Server Power Consumption Doubled Over Past 5 years

Watt's up writes "A new study shows an alarming increase in server power consumption over the past five years. In the US, servers (including cooling equipment) consumes 1.2% of all the electricity in 2005, up from 0.6% in 2000. The trend is similar worldwide. 'If current trends continue, server electricity usage will jump 40 percent by 2010, driven in part by the rise of cheap blade servers, which increase overall power use faster than larger ones. Virtualization and consolidation of servers will work against this trend, though, and it's difficult to predict what will happen as data centers increasingly standardize on power-efficient chips." We also had a recent discussion of power consumption in consumer PCs that you might find interesting.

Solution

[Ziest]

48 volt DC. Why the hell are we still putting 110 AC into the power supply and steping it down to 24 volt DC. And what do you get when you do that? HEAT. And to compensate for not having a better power system you then get to spend a fortune on HVAC to cool the room that you heat by stepping down the voltage. 110 power supplies make sense in the home but in a data center it is stupid.

Re:Solution

[Ungrounded+Lightning]

So how do you get 12 volt, 5 volt, 3.3 volt, and 1.5 volt DC from that?

High-efficiency switching regulators on the blades. (They're actually getting so good that you have less heat loss by putting a local switcher near a power-hungry chip than by bringing its high current in at its low voltages through the PC-board power planes.)

Getting the raw AC->DC conversion out of the way outside the air-conditioned environment saves you a bunch of heat load, as does distributing at a relatively high voltage (such as "relay-rack" standard 48VDC) to reduce I-squared-R losses. And switchers are more efficient with higher raw DC supplies, so going to 48V (about the highest you can while avoiding touch-it-and-die shock hazard - which is why Bell standardized on it) is much better than 12 or 24.

Re:Solution

[hackstraw]

I didn't read the Google paper (or the FA for that matter), but while we are on the subject, this is something that I don't understand.

Why do servers have AC to DC power supplies at all? I don't know about you, but I have my servers on UPSes. So the whole thing goes AC from wall to DC in the UPS to the batteries then from DC to AC to the computer where it converts it back to DC.

I'm not an EE, but why cant AC come from the wall into the UPS and then the UPS spits out DC to the computer?

Granted the UPS power supply needs to be redundant because they are the 2nd most likely thing to fail in servers after disks, but what am I missing here? I know there are telco grade computers that take DC, but these are not available in many options and are typically lower end boxes. But to me, none of these additional conversions to AC and DC an back again with the added likelihood of a failure anywhere in the chain seems a bit non-optimal.

And how much energy did those computers save?

[WoTG]

It's not like we plug in computers to sit around idling all day. They're doing stuff. I can send an email to anywhere on the planet instead of stuffing and envelope to have it carried by truck, boat, or plane. Cars have better power plants than ever before... they didn't get that way with back of the envelope calculations! A lot of forms that I used to submit by fax or snail mail? All gone electronic.

So, computers are using more power than 5 years ago? Who cares? If it bothers you, then get off the grid and fun in your cave.

Ok, so power use doubled...

[Aphrika]

...but how much did performance increase by?