First Impressions: openSUSE 11.0

Those of you who have ever held any sort of conversation with me have probably heard or have personal experience with my bigotry concerning Linux. I absolutely love Linux, and I make all sorts of excuses for the things it doesn't to as well as Windows and Mac OS to convince people to use Linux. It's just the way I am.

I've been using Linux as my main operating system ever since about 2000, though I did dabble with it a few times before that. I started out with RedHat Linux way back when, and then moved on to Mandrake (now Mandriva) Linux. As time passed, I found out about this particular distribution called "SuSE Linux," which claimed to be able to detect hardware even better than the others I had tried. It even looked really pretty. I began to really want to use this distribution. It got to the point where I almost spent $80 on it, just so I could play around.

Eventually, I got my hands on a free copy by downloading all of the packages from their FTP server or something. I managed to get this installed, and I was even more impressed than I had anticipated. SuSE Linux was amazing. But by this time, I had already become addicted to downloading and trying out any distribution I could get my hands on. That meant that SuSE spent a few days or weeks on my computer before I replaced it with something else.

As I tried more and more distributions of Linux, I began to form opinions about them. I observed what certain distributions did well, and made hard mental notes about what each distribution didn't do so well. It wasn't long before I noticed that basically all of the RPM-based distributions I had tried suffered from two major problems: bloated installation packages and severe system slow-downs as time went on. It seemed that RPM-based distributions always slowed down just as bad as Windows machines. Other types of Linux, such as Slackware, Gentoo, and Debian, didn't seem to suffer from this nearly as bad.

With these opinions in mind, I carefully chose which distributions I elected to actually install with plans for keeping around a long time. It seemed like I would always download the RPM-based distributions, but I would do it "just in case" someone else wanted the CD or DVD. Sometimes I would download the distributions and never even bother to burn the CD image to disc. I would just stuff the image away for future reference.

However, despite my opinions of RPM-based distributions, I did end up installing SUSE Enterprise Linux Desktop/Server and openSUSE a few years ago. Part of it was for a class I had; another part was to find a distribution that would suit the needs of one of my buddies. I noticed several improvements in the distributions as the years passed, but those lingering problems with bloated packages and system slow-downs still plagued each distribution.

Last week, openSUSE 11.0 was finally released. Just like always, I downloaded the CD and DVD images with no plans of actually installing openSUSE anywhere. As the downloads were going, I read some reviews posted by other people. It sounded like this particular release of openSUSE actually addressed the issues of bloat and system slow-downs (finally!!), so that made me happy, but I still didn't quite consider installing it on any of my computers. I did use one of the live CD's at work for a day, though, and it treated me well.

This morning I got the itch to change the distribution I had installed on my main computer. I was going through the list of recent downloads that I had, and it occurred to me that the most recent version I had was openSUSE 11.0. It also occurred to me that it had been at least two years since I had seriously considered installing openSUSE or SLED/SLES on my computer. So I decided that maybe everything I had read was worth looking into on my own and possibly revisiting my biased opinion of RPM-based distributions.

I started the installation early this morning while I took notes and worked from another machine. The installation went very smoothly. Everything was logical and clean. It really was a good experience. The packages really did seem to install considerably faster than any release in the past, so I had high hopes for how the system would perform after installation. After everything was said and done, my computer rebooted into the freshly installed KDE 4.0 desktop of openSUSE 11.0. It looked nice, and it was actually functional--which I cannot honestly say about any other distributions that have a KDE 4.0 remix.

Since up to this morning I hadn't been able to use KDE 4 long enough to figure out what's changed, that's where I started. I explored the new menu, which I have to admit is quite funky, but I guess that's how the industry likes things nowadays. I played around with some of the personal settings that it offers. Things seemed logical enough, but it is quite a change from KDE 3.5, which I've been using for quite a while.

After a couple minutes of tinkering, I noticed a little bubble in the corner that said something about installing some system updates. I clicked it and ran through some sort of wizard, but I guess there were no updates to install. Or maybe I just have super-slow Internet and it was taking forever to download the changes. Whatever the case, I kept on tinkering with some settings while the updater did its thing.

Next thing I know, my screen goes black and flashes a few times. Then all I can see is a white mouse on a black background. That's it. Nothing else. I'm really not sure what the problem was. The settings I was playing with seemed fairly innocent, as I modify those sorts of settings all the time on KDE 3.5. After a few minutes of white-mouse-on-black-screen fun, I decided a reboot might solve the problem.

A couple minutes later, I was presented with my loading screen, followed by the black screen and white mouse. That's it. Nothing else.

Needless to say, despite all of the improvements that I did notice in this release of openSUSE, it left a rather bitter taste in my mouth in other areas. openSUSE is no longer on my computer--it's long been replaced with yet another distribution.

Maybe it's user error. Maybe it's my computer's hardware. Or maybe openSUSE really does suck. Whatever the case, it wouldn't surprise me if I wait another year or two to try out another RPM-based distribution.

Wireless Networking With SuSE Linux Enterprise Desktop 10

Note: This tutorial is a continuation of yesterday's tutorial about installing SuSE Linux Enterprise Desktop 10 on my HP Pavilion dv8000. I may or may not refer to steps that I took during installation, so if you are confused, you might want to check out the previous article.

The process of installing and enabling a wireless adapter will vary greatly from machine to machine. Some lucky folks have wireless adapters that come with official Linux drivers. For the rest of us, we usually have a Broadcom-compatible adapter. In order to use a Broadcom device, I use a program called ndiswrapper, which basically takes the drivers for the devices to function with Windows and wraps them in such a manner that Linux can use. Since I have the 64-bit version of SuSE Linux Enterprise Desktop (SLED) 10, I need to get a 64-bit driver in order for my wireless to function properly. These 64-bit drivers took me a while to get ahold of the first time I got my wireless working (on SuSE Linux 10.1), but I still have them in my archives, so I should be fully prepared to get my wireless working. In this article I assume that you are going to use ndiswrapper to install drivers for a Broadcom device. So let's get started.

Install Ndiswrapper

First, make sure that you have ndiswrapper installed on your system. You can install it by entering YaST. In KDE, click the K menu (the little green chameleon in the bottom left), go to System > YaST (Administrator Settings). You will be asked to enter the root password, which you set during installation. Once you've done that, you will see the YaST Control Center, which is a very powerful set of tools and utilities that greatly ease the configuration and management of SLED. Click on the Software category on the left to show a list of software management options (if it's not already displayed). Click on the Software Management module.

Once loaded, you will see an interface which is very similar to what you would see during the expert package selection while installing SLED. Make sure your Filter (in the top left) is set to Search, and enter ndiswrapper in the search box. The search will return a few different results for ndiswrapper. The first result, ndiswrapper by itself, should be sufficient for most of us. When you check the box by ndiswrapper, you will see a warning informing you that ndiswrapper-based network are not officially supported by Novell. Just click OK to dismiss this warning.

Now you should be ready to install ndiswrapper. Click the Accept button in the bottom right. You will be asked to confirm the installation of ndiswrapper; click Continue. If your installation media is not still inserted, YaST will request the disc which contains the ndiswrapper packages. Insert the disc and click OK. In my case, two packages were installed. It may or may not differ for you.

As soon as the packages are done installing, your configuration settings are saved once again, and you will be asked if you want to install or remove more packages. Click No. At this point, ndiswrapper should be installed on your system, and you may dismiss the YaST Control Center.

Determine Your Wireless Adapter Make/Model

This step is absolutely necessary because if you install the wrong drivers, there is a chance (small as it may be) that your wireless adapter will be damaged. So let's ask Linux how our wireless adapter identifies itself. To do this, log into your SLED and open a Terminal or Konsole. On KDE, you can use the third button (a monitor with a black screen and > on it) on the menu panel at the bottom of the screen, or you can also click the "K" menu (same place as a regular start menu in Windows), go to System > Terminal > Konsole (Terminal Program). I am not exactly sure where this item is located with GNOME, but it might be under the System menu.

Once you have opened a terminal window of some sort, you must switch to a root user environment:

$ su -

You will then be asked for the root password, which you set during installation. Enter that password and type

# lspci

This command lists all of your PCI devices, according to the man pages, but you will see most if not all of your devices, PCI or otherwise, listed here. You'll notice that there is probably quite a list of devices. You may be interested in what your computer has in it, but since you're looking specifically for your wireless adapter, try one of the following commands

lspci | grep Broadcom
lspci | grep Wireless

The | after lspci will pipe the output of lspci to a useful and powerful program called grep. In this case, grep just looks for any lines that contain either the word Broadcom or Wireless. If you don't get any results from either of the two commands above, try to think of other keywords that might be used to identify a wireless adapter. My laptop returns the following:

# lspci | grep Broadcom
06:02.0 Network controller: Broadcom Corporation Dell Wireless 1470 DualBand WLAN (rev 02)

When you find the wireless adapter, pay attention to the numbers in front of it (06:02.0 on my laptop). With those numbers, you can get the information you need to find the right drivers for your particular wireless adapter. Enter the following command, substituting my device numbers with yours:

# lspci -n | grep 06:02.0
06:02.0 Class 0280: 14e4:4319 (rev 02)

This command gives you the wireless adapter's numeric ID; mine is 14e4:4319.

Download Your Device Drivers

Now that you know your device's numeric ID, you can go to the ndiswrapper wiki, which has a list of numeric IDs and the drivers that are known to work with that device. Look for your wireless adapter on the list of devices. I would recommend using your browser's search or find on page function to locate your device by the numeric ID that you just found.

I'll leave the retrieval of your device drivers up to you.

Install The Wireless Drivers

Most device drivers will come in an archive of some sort. Mine came in a RAR file. Extract your drivers to the directory of your choice--maybe something like ~/wireless. You can use the archive utility provided by SLED to extract your files. It functions very similar to WinZip, WinRAR, and other popular archive clients. By the way, the ~ in a directory listing refers to the current user's home directory (/home/user, for example).

Now, go back to the root terminal that you used to determine what kind of adapter you have. Navigate to the directory where you extracted your drivers and list the contents of the directory, looking for any *.inf files:

# cd ~/wireless
# ls

Ndiswrapper will use an INF file to know how it is supposed to install the driver. My INF file is called bcmwl5.inf. Now for the actual installation of the drivers:

# ndiswrapper -i bcmwl5.inf
Installing bcmwl5
Forcing parameter IBSSGMode|0 to IBSSGMode|2

Now check to make sure that the driver is there and that it recognizes your hardware:

# ndiswrapper -l
Installed drivers:
nbcmwl5          driver installed

Ooops!!! It doesn't recognize that my hardware is actually there. If you see 'driver installed, hardware present' then you should be good to go. You may proceed to the next step. However, if you have the same problem as me, you either have the wrong drivers or ndiswrapper installed the drivers improperly. This problem took forever to track down when I was first trying to get my wireless to work. Remember the numeric ID that you found earlier? Check this out:

# cd /etc/ndiswrapper/bcmwl5
# ls
14E4:4318.5.conf  bcmwl5.inf  bcmwl564.sys

Wait a second! Remember how my numeric ID was 14E4:4319? Why is there a listing for 14E4:4318.5? To solve this problem, I am just going to make a symlink (a shortcut) to 14E4:4318.5.conf and call it 14E4:4319.5.conf:

# ln -s 14E4:4318.5.conf 14E4:4319.5.conf

Now when I run the command to see if my hardware is recognized, I get this:

# ndiswrapper -l
Installed drivers:
bcmwl5          driver installed, hardware present

Hurray!! It says 'hardware present' in there!!! That means that the drivers are working and that my device can be used!

Enable Your Wireless Device

With ndiswrapper recognizing your wireless adapter, you can now enable it and start wirelessing your life away:

# modprobe ndiswrapper

There have been times when this particular step will lock up my machine and I have to do a hard reset, but most times it will work fine.

Connect to a Wireless Network

This part also gave me issues for a long time when I first installed my wireless drivers on SuSE Linux 10.1. I was able to connect to the wireless access points provided by my apartment complex, but I could not for the life of me connect to my own wireless router. Hopefully you don't encounter the same problem.

To see what access points you have available to you, check out the KNetworkManager applet in your system tray (next to the clock). I have 7 possible access points listed in the menu, including my encrypted router. When I clicked on my network, it asked me for my passphrase and connected immediately. Nice! That's definitely one plus for SLED over SuSE Linux 10.1!!

I am actually amazed at how easy it was to get my wireless working the second time around. Hopefully your wireless adapter installation was as painless as mine with the help of this guide.

Installing SuSE Linux Enterprise Desktop 10

This will be the second time for me putting SLED 10 on my laptop, but I've also put SLES 10, SuSE Linux 10.1, and various others on this laptop several times before. It _has_ been a few months since I last installed Linux on this laptop, so we'll see how well I remember how to do it. I will be installing the 64-bit DVD version, so as to take better advantage of the 64-bit capabilities of my processor. This shouldn't have a drastic effect on the overall procedure, compared to that of installing the 32-bit CD/DVD version.

Here are some specs of my laptop:

  • Make/Model: HP Pavilion dv8000
  • CPU: AMD Turion 64 ML-40 (2.2Ghz)
  • RAM: 1.25GB PC2700 DDR333 SODIMM
  • HDD: 5400RPM 80GB
  • Video: ATI Radeon Xpress 200M (128MB dedicated RAM, up to an additional 128MB shared RAM)

Note: I make a few assumptions in the writing of this article. One is that you are on a machine running Windows XP. If your computer can't handle Windows XP, you probably don't want to be running SLED 10. Another assumption is that you don't yet have your hard drive partitioned into more than one partition. I also assume that you already have the installation media in good working condition. For those of you in the BYU-I Linux Users Group (LUG), I am willing to make copies of the discs if you provide the media or discuss some sort of compensation if you want me to provide the media.

BACKUP ALL IMPORTANT DATA BEFORE PROCEEDING

We all hate losing the projects that we've slaved over for weeks and months. Take the proper precautions to backup anything you wouldn't like to lose before installing any flavor of Linux. That's not to say that you will lose everything, but it's not unheard of to wipe out all data from your drive while attempting to install Linux. With that warning out of the way, let's get started!!!

Defragment Your Hard Drive

If you have a secondary drive which you plan to dedicate to Linux, this step is not necessary. However, if you plan to install Linux on the same drive as your Windows installation, I would suggest defragmenting your drive prior to repartitioning your drive. In order to defragment your hard drive in Windows XP, open your Start menu and open the Control Panel. Once here, descend into Administrative Tools and run Computer Management. This utility is quite handy. On the left side of the Computer Management window, you should see a tree of options. Under Storage you will see the Disk Defragmenter. Simply click the Defragment button, and the program will begin optimizing your files. Defragmenting your hard drive basically puts each of your files into one piece instead of scattered across the drive (as they tend to be written). Defragmentation is a good process to run on a regular basis. Once again, this step is not necessary to the installation of Linux, but it is a good practice.

Begin The Installation

Once you're done backing up your files and defragmenting your hard drive, insert the first SuSE Linux Enterprise Desktop 10 CD/DVD into your CD/DVD drive and reboot your computer. You should be presented with a fancy blue welcome screen, but if you see the Windows boot screen, you'll have to change the settings in your BIOS to enable you to boot from your CD/DVD drive. That process will vary from machine to machine, so I won't even try to explain how to do it. Once you see the welcome screen, you are presented with several boot options:

  • Boot from Hard Disk
  • Installation
  • Installation--ACPI Disabled
  • Installation--Local APIC Disabled
  • Installation--Safe Settings
  • Rescue System
  • Memory Test

We're going to go with the first Installation option. In my experience, starting with SuSE Linux 10.1, I haven't had any issues at all getting Linux installed. Most people shouldn't have problems booting into the installation program, but if you do, try the other Installation options. Once we begin the installation process, the bootloader will load the Linux kernel into memory and begin booting the SuSE Linux Enterprise Desktop installation utility. It will probe several devices to make the installation usable, after which you are presented with a language selection menu. Choose the language of your preference. Next you will be asked to accept the License Agreement, which I would recommend reading (with any product, not just SLED). If you accept, check the "Yes, I Agree to the License Agreement" option box and hit "Next." If you don't accept the agreement, this is the end of the road--your installation process will end.

Once we accept the License Agreement, a few more devices are probed and we're asked what kind of installation we'll be doing. With the assumptions I've made for this tutorial, we will proceed with a New Installation. If you have the "extras" CD, you can check the "Include Add-On Products from Separate Media" checkbox. You'll then be asked to insert the disc so that a catalog of available applications can be made. However, I'll assume that we all just have the required media. Click "Next" to create a catalog of the software available.

Now we're presented with a Clock and Time Zone screen. Choose the appropriate options for your situation and click next.

Installation Settings

Once we have set our clock and time zone, we are shown an overview of the current installation settings. I personally prefer to see all of the details, so I am going to click on the Expert tab. I don't like the predefined partitioning scheme, so I am going to change that.

Partition Your Drive

Partitioning a hard drive basically allows you to split up that brand new 500GB SATA-II drive you bought into smaller "virtual hard drives." I like to partition my hard drive because it allows me to manage my files easier, and I don't have to worry about losing ALL of my data if one of the partitions needs to be reformatted. Each partition can have a different file system on it, which allows us to run a Windows file system (NTFS) and a linux file system (ext2/3 and reiserfs are the two main ones, at least for workstations) on the same physical hard drive.

This is the first time I will entrust all of the data on my hard drive to a Linux installation partitioning utility in a very long time. We're talking about 7 years... However, for the sake of others, I am willing to put it to the test to see if SuSE will not wipe my drive when I try to resize the Windows partition. I usually use a utility such as Partition Magic to resize and create new partitions.

To change my partitioning scheme, I click on the "Partitioning" subtitle on the Expert tab in the Installation Settings section. I want to base my partition setup on the default proposal, so I select the second option "Base Partition Setup on This Proposal" and hit next. This part could be a bit hairy if you've never partitioned a drive before. I want to be able to share files between Windows and Linux, so I am going to create a small ~20GB partition which I will format to be FAT32, a format readable and writable in both Windows and Linux.

First, I must resize my Linux partitions. I don't need my home partition to be 22GB, so I'm going to resize that one to be 5GB. To do that, I select the partition with /home listed as it's Mount point and click the "Resize" button at the bottom of the screen. The window that appears shows a graphical representation of the changes we make. All I need do is enter "5" into the "Space Free (GB)" box or move the slider to the right spot and click "OK". Now I'm left with 17GB to share between Windows and Linux. To create this new partition, I click on the "Create" button at the bottom.

The new partition window asks me what type of format I wish to have on the new partition--I want to select FAT. I want to have this partition listed in a place that makes sense to me, so I'm going to change the "Mount Point" field to /windows/share and click OK. I think I'm now satisfied with the partitioning scheme, so I click "Finish" to return back to the Installation Settings screen.

Partitioning Pointers

Let me share some pointers for partitioning schemes. Traditional Linux installations would ask for a partition twice as big as the amount of RAM you have in your machine. This is for the swap, which is synonymous with virtual memory in Windows lingo. That means that if you have 512MB of RAM, your swap partition should be at least 1024MB (1GB). Likewise, if you have 1GB of RAM, your swap partition should be at least 2048MB (2GB). In my opinion, the average Linux desktop does not require more than 512MB for a swap partition. I may be mistaken, but I think the "double your RAM" rule became somewhat obsolete for desktop workstations with the advent of 2Ghz+ processors with 1GB+ of RAM. It could just be me, but I've never even filled 256MB of swap. Just something to consider while partitioning your drive.

If you plan on experimenting with several distros of Linux without wiping other installations of Linux, I would recommend a partition dedicated to your /home folder. This way, you are able to keep your personal settings across most if not all distros. I've found it useful on countless occasions.

Software Selection

One thing I really like about SLED is the ease of package selection. Their default package selection will suit most people just fine. However, I have developed my own tastes for how I like my Linux, so I am going to customize the package selection a bit. To do that, I click on the "Software" heading in the Expert tab of Installation Settings.

I personally prefer KDE to GNOME as my window manager. So I am going to deselect GNOME from the Desktops category, but not so the "Do Not Enter" symbol shows up where there once was a check. I want to click the checkbox until I see a white box (no checkmark). I'm not sure if this is required, but usually different environments will require libraries from other environments in order for certain programs to run. I suspect that the Do Not Enter sign means that nothing for GNOME will be installed, but this is not fact--it's simply a notion of mine. Now I want to put a check in the checkbox next to KDE. Being a nerd, I want to have my compilers around, so I will also select that option.

According to the disk usage graphs in the bottom right of the screen, I'm only going to be installing about 1.9GB of software. That's interesting because I downloaded a whole DVD... If anyone wants to see what other software is available, you can click the Details button below the software category list. This might scare a few off, but it's all quite simple. If you want to see more categories to choose from, select "Package Groups" from the Filter list in the top left. This is where you can explore all of your software options available on your installation media. I am going to leave that sort of customization until after I'm all installed and running.

Once you're done selecting the packages you wish to have installed, click Accept from the bottom right. You will probably encounter a few more license agreements at this point. These are for non-open-source applications (Adobe Acrobat Reader, Macromedia Flash plug-in, etc) included with SLED. I recommend reading and accepting each license agreement. Now I am presented with the same Expert tab in the Installation Settings stage. Now we're ready to proceed, so click Accept in the bottom right again. We're asked to confirm that we want to install Linux, with a warning that certain parts of your hard drive will be formatted, thus erasing any data that were there before. If you're ready, click Install, sit back, and enjoy.

Installing Everything

At this point your partitions will be resized/formatted and the appropriate files will be installed. This process can take anywhere from 20 minutes to 2 hours or more, depending on the packages you selected and the speed of your system. You might be interested in seeing what exactly is being installed on your system at this point. If so, you can click the Details tab and see each package being installed. Apparently I chose some other packages along the way or something, because now it says that I'm installing about 2.5GB of software and that this segment should take about 30 minutes.

Once all of the files are copied, the installation settings will be saved to the hard drive and your system will reboot for the first time in your brand new SLED. At this point, you shouldn't remove your installation media, as it is required in the following steps.

The Initial Boot And Final Settings

When we boot up our SLED for the first time after installation, we are asked to provide a hostname to identify our machine on the network. When you have set the hostname and domain name as you want them, click next. Now we're asked to set the root password. Make sure this password is one that you'll not forget, but at the same time make sure that it's not easy to guess. If someone gets root access to your machine, there's no end to what they can do.

Network Configuration

This is another section that is mostly correct, but a few settings are not the way I would like them to be. For example, my ssh port is listed as disabled under the Firewall heading. To enable it, just click the word "blocked"--it will change to "open". The rest of the settings look fine for now. If you have any customizations to be made, go ahead and make them. I'll wait.

When we're ready to move on, click next. At this point, our network configuration is saved. Next we're asked if we wish to try out our Internet connection. Do as you please. I usually skip this step, but for your sake, I will try out my connection. When we test, it tries to download the latest changelogs. If your connection works, you will see "Success" in the Result field. Click next.

User Authentication Method

Most home users won't have their own LDAP server or Windows Domain setup, so I won't go into how these are to be set up. Let's just go with Local authentication for now, the default option. Click next.

New Local User

This is when we create our very own user account. This set is essential. DO NOT EVER RUN EVERYDAY APPLICATIONS AS ROOT. There are serious security implications involved if you choose to login and perform your daily tasks as the root, or all-powerful administrator, user in Linux. It's much easier to just create an "unprivileged" user and do your regular business with that account. Only login as root when you need to perform system maintenance or install something. When you're done with those tasks, logout of the root environment immediately. Trust me.

Anyway, back to our installation. Go ahead and create your user. You may or may not want to check the checkbox to receive system mail. System mail includes certain security breaches on most distributions. If you don't wish to have to enter your password in order to use your computer, click the automatic login checkbox. If you wish to add more than one user at this time, you can click on the User Management button. The process is pretty much the same as it is to add the first unprivileged user. Click next when you're ready to proceed.

Now our system configuration is saved again (this seems to happen all the time in SuSE... it gets rather annoying in my opinion). After our settings are saved, we are presented with the release notes (which may have been more useful had they been displayed during the file copy process, but whatever). Read them if you wish. Click next when you're ready to proceed.

Hardware Configuration

Now this is one of the selling points for me with SuSE. I have a 17" widescreen (1680x1050 max resolution) for my laptop. There weren't many distros for a while that could handle the resolution out of the box. Fedora Core 5 was the first that I tried that handled it without any manual configuration, and SuSE was the second. I'm pretty happy with the configuration listed here, so click next when you are too. Once again, the settings will be saved (seems like saving settings in SuSE is as bad as rebooting in Windows...).

If you have several similar machines, you can save your installation configuration by checking the "Clone This System for Autoyast" checkbox. If you choose this, the system will determine what settings exactly were used for installation and create a file somewhere that you can use in later installations. When this is done, or when you click finish if you don't want to clone, a login screen will appear.

First Login

When you see this login screen, enter the username and password that you created for the unprivileged user. You'll see a fancy loading screen while your profile is being created for the first time.

Now, you may or may not have noticed, but I wrote this article as I installed SLED. I want to watch a movie now, so subsequent configuration (wireless, 3D acceleration, etc) will take place later. I hope this is good enough for the time being.