Oracle Corporation is an American multinational computer technology corporation headquartered in Redwood Shores, California. The company specializes in developing and marketing database software and technology, cloud engineered systems, enterprise software products — its own brands of database management systems. In 2018, Oracle was the third-largest software maker by revenue, after Alphabet; the company develops and builds tools for database development and systems of middle-tier software, enterprise resource planning software, customer relationship management software, supply chain management software. Larry Ellison co-founded Oracle Corporation in 1977 with Bob Miner and Ed Oates under the name Software Development Laboratories. Ellison took inspiration from the 1970 paper written by Edgar F. Codd on relational database management systems named "A Relational Model of Data for Large Shared Data Banks." He heard about the IBM System R database from an article in the IBM Research Journal provided by Oates.
Ellison wanted to make Oracle's product compatible with System R, but failed to do so as IBM kept the error codes for their DBMS a secret. SDL changed its name to Relational Software, Inc in 1979 again to Oracle Systems Corporation in 1982, to align itself more with its flagship product Oracle Database. At this stage Bob Miner served as the company's senior programmer. On March 12, 1986, the company had its initial public offering. In 1995, Oracle Systems Corporation changed its name to Oracle Corporation named Oracle, but sometimes referred to as Oracle Corporation, the name of the holding company. Part of Oracle Corporation's early success arose from using the C programming language to implement its products; this eased porting to different operating systems. 1979: offers the first commercial SQL RDBMS 1983: offers a VAX-mode database 1984: offers the first database with read-consistency 1986: offers a client-server DBMS 1987: introduces UNIX-based Oracle applications 1988: introduces PL/SQL.
1992: offers full applications implementation methodology 1995: offers the first 64-bit RDBMS 1996: moves towards an open standards-based, web-enabled architecture 1999: offers its first DBMS with XML support 2001: becomes the first to complete 3 terabyte TPC-H world record 2002: offers the first database to pass 15 industry standard security evaluations 2003: introduces what it calls "Enterprise Grid Computing" with Oracle10g 2005: releases its first free database, Oracle Database 10g Express Edition 2006: acquires Siebel Systems 2007: acquires Hyperion Solutions 2008: Smart scans in software improve query-response in HP Oracle Database Machine / Exadata storage 2010: acquires Sun Microsystems 2013: begins use of Oracle 12c, capable of providing cloud services with Oracle Database 2014: acquires Micros Systems 2016: acquires NetSuite Inc. Oracle ranked No. 82 in the 2018 Fortune 500 list of the largest United States corporations by total revenue. According to Bloomberg, Oracle's CEO-to-employee pay ratio is 1,205:1.
The CEO's compensation in 2017 was $108,295,023. Meanwhile, the median employee compensation rate was $89,887. Oracle designs and sells both software and hardware products, as well as offering services that complement them. Many of the products have been added to Oracle's portfolio through acquisitions. Oracle's E-delivery service provides documentation. Oracle Database Release 10: In 2004, Oracle Corporation shipped release 10g as the latest version of Oracle Database. Release 11: Release 11g became the current Oracle Database version in 2007. Oracle Corporation released Oracle Database 11g Release 2 in September 2009; this version was available in four commercial editions—Enterprise Edition, Standard Edition, Standard Edition One, Personal Edition—and in one free edition—the Express Edition. The licensing of these editions shows various restrictions and obligations that were called complex by licensing expert Freirich Florea; the Enterprise Edition, the most expensive of the Database Editions, has the fewest restrictions — but has complex licensing.
Oracle Corporation constrains the Standard Edition and Standard Edition One with more licensing restrictions, in accordance with their lower price. Release 12: Release 12c became available on July 1, 2013. Oracle Corporation has acquired and developed the following additional database technologies: Berkeley DB, which offers embedded database processing Oracle Rdb, a relational database system running on OpenVMS platforms. Oracle acquired Rdb in 1994 from Digital Equipment Corporation. Oracle has since made many enhancements to this product and development continues as of 2008. TimesTen, which features in-memory database operations Oracle Essbase, which continues the Hyperion Essbase tradition of multi-dimensional database management MySQL, a relational database management system licensed under the GNU General Public License developed by MySQL AB Oracle NoSQL Database, a scalable, distributed key-value NoSQL database Oracle Fusion Middleware is a family of middleware
Unix is a family of multitasking, multiuser computer operating systems that derive from the original AT&T Unix, development starting in the 1970s at the Bell Labs research center by Ken Thompson, Dennis Ritchie, others. Intended for use inside the Bell System, AT&T licensed Unix to outside parties in the late 1970s, leading to a variety of both academic and commercial Unix variants from vendors including University of California, Microsoft, IBM, Sun Microsystems. In the early 1990s, AT&T sold its rights in Unix to Novell, which sold its Unix business to the Santa Cruz Operation in 1995; the UNIX trademark passed to The Open Group, a neutral industry consortium, which allows the use of the mark for certified operating systems that comply with the Single UNIX Specification. As of 2014, the Unix version with the largest installed base is Apple's macOS. Unix systems are characterized by a modular design, sometimes called the "Unix philosophy"; this concept entails that the operating system provides a set of simple tools that each performs a limited, well-defined function, with a unified filesystem as the main means of communication, a shell scripting and command language to combine the tools to perform complex workflows.
Unix distinguishes itself from its predecessors as the first portable operating system: the entire operating system is written in the C programming language, thus allowing Unix to reach numerous platforms. Unix was meant to be a convenient platform for programmers developing software to be run on it and on other systems, rather than for non-programmers; the system grew larger as the operating system started spreading in academic circles, as users added their own tools to the system and shared them with colleagues. At first, Unix was not designed to be multi-tasking. Unix gained portability, multi-tasking and multi-user capabilities in a time-sharing configuration. Unix systems are characterized by various concepts: the use of plain text for storing data; these concepts are collectively known as the "Unix philosophy". Brian Kernighan and Rob Pike summarize this in The Unix Programming Environment as "the idea that the power of a system comes more from the relationships among programs than from the programs themselves".
In an era when a standard computer consisted of a hard disk for storage and a data terminal for input and output, the Unix file model worked quite well, as I/O was linear. In the 1980s, non-blocking I/O and the set of inter-process communication mechanisms were augmented with Unix domain sockets, shared memory, message queues, semaphores, network sockets were added to support communication with other hosts; as graphical user interfaces developed, the file model proved inadequate to the task of handling asynchronous events such as those generated by a mouse. By the early 1980s, users began seeing Unix as a potential universal operating system, suitable for computers of all sizes; the Unix environment and the client–server program model were essential elements in the development of the Internet and the reshaping of computing as centered in networks rather than in individual computers. Both Unix and the C programming language were developed by AT&T and distributed to government and academic institutions, which led to both being ported to a wider variety of machine families than any other operating system.
Under Unix, the operating system consists of many libraries and utilities along with the master control program, the kernel. The kernel provides services to start and stop programs, handles the file system and other common "low-level" tasks that most programs share, schedules access to avoid conflicts when programs try to access the same resource or device simultaneously. To mediate such access, the kernel has special rights, reflected in the division between user space and kernel space - although in microkernel implementations, like MINIX or Redox, functions such as network protocols may run in user space; the origins of Unix date back to the mid-1960s when the Massachusetts Institute of Technology, Bell Labs, General Electric were developing Multics, a time-sharing operating system for the GE-645 mainframe computer. Multics featured several innovations, but presented severe problems. Frustrated by the size and complexity of Multics, but not by its goals, individual researchers at Bell Labs started withdrawing from the project.
The last to leave were Ken Thompson, Dennis Ritchie, Douglas McIlroy, Joe Ossanna, who decided to reimplement their experiences in a new project of smaller scale. This new operating system was without organizational backing, without a name; the new operating system was a single-tasking system. In 1970, the group coined the name Unics for Uniplexed Information and Computing Service, as a pun on Multics, which stood for Multiplexed Information and Computer Services. Brian Kernighan takes credit for the idea, but adds that "no one can remember" the origin of the final spelling Unix. Dennis Ritchie, Doug McIlroy, Peter G. Neumann credit Kernighan; the operating system was written in assembly language, but in 1973, Version 4 Unix was rewritten in C. Version 4 Unix, still had many PDP-11 dependent codes, is not suitable for porting; the first port to other platform was made five years f
PHP: Hypertext Preprocessor is a general-purpose programming language designed for web development. It was created by Rasmus Lerdorf in 1994. PHP stood for Personal Home Page, but it now stands for the recursive initialism PHP: Hypertext Preprocessor. PHP code may be executed with a command line interface, embedded into HTML code, or it can be used in combination with various web template systems, web content management systems, web frameworks. PHP code is processed by a PHP interpreter implemented as a module in a web server or as a Common Gateway Interface executable; the web server combines the results of the interpreted and executed PHP code, which may be any type of data, including images, with the generated web page. PHP can be used for many programming tasks outside of the web context, such as standalone graphical applications and robotic drone control; the standard PHP interpreter, powered by the Zend Engine, is free software released under the PHP License. PHP has been ported and can be deployed on most web servers on every operating system and platform, free of charge.
The PHP language evolved without a written formal specification or standard until 2014, with the original implementation acting as the de facto standard which other implementations aimed to follow. Since 2014, work has gone on to create a formal PHP specification. PHP development began in 1994 when Rasmus Lerdorf wrote several Common Gateway Interface programs in C, which he used to maintain his personal homepage, he extended them to work with web forms and to communicate with databases, called this implementation "Personal Home Page/Forms Interpreter" or PHP/FI. PHP/FI could be used to build dynamic web applications. To accelerate bug reporting and improve the code, Lerdorf announced the release of PHP/FI as "Personal Home Page Tools version 1.0" on the Usenet discussion group comp.infosystems.www.authoring.cgi on June 8, 1995. This release had the basic functionality that PHP has today; this included Perl-like variables, form handling, the ability to embed HTML. The syntax was simpler, more limited and less consistent.
Early PHP was not intended to be a new programming language, grew organically, with Lerdorf noting in retrospect: "I don't know how to stop it, there was never any intent to write a programming language I have no idea how to write a programming language, I just kept adding the next logical step on the way." A development team began to form and, after months of work and beta testing released PHP/FI 2 in November 1997. The fact that PHP was not designed, but instead was developed organically has led to inconsistent naming of functions and inconsistent ordering of their parameters. In some cases, the function names were chosen to match the lower-level libraries which PHP was "wrapping", while in some early versions of PHP the length of the function names was used internally as a hash function, so names were chosen to improve the distribution of hash values. Zeev Suraski and Andi Gutmans rewrote the parser in 1997 and formed the base of PHP 3, changing the language's name to the recursive acronym PHP: Hypertext Preprocessor.
Afterwards, public testing of PHP 3 began, the official launch came in June 1998. Suraski and Gutmans started a new rewrite of PHP's core, producing the Zend Engine in 1999, they founded Zend Technologies in Ramat Gan, Israel. On May 22, 2000, PHP 4, powered by the Zend Engine 1.0, was released. As of August 2008 this branch reached version 4.4.9. PHP 4 will any security updates be released. On July 14, 2004, PHP 5 was released, powered by the new Zend Engine II. PHP 5 included new features such as improved support for object-oriented programming, the PHP Data Objects extension, numerous performance enhancements. In 2008, PHP 5 became the only stable version under development. Late static binding had been missing from PHP and was added in version 5.3. Many high-profile open-source projects ceased to support PHP 4 in new code as of February 5, 2008, because of the GoPHP5 initiative, provided by a consortium of PHP developers promoting the transition from PHP 4 to PHP 5. Over time, PHP interpreters became available on most existing 32-bit and 64-bit operating systems, either by building them from the PHP source code, or by using pre-built binaries.
For PHP versions 5.3 and 5.4, the only available Microsoft Windows binary distributions were 32-bit x86 builds, requiring Windows 32-bit compatibility mode while using Internet Information Services on a 64-bit Windows platform. PHP version 5.5 made. Official security support for PHP 5.6 ended on 31 December 2018, but Debian 8.0 Jessie will extend support until June 2020. PHP received mixed reviews due to lacking native Unicode support at the core language level. In 2005, a project headed by Andrei Zmievski was initiated to bring native Unicode support throughout PHP, by embedding the International Components for Unicode library, representing text strings as UTF-16 internally. Since this would cause major changes both to the internals of the language and to user code, it was planned to release this as version 6.0 of the language, along with other major features in development. However, a shortage of developers who understood the necessary changes, performance problems arising from conversion to and from UTF-16, used in a web context, led to delays in the project.
As a result, a PHP 5.3 release was created in 2009, with many non-Unicode f
An operating system is system software that manages computer hardware and software resources and provides common services for computer programs. Time-sharing operating systems schedule tasks for efficient use of the system and may include accounting software for cost allocation of processor time, mass storage and other resources. For hardware functions such as input and output and memory allocation, the operating system acts as an intermediary between programs and the computer hardware, although the application code is executed directly by the hardware and makes system calls to an OS function or is interrupted by it. Operating systems are found on many devices that contain a computer – from cellular phones and video game consoles to web servers and supercomputers; the dominant desktop operating system is Microsoft Windows with a market share of around 82.74%. MacOS by Apple Inc. is in second place, the varieties of Linux are collectively in third place. In the mobile sector, use in 2017 is up to 70% of Google's Android and according to third quarter 2016 data, Android on smartphones is dominant with 87.5 percent and a growth rate 10.3 percent per year, followed by Apple's iOS with 12.1 percent and a per year decrease in market share of 5.2 percent, while other operating systems amount to just 0.3 percent.
Linux distributions are dominant in supercomputing sectors. Other specialized classes of operating systems, such as embedded and real-time systems, exist for many applications. A single-tasking system can only run one program at a time, while a multi-tasking operating system allows more than one program to be running in concurrency; this is achieved by time-sharing, where the available processor time is divided between multiple processes. These processes are each interrupted in time slices by a task-scheduling subsystem of the operating system. Multi-tasking may be characterized in co-operative types. In preemptive multitasking, the operating system slices the CPU time and dedicates a slot to each of the programs. Unix-like operating systems, such as Solaris and Linux—as well as non-Unix-like, such as AmigaOS—support preemptive multitasking. Cooperative multitasking is achieved by relying on each process to provide time to the other processes in a defined manner. 16-bit versions of Microsoft Windows used cooperative multi-tasking.
32-bit versions of both Windows NT and Win9x, used preemptive multi-tasking. Single-user operating systems have no facilities to distinguish users, but may allow multiple programs to run in tandem. A multi-user operating system extends the basic concept of multi-tasking with facilities that identify processes and resources, such as disk space, belonging to multiple users, the system permits multiple users to interact with the system at the same time. Time-sharing operating systems schedule tasks for efficient use of the system and may include accounting software for cost allocation of processor time, mass storage and other resources to multiple users. A distributed operating system manages a group of distinct computers and makes them appear to be a single computer; the development of networked computers that could be linked and communicate with each other gave rise to distributed computing. Distributed computations are carried out on more than one machine; when computers in a group work in cooperation, they form a distributed system.
In an OS, distributed and cloud computing context, templating refers to creating a single virtual machine image as a guest operating system saving it as a tool for multiple running virtual machines. The technique is used both in virtualization and cloud computing management, is common in large server warehouses. Embedded operating systems are designed to be used in embedded computer systems, they are designed to operate on small machines like PDAs with less autonomy. They are able to operate with a limited number of resources, they are compact and efficient by design. Windows CE and Minix 3 are some examples of embedded operating systems. A real-time operating system is an operating system that guarantees to process events or data by a specific moment in time. A real-time operating system may be single- or multi-tasking, but when multitasking, it uses specialized scheduling algorithms so that a deterministic nature of behavior is achieved. An event-driven system switches between tasks based on their priorities or external events while time-sharing operating systems switch tasks based on clock interrupts.
A library operating system is one in which the services that a typical operating system provides, such as networking, are provided in the form of libraries and composed with the application and configuration code to construct a unikernel: a specialized, single address space, machine image that can be deployed to cloud or embedded environments. Early computers were built to perform a series of single tasks, like a calculator. Basic operating system features were developed in the 1950s, such as resident monitor functions that could automatically run different programs in succession to speed up processing. Operating systems did not exist in their more complex forms until the early 1960s. Hardware features were added, that enabled use of runtime libraries and parallel processing; when personal computers became popular in the 1980s, operating systems were made for them similar in concept to those used on larger computers. In the 1940s, the earliest electronic digital systems had no operating systems.
Electronic systems of this time were programmed on rows of mechanical switches or by jumper wires on plug boards. These were special-purpose systems that, for example, generated ballistics tables for the military or controlled the pri
Microsoft Windows is a group of several graphical operating system families, all of which are developed and sold by Microsoft. Each family caters to a certain sector of the computing industry. Active Windows families include Windows Embedded. Defunct Windows families include Windows Mobile and Windows Phone. Microsoft introduced an operating environment named Windows on November 20, 1985, as a graphical operating system shell for MS-DOS in response to the growing interest in graphical user interfaces. Microsoft Windows came to dominate the world's personal computer market with over 90% market share, overtaking Mac OS, introduced in 1984. Apple came to see Windows as an unfair encroachment on their innovation in GUI development as implemented on products such as the Lisa and Macintosh. On PCs, Windows is still the most popular operating system. However, in 2014, Microsoft admitted losing the majority of the overall operating system market to Android, because of the massive growth in sales of Android smartphones.
In 2014, the number of Windows devices sold was less than 25 %. This comparison however may not be relevant, as the two operating systems traditionally target different platforms. Still, numbers for server use of Windows show one third market share, similar to that for end user use; as of October 2018, the most recent version of Windows for PCs, tablets and embedded devices is Windows 10. The most recent versions for server computers is Windows Server 2019. A specialized version of Windows runs on the Xbox One video game console. Microsoft, the developer of Windows, has registered several trademarks, each of which denote a family of Windows operating systems that target a specific sector of the computing industry; as of 2014, the following Windows families are being developed: Windows NT: Started as a family of operating systems with Windows NT 3.1, an operating system for server computers and workstations. It now consists of three operating system subfamilies that are released at the same time and share the same kernel: Windows: The operating system for mainstream personal computers and smartphones.
The latest version is Windows 10. The main competitor of this family is macOS by Apple for personal computers and Android for mobile devices. Windows Server: The operating system for server computers; the latest version is Windows Server 2019. Unlike its client sibling, it has adopted a strong naming scheme; the main competitor of this family is Linux. Windows PE: A lightweight version of its Windows sibling, meant to operate as a live operating system, used for installing Windows on bare-metal computers, recovery or troubleshooting purposes; the latest version is Windows PE 10. Windows IoT: Initially, Microsoft developed Windows CE as a general-purpose operating system for every device, too resource-limited to be called a full-fledged computer. However, Windows CE was renamed Windows Embedded Compact and was folded under Windows Compact trademark which consists of Windows Embedded Industry, Windows Embedded Professional, Windows Embedded Standard, Windows Embedded Handheld and Windows Embedded Automotive.
The following Windows families are no longer being developed: Windows 9x: An operating system that targeted consumers market. Discontinued because of suboptimal performance. Microsoft now caters to the consumer market with Windows NT. Windows Mobile: The predecessor to Windows Phone, it was a mobile phone operating system; the first version was called Pocket PC 2000. The last version is Windows Mobile 6.5. Windows Phone: An operating system sold only to manufacturers of smartphones; the first version was Windows Phone 7, followed by Windows Phone 8, the last version Windows Phone 8.1. It was succeeded by Windows 10 Mobile; the term Windows collectively describes any or all of several generations of Microsoft operating system products. These products are categorized as follows: The history of Windows dates back to 1981, when Microsoft started work on a program called "Interface Manager", it was announced in November 1983 under the name "Windows", but Windows 1.0 was not released until November 1985.
Windows 1.0 was to achieved little popularity. Windows 1.0 is not a complete operating system. The shell of Windows 1.0 is a program known as the MS-DOS Executive. Components included Calculator, Cardfile, Clipboard viewer, Control Panel, Paint, Reversi and Write. Windows 1.0 does not allow overlapping windows. Instead all windows are tiled. Only modal dialog boxes may appear over other windows. Microsoft sold as included Windows Development libraries with the C development environment, which included numerous windows samples. Windows 2.0 was released in December 1987, was more popular than its predecessor. It features several improvements to the user memory management. Windows 2.03 changed the OS from tiled windows to overlapping windows. The result of this change led to Apple Computer filing a suit against Microsoft alleging infringement on Apple's copyrights. Windows 2.0
Keith Bostic is an American Software Engineer and one of the key people in the history of Berkeley Software Distribution UNIX and open-source software. In 1986, Bostic joined the Computer Systems Research Group at the University of California, Berkeley, he was one of the principal architects of 4.4 BSD and 4.4BSD-Lite releases. Among many other tasks, he led the effort at CSRG to create a free software version of BSD UNIX, which helped allow the creation of FreeBSD, NetBSD and OpenBSD. Bostic was a founder of Berkeley Software Design Inc. which produced BSD/OS, a proprietary version of BSD. In 1993, the USENIX Association gave a Lifetime Achievement Award to the Computer Systems Research Group at University of California, honoring 180 individuals, including Bostic, who contributed to the CSRG's 4.4BSD-Lite release. Bostic and wife Margo Seltzer founded Sleepycat Software in 1996 to develop and commercialize Berkeley DB, an open-source, key-value database. Sleepycat Software was the first company to dual-licensed open-source software.
In February 2006, the company was acquired by Oracle Corporation, where Bostic worked until 2008. Bostic and Michael Cahill founded WiredTiger in 2010 to create a NoSQL database management system. In November 2014, the company was acquired by MongoDB. Bostic is the author of nvi, a re-implementation of the classic text editor vi and many other standard BSD and Linux utilities, he is a past member of the Association for Computing Machinery, IEEE, several POSIX working groups, a contributor to POSIX standards. M. McKusick, K. Bostic, M. Karels, J. Quarterman: The Design and Implementation of the 4.4BSD Operating System, Addison-Wesley, April 1996, ISBN 0-201-54979-4. French translation published 1997, International Thomson Publishing, France, ISBN 2-84180-142-X. Peter McIlroy, Keith Bostic, Doug McIlroy: Engineering Radix Sort, Computing Systems, Vol. 6, No. 1, Winter 1993 Official website
Margo Ilene Seltzer is a professor and researcher in computer systems. She is the emeritus Herchel Smith Professor of Computer Science at Harvard University's John A. Paulson School of Engineering and Applied Sciences, where she is the director of the Center for Research on Computation and Society. In December 2017 it was announced that Seltzer will join the faculty at the University of British Columbia as the Canada 150 Research Chair in Computer Systems and the Cheriton Family Chair in Computer Science in September 2018. In 1982 Seltzer was a teaching assistant under Harry R. Lewis at Harvard University. In 1983 she received her A. B. in Applied Mathematics from Harvard/Radcliffe College, in 1992 her Ph. D. in Computer Science from the University of California, where her dissertation, "File System Performance and Transaction Support", was supervised by Michael Stonebraker. Her work in log-structured file systems and wide-scale caching is well known, she was lead author of the BSD-LFS paper.
Seltzer became an Assistant Professor of Computer Science at Harvard in 1992 and an Associate Professor in 1997, was named Gordon McKay Professor in 2000. From 2005 to 2010 she was designated a Harvard College Professor in recognition of "particularly distinguished contributions to undergraduate teaching", from 2002 to 2006 was Associate Dean of the School of Engineering and Applied Sciences, she is an advisor to the Harvard Undergraduate Women in Computer Science. Seltzer was Chief Technical Officer of Sleepycat Software from 1996 until that firm's acquisition by Oracle Corporation in 2006, she served as an architect on the Oracle Berkeley DB team for several years before transferring to Oracle Labs where she continues to act as an architect. Seltzer was a director of USENIX from 2005 to 2014, serving as vice president for one year, president from 2012-2014. In 2011 she was inducted as a Fellow of the Association for Computing Machinery, she is married to software developer Keith Bostic. In September 2018, she will join the faculty at the University of British Columbia as the Canada 150 Research Chair in Computer Systems and the Cheriton Family Chair in Computer Science.
Sleepycat Software Cromie, William J.. "Making it all compute: Blackbelt, mom, Seltzer integrates career and family". Harvard Gazette. Http://mis-misinformation.blogspot.com/ Appreciation of Margo Seltzer for Ada Lovelace Day by Aaron Swartz