Yet another additional forward, added 10/22/1999: One of the things we've found about using glibc is that the system has a higher memory requirement, especially during the installation process where a ramdisk must be loaded. We've now found that 16MB is the minimum for an easy install. If you have less that that, you can probably still install ZipSlack or BigSlack (the .zip based versions of Slackware for installation on a FAT32 partition) along with the fourmeg.zip add-on for low-memory systems. It's also possible that by borrowing some extra RAM long enough to do a conventional installation (including a good sized chunk of swap space) that the installed system will still boot and run once the extra RAM is removed. Sorry about the inconvenience, but as time marches on, it has a way of leaving old hardware behind... Pat ---------------------------------------------------------------------------- Additional forward (warning/disclaimer) added Sat Apr 11 00:19:57 CDT 1998: Well, I've been told that many (most?) machines with 4 megabytes of RAM choke trying to boot the smallest Slackware bootdisk (bare.i). If that's the case, it's probably time for installation to machines with less than 8 megabytes to become officially unsupported. It *might* still be possible, though, and I'm not against people continuing to try. That's why I'll continue to include this file of hints, as well as the old, obsolete 1.44 megabyte rootdisk images (now in rootdsks/obsolete/). Just don't ask me how to install on your 4 megabyte machine, because I'll tell you: "OK, well first you need to get some more SIMMs..." NOTE: A "lowmem.i" bootdisk has been added that saves even more memory than bare.i at the expense of some features. So, people with low memory machines have one more option to try. ---------------------------------------------------------------------------- Installation can be tricky on a machine with 4 megabytes of RAM or less. Here are a few tricks that can be helpful if you run into problems. (Symptoms might include: system hangs while booting the bootdisk; root password required on the rootdisk; inability to run "fdisk" or "mkswap"; and many more, I'm sure...) First, you'll need to use a 3.5" floppy for the rootdisk, and you *must* uncompress the rootdisk before writing it out. This is since it will be used directly from the floppy drive instead of loaded into a ramdisk. 1. If you have a second 3.5" floppy drive, great -- you'll want to use that for the rootdisk. If not, you'll have to make due with the rootdisk in your boot drive. With the rootdisk in the boot drive you won't be able to install from floppy disks or make a bootdisk at the end of the installation process, since the disk will be "mounted" in the boot drive and cannot be removed (no matter what the screen tells you) until the machine is rebooted. Make a rootdisk using RAWRITE.EXE for the floppy drive you selected. 2. Unzip lodlin16.zip (look in /kernels) in a directory on your DOS partition. 3. Select an appropriate kernel from a subdirectory under /kernels. The /bootdsks.144/WHICH.ONE document might be helpful in selecting the proper one for your hardware. Copy it into the directory where you put loadlin. 4. Put the rootdisk (NOT write protected) into the floppy drive, and use this command to boot it: loadlin scsi.s root=/dev/fd0 rw ramdisk=0 ^^^^^^ ^^^^^^^^ |||||| This should be the drive you put the disk in. This is the name of the kernel you selected. Then, install Linux. If you're using the boot floppy drive for the rootdisk, you will not be able to install from floppy disks. DON'T take the rootdisk out of the floppy drive for any reason during the installation! Also, since scratch files may be written to the rootdisk, you'll want to start with a fresh copy if you need to start over for some reason. NOTE: Installation can take a lot of swap space (especially with only 4 MB of RAM), so be sure to set some up and activate it before starting "setup". In particular, the mke2fs utility used to format Linux partitions uses quite a bit of memory. If you've got the drive space available, 20 to 32MB of swap will help insure a smooth installation. Once installed, you'll need to have a way to start your new system. If you were lucky enough to have a second floppy drive to use for your rootdisk, then you'll be able to make a bootdisk at the end of the installation process. This is highly recommended. If your boot drive is occupied by the rootdisk, then you've got two options: Loadlin (a method of booting from DOS) or LILO. And, if you're using the UMSDOS filesystem then Loadlin is your only choice. To boot the system with loadlin, you'll use a command similar to the one you used to start the rootdisk, but you'll replace /dev/fd0 or /dev/fd1 with the name of the device you're using for your root Linux partition, like this: loadlin scsi root=/dev/hda2 rw ramdisk=0 If you're not using UMSDOS, you might want to boot the system in read-only mode so that the drives can be checked before being remounted in read-write mode. To do that, use "ro" instead of "rw": loadlin scsi root=/dev/hda2 ro ramdisk=0 Once your machine is up and running, you'll probably need to add additional driver support if you have extra hardware (such as an ethernet card) that's not supported by the kernel you've used to install. You can do this one of two ways: 1) Recompile your kernel to include any additional support needed. or 2) Load any extra kernel drivers you need from kernel modules. To do this, edit your /etc/rc.d/rc.modules file. You can think of this file as sort of the Linux equivalent of DOS's CONFIG.SYS file -- it contains examples for all of the most commonly used modules. Pat