OSS/Linux Sound Driver
So for $20 you get a single machine license for a sound driver that is compatible with the one in the Linux kernel, a play command for playing sound files and the soundon and soundoff scripts for loading and unloading the driver. Included are two years of technical support and five years of software upgrades. Documentation is essentially some README files covering installation, but more information, including the sound application programming interface, is available on the vendor's web site.
What advantages does OSS/Linux have over the free sound driver in the kernel? Technical support is one advantage which may be important to you if you are using the Linux sound driver in a commercial setting. The package does appear to be easier to install and configure, automatically detecting the card settings in most cases. It also offers support for a few more sound cards (e.g., the SoundBlaster AWE32) and has better Plug-and-Play support than the free driver. It seems to be fully compatible with any applications written for OSS/Free.
On the negative side, there is a cost involved, albeit a small one compared to most commercial software. Of more concern is the fact that you don't get the source code. This means that you can't fix bugs or modify or enhance the code yourself. It also makes the software more sensitive to different kernel versions. You may have to periodically download a new sound driver from the vendor's web site when you upgrade your kernel, although a “wrapper” program called sndshield that you can compile is provided to help get around these problems most of the time.
When using the free kernel driver, I like the fact that it can be automatically loaded and unloaded on demand using kerneld. The OSS/Linux driver, while it uses modules, unfortunately doesn't seem to support this. Having to log in as root and run a command to load the driver is cumbersome, although most users would probably know enough to put it in a system startup script like rc.local.
The package doesn't come with any value-added sound applications (except a simple “play” program). The sound driver on its own isn't very useful. If it was to come bundled with some of the existing Linux sound applications, less experienced users could make better use of the driver right away. The way to package the product, in my opinion, would be as a CD-ROM that came with a number of sound applications, sound files, and programming documents, precompiled for Linux systems. This would turn it into a more useful product, especially for beginners.
If your sound card works fine with the free driver in the kernel and you aren't interested in SoftOSS, then you probably won't see this product as adding much value.
If you've fought unsuccessfully to get your sound card to work under Linux, particularly if it's a Plug-and-Play model, then you should give this product a try. You can get a free trial copy and it's well worth the cost. If you have a non-wavetable sound card and are intrigued by SoftOSS, then you may also be interested in this product.
Finally, the OSS product is also offered for a number of other Unix-compatible systems. For years Unix systems have had no clear standard for sound programming. 4Front Technologies is hoping that the OSS API will become a de facto standard for Unix systems. If successful, this will be an ironic example of the tail wagging the dog—Unix systems striving to be compatible with Linux. It also means that sound applications written for Linux will have the opportunity to run on a wider variety of Unix platforms, expanding their scope.
Jeff Tranter has been using and writing about Linux for about four and a half years. He's the author of the Linux Sound and CD-ROM HOWTO documents, and the book “Linux Multimedia Guide” published by O'Reilly and Associates. When not playing with computers, he enjoys ham radio, playing guitar and cross-country skiing. He can be reached via e-mail at email@example.com
Practical Task Scheduling Deployment
July 20, 2016 12:00 pm CDT
One of the best things about the UNIX environment (aside from being stable and efficient) is the vast array of software tools available to help you do your job. Traditionally, a UNIX tool does only one thing, but does that one thing very well. For example, grep is very easy to use and can search vast amounts of data quickly. The find tool can find a particular file or files based on all kinds of criteria. It's pretty easy to string these tools together to build even more powerful tools, such as a tool that finds all of the .log files in the /home directory and searches each one for a particular entry. This erector-set mentality allows UNIX system administrators to seem to always have the right tool for the job.
Cron traditionally has been considered another such a tool for job scheduling, but is it enough? This webinar considers that very question. The first part builds on a previous Geek Guide, Beyond Cron, and briefly describes how to know when it might be time to consider upgrading your job scheduling infrastructure. The second part presents an actual planning and implementation framework.
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With all the industry talk about the benefits of Linux on Power and all the performance advantages offered by its open architecture, you may be considering a move in that direction. If you are thinking about analytics, big data and cloud computing, you would be right to evaluate Power. The idea of using commodity x86 hardware and replacing it every three years is an outdated cost model. It doesn’t consider the total cost of ownership, and it doesn’t consider the advantage of real processing power, high-availability and multithreading like a demon.
This ebook takes a look at some of the practical applications of the Linux on Power platform and ways you might bring all the performance power of this open architecture to bear for your organization. There are no smoke and mirrors here—just hard, cold, empirical evidence provided by independent sources. I also consider some innovative ways Linux on Power will be used in the future.Get the Guide