Well, you don't want to drown out your nice sound do you?
There are several different approaches to keeping your system quiet and cool, so we'll look at them all in depth.
Isolate noisy machine(s)
One of the easiest ways to keep your Myth system quiet is to (basically) throw it in the cupboard — don't worry, this isn't as drastic as it sounds. As your probably know, MythTV (like most bits and bobs of Linux) is highly network aware, and will allow you to run a separate backend and frontend. All of the noisy hot stuff, such as TV cards, hard drives, and Terahertz Athlons can be thrown into the backend and kept under the stairs; you can install a low-powered small machine under the TV. All of the control can be done from the frontend, which will just request TV streams from the backend over the network. The downside of this of course is that you need to be able to afford two separate machines, although it will make expandability much easier further down the road.
Viewing high-definition recordings requires much more processing power; decoding a 1920x1080 MPEG2 is much more intensive than viewing a 400x480 SD video of any format. It is thus more difficult to quiet a high-def frontend when you likely need a CPU over 2 GHz and/or a hardware video accelerator (IDCT via XvMC).
There is however an alternative for the cupboard approach. Several CAT5 KVM extenders exist on the market. Such a device extends your VGA, mouse, and keyboard cables using CAT5 network cable. You can extend up to 30 meters. One setup in use includes two Aten CE220 KVM extenders to extend my Dual Head development box from the hallway closet into the living room. This setup now has only two LCD screens, a mouse, and a keyboard sitting in the living room generating zero noise. It also includes an SPDIF cable running from the living room amplifier and a cinch TV-out cable to the TV-set.
If you're using an Athlon XP processor and your kernel is ACPI-enabled, you can use the Athcool utility (packaged for Debian), which works on all current chipsets, and will often drastically reduce your CPU's operating temperature. Unfortunate side effects can include crackly audio and slow hard disc transfers — YMMV. Some people say that these side effects have been eradicated or highly reduced under the 2.6 series of kernels — I suggest you try it out and see for yourself! A more verbose guide on Athlon powersaving mode is here
Even if you can't avoid having your quad 30GHz Xeon Myth array sitting under the TV, there are still many ways you can reduce the amount of noise today's computers like to kick out. There are many specialist computing companies out there specializing in quiet hardware for use in HTPC environments, and I'll list a few of the products you might want to splash out on:
Fan-mates, or variable resistors to you and me, alter the voltage supplied to your fans. Normal fans runs at 12V, but by lowering the voltage to 7V you will get lower RPM's and thus quieter fans. Air throughput is reduced however.
Fan adapters allow you to replace a high-RPM 60mm fan with an 80mm fan, which can be run at a lower voltage and still shift the same amount of air. By nature of their construction, these are best suited to replacing the 60mm fans on top of stock CPU heatsinks.
Get some bigger fans! This will often involve drilling some holes in your shiny computer case, and so isn't for the faint of heart. The basic principle is if you want to shift X amount of air in Y seconds, a bigger fan can do it at a lower RPM and thus will run quieter. Lots of modern HTPC cases opt for a few large fans rather than an array of smaller fans.
Quiet and/or adaptive power supplies can also help reduce noise by a considerable degree. There are some (highly expensive) power supplies that don't use any fans at all, and just use a huge heatsink for cooling themselves, and thus run totally silent. However, they don't do much for the cooling of your case! A better solution I believe are power supplies like the Tru Power range made by Antec. These dual-fan PSU's contain temperature sensors which raise or lower the RPM of the fans depending on how hot your system is. Many also provide "fan only" molex connectors to attach your case fans to; these are also linked to the thermal sensor, and will run your case fans at a reduced voltage unless your system gets too hot.
Stealth fans are fans especially designed to run quietly, and usually come at a considerable price premium over normal fans. Brand names include SilenX and Pabst (most fan manufacturers also have their own quiet fans sub-brand as well), and will usually run at much less than 20dB on standard 12V. Many of these fans have magnetic levitation bearings instead of roller bearings, and the lack of physical contact reduces noise *quite* a bit — you'd be amazed how much noise is transmitted by physical conduction.
Passive Northbridge heatsinks allow you to replace those pesky little 40mm fans on your motherboards northbridge with a solid chunk of aluminium. Be warned though that these can cause older northbridges to overheat if there is inadequate airflow in your case! Those of you lucky enough to be using Athlon64 or Opteron systems need not worry about this, because all of the hot bits that used to be in the northbridge have now been moved to the processor. Zalman has a range of northbridge heatsinks, but check they can be fitted to your motherboard first. Some motherboards, such as the ASUS A8N-SLI are designed to use heat pipes to remove heat from the northbridge and dissipate it through larger heatsinks that can be located in a less confined region of the motherboard.
Using a quiet heatsink on your CPU will also save your eardrums. This can be as simple as replacing the 60mm fan on a stock heatsink with an 80mm fan by way of a fan adapter as detailed above, or you can splurge on one of the excellent, quiet heatsinks from manufacturers such as Zalman. A cool Zalman solution is here. There are also fanless options available for completely eliminating the need for a separate fan on your CPU. For instance, the HR-01 from Thermalright.
Use a cooler processor! Several years back, CPUs kicked out a helluva lot of heat and caused systems to become uncomfortably hot. More recently, AMD and Intel have realized the error of their ways, and modern processors are faster than ever, but without generating enough heat to melt your case. Assuming you're using a hardware capture device (either a DVB card or one of the TV cards supported by ivtv) and a reasonably good graphics card, one of the good things about Myth is that 90% of the common functions don't require a powerful CPU at all, so you can often pick and choose the CPU that runs at the lowest power and heat output.
If you are building a new system, the least expensive processor you can find will be able to handle standard-definition video without any problem at all. Even cheap processors can handle high-definition video with only XVideo support from the video processor.
If you are using the previous generation of processors, Athlon XPs are a good bet, especially if you can find one with a Barton or Thoroughbred B core. Even better is the 65nm Athlon 64 (known as "Lima"). The "Lima" is rated at 45 watts, and usually uses much less power. The older (2.8GHz and below) Pentium 4 Northwoods are also powerful and run reasonably cool. I have difficulty recommending the P4 Prescott chips; they run very hot indeed and (clock for clock) are slower than the Northwood variants. Again, I have difficulty recommending Celerons and Durons but that's mainly due to ignorance on my part — other people will be able to fill you in on those. If you don't intend to buy a new CPU and instead want to recycle anything you have lying around, pretty much anything from a P3 upwards will do you proud.
The only areas of MythTV that benefit from having powerful CPUs are MythMusic visualizations, CD ripping, transcoding, DVD ripping, and high-definition playback. If you're using software capture from a bttv card, you may also want a powerful processor.
Low power computing
Those of you who know about overclocking may well want to experiment with underclocking and undervolting. This involves reducing the voltage supplied to the CPU core and reducing it's clock speed, resulting in a slower but much cooler CPU. I have read somewhere that Athlon64 chips seem to be exceptionally good at being undervolted — some people have reportedly run their Athlon64's stably at default clock speeds whilst using a much lower voltage, ending up with a CPU that's just as powerful but runs much cooler.
Those of you who are even more adventurous might want to try out specialist chips such as the Athlon XP-M and the P4-M. Originally designed to run in laptops, these CPUs run at a lower voltage but the same speed as their desktop equivalents. Beware however that most motherboards do not support these chips, so make sure you know your options before you splurge.
Vibration from wobbly components can often cause irritating buzzing noises. Regularly give your fans a clean by blasting them with compressed air (be careful as you can overspeed smaller fans), and if vibration seems to be a problem you can dampen your fans by placing rubber or silicone washers between the fan and the mounting. Other moving components (such as hard drives and optical drives) should be secured mechanically well. You could consider mounting your drives in a dampening cage or using anti-vibration grommets. Antec uses the latter to great effect. I'm personally a big fan of the Cooler Master 620's spring-clip mechanism of mounting optical drives; these are screwed in on one side, and are forced into a good fit by a spring clip on the other side.
Related to vibration are stupidly fast optical drives running at 16x or 52x or something similarly daft. To watch DVDs and play CDs, you shouldn't need a drive faster than 1x DVD or 1xCD respectively. The DVD and CD specifications are written such that a DVD should playback video or video perfectly well at the drives lowest available speed, YMMV.
As of this edit there are no optical drives on the market that are specifically advertised as being quiet or having quietness as a feature. Some drives have "quiet" firmware/utilities available which will limit the speed to a more reasonable and less deafening level. Since almost all drives require that their firmware be upgraded using Windows or DOS you may run into difficulty attempting this method with a Linux based computer running MythTV. You do have the option of putting a drive into a Windows based computer, applying the firmware alteration, and then putting it back in your Linux based computer (a variation on this theme is to always have a FreeDOS bootable partition). If you have the choice between an 8x DVD drive and a 16x DVD drive, choose the slower (8x) one. The only place MythTV needs fast disc access is when ripping a CD or DVD. You may also want to experiment with hdparm, setcd or speedcontrol; All claim to be able to reduce the maximum speed of optical drives. setcd may require a patch to work with newer drives, see debian bug 367008. SPCR has a forum thread on the subject. But there appears to be no definitive study of the comparative quietness of DVD/CD drives.
Keeping all those cables tidy can do wonders for airflow within your case, and do away with the need for more stupidly fast fans. You can use rounded IDE cables rather than the usual fat ribbons, or SATA if it's available to you, and you can tie bundles of power cables together using zip ties, braiding or spiral wrap (my personal favourite, since it's easy to apply and remove).
Don't forget The Art of Cable Folding for those with tight wallets. Properly folded cables can be better than rounded IDE cables.
Last but not least, you can also attempt to soundproof your case with acoustic material. This is essentially sticky-backed foam that does a lot to absorb noise from inside the case, although you'll need a case with enough free space inside to accommodate its thickness. I've never tried this myself, but a lot of people swear by it. Lian Li and Zalman make some very pretty (and pretty expensive) cases fitted with this sort of anti-noise technology as standard, so those of you with bigger wallets than myself who want a big, quiet case might want to consider splashing out on those.
And, even more finally (:-), you can uncouple the case mechanically from whatever is underneath it, or whatever it's underneath. Conducted noise which is then radiated by something else is a major component of the noise which a PC can put out — which explains the rubber mounts you can get for hard drives. They're good for noise, but bad for thermal conduction. (You do have a fan blowing directly on your hard drives, right?) Standing the chassis on a piece of carpet, or even better, underlay will cut down on transmitted noise through the floorboards, plasterboard etc.
That'll about do it for now, hope you enjoyed the update ;)
For lots of information on keeping your HTPC (and PCs in general) quiet the website Silent PC Review has some excellent guides, reviews and forums to provide you with all the details you need. Their recommended hardware section contains lots of hard numbers.
SilentPC Review - Contains reviews and guides on quiet PC cases, fans and components.