Development," which listed what was new, interesting or updated in hardware and software.
    "Books in Brief" gave a quick look at recent and relevant computer titles.
    "Database Profiles," condensed information on the latest in online and primed database resources.
    "The Wanted List," a listing service that allowed readers to post requests for information or a special software package.
    "Users' Groups," a listing to help readers find other people who shared their interests.
    "On the Periphery," which listed and described computer resources, including peripherals, addons, training videotapes, classes, demos, and "anything onelse on the periphery of scientific computing."