The Siebel Installation Guide for the operating system you are using is provided in separate versions for Microsoft Windows or UNIX platforms:
- Siebel Installation Guide for Microsoft Windows [this book]
- Siebel Installation Guide for UNIX
Supported UNIX platforms [operating systems] include IBM AIX, HP-UX, Linux, and Oracle Solaris.
Linux platforms include Oracle Enterprise Linux, Red Hat Enterprise Linux, and Novell SUSE Linux Enterprise. Information about supported Linux operating systems is provided in Siebel Installation Guide for UNIX. Linux is treated as a UNIX operating system. Supported Linux operating systems are usually discussed in generic terms and are not differentiated. However, some information in this guide may apply only to particular Linux operating systems.
NOTE: For all operating system support details, including supported versions and product support exceptions, refer to Siebel System Requirements and Supported Platforms on Oracle Technology Network.
Both the Windows and UNIX versions of this guide contain information about installing client-based modules, such as Siebel Tools or the Siebel Mobile Web Client, on Microsoft Windows platforms.
In general, Siebel Installation Guide for UNIX does not contain detailed information about installing server-based modules on Windows platforms, particularly Siebel Enterprise Server and Siebel Web Server Extension [SWSE].
NOTE: Siebel Management Server is available only on Windows and is documented in both versions of this guide. However, some information relevant to configuring this product is provided only in Siebel Installation Guide for Microsoft Windows.
Siebel Installation Guide for UNIX does not contain information about either Microsoft SQL Server or Microsoft IIS [Web server].
Siebel Installation Guide for Microsoft Windows does not contain information about UNIX-based Web servers.
In this guide, the term Windows refers to all Microsoft Windows operating systems listed as a supported server or client platform [for applicable Siebel product modules] for this release in Siebel System Requirements and Supported Platforms on Oracle Technology Network. Likewise, MS SQL Server refers to the versions of the Microsoft SQL Server database referenced in the same document.
References in this guide [primarily in Siebel Installation Guide for UNIX] to UNIX operating systems are sometimes in placeholder form, such as UNIX_OS. Such references, which are explained in context, may refer to an operating system name [for example, HP-UX] or to a directory or file name element that corresponds to an operating system [for example, HPUX or hp].
In 1960, the Massachusetts Institute of Technology, AT&T Bell Labs, and General Electric were working on an experimental operating system called Multiplexed Information and Computing Service or MULTICS. This was designed to run on the GE-645 mainframe computer. But it performed poorly. AT&T Bell Labs called off this project and deployed its resources elsewhere. But Ken Thompson, one of the developers from Bell Labs continued to develop for the GE-645 mainframe, and wrote a game for that computer called Space Travel. But the game was too slow on the GE machine and expensive also, costing $75 per execution. So he re-wrote the game in assembly language for Digital Equipment Corporation's PDP-7 with help from Dennis Ritchie.
This experience, combined with his work on the Multics project, led Thompson to start a new operating system for the PDP-7 and they developed a file system as well as the new multi-tasking operating system itself with the help of a small team of developers. They included a command line interpreter and some small utility programs. This was named as UNICS in 1970, and later change into UNIX.
In 1985, Richard Stallman created the Free Software Foundation and developed the GNU General Public License [GNU GPL], in order to spread software freely. Many of the programs required in an OS [such as libraries, compilers, text editors, a UNIX shell, and a windowing system] were completed by the early 1990s, but few elements such as device drivers, daemons, and the kernel were incomplete. In 1991, Linus Torvalds began to work on MINIX, a Unix-like OS, whose code was freely available under GNU GPL project. Then he developed the first LINUX kernel and released it on 17 September 1991, for the Intel x86 PC systems. This kernel included various system utilities and libraries from the GNU project to create a usable operating system. All underlying source code can be freely modified and used.
Usage of Linux and Unix
Linux OS is great for small- to medium-sized operations, and today it is also used in large enterprises where UNIX was considered previously as the only option. A few years back, Linux was considered as an interesting academic project, but most big enterprises where networking and multiple user computing are the main concerns; people didn't consider Linux as an option. But today, with major software vendors porting their applications to Linux, and as it can be freely distributed, the OS has entered the mainstream as a viable option for Web serving and office applications.
But there are some circumstances where UNIX is the obvious choice, or used to be. If an enterprise used massive symmetric multiprocessing systems, or systems with more than eight CPUs, they needed to run UNIX in the past. UNIX was far more capable in handling all the processes more effectively than Linux. However since 2004 more of the world's biggest supercomputers now run Linux than unix. Since 2011 Linux powers over 90% of the top 500 servers.
Here's an interesting video that walks us through the history, differences and some common commands used in Linux and Unix environment:
Linux - Unix Differences in Cost & Distribution
Linux can be freely distributed, as it is an open Source OS. So anyone can get a copy of Linux from books, magazines, or from the internet also. For server versions, organizations typically pay distributors for a support contract, not the software. The major distributors are RED HAT, Mandrake, and SUSE. For server hardware, IBM, HP, Dell are the major ones.
UNIX is costly as compared to Linux; the midrange UNIX servers are priced in between $25,000 and $249,999 [including hardware]. The major distributors are HP, IBM and SUN. A high end UNIX server can cost up to $500,000. According to IDC, Gartner, IBM is the market leader in UNIX servers, HP is in 2nd position and SUN is in the third position.
Commercial UNIX is usually custom written for each system, making the original cost quite high, whereas Linux has base packages also. In this respect, Linux is closer in its model to Windows than a commercial UNIX OS is. At the time of purchasing a UNIX server, users get a Vendor assistance plan on setting up and configuring the system. But with Linux, Vendor support must be purchased separately.
Threats and Security: Unix vs. Linux
Both of the operating systems are vulnerable to bugs but Linux is far more responsive in dealing with the threats. Linux incorporated many of the same characteristics and functions found in UNIX, including the segmentation of the user domain in a multi-user environment, the isolation of tasks in a multi-tasking environment, a password system that can be encrypted and/or located remotely and much more. As Linux is an open system OS, the bugs can be reported by anyone in the user/developers forum, and within days it can be fixed. But for UNIX, this is not the case, and user has to wait for a while, to get the proper bug fixing patch. The open source community delivers faster because it does not have to go through the endless development cycles of commercial-based operating systems.
At the same time, as an open source operating system, it is supported by tens of thousands of developers worldwide. To reiterate, this allows for better innovation and quicker-to-market features than anything UNIX can provide.