What is Linux?
Linux, also known as GNU/Linux, is a free, UNIX-like operating system, developed originally for home PCs, but which now runs on practically every hardware platform available including PowerPC, Macintosh, DEC Alpha, Sun Sparc, ARM, Mainframes, and many others. Linux aims for POSIX compliancy to maintain maximum compatibility with other UNIX-like systems. With millions of users worldwide, Linux is probably the most popular UNIX-like OS in the world.
The Linux System
The central nervous system of Linux is the kernel, the operating system code which runs the whole computer. The kernel is under constant development and is always available in both the latest stable release and the latest experimental release. Progress on development is very fast, and the recent 2.6-series kernels are simply amazing on all counts. The kernel design is modular, so that the actual OS code is very small yet able to load whatever functionality it needs when it needs it. Because of this, the kernel remains small and fast yet highly extensible, in comparison to other operating systems which slow down the computer and waste memory by loading everything all the time, whether it is needed or not.
Linux systems excel in many areas, ranging from end-user concerns such as stability, speed, and ease of use, to serious concerns such as development and networking. Nowadays, Linux even offers a wide variety of free and commercial productivity packages such as the OpenOffice suite which can import and export files from other platforms, including Windows and MacOS.
Linux has long been praised for its stability--Linux boxes are known for running months or even years at a time without crashing, freezing, or having to be rebooted. Linux users sometimes poke fun at other, less stable operating systems, by way of screensavers like BSOD (Blue Screen of Death, which displays crash screens from various other platforms).
Linux is extremely secure compared to other platforms. Viruses and Trojan Horse programs are practically non-existent. Linux servers practically run the World Wide Web, so one cannot argue that there are so few malicious programs for Linux because it represents an insignificant number of target machines.
So much of the web is built on Linux that the acronym LAMP has emerged. LAMP represents Linux, Apache (web server), MySQL (database) and PHP (web application language). This acronym may need to be changed eventually due to the rapid growth of PostgreSQL, Ruby, and Java on Linux web servers.
Unlike some commercial operating systems, no free Linux distributions impose any artificial constraints on how you use the operating system. There are no arbitrary limits to the number of user accounts you can create, the number of simultaneous connections your Linux-based web server can handle, or arbitrary limits any other Linux resources.
Linux machines are known to be extremely fast, because the operating system is very efficient at managing resources such as memory, CPU power, and disk space. NASA, Sandia, Fermilabs and many others have built very powerful yet inexpensive supercomputers by creating clusters of Linux boxes running in parallel. Clusters of Linux systems have been responsible for rendering the graphics for movies like Shrek, Titanic, and many others.
Many high-profile organizations have adopted Linux. For example, visit the NOAA (the National Weather Service at www.srh.noaa.gov) and you can thank Linux for the weather reports you will see online.
Linux has dozens of different, highly configurable graphical interfaces (known as window managers) which run on top of Xorg, a free implementation of the X Window System. The most popular complete desktop environments at present are KDE (the K Desktop Environment) and GNOME (the GNU Network Object Model Environment). These offer the point-and-click, drag-and-drop functionality associated with other user-friendly environments (for example, Macintosh). Both can be configured to look and feel like other environments such as Windows or Mac, and KDE is remarkably extensible. Even complex tasks like system administration, package installation, upgrading, and network configuration can be done easily through graphical programs. Almost all programs that work with one window manager work with all the others, so you don't need to feel like you must pick your favorite desktop environment based on your favorite applications.
Xorg now supports 3-D windowing environments such as Beryl and Compiz for amazing visual effects, and most people won't have to upgrade their computers in order to take advantage of these enhancements.
Programmers often find that the Linux development environment is second to none--a good thing for end users who depend on these software developers to provide free software. Nearly all development software for Linux is free and covered under the GNU Public License, which guarantees that it will always remain free. Linux systems come standard with C and C++ compilers and an assembler, and usually include Pascal, FORTRAN, compiled Java, Perl, Python, and BASIC implementations as well. In addition, modern languages like Ruby and classic languages like LISP are all available, fully functional and completely free.
Linux runs two of the most popular development environments, Eclipse and KDevelop, and you can use these environments to with just about any programming language available. These two development tools support web application development, but there are additional free/open source highly sophisticated development tools dedicated to building web applications.
In addition, the source code for nearly any Linux program is freely available (and often included by default). This not only means that bugs are discovered and corrected almost immediately, but development of software proceeds at a much faster pace than one finds even at extremely successful commercial software houses. This phenomenon is called Open Source and is the subject of much discussion and amazement in the business world, the computer world, and the press.
The Open Source nature of Linux also makes it ideal for embedded and specialized systems (routers, cell phones, multimedia entertainment centers, point-of-sale systems), because there's no limit to what you can do to customize Linux for your special needs.
Networking comes naturally to Linux. Probably all networking protocols in use on the Internet are native to UNIX and/or Linux, so one can expect that UNIX and Linux would network better than any other platforms. Setting up a network on a Linux machine is surprisingly simple, because Linux handles most of the work.
A large part of the Web is running on Linux boxes, especially because of the Apache Web Server which dramatically defeated its commercial competitors, proving the effectiveness and viability of the Open Source approach.
Productivity software availability has exploded in recent years, and commercial developers have been producing excellent software for the Linux platform. The Firefox browser, Opera, and Mozilla are freely available (with some licensing restrictions) as well as the OpenOffice productivity suite, KOffice and a host of others, which often come standard on Linux distributions. Many distributors package commercial software with their distributions, and many commercial producers offer free downloads for Linux. Linux productivity packages can usually read and write files from productivity packages on other platforms; Linux has always been at the leading edge of compatibility and openness.
Linux happily coexists on the same machine as other operating systems including Windows or Mac OSX, and Linux easily accesses the files stored by other operating systems. You can use one of many virtualization techniques to run Linux and Windows or any other operating system (even another version of Linux) on the same machine, simultaneously. You can run many Windows programs on Linux via Wine, or commercial helper products such as Crossover Office or Cedega, both of which even support the popular game Word of Warcraft! There are countless Linux distributions which run beautifully from a CD or DVD without the need to install the operating system. This makes it possible for new Linux users to see if they like Linux without erasing their old OS or having to buy another computer.
The open source nature of Linux guarantees it is here to stay, and the amazing growth of Linux over the past years bears that out. Best of all, as long as you stick with a truly free/open source operating system like Linux and truly free/open source applications, you can never get locked into depending on any particular vendor. Linux puts you in control of what you do with your software, how, when and if you choose to change or upgrade it.
Practical Task Scheduling Deployment
July 20, 2016 12:00 pm CDT
One of the best things about the UNIX environment (aside from being stable and efficient) is the vast array of software tools available to help you do your job. Traditionally, a UNIX tool does only one thing, but does that one thing very well. For example, grep is very easy to use and can search vast amounts of data quickly. The find tool can find a particular file or files based on all kinds of criteria. It's pretty easy to string these tools together to build even more powerful tools, such as a tool that finds all of the .log files in the /home directory and searches each one for a particular entry. This erector-set mentality allows UNIX system administrators to seem to always have the right tool for the job.
Cron traditionally has been considered another such a tool for job scheduling, but is it enough? This webinar considers that very question. The first part builds on a previous Geek Guide, Beyond Cron, and briefly describes how to know when it might be time to consider upgrading your job scheduling infrastructure. The second part presents an actual planning and implementation framework.
Join Linux Journal's Mike Diehl and Pat Cameron of Help Systems.
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With all the industry talk about the benefits of Linux on Power and all the performance advantages offered by its open architecture, you may be considering a move in that direction. If you are thinking about analytics, big data and cloud computing, you would be right to evaluate Power. The idea of using commodity x86 hardware and replacing it every three years is an outdated cost model. It doesn’t consider the total cost of ownership, and it doesn’t consider the advantage of real processing power, high-availability and multithreading like a demon.
This ebook takes a look at some of the practical applications of the Linux on Power platform and ways you might bring all the performance power of this open architecture to bear for your organization. There are no smoke and mirrors here—just hard, cold, empirical evidence provided by independent sources. I also consider some innovative ways Linux on Power will be used in the future.Get the Guide