Kai Schaetzl wrote:
Kai Schaetzl wrote on Sun, 03 Aug 2008 16:57:20 +0200:
I disagree about the reason. I think they are actually not so efficient. At
least not if I compare to a low-voltage CPU.
Just checked how much that AMD 4850e CPU drains under various conditions.
There are *huge* differences. I checked whole power consumption of the
machine. I don't know what "at wall" means. Did you measure the power
consumption of the cpu alone or does "at wall" mean the same as I did?
Yes, sounds like you did the same as I did. I meant I plugged one of
those watt meters into the power outlet at the wall and plugged the
machine into that, so you're measuring the current draw "at the wall" or
outlet. What this doesn't do is take into account how efficient (or
inefficient) your power supply may be - if it's drawing 100W from the
wall and is 80% efficient, then your system is only actually pulling
80W, the other 20W is heat dissipated from the PSU.
Here are the figures, considering this is for the whole machine I think it's
quite good.
idle:
1000 MHz: 76W
2500 MHz: 98W
That's a nice little saving! Like I said previously, I only saw 2-3W
saving at idle between full clock rate(2400MHz; 107-8W) and with freq
scaling active (1600MHz; 105W) which would maybe imply that my system
already has efficient halt state, and that throttling back (freq
scaling) gives little further gains. Obviously that's not the case with
your system.
Were you able to observe any drops in VCore voltage between load, idle
(2500MHz) and 1000MHz with lm_sensors?
1 core under load: 110W
2 core under load: 120W
So, that's not just the processor, it's the whole machine. It takes into
account the powerdrain from the processor plus (probably) faster fans plus any
other drain from memory/chipset that may be higher underload.
Likewise :)
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