- IRIX is an operating system developed by SGI to run on their MIPS architecture workstations and servers. It was based on UNIX System V with BSD extensions.
- Major versions included IRIX 3.x, 4.0, 5.0, 6.0 and later. IRIX 6.0 added 64-bit support and IRIX 6.5 was the last major version, released in 1998 with minor updates until 2006.
- IRIX had a graphical user interface, was a leader in symmetric multiprocessing, and included features like the XFS file system for high performance. It was widely used in computer animation and scientific visualization.
Plan 9 is a distributed operating system developed at Bell Labs starting in the late 1980s. It uses terminals, file servers, and CPU servers connected by networks. The document provides details on the history of Plan 9 including its four major releases from 1992 to 2002. It also describes features of Plan 9 such as its use of the 9P protocol and union mounts. Instructions are provided for downloading the ISO image, booting from the installation CD, and beginning the graphical or text-based installation process.
Symphony OS is a Linux distribution based on Debian/KNOPPIX with a customized desktop environment called Mezzo aimed at ease of use. It provides application installation via a software store and gets system information via "desklets" on the desktop. The first alpha was released in May 2005 and development continued with subsequent alpha and beta releases, with a focus on improved stability and usability. Key features of later versions included integration with Ubuntu and a rewritten Mezzo desktop codebase.
Ulteo is a French software company that provides free and open source virtual desktop solutions based on Linux. It was founded in 1998 by Gaël Duval, the original creator of Mandriva Linux. Ulteo Application System is a Debian/Ubuntu-based Linux distribution that provides a choice of applications for daily use along with document and panel synchronization capabilities. The installation process involves downloading an ISO file, mounting it, and following steps to install Ubuntu 8.04 and Ulteo Open Virtual Desktop together or installing the software individually via Linux package management on supported systems like Ubuntu, RHEL, CentOS, and Novell SUSE Linux.
Wolfer is a Linux distribution based on Ubuntu 10.04 that is designed for new Linux users. It replaces some of Ubuntu's default applications, such as replacing Firefox with Chrome browser version 7. It also includes applications for social media, instant messaging, email, multimedia, image editing, and games. The default interface uses the GNOME 2.30 desktop with icons on the bottom menu bar and task switcher, and includes icons for file browsing and installing applications on the desktop.
SolydXK is a Linux distribution based on Debian that aims to be simple and stable. It includes proprietary software like Adobe Flash and optional closed-source drivers. There are two editions, SolydX with Xfce and SolydK with KDE. Both come with common software like Firefox, LibreOffice, and support Steam for gaming. SolydXK uses a mix of free and open-source and proprietary software.
QNX is a commercial real-time operating system used primarily in embedded systems. It was developed in the 1980s and was acquired by BlackBerry in 2010. QNX uses a microkernel architecture and has been used in vehicles, mobile phones, and other devices. It provides features like distributed processing, multitasking, a file system manager, and an improved graphical user interface. QNX is installed using installation media and guides the user through setting up partitions and copying files to the hard disk.
OpenBSD is a free, open-source Unix-like operating system descended from Berkeley Software Distribution (BSD). It was created in 1995 when project leader Theo de Raadt forked from NetBSD. OpenBSD emphasizes portability, security, and integrated cryptography. It is developed and maintained by volunteers and finances itself through donations and selling installation media.
Centos is a community-supported operating system that maintains binary compatibility with Red Hat Enterprise Linux. It provides a free enterprise computing platform and is managed through the yum package manager for updates. Centos supports various processor architectures including x86, x86-64, and PowerPC. It has a history of being developed based on Red Hat Linux source code to create a free alternative with commercial support available through partners. The goals of Centos include long-term usability, maintenance, and community development.
Plan 9 is a distributed operating system developed at Bell Labs starting in the late 1980s. It uses terminals, file servers, and CPU servers connected by networks. The document provides details on the history of Plan 9 including its four major releases from 1992 to 2002. It also describes features of Plan 9 such as its use of the 9P protocol and union mounts. Instructions are provided for downloading the ISO image, booting from the installation CD, and beginning the graphical or text-based installation process.
Symphony OS is a Linux distribution based on Debian/KNOPPIX with a customized desktop environment called Mezzo aimed at ease of use. It provides application installation via a software store and gets system information via "desklets" on the desktop. The first alpha was released in May 2005 and development continued with subsequent alpha and beta releases, with a focus on improved stability and usability. Key features of later versions included integration with Ubuntu and a rewritten Mezzo desktop codebase.
Ulteo is a French software company that provides free and open source virtual desktop solutions based on Linux. It was founded in 1998 by Gaël Duval, the original creator of Mandriva Linux. Ulteo Application System is a Debian/Ubuntu-based Linux distribution that provides a choice of applications for daily use along with document and panel synchronization capabilities. The installation process involves downloading an ISO file, mounting it, and following steps to install Ubuntu 8.04 and Ulteo Open Virtual Desktop together or installing the software individually via Linux package management on supported systems like Ubuntu, RHEL, CentOS, and Novell SUSE Linux.
Wolfer is a Linux distribution based on Ubuntu 10.04 that is designed for new Linux users. It replaces some of Ubuntu's default applications, such as replacing Firefox with Chrome browser version 7. It also includes applications for social media, instant messaging, email, multimedia, image editing, and games. The default interface uses the GNOME 2.30 desktop with icons on the bottom menu bar and task switcher, and includes icons for file browsing and installing applications on the desktop.
SolydXK is a Linux distribution based on Debian that aims to be simple and stable. It includes proprietary software like Adobe Flash and optional closed-source drivers. There are two editions, SolydX with Xfce and SolydK with KDE. Both come with common software like Firefox, LibreOffice, and support Steam for gaming. SolydXK uses a mix of free and open-source and proprietary software.
QNX is a commercial real-time operating system used primarily in embedded systems. It was developed in the 1980s and was acquired by BlackBerry in 2010. QNX uses a microkernel architecture and has been used in vehicles, mobile phones, and other devices. It provides features like distributed processing, multitasking, a file system manager, and an improved graphical user interface. QNX is installed using installation media and guides the user through setting up partitions and copying files to the hard disk.
OpenBSD is a free, open-source Unix-like operating system descended from Berkeley Software Distribution (BSD). It was created in 1995 when project leader Theo de Raadt forked from NetBSD. OpenBSD emphasizes portability, security, and integrated cryptography. It is developed and maintained by volunteers and finances itself through donations and selling installation media.
Centos is a community-supported operating system that maintains binary compatibility with Red Hat Enterprise Linux. It provides a free enterprise computing platform and is managed through the yum package manager for updates. Centos supports various processor architectures including x86, x86-64, and PowerPC. It has a history of being developed based on Red Hat Linux source code to create a free alternative with commercial support available through partners. The goals of Centos include long-term usability, maintenance, and community development.
CentOS is a community-developed Linux distribution derived from Red Hat Enterprise Linux source code. It is freely available and aims to provide a long-term enterprise-class OS while removing Red Hat branding and logos. CentOS versions correspond to RHEL versions and architectures. It relies on community support as it is not affiliated with Red Hat. In the past, other RHEL-derived distributions like Tao Linux were merged into CentOS to prevent orphaning users.
CentOS is a Linux distribution that is functionally compatible with Red Hat Enterprise Linux. It provides a free, enterprise-class platform for servers. CentOS includes Apache web server, PHP, MySQL, Postfix email server, and other components commonly used for web hosting. It has a control panel called CentOS Web Panel that makes it easy to manage users, websites, and server configuration. Customers report that CentOS is stable and suitable for production use, providing an alternative to paid enterprise distributions at no cost.
The document provides information about the members of a presentation group and details about the CentOS operating system. It introduces three group members and their student IDs and batches. It then discusses what CentOS is, provides a brief history of CentOS, describes the architectures and kernels supported, bootable media versions, goals, repositories, and end-of-support schedule for different CentOS versions.
The document discusses CentOS usage at Facebook and contributions to upstream open source projects. It describes how Facebook uses CentOS for its stability while also backporting features from Fedora. It highlights the Hyperscale SIG which aims to foster collaboration on packaging and tools for large infrastructures. It encourages involvement in the CentOS community through various activities like testing, reporting bugs, or joining special interest groups.
This document covers the basics of installing Linux systems, including the boot process, distribution selection, installation options, and basic administration tasks. It discusses BIOS initialization, the boot loader, kernel initialization, and the init process. Installation methods like USB, DVD, and network installation are presented. Basic system administration like services, processes, mounting disks, and shutdown are also outlined.
Everything You Need to Know About Linux Distros and Their FunctionalitiesMariyamYouss
The document provides information on various Linux distributions, including their key features and functionalities. It discusses lightweight distros like Elementary OS, MX Linux, and Puppy Linux as well as security-focused ones like BlackArch, Kali Linux, and BackBox. It also covers popular general purpose distros like Ubuntu, Linux Mint, Fedora, CentOS, and Arch Linux, highlighting their strengths and differences. The document serves as a useful overview of the different types of Linux distributions available and their main purposes and characteristics.
Guide to open suse 13.2 by mustafa rasheed abass & abdullah t. tua'ama (update)Mustafa AL-Timemmie
This document provides an overview of openSUSE, including its history, features, and installed applications. Some key points:
- openSUSE evolved from SUSE Linux and is now developed as an open-source project sponsored by SUSE. It aims to offer a stable base while allowing users to get additional or updated software.
- Features include integrated desktop environments like KDE, GNOME, and others; continuous updates through its Tumbleweed rolling release option; and administrative tools for servers, virtualization, and development.
- Installed applications cover common tasks like web browsing with Firefox, office productivity with LibreOffice, and media playback with Banshee and Amarok. The document provides details on various open
Linux is an open-source operating system that originated as a personal project by Linus Torvalds in 1991. It can run on a variety of devices from servers and desktop computers to smartphones. Some key advantages of Linux include low cost, high performance, strong security, and versatility in being able to run on many system types. Popular Linux distributions include Red Hat Enterprise Linux, Debian, Ubuntu, and Mint. The document provides an overview of the history and development of Linux as well as common myths and facts about the operating system.
The document provides an overview of Linux, including its history and features. It discusses how Linux originated from the GNU project and was started by Linus Torvalds. Linux is an open source operating system that can run on various platforms. It provides features like multi-user access, multitasking, and security benefits compared to other operating systems. The document also describes the typical Linux desktop environment and popular software applications available for Linux.
Linux Mint is a Linux distribution based on Ubuntu or Debian that aims to be easy to use with an elegant desktop environment. It includes Cinnamon, MATE, KDE, and Xfce desktop options. Linux Mint comes preinstalled with software like LibreOffice, Firefox, and GIMP. It provides tools to manage software, updates, menus, backups, and more. Linux Mint can also run many Windows programs and has system requirements as low as 512MB RAM. Advantages include stability, preinstalled software, hardware driver support, and ability to rescue files from crashed systems.
This document provides an introduction to the Linux operating system, including its history and key components. It describes how the GNU Project was established to create a free UNIX-like OS and how Linus Torvalds later developed the first Linux kernel. It outlines some of Linux's main features like being open source and virus-free, and discusses popular desktop distributions like Ubuntu, Fedora and Debian. Certifications for Linux like Red Hat's RHCT and RHCE are also briefly mentioned.
This article explores utilities that can help analyze and visualize information from a PF firewall, including pftop, pflogx, and pfstat. Pftop provides a real-time display of the PF state table and rule statistics. Pflogx converts PF log files to XML format, which can then be transformed to HTML or CSV. Pfstat automatically generates graphs from PF statistics over time. These third-party utilities provide additional views of PF firewall data beyond the standard PF tools.
FreeNAS 8.3 introduces several new features including plugin support, full disk encryption using GELI, and improved ZFS functionality. The plugin architecture allows additional software to be installed through a graphical interface. Encryption provides data security by encrypting entire disks using AES-NI encryption. Other enhancements include deduplication, RAIDZ3 support, and expanding pool sizes. Resources for FreeNAS include documentation, forums, and mailing lists.
A ppt on Mac Operating System by Apple. I've made this presentation simpler by changing the words in it to a simpler English which everyone can understand and explain it easily. For getting customized projects on Information Technology, contact at https://quvor.com
Learn how to use Linux, even if you’re a die-hard Windows user! There’s no question that Linux has taken over the enterprise, and paves the way for disruptive innovations in software. Join us for an informal session where we’ll introduce you to the benefits of developing on a Linux platform and show you some basic usage fundamentals, so that you can get started with Linux today.
This document provides information about various Linux distributions including their release dates, founders, code names and other key details. It discusses popular distributions such as Ubuntu, Fedora, Linux Mint, Debian and others, noting their histories and design philosophies. Release schedules and version codenames are outlined for several distributions, showing how they follow naming conventions related to alphabetical order, animals or characters from the Toy Story movies.
TrueOS and Warden provide tools to easily deploy and manage FreeBSD servers. TrueOS is a FreeBSD-based operating system optimized for servers that includes utilities from PC-BSD to simplify installation and administration. Warden allows managing jails (lightweight virtualized environments) and provides an interface for deploying, starting/stopping services, and managing software/snapshots within jails. These tools automate server setup and make FreeBSD a viable option for system administrators familiar with Linux.
Fedora Core 6 includes several new features and enhancements, including a new default theme, improved package management tools, updated desktop applications, and better support for additional languages. Performance has been improved through rebuilt packages and an optimized ext3 filesystem. The installer now allows specifying additional repositories during installation for a more integrated experience.
This document provides a support matrix for ArcSight ESM and its components, including supported operating systems and end of support dates. It lists supported operating systems and browsers for the ESM Manager, Console, and Express. Products at end of support include ESM versions 5.0.x and earlier as well as appliance models E7400 and E7200. Supported operating systems include recent versions of RHEL, CentOS, Windows Server and Windows desktop. The document defines key terms and provides detailed version and patch level information.
This document provides a support matrix for ArcSight ESM and its components, including supported operating systems and platforms. It lists:
- Product and platform end of support dates
- Supported operating systems and requirements for the ESM Manager, Console, and connectors
- Upgrade paths between ESM versions
- Web browsers and Java versions supported
- Information on Federal Information Processing Standard (FIPS) mode compatibility
CentOS is a community-developed Linux distribution derived from Red Hat Enterprise Linux source code. It is freely available and aims to provide a long-term enterprise-class OS while removing Red Hat branding and logos. CentOS versions correspond to RHEL versions and architectures. It relies on community support as it is not affiliated with Red Hat. In the past, other RHEL-derived distributions like Tao Linux were merged into CentOS to prevent orphaning users.
CentOS is a Linux distribution that is functionally compatible with Red Hat Enterprise Linux. It provides a free, enterprise-class platform for servers. CentOS includes Apache web server, PHP, MySQL, Postfix email server, and other components commonly used for web hosting. It has a control panel called CentOS Web Panel that makes it easy to manage users, websites, and server configuration. Customers report that CentOS is stable and suitable for production use, providing an alternative to paid enterprise distributions at no cost.
The document provides information about the members of a presentation group and details about the CentOS operating system. It introduces three group members and their student IDs and batches. It then discusses what CentOS is, provides a brief history of CentOS, describes the architectures and kernels supported, bootable media versions, goals, repositories, and end-of-support schedule for different CentOS versions.
The document discusses CentOS usage at Facebook and contributions to upstream open source projects. It describes how Facebook uses CentOS for its stability while also backporting features from Fedora. It highlights the Hyperscale SIG which aims to foster collaboration on packaging and tools for large infrastructures. It encourages involvement in the CentOS community through various activities like testing, reporting bugs, or joining special interest groups.
This document covers the basics of installing Linux systems, including the boot process, distribution selection, installation options, and basic administration tasks. It discusses BIOS initialization, the boot loader, kernel initialization, and the init process. Installation methods like USB, DVD, and network installation are presented. Basic system administration like services, processes, mounting disks, and shutdown are also outlined.
Everything You Need to Know About Linux Distros and Their FunctionalitiesMariyamYouss
The document provides information on various Linux distributions, including their key features and functionalities. It discusses lightweight distros like Elementary OS, MX Linux, and Puppy Linux as well as security-focused ones like BlackArch, Kali Linux, and BackBox. It also covers popular general purpose distros like Ubuntu, Linux Mint, Fedora, CentOS, and Arch Linux, highlighting their strengths and differences. The document serves as a useful overview of the different types of Linux distributions available and their main purposes and characteristics.
Guide to open suse 13.2 by mustafa rasheed abass & abdullah t. tua'ama (update)Mustafa AL-Timemmie
This document provides an overview of openSUSE, including its history, features, and installed applications. Some key points:
- openSUSE evolved from SUSE Linux and is now developed as an open-source project sponsored by SUSE. It aims to offer a stable base while allowing users to get additional or updated software.
- Features include integrated desktop environments like KDE, GNOME, and others; continuous updates through its Tumbleweed rolling release option; and administrative tools for servers, virtualization, and development.
- Installed applications cover common tasks like web browsing with Firefox, office productivity with LibreOffice, and media playback with Banshee and Amarok. The document provides details on various open
Linux is an open-source operating system that originated as a personal project by Linus Torvalds in 1991. It can run on a variety of devices from servers and desktop computers to smartphones. Some key advantages of Linux include low cost, high performance, strong security, and versatility in being able to run on many system types. Popular Linux distributions include Red Hat Enterprise Linux, Debian, Ubuntu, and Mint. The document provides an overview of the history and development of Linux as well as common myths and facts about the operating system.
The document provides an overview of Linux, including its history and features. It discusses how Linux originated from the GNU project and was started by Linus Torvalds. Linux is an open source operating system that can run on various platforms. It provides features like multi-user access, multitasking, and security benefits compared to other operating systems. The document also describes the typical Linux desktop environment and popular software applications available for Linux.
Linux Mint is a Linux distribution based on Ubuntu or Debian that aims to be easy to use with an elegant desktop environment. It includes Cinnamon, MATE, KDE, and Xfce desktop options. Linux Mint comes preinstalled with software like LibreOffice, Firefox, and GIMP. It provides tools to manage software, updates, menus, backups, and more. Linux Mint can also run many Windows programs and has system requirements as low as 512MB RAM. Advantages include stability, preinstalled software, hardware driver support, and ability to rescue files from crashed systems.
This document provides an introduction to the Linux operating system, including its history and key components. It describes how the GNU Project was established to create a free UNIX-like OS and how Linus Torvalds later developed the first Linux kernel. It outlines some of Linux's main features like being open source and virus-free, and discusses popular desktop distributions like Ubuntu, Fedora and Debian. Certifications for Linux like Red Hat's RHCT and RHCE are also briefly mentioned.
This article explores utilities that can help analyze and visualize information from a PF firewall, including pftop, pflogx, and pfstat. Pftop provides a real-time display of the PF state table and rule statistics. Pflogx converts PF log files to XML format, which can then be transformed to HTML or CSV. Pfstat automatically generates graphs from PF statistics over time. These third-party utilities provide additional views of PF firewall data beyond the standard PF tools.
FreeNAS 8.3 introduces several new features including plugin support, full disk encryption using GELI, and improved ZFS functionality. The plugin architecture allows additional software to be installed through a graphical interface. Encryption provides data security by encrypting entire disks using AES-NI encryption. Other enhancements include deduplication, RAIDZ3 support, and expanding pool sizes. Resources for FreeNAS include documentation, forums, and mailing lists.
A ppt on Mac Operating System by Apple. I've made this presentation simpler by changing the words in it to a simpler English which everyone can understand and explain it easily. For getting customized projects on Information Technology, contact at https://quvor.com
Learn how to use Linux, even if you’re a die-hard Windows user! There’s no question that Linux has taken over the enterprise, and paves the way for disruptive innovations in software. Join us for an informal session where we’ll introduce you to the benefits of developing on a Linux platform and show you some basic usage fundamentals, so that you can get started with Linux today.
This document provides information about various Linux distributions including their release dates, founders, code names and other key details. It discusses popular distributions such as Ubuntu, Fedora, Linux Mint, Debian and others, noting their histories and design philosophies. Release schedules and version codenames are outlined for several distributions, showing how they follow naming conventions related to alphabetical order, animals or characters from the Toy Story movies.
TrueOS and Warden provide tools to easily deploy and manage FreeBSD servers. TrueOS is a FreeBSD-based operating system optimized for servers that includes utilities from PC-BSD to simplify installation and administration. Warden allows managing jails (lightweight virtualized environments) and provides an interface for deploying, starting/stopping services, and managing software/snapshots within jails. These tools automate server setup and make FreeBSD a viable option for system administrators familiar with Linux.
Fedora Core 6 includes several new features and enhancements, including a new default theme, improved package management tools, updated desktop applications, and better support for additional languages. Performance has been improved through rebuilt packages and an optimized ext3 filesystem. The installer now allows specifying additional repositories during installation for a more integrated experience.
This document provides a support matrix for ArcSight ESM and its components, including supported operating systems and end of support dates. It lists supported operating systems and browsers for the ESM Manager, Console, and Express. Products at end of support include ESM versions 5.0.x and earlier as well as appliance models E7400 and E7200. Supported operating systems include recent versions of RHEL, CentOS, Windows Server and Windows desktop. The document defines key terms and provides detailed version and patch level information.
This document provides a support matrix for ArcSight ESM and its components, including supported operating systems and platforms. It lists:
- Product and platform end of support dates
- Supported operating systems and requirements for the ESM Manager, Console, and connectors
- Upgrade paths between ESM versions
- Web browsers and Java versions supported
- Information on Federal Information Processing Standard (FIPS) mode compatibility
This document provides a support matrix for ArcSight Enterprise Security Management (ESM) and its components, including supported versions, upgrade paths, and end-of-support dates. It covers the ESM Manager, Console, and Express versions 6.11.0 through 5.5. The matrix details supported operating systems, web browsers, Java versions, and more for each release. It also identifies versions that have reached end of support and should be upgraded.
This document provides a support matrix for ArcSight Enterprise Security Management (ESM) and its components, including supported platforms and end of support dates. It lists the currently supported versions of ESM software, appliances, and operating systems. It also indicates product versions that are at end of life and should be upgraded.
This document provides a support matrix for ArcSight Enterprise Security Management (ESM) and its components, including supported platforms and end of support dates. It lists the currently supported versions of ESM software, appliances, and operating systems. It also indicates product versions that are at end of life and should be upgraded.
This document provides a support matrix for ArcSight ESM and its components, including supported operating systems and platforms. It lists:
- Product and platform end of support dates
- Supported operating systems and requirements for the ESM Manager, Console, and connectors
- Upgrade paths between ESM versions
- Web browsers and Java versions supported
- Information on Federal Information Processing Standard (FIPS) mode compatibility
This document provides a support matrix for ArcSight Enterprise Security Management (ESM) and its components, including supported platforms and end of support dates. It lists the currently supported versions of ESM and the operating systems they can be installed and upgraded on. It also provides end of support dates for older product versions and platforms no longer supported.
This document provides a support matrix for ArcSight ESM and its components, including supported operating systems and platforms. It lists:
- Product and platform end of support dates
- Supported operating systems and requirements for the ESM Manager, Console, and connectors
- Upgrade paths between ESM versions
- Web browsers and Java versions supported
- Information on Federal Information Processing Standard (FIPS) mode compatibility
This document provides a support matrix for ArcSight Enterprise Security Management (ESM) and its components, including supported versions, upgrade paths, and end-of-support dates. It covers the ESM Manager, Console, and Forwarding Connector on platforms such as RHEL, CentOS, Windows, and Mac OS. The matrix details requirements for browser, Java version, and whether each version is FIPS compliant.
This document provides a support matrix for ArcSight ESM and its components, including supported operating systems and end of support dates. It lists supported operating systems and browsers for the ESM Manager, Console, and Express. Products at end of support include ESM versions 5.0.x and earlier as well as appliance models E7400 and E7200. Supported operating systems include recent versions of RHEL, CentOS, Windows Server and Mac OS X. The document defines key terms and provides detailed version and platform support information.
This document provides a support matrix for ArcSight ESM and its components, including supported operating systems and end of support dates. It lists supported operating systems and browsers for the ESM Manager, Console, and Express. Products at end of support include ESM versions 5.0.x and earlier as well as appliance models E7400 and E7200. Supported operating systems include recent versions of RHEL, CentOS, Windows Server and Mac OS X. The document defines key terms and provides detailed version and patch level information.
This document provides a support matrix for ArcSight Enterprise Security Management (ESM) and its components, including supported platforms and end of support dates. It lists the currently supported versions of ESM and the operating systems they can be installed and upgraded on. It also provides end of support dates for older product versions and platforms no longer supported.
This document provides a support matrix for ArcSight Enterprise Security Management (ESM) and its components, including supported versions, upgrade paths, and end-of-support dates. It covers the ESM Manager, Console, and Forwarding Connector on various operating systems. The latest supported versions are ESM 6.11.0 on RHEL/CentOS 6.8 and 7.3 for the Manager and various Windows and Linux systems for the Console. Older versions will reach end of support within 6 months of newer releases.
This document provides a support matrix for ArcSight Enterprise Security Management (ESM) and its components, including supported platforms and end of support dates. It lists the currently supported versions of ESM and the operating systems they can be installed and upgraded on. It also provides end of support dates for older product versions and platforms no longer supported.
This document provides a support matrix for ArcSight ESM and its components, including supported operating systems and end of support dates. It lists supported operating systems and browsers for the ESM Manager, Console, and Express. Products at end of support include ESM versions 5.0.x and earlier as well as appliance models E7400 and E7200. Supported operating systems include recent versions of RHEL, CentOS, Windows Server and Mac OS X. The document defines key terms and provides detailed version and patch level information.
This document provides a support matrix for ArcSight Enterprise Security Management (ESM) and its components, including supported platforms and end of support dates. It lists the currently supported versions of ESM and the operating systems they can be installed and upgraded on. It also provides end of support dates for older product versions and platforms no longer supported.
This document provides a support matrix for ArcSight ESM and its components, including supported operating systems and end of support dates. It lists supported operating systems and browsers for the ESM Manager, Console, and Express. Products at end of support include ESM versions 5.0.x and earlier as well as appliance models E7400 and E7200. Supported operating systems include recent versions of RHEL, CentOS, Windows Server and Mac OS X. The document defines key terms and provides detailed version and patch level information.
This document provides a support matrix for ArcSight Enterprise Security Management (ESM) and its components, including supported platforms and end of support dates. It lists the currently supported versions of ESM software, appliances, and operating systems. It also indicates product versions that are at end of life and should be upgraded.
This document provides a support matrix for ArcSight ESM and its components, including supported operating systems and end of support dates. It lists supported operating systems and browsers for the ESM Manager, Console, and Express. Products at end of support include ESM versions 5.0.x and earlier as well as appliance models E7400 and E7200. Supported operating systems include recent versions of RHEL, CentOS, Windows Server and Mac OS X. The document defines key terms and provides detailed version and patch level information.
This document provides a support matrix for ArcSight ESM and its components, including supported operating systems and end of support dates. It lists supported operating systems and browsers for the ESM Manager, Console, and Express. Products at end of support include ESM versions 5.0.x and earlier as well as appliance models E7400 and E7200. Supported operating systems include recent versions of RHEL, CentOS, Windows Server and Mac OS X. The document defines key terms and provides detailed version and platform support information.
How to Build a Module in Odoo 17 Using the Scaffold MethodCeline George
Odoo provides an option for creating a module by using a single line command. By using this command the user can make a whole structure of a module. It is very easy for a beginner to make a module. There is no need to make each file manually. This slide will show how to create a module using the scaffold method.
LAND USE LAND COVER AND NDVI OF MIRZAPUR DISTRICT, UPRAHUL
This Dissertation explores the particular circumstances of Mirzapur, a region located in the
core of India. Mirzapur, with its varied terrains and abundant biodiversity, offers an optimal
environment for investigating the changes in vegetation cover dynamics. Our study utilizes
advanced technologies such as GIS (Geographic Information Systems) and Remote sensing to
analyze the transformations that have taken place over the course of a decade.
The complex relationship between human activities and the environment has been the focus
of extensive research and worry. As the global community grapples with swift urbanization,
population expansion, and economic progress, the effects on natural ecosystems are becoming
more evident. A crucial element of this impact is the alteration of vegetation cover, which plays a
significant role in maintaining the ecological equilibrium of our planet.Land serves as the foundation for all human activities and provides the necessary materials for
these activities. As the most crucial natural resource, its utilization by humans results in different
'Land uses,' which are determined by both human activities and the physical characteristics of the
land.
The utilization of land is impacted by human needs and environmental factors. In countries
like India, rapid population growth and the emphasis on extensive resource exploitation can lead
to significant land degradation, adversely affecting the region's land cover.
Therefore, human intervention has significantly influenced land use patterns over many
centuries, evolving its structure over time and space. In the present era, these changes have
accelerated due to factors such as agriculture and urbanization. Information regarding land use and
cover is essential for various planning and management tasks related to the Earth's surface,
providing crucial environmental data for scientific, resource management, policy purposes, and
diverse human activities.
Accurate understanding of land use and cover is imperative for the development planning
of any area. Consequently, a wide range of professionals, including earth system scientists, land
and water managers, and urban planners, are interested in obtaining data on land use and cover
changes, conversion trends, and other related patterns. The spatial dimensions of land use and
cover support policymakers and scientists in making well-informed decisions, as alterations in
these patterns indicate shifts in economic and social conditions. Monitoring such changes with the
help of Advanced technologies like Remote Sensing and Geographic Information Systems is
crucial for coordinated efforts across different administrative levels. Advanced technologies like
Remote Sensing and Geographic Information Systems
9
Changes in vegetation cover refer to variations in the distribution, composition, and overall
structure of plant communities across different temporal and spatial scales. These changes can
occur natural.
it describes the bony anatomy including the femoral head , acetabulum, labrum . also discusses the capsule , ligaments . muscle that act on the hip joint and the range of motion are outlined. factors affecting hip joint stability and weight transmission through the joint are summarized.
Exploiting Artificial Intelligence for Empowering Researchers and Faculty, In...Dr. Vinod Kumar Kanvaria
Exploiting Artificial Intelligence for Empowering Researchers and Faculty,
International FDP on Fundamentals of Research in Social Sciences
at Integral University, Lucknow, 06.06.2024
By Dr. Vinod Kumar Kanvaria
How to Setup Warehouse & Location in Odoo 17 InventoryCeline George
In this slide, we'll explore how to set up warehouses and locations in Odoo 17 Inventory. This will help us manage our stock effectively, track inventory levels, and streamline warehouse operations.
How to Fix the Import Error in the Odoo 17Celine George
An import error occurs when a program fails to import a module or library, disrupting its execution. In languages like Python, this issue arises when the specified module cannot be found or accessed, hindering the program's functionality. Resolving import errors is crucial for maintaining smooth software operation and uninterrupted development processes.
3. The IRIX name was first used around the time of release 3.0 of the
operating system for SGI's IRIS 4D series of workstations and
servers, in 1988. Previous releases were identified only by the
release number prefixed by "4D1-", e.g. "4D1-2.2". The 4D1- prefix
continued to be used in official documentation to prefix IRIX
release numbers.
IRIX 3.x was based on UNIX System V Release 3
with 4.3BSD enhancements, and incorporated
the 4Sight windowing system, based on NeWS and IRIS GL. SGI's
own Extent File System (EFS) replaced the System V file system.
IRIX 4.0, released in 1991, replaced 4Sight with the X Window
System (X11R4), the 4Dwm window manager providing a similar
look and feel to 4Sight.
4. IRIX 5.0, released in 1993, incorporated certain features of UNIX
System V Release 4, including ELF executable. IRIX 5.3
introduced the XFS journaling file system.
In 1994, IRIX 6.0 added support for the 64-bit
MIPS R8000 processor, but was otherwise similar to IRIX 5.2.
Later 6.x releases supported other members of the MIPS
processor family in 64-bit mode. IRIX 6.3 was released for the
SGI O2 workstation only.IRIX 6.4 improved multiprocessor
scalability for the Octane, Origin 2000, and Onyx2 systems. The
Origin 2000 and Onyx2 IRIX 6.4 was marketed as "Cellular
IRIX", although it only incorporated some features from the
original Cellular IRIX distributed operating system project.IRIX
development stabilized with IRIX 6.5, released in 1998. The last
version of IRIX was 6.5.30, released in August 2006.
5. IRIX is a computer operating system developed by Silicon
Graphics, Inc. (SGI) to run natively on their MIPS
architecture workstations and servers. It was based on UNIX System
V with BSD extensions. IRIX was the first operating system to include
the XFS file system.
The last major version of IRIX was IRIX 6.5 which was released in May
1998. New minor versions of IRIX 6.5 were released every quarter until
2005; since then there have been four further minor releases. Through
version 6.5.22, there were two branches of each release: a maintenance
release (identified by an m suffix to the version number) that included
only fixes to the original IRIX 6.5 code, and a feature release (with
an f suffix) that included improvements and enhancements. An overlay
upgrade from 6.5.x to the 6.5.22 maintenance release is available as a
free download, whereas versions 6.5.23 and higher require an active
Silicon Graphics support contract, despite only running on Silicon
Graphics hardware.
6. The current major version of IRIX is IRIX 6.5 which was released
in May 1998. New minor versions of IRIX 6.5 were released every
quarter until 2005; since then there have been four further minor
releases. Through version 6.5.22, there were two branches of each
release: a maintenance release(identified by an m suffix to the
version number) that included only fixes to the original IRIX 6.5
code, and a feature release (with an f suffix) that included
improvements and enhancements. An overlay upgrade from 6.5.x
to the 6.5.22 maintenance release is available as a free
download, whereas versions 6.5.23 and higher require an active
Silicon Graphics support contract, despite only running on Silicon
Graphics hardware.
7. IRIX 6.1
This new version is based on the 64-bit operating system IRIX 6.0.1
and is downward compatible. It unfolded his full performance on
R8000 chip sets with 6 operations per processor cycle, 64-bit
processing and compatibility to older 32-bit and 64-bit MIPS
processors.
Functions:
- 64-bit virtual address space of 1 TByte for each 64-bit user process
(R8000)
- Large physical memory of 16 GByte (R8000)
- Large file size of 1 TByte at first release (R8000)
- Large file system size of 1 TByte at first release (R8000)
8. - Millions of files per directory (R8000)
- Supports up to 18 R8000 processors per POWER CHALLENGE
or POWER Onyx system
- New XFS file system for high-performance
- New N32 software developers kit
- New networking and system administration features (based on
IRIX 5.3)
- POSIX 1003.1 Specification
- Complies with the X/Open Portability Guide, Issue 3
(XPG3), including support for I18N and L10N
- Nearly all binaries built on IRIX 5 can be run under IRIX 6
- Network: 64-bit NFSv3 for faster data transfers and distributed
64-bit addressing
- Network: Parallel TCP/IPx for higher parallel networking
throughput
- Network: IRIXpro(TM)
- Network: Performance CoPilot(TM)
9. IRIX 6.2
Functions:
- Advanced 3D Internet/multimedia user and developer desktop
environment
- 1 TB virtual memory addressing, 9 TB files, 18 TB partitions on 64-
bit platforms
- 32-bit ABI compatibility with IRIX 5 applications, recompile for full
performance on R4x00/R5000/R8000/R10000 systems
- Complete software environment for industry-leading graphics
workstations and high-performance supercomputer, database, and
network servers
- X/Open Base 95 Profile branding from the X/Open Company Ltd.
- POSIX 1003.1 certification
- Supported file systems are EFS, XFS, Network File system
(NFS), ISO 9660 (CDFS), DOS (floppy only), swap, /proc File
system
11. IRIX 6 was compliant with UNIX System V Release 4, UNIX
95 and POSIX (including 1e/2c draft 15 ACLs and Capabilities).
IRIX had strong support for real-time disk and graphics I/O. IRIX
was one of the first Unix versions to feature a graphical user
interface for the main desktop environment. IRIX was widely
used in the computer animation industry and for scientific
visualization due to its once-large application base.
IRIX was a leader in Symmetric Multi-Processing (SMP), scalable
from 1 to greater than 1024 processors with a single system image.
IRIX used the Indigo Magic Desktop, which by default used
the 4Dwm X window manager with a custom look designed using
the Motif widget toolkit.
12. Clearing Old Data Prior to Installation
One can use another IRIX system to do this, but do not use a non-6.5
system. This is because the volume header information is not quite
the same in 6.2 compared to 6.5. Also, if you use a much later version
of 6.5, eg. 6.5.15, then the older 6.5 boot kernel on the CD will not be
able to mount a disk which has been fx'd using the fx program from
the running IRIX system. This is because slight changes were made to
the XFS file system structure in 6.5.6. It doesn't matter if you intend to
boot from the corresponding later Installation Tools and Overlays
CDs for the main installation, but it does matter if you intend to boot
using the original June 1998 Installation Tools CD. Thus, it's better to
use the boot version of fx from the CD you're going to use to
repartition the disk, unless you happen to have a running IRIX system
that has just 6.5 with no updates
13. Plus, I've been told that the changes made in 6.5.6 were to aid with
improved NFS performance with XFS file systems; if this is
important to you, then you may wish to do the installation using a
6.5.6-or-later CD set anyway. Even so, the information given here is
still generally applicable.
Thus, the normal way to clear any old data and begin the installation
is as follows:
Boot up the system, press ESC to obtain the Command Monitor. At
this point, an extract from the IRIX online manual, "System
Configuration and Operation", is useful to explain what is
happening here:
The command monitor has been designed to keep it independent of
operating systems and as small as possible. Therefore, the command
monitor cannot directly boot files residing in IRIX or other operating
system file trees. However, the command monitor provides a two-
level boot mechanism that lets it load an intermediary program that
understands file systems; this program can then find and load the
desired boot file
14. . The program is called the standalone shell, and is referred to as
sash. sash is a reconfigured and expanded version of the command
monitor program, and includes the modules needed to handle
operating system file structures. It also has enhanced knowledge
about devices. After the system software is installed, a copy of sash
is located in the volume header of the first disk. The header
contains a very simple file structure that the command monitor
understands. You can also boot sash from tape or across the
network.
Thus, the idea is to boot into sash on the CDROM and from there
into fx, the main IRIX disk utility program.
Enter hinv if necessary to confirm the SCSI controller number and
SCSI ID number of the CDROM. Enter the following command to
boot from the CD (make sure the 'Installation Tools' CD is in the
CDROM drive):
boot -f dksc(X,Y,8)sash ARCS dksc(X,Y,7)stand/farces –x
15. where X is the SCSI controller number, and Y is the SCSI ID of the
CDROM drive. According to the fx man page, the above
command applies to systems with the 32bit ARCS PROM, namely
Indigo, R4K Indigo2, Indy, Onyx, Challenge and O2.
For systems with the 64bit ARCS PROM - POWER
Challenge, POWER Onyx, POWER Indigo2, Indigo2
10000, Origin, Onyx2, Octane, and all newer systems - use this
command:
boot -f dksc(X,Y,8)sash64 dksc(X,Y,7)stand/fx.64 –x
although note that some systems may show the device as
carom(x,y,z) rather than dksc(x,y,z). I found this to be the case on
my Origin200 and so the command I used was as follows (the
CDROM was on SCSI controller 1, ID 6):
boot -f carom(1,6,8)sash64 cdrom(1,6,7)stand/fx.64 –x
16. In some cases, often R4K IRIS Indigo for unknown reasons, one
may have to boot in two stages, first into the sash and then into fx. I
suspect this may happen because the CDROM doesn't quite
respond as expected on older hardware. Either way, just split the
boot command sequence into two steps if required, eg. the typical
sequence might be:
boot -f dksc(X,Y,8)sashARCS
boot -f dksc(X,Y,7)stand/fx.ARCS –x
You will now be in the fx program. Press enter until you see the
main menu (I'm assuming that controller 0, ID 1 will indeed be
your root disk). Enter 'r' for repartition, 'ro' for root drive
option, press Enter to confirm XFS, enter 'yes' to confirm the
request, '..' to change menus up one level, 'l' to create a new disk
label, 'sy' to sync the disk (write out the new label), and finally
'/exit' to quit fx.
The system will return to the System Maintenance menu
17. Select Install System Software (or press 2) and choose the
appropriate icon for the attached CDROM. After reading in the
installation tools, which will take between 20 second to 1 or 2
minutes depending on your CPU/CDROM speed, some IRIX
copyright information will be shown.
At this point, if the disk is completely new, or if an older type file
system was on the disk (eg. an old 6.2 installation), then the system
will automatically detect that there is no valid file system. A
message will appear, asking whether you would like to create a new
file system. Answer yes and follow the instructions, choosing a block
size of 4096 if your disk is 4GB or larger - otherwise choose a block
size of 512. A new file system will be created.
A README file will be displayed (press Q to stop it paging if
necessary) and then a question appears, asking whether you would
like to run the available 6.5 install script. Answer in the negative by
entering '2' for 'Ignore'. The rest of the README will be displayed
and then the inst prompt appears. If the system has already created
a new file system as described above, then you can skip the next
section on manually erasing the disk within the inst program; go
to Reading the CDs.
18. Erasing the Disk Within the Inst Program
There are two ways of doing this, either using the Admin menu, or
by going into a shell. If your disk is 4GB or larger, then use the
Admin menu as follows:
• Enter 13 at the Inst prompt to select the Admin menu,
• Enter 11 to select mkfs,
• Enter y and confirm the action of making a new file system on
the disk.
This will use a 4096 block size.
• Enter '..' to return to the Inst menu.
If the disk is smaller than 4GB, then using the Admin menu to mkfs
the disk will result in an inefficient block size being used (it will still
work, but 4096 is rather large for a disk as small as 2GB). Thus, for
disks smaller than 4GB, follow this procedure:
19. • Enter 'sh' at the Inst prompt to go into a shell.
• Unmounts the system disk from the miniboom file system by
entering:
amount /root/hw
amount /root
An older installation on the disk may have attempted to mount
other file systems. If so, unmounts them before unminting /root
(enter 'mount' on its own to see the current mounted file
systems).
• Use mkfs to make a new file system (this assumes the normal
system disk location as controller 0, ID 1):
mkfs -b size=512 /dev/dsk/dks0d1s0
• Now remount the system disk and go back to the Inst prompt
(CTRL+D here means hold down the CTRL key and then press
D):
mount /dev/dsk/dks0d1s0 /root <CTRL+D>
20. You can of course use the shell method no matter what size disk
is being used, eg. some people like to use mkfs manually in order
to know more about what is going on. For a 4GB disk or
larger, just leave out the '-b size=512' part; mkfs will use a 4096
block size automatically. There are minor variations on the above
procedures. If you have any queries, please email me.
You should now be at the inst prompt once again, with a clean
disk ready to install onto.
Reading the CDs
It is at this point that one can commence the installation
process, which begins with reading in the base set of four IRIX
CDs. Enter 1 and then enter the following to read in the
installation tools CD:
/CDROM/dist
21. Unlike IRIX 6.2, the 6.5 version of inst pre-reads all the CDs that
you intend to install before beginning the installation process. At
the very least, a minimum set of four CDs must be scanned. This is
a better way of preventing installation conflicts from multiple CDs
compared to the older method of having a 'delay conflicts' flag
which had to be configured manually, a step which was easy to
forget. A description of the 6.5 installation script will appear (this
is not needed for a fresh installation). Quit the script by pressing Q
and select option '2' to ignore it. The CD is read and then a prompt
appears. Remember to use a later 6.5.x at this stage if your
hardware requires it.
Eject the CD, insert the IRIX 6.5 Foundation 1, June 1998 CD and
press Enter once the CDROM drive has settled itself. When the CD
has been read, a further prompt will appear; eject the CD, insert
the Foundation 2 CD, press Enter, then do the same for the IRIX
6.5 Applications CD (June 1998) and so on until all the CDs you
want to initially install have been read (including any
corresponding 6.5.x update CDs if you used a 6.5.x boot CD).
22. Then enter 'done'. Full details are in the installation instructions
booklet, but it's pretty simple to follow. At a minimum, you must
let inst read the following CDs (the first of these will already be in
the CDROM drive):
•Installation Tools
•Foundation 1
•Foundation 2
•Applications
Load any additional CDs you want after the above minimum four,
eg. the NFS CD. Personally, I prefer to install this minimum 4-CD
set, plus the NFS CD (and any required 6.5.x for later hardware),
restart the system to get IRIX up and running, and then carry out
further installations from swmgr, often across a network using NFS
for convenience. Once the distribution details on the CDs have been
scanned, you are ready to begin the installation. According to the
booklet, a simple way to ensure a clean initial installation is to enter
these commands at the inst prompt:
keep *
install standard
23. Now enter 'go' and the installation will begin (follow any
instructions concerning conflicts that are given). Note the new
keywords, 'standard' and 'prereqs' - read the installation notes to
learn more about what these keywords mean. Also note that the
'install prereqs' command will probably give an error saying, 'No
matches for "prereqs" were found' - this message is perfectly normal
and can be ignored.
For the purposes of this discussion, I will refer to the above
minimum four-CD installation as the 'Basic Set'. I found the default
installation to take up 761MB of disk space on O2, a little less for
Indigo2, decreasing to 704MB on Indy.
During the installation procedure, you will be asked to insert
particular CDs. When the prompt message appears, just press the
CDROM eject button, replace the current CD with the requested CD
and then push the tray back in. There is no need to press the Enter
key - the system automatically detects the presence of the requested
CD and proceeds with the installation. You will be asked to insert
the following CDs during the install procedure, in this order:
24. •Foundation 1
•Applications
•Foundation 2
•Installation Tools
The part of the installation procedure which took the longest
period of time to 'process' before the percentage indicator actually
changed was when the procedure had reached 94%. Thus, don't
worry about there being anything wrong if the system seems to be
taking a long time at that point. It's perfectly normal (systems with
older CPUs could spend several minutes with the indicator
staying at 94%). Also, unlike older versions of inst, there is just a
single 0% to 100% numerical indicator for the entire initial
installation procedure, eg. the checking-disk-usage-requirements
stage ends when the percentage indicator reaches approximately
15%, the software installation ends at around 95%, then the exit
commands begin, etc.At 95% complete, some 'UX:make: INFO: '
messages are shown. Ignore these.
25. Usually, two errors concerning the Netscape system will be
displayed at some point, two messages for each error. According to
the system documentation, this is normal and can be ignored.
When the installation ends, the inst prompt will return. Enter 'quit'
to begin the process of 'requickstart'ing the ELF files (see the man
page for rqsall if you want to know more about this). My timing for
the tests in the appendix includes this rqsall step because it does
take a while; in fact, this step can easily constitute one third to one
half of the total installation time, especially on systems with older
CPUs.
When the rqsall procedure has finished, a question will appear
asking if you would like to restart the system. Enter 'y' and the
system will create a new kernel and then reboot.
Handy tip: after the Foundation and Applications CDs have been
processed, one inserts the Installation Tools CD. It is after this CD
has been processed that the inst prompt will return; one normally
enters 'quit', after which the rqsall procedure begins
26. However, the system will remember any keyboard presses that are
made after the processing of the Installation Tools CD begins, so
instead of waiting around for the later questions to be asked, just
enter 'quit' and then 'y' now so that, when the questions appear, the
answers will already be in the keyboard buffer and thus accepted
immediately. This means you can just leave the installation
alone, and come back later to find the system fully rebooted and
ready for you to login at the login menu. Note that the installation
will have created the usual default setup where the host name is IRIS.
It's surprising how useful this is sometimes, eg. start an
installation, buzz off to lunch, come back to find the system ready to
use and carry on.
And that's basically it! After the main reboot, login as root and begin
any further required installations. I normally remove some unwanted
items first, then I install various extra items from the Basic
Set, followed by all the other usual CDs (Development
Libraries, Development Foundation, etc.) I will add some
information about dealing with these other CDs later, including some
example product selections files which will make life much easier for
most installations.