Gentoo Linux is available free over the Internet.
Live environments and stage archives can be downloaded using the links below.
Live environments and stage archives can be downloaded using the links below.
amd64 aka x86_64
Linux Live Kit is the most innovative toolkit available. AuFS provides better stability compared to old unionfs, squashfs with XZ support provides great compression ratio and amazing decompression speed. What's new compared to old Linux Live scripts (last released in 2011)? Aufs3 is used instead of unionfs, brings great stability and features. Live CD/DVD repository list: This is just a simple link repository of some of the most recognized Live Linux CD/DVD compilations available today. Each version listed contains direct link to the download page for that version. We hope you find this list useful. A live install image contains a Debian system that can boot without modifying any files on the hard drive and also allows installation of Debian from the contents of the image. Is a live image suitable for me? Here are some things to consider that will help you decide. Here you will find official BlackArch Linux downloads and installation instructions. ISOs The following list contains official BlackArch full and netinstall ISO images. Is a set of shell scripts which allows you to create your own Live Linux from an already installed Linux distribution. The Live system you create will be bootable from CD-ROM or USB Flash Drive.
Boot media
Stage archives
Details (contents, hashes, and signatures)
Minimal Installation CD, Stage 3
x86
Boot media
Stage archives
Details (contents, hashes, and signatures)
Minimal Installation CD, Stage 3
What should I download? What do I do with these files?Gentoo Handbook
If you are unsure what you need to download, please refer to the Gentoo Handbook for the complete installation documentation.
It explains how you can find the right architecture for your machine and which files you need at what stage of the installation process.
It explains how you can find the right architecture for your machine and which files you need at what stage of the installation process.
Advanced choices and other architectures
amd64 – Advanced choices
Boot media
Stage archives
Details (contents, hashes, and signatures)
Processor compatibility The amd64 architecture is intended for use on AMD 64-bit CPUs as well as 64-bit Intel Pentium/Core/Xeon processors.
x86 – Advanced choices
Boot media
Stage archives
Details (contents, hashes, and signatures)
Confirm processor compatibility There are two builds of the x86 architecture: i486 and i686.
Processors prior to the Intel Pentium Pro or Pentium II require the i486 variant to be used.
Processors prior to the Intel Pentium Pro or Pentium II require the i486 variant to be used.
alpha
Linux Live Iso Downloads
Boot media
Stage archives
Details (contents, hashes, and signatures)
arm
Stage archives
arm64
Stage archives
Linux Live Iso List
hppa
Boot media
Stage archives
Details (contents, hashes, and signatures)
ia64
Boot media
Stage archives
Details (contents, hashes, and signatures)
Confirm processor compatibility The ia64 architecture is intended for use on Intel Itanium processors only.
If you have a 64-bit Intel Pentium/Core/Xeon processor, you need to use the amd64 architecture.
If you have a 64-bit Intel Pentium/Core/Xeon processor, you need to use the amd64 architecture.
ppc
Boot media
Stage archives
Details (contents, hashes, and signatures)
riscv
Stage archives (~riscv)
Details (contents, hashes, and signatures)
Hardware compatibility
Processor compatibility The lp64d stages can be used on all 64-bit RISC-V processors supporting the double-precision floating point instruction set. The lp64 Nintendo ds customer support phone number. stages can be used on all 64-bit RISC-V processors; they require no hardware support for floating point arithmetics.
For an overview of the different instruction sets, see, e.g., the RISC-V wikipedia page.
Additional Gentoo-specific information can be found on the web page of the Gentoo RISC-V project.
sparc
Boot media
Stage archives
Details (contents, hashes, and signatures)
Experimental architectures
s390
Other experimental architectures
For all other experimental downloads (including for the mips architecture), please refer to the complete experimental downloads archive.
An Introduction to Building Your Own Kali ISO
Building a customized Kali ISO is easy, fun, and rewarding. You can configure virtually any aspect of your Kali ISO build using the Debian live-build scripts. These scripts allow developers to easily build live system images by providing a framework that uses a configuration set to automate and customize all aspects of building the image. The Kali Linux development team has adopted these scripts and they’re used to produce the official Kali ISO releases.
Where Should You Build Your ISO?
Ideally, you should build your custom Kali ISO from within a pre-existing Kali environment.
Getting Ready — Setting up the live-build system
Linux Live Iso
We first need to prepare the Kali ISO build environment by installing and setting up live-build and its requirements with the following commands:
Now you can simply build an updated Kali ISO by entering the “live-build-config” directory and running our build.sh wrapper script, as follows:
The
build.sh
script will take a while to complete, as it downloads all of the required packages needed to create your ISO. Fast clicker sourceforge. Good time for a coffee.Configuring the Kali ISO Build (Optional)
If you want to customize your Kali Linux ISO, this section will explain some of the details. Through the kali-config directory, the Kali Linux live build supports a wide range of customization options, which are well-documented on the Debian live build 4.x page. However, for the impatient, here are some of the highlights.
Building Kali with Different Desktop Environments
Since Kali 2.0, we now support built in configurations for various desktop environments, including KDE, Gnome, E17, I3WM, LXDE, MATE and Xfce. To build any of these, you would use syntax similar to the following:
Controlling the packages included in your build
The list of packages included in your build will be present in the the respective kali-$variant directory. For example, if you’re building a default Xfce ISO, you would use the following package lists file - kali-config/variant-xfce/package-lists/kali.list.chroot. By default, this list includes the “kali-linux-default” metapackage, as well as some others. These can be commented out and replaced with a manual list of packages to include in the ISO for greater granularity.
Build hooks, binary and chroot
Live-build hooks allows us to hook scripts in various stages of the Kali ISO live build. For more detailed information about hooks and how to use them, refer to the live build manual. As an example, we recommend you check out the existing hooks in kali-config/common/hooks/.
Overlaying files in your build
You have the option to include additional files or scripts in your build by overlaying them on the existing filesystem, inside the includes.{chroot,binary,installer} directories, respectively. For example, if we wanted to include our own custom script into the /root/ directory of the ISO (this would correspond to the “chroot” stage), then we would drop this script file in the kali-config/common/includes.chroot/ directory before building the ISO. Does audacity work with catalina.
![Iso Iso](https://www.linuxliveusb.com/images/stories/screenshots/6.jpg)
Building a Kali Linux ISO for older i386 architectures
The Kali Linux i386 ISO has PAE enabled. If you require a default kernel for older hardware with PAE disabled, you will need to rebuild a Kali Linux ISO. The rebuilding process is much the same as described above, except that the 686-pae parameter that needs to be changed to 586 in auto/config as follows. First, install the prerequisites.
Next, make the change in auto/config for the appropriate architecture:
Finally, run your build.
Building Kali on Non-Kali Debian Based Systems
You can easily run live-build on Debian based systems other than Kali Linux. The instructions below have been tested to work with both Debian and Ubuntu.
First, we prep the system by ensuring it is fully updated, then proceed to download the Kali archive keyring and live-build packages.
With that completed, we install some additional dependencies and the previously downloaded files.
![Iso Iso](https://www.pendrivelinux.com/wp-content/uploads/Live-Linux-USB-Creator.jpg)
With the environment all prepared, we start the live-build process by setting up the build script and checking out the build config.
At this point, we have to edit the
build.sh
script to bypass a version check. We do this by commenting out the “exit 1” below.With that change made, the script should like as follows:
At this point, we can build our ISO as normal