Bio-Linux has been released !

Bio-Linux is an ideal system for scientists handling and analysing biological data.

Bio-Linux 6.0 is a fully featured, powerful, configurable and easy to maintain bioinformatics workstation. Bio-Linux provides more than 500 bioinformatics programs on an Ubuntu Linux 10.04 base. There is a graphical menu for bioinformatics programs, as well as easy access to the Bio-Linux bioinformatics documentation system and sample data useful for testing programs. You can also install Bio-Linux packages to handle new generation sequence data types.

You can install Bio-Linux on your machine, either as the only operating system, or as part of a dual-boot setup which allows you to use your current system and Bio-Linux on the same hardware.

Bio-Linux also runs Live from the DVD or a USB stick. This runs in the memory of your machine and does not involve installing anything. This is a great, no-hassle way to try out Bio-Linux, demonstrate or teach with it, or to work with when you are on the move.

Bio-Linux is built on open source systems and software, and so is free to to install and use. See What's new on Bio-Linux 6.0. Also, check out the  2006 paper on Bio-Linux and open source systems for biologists.

Getting Bio-Linux is simple. Just download the image, burn it to a DVD or USB stick and boot the machine from that media.

Running Bio-Linux as a live system

You can run Bio-Linux by booting your computer from the memory stick. To do this, you need to set the machine to boot from a USB port.

On common computers, you can press the F12 key as the machine is starting up. This loads up a menu allowing you to choose a boot device for that session. When you want to run a Bio-Linux Live Session or install Bio-Linux from the memory stick, simply choose the option: boot from a USB device.

If you wish to set this as a permanent option, then you can press F2 instead of F12 as the machine is starting up. This will allow you to configure the BIOS of your computer to establish an order of devices to boot from. You can make the USB memory stick the first device on the list. After this, your machine will always look first into USB ports for USB devices and will boot from them if they are bootable.

Download Bio-Linux at Here.

FaunOS: The Portable Linux

FaunOS is a portable (easy-to-carry), fully integrated Linux operating system with over 500 preinstalled packages. It is specifically designed to run from a portable USB Memory Device (USB Flash Drive). It can also run from a DVD.

FaunOS does not change or install anything on your hard drive--unless you specifically ask it to. This means it is safe to take your USB to a friend's computer and boot from it (see minimum requirements below). When you finish, shutdown, and remove your USB key from your friend's computer, there is no trace of any of your activity on that computer.

Features include

• Ability to save files back to the USB flash drive.
• Tools that allow permanent installation to a hard drive. Supports the following install options on a hard drive:
• Permanent Arch Linux Installer using archin
• Frugal install (not to be confused with Frugalware Linux) installs the compressed FaunOS files to a hard drive permanently leading to an “unbreakable desktop” meaning the end user can totally ruin everything at runtime. To revert back to the starting point all the user has to do is reboot the machine and everything goes back to normal since all changes happen in RAM (unless the FaunOS session is saved on shutdown).
• Ability to install additional packages before permanently installing FaunOS to the hard drive.
• FaunOS Installer for creating additional FaunOS USB drives from within FaunOS.

Minimum Requirements:

Generally speaking, if you have a fairly new PC (say 1 or 2 years old), then FaunOS should run okay on your hardware. Here are the specifics:

Minimum USB capacity (if installing to a USB key): 1 GB
Target machine hardware requirements:

• Architecture: x86
• Minimum RAM: 512 MB; 1GB or more recommended. Minimum 1.5GB required for "In Memory" boot option.
• Minimum Processor Speed: 500 MHz

For USB key boot:

• The target machine must be bootable from a USB. Alternatively, you can make a special bootstrapping CD (see instructions below) to boot from.

You can download the FaunOS USB flash drive image over HTTP or Torrents. Click here to download over HTTP, or torrent. (Download Size ~933 MB).

Use RawWrite on Windows or dd on *nix and Mac OSX to write the FaunOS USB flash drive image to your USB flash drive. Here’s a dd example on Linux assuming the USB flash drive is /dev/sdb:

dd if=faunos-fortytwo-0.3.2-usb.img of=/dev/sdb

FrogLinux, the French Mini Linux

FrogLinux, the French mini linux distro is different proprietary operating systems because we offer, with FrogLinux, a real barrier to viruses and other malicious software.

FrogLinux distinguish itself as through access to a huge amount of free software and free through collaboration with Ubuntu.

Its real innovations are to get the benefits of Linux and Ubuntu by adding a Quebec personality by adding visual elements representing Quebec, higher quality and suitable software.

The software is configured in french.

FrogLinux is now available on USB Drive Fast, functional, surprise! There is no need to use an operating system slow or faulty or hard disk. Start your computer directly from the USB drive. Everything is already installed and functional:

• Internet
• Mail Manager
• The OpenOffice suite
• CD burner / DVD
• Reader film and music
• Advanced graphics software
• Manager photographs and images
• Automatic Network Detection, graphics cards and printers
• Redetection of your devices at each startup (exclusive FrogLinux)
• You have to discover the rest. (Including the famous Autobackup, another FrogLinux exclusivity).

You can download FrogLinux at here.

Put Puppy Linux in Flash Drive

You can run Puppy on any bootable USB storage media, such as flash memory, USB-Zip drive and USB-hard-drive. Note, we have developed the habit of referring to a Flash-drive-installed Puppy as "flash-Puppy".
My "first take" with installing Puppy was on a tiny USB Compact Flash (CF) card (plugged into a USB-CF-reader interface), as I really like the idea of having all my personal data and the operating system in something that I can carry in a shirt pocket or wallet. In theory, I can then boot Puppy on any PC with a USB socket.






Simple as anything to go into the BIOS setup during power-up and change the second boot device to "USB ZIP" (Award BIOS) or whatever works for your BIOS.

A warning: Some USB Flash drives are difficult to boot off, and some PCs have BIOSes that do not boot from USB or have peculiar restrictions:

I have a motherboard that I purchased in 2004, and I have a friend with a laptop also purchased new in 2004, and both have one thing in common: the BIOS does not even have an option to boot from USB -- today, that is really pathetic, so do check before purchasing. Bring your Puppy usb pen-drive into the computer shop and see if it boots!

These days USB pen drives have the "standard USB mass storage interface", so will work on any PC running Windows or Linux without needing a special driver. Ditto for many digital cameras and mp3 players (in fact, Puppy can be installed to these!). However, there are some USB memory/camera/mp3-player that do not have a standard mass storage interface, and these will not work with Linux -- make sure before buying and if you find one for sale, be sure to tell the saleperson that it's crap.

How to obtain and install flash-Puppy

Go to the Puppy download page and download live-Puppy (file puppy-xxxx.iso, where "xxxx" is version number plus some options), that boots off a CD. Bootup Puppy, and in the "Setup" menu you will find an entry called "Puppy Universal Installer". Select that, and follow the simple instructions.

It's that simple, however you will of course need a PC with a CD burner to be able to burn the ISO file to CD. If you don't have a CD burner, you will have to use an "iso buster" program (see some links on the Puppy download page) to extract the files out of the ISO file, then follow the manual installation instructions given below.

Ha, ha, it is putting the cart before the horse, but Puppy v2.10 (and later) has ISOMaster (see "Multimedia" menu), which is an "iso buster". You can use it to extract files from and insert files into a ".iso" file. Once you have got your first Puppy live-CD burnt and Puppy running, you will be able to use ISOMaster.

Installing DSL to a USB Flash Drive (Linux way)

Installing Damn Small Linux to a USB Flash Drive from your Linux Desktop

Here the steps for doing that:
Minimum size for USB Drive: 128MB.
Save all of your data on your USB to another storage medium, such as a CD/DVD or hard drive.

• Begin by determining the location of your flash drive. It will be something like /dev/sda

 fdisk -l

• Check your syslinux version and upgrade it if you want FAT32 support. (Syslinux 2.11 works for FAT16; Syslinux 3.35 works for FAT32). Compile & install the latest syslinux from here.
  
• If you need to wipe the MBR on the Flash Disk, do it with a command like below. This shouldn't be necessary unless there's another funky bootloader in the MBR (like, if you were experimenting with another bootable USB linux distro).

 dd if=/dev/zero of=/dev/sdX bs=512 count=1

( BE *VERY* CAREFUL NOT TO WIPE YOUR HARD DRIVE'S MBR HERE!!!)

Download ms-sys then install and put another MBR in its place:

 ms-sys -s /dev/sdX

Another way to put MBR in its place is using 'mbr.bin' 512 bytes file from the Syslinux package:

   locate mbr.bin
 cat /somepath/share/syslinux/mbr.bin > /dev/sdX

• Run fdisk on /dev/sdX, so it looks like this:

    Device Boot      Start         End      Blocks   Id  System
/dev/sdX1   *           1        1021      253177    b  W95 FAT32

Use d to delete existing partitions until none remain.
Use n,p,1 to create a new primary partition. Use a to make it bootable.
Use t,b to make it W95 FAT32. Don't forget to hit a to make it bootable!
Use w to save the changes and exit

• Download the dsl-embedded zipfile.
• Create a FAT16 or FAT32 partition on the pendrive:
  

mkfs.vfat -F 32 /dev/sdX1 ("-F 32" will do FAT32; "-F 16" will do FAT16)

• Mount the pendrive & unzip the dsl-embedded.zip file onto this.
• Unmount the pendrive
• Type syslinux -s /dev/sdX1 to make it bootable.
• You can now boot via QEMU (from within Linux or windows), OR as native from the USB drive.
• You can also run DSL from a GRUB bootloader menu on your USB key. This is very useful if you're using DSL as part of a data/system rescue toolkit, as you can include multiple preset configurations of DSL as well as other utilities.

Note: syslinux needs the package "mcopy" included in the package "mtools".
Note: Unfortunately, this method does NOT give a 50MB Linux Distribution because qemu dir
and method is (comparatively) big. You will end up with a 110MB distribution.
Note: The iocharset=utf8 option when mounting the USB stick may result in
the "KNOPPIX/KNOPPIX" not being found upon booting.

Method I: Using GRUB as boot loader

Note: This method has been reported not to work under certain conditions

• Download the current.iso dsl-cd image.
• Create an ext2 partition (=> 51MB) on pendrive. Mount it.

    mke2fs -v -L "DSL" /dev/
   mkdir -p /tmp/pendrive
   mount /dev/ /tmp/pendrive/

where is the corresponding file which represents your USB storage device/partition.

Note: ext3 is ok too.

• Change to the directory where you mounted the ext2 partition, install GRUB boot loader:

    cd /tmp/pendrive/
   grub-install --no-floppy --root-directory=. /dev/

Note: Replace with the corresponding file which represents your USB storage device/partition.
Note 2: This method did not work for me, I used the manual method of running grub and
entered "root (hd1,1)" and "setup (hd1)" (your paths will probably vary).

• Copy the contents of the cd image to the usb drive.

    mkdir /tmp/dsl-cd
   mount [/path_to/]current.iso /tmp/dsl-cd/ -o loop
   cp -vR /tmp/dsl-cd/* /tmp/pendrive/

• While in the same directory - where you mounted the ext2 filesystem - create a menu.lst file for grub in the directory ./boot/grub/menu.lst

   cat > /tmp/pendrive/boot/grub/menu.lst << root="/dev/sda1" lang="us">
    Note: You might have to change (hd0,0) to the correct partition for your USB drive. However,
    the default should work on most systems. 
 Unmount the filesystem. 
 You can now boot from your USB storage device
Method II: Using GRUB as boot loader  
Someone found the above process doesn't work and has documented for others
this working process 
The Situation:  
 Running SLED 10 (Suse) 
 The USB key is a 1GB and appears as /dev/sda 
 Logged in as root 
 The DSL ISO is downloaded to /root/Desktop/dsl-3.3.iso 
 Two partitions, the first to use as general USB storage, the second for DSL 
 The DSL partition wanted to be ext3 so that Windows doesn't mess it up 
 The first partition needs to be the big storage one as Windows doesn't
  like addressing the second partition on flash drives
Here is the procedure:  
 fdisk /dev/sda 
 d - Delete all partitions on the key 
 n - Make a partition 
 p - Primary partition for general storage 
 1 - First partition 
 1 - From the first block 
 948 - Most of the space, about 933MB 
 
 n - Make a partition 
 p - Primary partition for DSL 
 2 - Second partition 
 949 - Start from the next available sector 
 1012 - To the end of the disk.  I give it 64MB 
 
 a - Make the partition bootable 
 2 - Mark the DSL partition bootable 
 
 t - Change the partition type 
 1 - Change partition 1 
 b - Change it to Win95 FAT32 
 
 w - Write the changes 
 
 fdisk -l   - Gives the following output: 
 
        Device    Boot      Start         End      Blocks   Id  System
/dev/sda1               1         948      954131+   b  W95 FAT32
/dev/sda2   *         949        1012       64416   83  Linux
 Your flash drive should now look like this

 mkdir /mnt/iso 
 mkdir /mnt/usb 
 mount -o loop /root/Desktop/dsl-3.3.iso /mnt/iso 
 mke2fs /dev/sda2 
 
Note: If you want to have an ext3 filesystem, add the -j flag: mke2fs -j /dev/sda2 
 
 mount /dev/sda2 /mnt/usb/ 
 cd /mnt/iso 
 tar cvf - . | (cd /mnt/usb; tar xvf - ) 
 mkdir /mnt/usb/boot/grub 
 cp /boot/grub/*stage* /mnt/usb/boot/grub/ 
 cat > /mnt/usb/boot/grub/menu.lst
 
 title Damn Small Linux
root (hd0,1)
kernel /boot/isolinux/linux24 root=/dev/sda1 ro lang=us toram noeject frugal
initrd /boot/isolinux/minirt24.gz
boot
cd /mnt/usb/ 
 grub-install --no-floppy --root-directory=. /dev/sda 
 cd /root 
 umount /mnt/usb 
 umount /mnt/iso 
 rm -r /mnt/iso 
 rm -r /mnt/usb 
 Done! Your DamnSmallLinux on USB is ready. Reboot and try it!!

Wolvix - Another Slackware family

Wolvix is a LiveDistro built from Slackware and the Linux-Live scripts. It's a desktop and multimedia oriented Linux distribution designed to suit the needs of regular to advanced desktop users. Wolvix comes with the Xfce desktop environment and the Fluxbox window manager and includes a carefully selected group of development, graphics, multimedia, network and office applications.

Features:

• Portable: Bring Wolvix along wherever you go on CD or USB media.
• Modular: Customize it by adding additional software modules.
• Compact: Small in size with a comprehensive suite of programs.
• Flexible: It runs from CD and USB, or as Frugal or Full install on a HDD.

The final release of Wolvix Cub and Wolvix Hunter version 1.1.0 has done. Get the ISO's from the download mirrors or from LinuxTracker. You can also support us by purchasing a nicely printed CD of Wolvix Cub or Wolvix Hunter from On-Disk.com.

Download Wolvix Cub: Download Mirrors | LinuxTracker

Download Wolvix Hunter: Download Mirrors | LinuxTracker

Ubuntu On USB Flashdisk

Here the step of USB Flashdisk Ubuntu installation tutorial:

1. Download the Ubuntu ISO and burn it to a CD. You can get it here.
2. Reboot your computer into Ubuntu from the Live CD
3. Insert a 1GB or larger USB flash drive
4. Open a terminal window and type sudo su
5. Type fdisk -l to list available drives/partitions. Note which device is your flash drive (example: /dev/sda) Throughout this tutorial, replace x with your flash drive letter. For example, if your flash drive is sdb, replace x with b.
* type umount /dev/sdx1
* type fdisk /dev/sdx
* type p to show the existing partition and d to delete it
* type p again to show any remaining partitions (if partitions exist, repeat step 3)
* type n to make a new partition
* type p for primary partition
* type 1 to make this the first partition
* hit enter to use the default 1st cylinder
* type +700M to set the partition size
* type a to make this partition active
* type 1 to select partition 1
* type t to change the partition filesystem
* type 6 to select the fat16 file system
* type n to make another new partition
* type p for primary partition
* type 2 to make this the second partition
* hit enter to use the default cylinder
* hit enter again to use the default last cylinder
* type w to write the new partition table

6. Type umount /dev/sdx1 to ensure the 1st partition is unmounted
7. Type mkfs.vfat -F 16 -n usb /dev/sdx1 to format the first partition
8. Type umount /dev/sdx2 to ensure the 2nd partition is unmounted
9. Type mkfs.ext2 -b 4096 -L casper-rw /dev/sdx2 to format the second partition
10. Remove and Re-insert your flash drive
11. Back at the terminal, type sudo apt-get install syslinux mtools
12. Type syslinux -sf /dev/sdx1
13. Download this custom usyslinux.tar file using the archive manager and extract the syslinux.cfg file to your “USB” stick
14. Type cd /cdrom
15. Type cp -rf casper disctree dists install pics pool preseed .disk isolinux/* md5sum.txt README.diskdefines ubuntu.ico casper/vmlinuz casper/initrd.gz install/mt86plus /media/usb/
16. Reboot your computer and set your system BIOS to boot from USB-HDD or USB-ZIP. Also set the boot priority if necessary.

If everything has gone as it should, you should now be able to boot Ubuntu from the USB flash device and it should save your changes, restoring them on boot.

Notes:
If your having trouble getting Ubuntu to boot, your memory stick may have a corrupted mbr. To repair the mbr of your USB device, at the terminal type sudo apt-get install lilo then type lilo -M /dev/sdx (replacing x with the letter of your flash device)

DSL, Damn Small Linux

The author said that DSL was originally developed as an experiment to see how many usable desktop applications can fit inside a 50MB live CD. It was at first just a personal tool/toy. But over time Damn Small Linux grew into a community project with hundreds of development hours put into refinements including a fully automated remote and local application installation system and a very versatile backup and restore system which may be used with any writable media including a hard drive, a floppy drive, or a USB device.

The default Window Manager is fluxbox which is very light and responsive. For users who are used to Beryl, it will look dated. However, the default theme is colorful and isn't distractingly old. The desktop icons were chosen very well chosen and even though you may not have heard of "Siag", you can see that it's a spreadsheet program. In fact, I didn't have any problems at all using any of the alternate, lightweight programs included with Damn Small Linux 3.2.

Here's a rundown of the software you get for 50MB:

* XMMS (mp3, ogg, mpeg, cd audio) and mp321 and ogg123 (that's right, you got Music and Video)
* Firefox 1.0.6
* Vim, an enhanced Vi
* Assorted Xbase utilities (Xcalc etc.)
* ssh, sshd
* betaftpd, a very small FTP daemon
* Sqlite a small and very fast SQL database engine
* Nano, a Pico Clone
* MS Office Viwer
* Postscript Viewer
* AxY FTP
* Telnet client
* Microcom
* Midnight Commander
* Bash Burn, CD Burning App
* Fast and Light GUI Admin tools
* Monkey web server
* VNCviewer
* Rdesktop

There are many more applications available to you, if you so desire to install them via the MyDSL package repository. For most users, the included applications work just fine. You've got a nice document editor for times when you need to write a nicely formatted document for school or work, a pdf viewer, paint program, e-mail reader, spreadsheet - it's all there.

For system configuration, you have the DSL Control Panel where you can Backup and Restore your custom configuration settings, set up printers, cron jobs, floppy disk formatting, PCMCIA tools for laptops, dialup configuration for modem support and even some support for wireless networks. It's not flashy, but it works.

Once you have the system configured the way you want it, you can install it to your hard drive, USB thumb drive or remaster the DSL CD image and burn it to a disk using their text-based cd burning utility.

Again.... Puppy Linux !

Puppy Linux Release 2.17.1 has released!

Another wonderful new Puppy! The 'standard' release is puppy-2.17.1-seamonkey-fulldrivers.iso live-CD and is 82.6MB. There is one thing that stands out from reading the release notes, and that is the major advances with hardware support -- which astounds even me, considering that version 2.16 was released barely 2 months ago. Yes, everything listed below is in that 82.6MB!

Release notes:

• Enhanced dialup: Puppy now has enhanced support for those who have to access the Internet by dialup. Automatic detection and setup of serial and many soft-modems -- quite amazing if you happen to have a compatible soft-modem!
  
• For dialup, there is a new GUI application called PupDial. PupDial is integrated with the new auto-detection to provide extremely simple Internet connection.
  
• Enhanced printing: Finally, Puppy has CUPS! This includes the complete Gutenprint 5.0.0 package so Puppy supports over 500 printers out-of-the-box. Extra Hewlett Packard drivers are available as a PET package.
  
• Print-to-PDF: This is out-of-the-box setup for CUPS, with the 'CUPS-PDF printer' ready to go.
  
• MMC and SD cards: These are now fully automatically supported. You should not have to setup anything.
  
• Boot configuration: The BootManager was introduced in Puppy 2.16 to manage loading of SFS files (application combo-packs). My intention was that the BootManager would be a one-stop-shop for configuring all aspects of bootup, and I have now taken the next step and added management of modules.
  
• Mount image files: One-click mounting of .2fs (a file with ext2 f.s. inside), .3fs (ext3), .sfs (squashfs) and .iso (CD image) files.
  
• Hardware information: PupScan is my GUI application to view PCI and modules information. USB information is now added.
  
• Pmount is a drive mounter. It has been totally revamped for 2.17. As well as an improved display and bugfixes it is also now much faster. Underlying scripts test-eide, test-scsi, probepart and probedisk totally rewritten.
  
• Boot from USB CD/DVD drive: the live-CD will now boot from this, as well as the usual internal CD/DVD drive.
• Boot from floppy disk: Puppy has this for a long time, now WakePup2 (floppy image file) has been greatly enhanced.
  
• ePDFView PDF viewer. This is great, replaces Gsview.
  
• Notecase outliner. I am waxing poetic about this one. Version 0.5.8 has everything I dreamed of in a note-manager/outliner.
  
• The default finance manager application is now HomeBank (v3.2.1).
  
• We have removed Dillo in favour of Gtkmoz for our internal HTML viewer.
  
• The following packages have been upgraded: RutilT v0.15, Pfind v2.2 , Pbackup v2.4.4, Geany 20070626 (now has FreeBasic highlighting), WakePup2, ROX-Filer v2.6.1, puppyserialdetect v1.1g, xkbconfigmanager v1.1 (Dougal), puppybasic v 2.5b (MU).
  
• The Linux kernel has been upgraded to version 2.6.21.5.
  
• Lots of bugfixes (of course).
  

Dialup modem detection and setup
If you have a hardware modem, it should work fine. If you have a soft-modem, which is most modern internal modem cards or on-motherboard modems, then Puppy will auto-detect if it is potentially usable by Puppy. When you start PupDial, there is a message whether a modem was detected or not -- if your modem was detected then it is potentially usable, otherwise it probably isn't. I use the word "potentially" because getting it to actually work can be very difficult with some soft-modems.
Puppy does try to auto-configure, but may not get it right, and so far only a few testers have worked on this -- see my news blog and the forum for success/fail reports so far.
An example of one fail report is an 'mwave' modem in an IBM Thinkpad. Puppy has the driver and all firmware and executables to get this going, and there is a startup script in /etc/init.d, but I don't have the hardware to test it. This is an example where someone is needed to dig in and find out what needs to be fixed for it to work.
When we do get a fix, we can put it permanently into Puppy.
Note, you may get lucky -- I have an ESS modem that worked out-of-the-box. Another person reported the same immediate success with a Trust MD1100 internal modem (these are currently available, so if you're looking for a Linux-compatible PCI modem, this one looks like a goer). Somone else reported that he just had to uncheck the "Check dialtone" checkbox in PupDial and his modem worked.
So, testers wanted, and we'll turn this pup into the best distro for dialup users!

Upgrading from earlier version of Puppy
No problem. If you run Puppy from live-CD, just boot the new CD and Puppy will automatically perform any required upgrading of your personal storage file/partition (usually pup_save.2fs file).
For USB or frugal-hd installations, just copy the latest files (vmlinuz, initrd.gz, pup_217.sfs and zdrv_217.sfs) to the USB or hd boot media.
If you have already tested an earlier experimental, alpha or beta of v2.17, it is extremely important that you get rid of any old pup_217.sfs and zdrv_217.sfs files that may be found alongside the "pup_save" file on the hard drive (in /mnt/home).
I strongly recommend that you boot an old version of Puppy or a different operating system to do this -- or, you can boot the new CD with the boot parameter "puppy pfix=ram". After you have removed these old files, boot Puppy 2.17 live-CD and type the boot parameter "puppy pfix=clean" , so that a proper upgrade of the latest version will occur. If you want to be extra cautious, make a backup of the pup_save.2fs file before upgrading!

Download
If you want to obtain the latest Puppy live-CD, or the "devx" module, that turns Puppy into a complete C/C++ compiler environment, or the patched 2.6.21.5 kernel source, please go to the Puppy download page.
Note, file 'devx_217.sfs' is what we call a SFS module, which is a "combo-pack" of applications in a single file. It can be loaded at bootup and you instantly have all the apps "installed". Or, not load it at bootup and all the apps are immediately "uninstalled". Normally, you just download a SFS file to /mnt/home then reboot Puppy, and it automatically loads.

A note on the kernel source: If you want to compile a module, or a package that needs to reference the kernel source, we have the kernel source available as an SFS file. Download 'devx_217.sfs' and 'kernel-src_217.sfs' to /mnt/home then reboot Puppy and you're in business (that's how simple SFS files are to use, but note you can manage loading of SFS files by running the BootManager (System menu)). Get the official SFS files from here.

Source: Puppy Linux News

Puppy Linux

Puppy Linux is one of small Linux distros. What's different here is that Puppy is extraordinarily small, yet quite full featured. Puppy boots into a 64MB ramdisk, and that's it, the whole caboodle runs in RAM. Unlike live CD distributions that have to keep pulling stuff off the CD, Puppy in its entirety loads into RAM. This means that all applications start in the blink of an eye and respond to user input instantly.
Puppy Linux has the ability to boot off a flash card or any USB memory device, CDROM, Zip disk or LS/120/240 Superdisk, floppy disks, internal hard drive. Even it can use a multisession formatted CD-R/DVD-R to save everything back to the CD/DVD with no hard drive required at all.
You can download it's ISO here.