My university's IT department has recently sent everybody an email asking us to leave our computers on at night, every night, so that they can do remote maintenance. They say "Despite what you may believe, modern PCs use very little energy when not in use".

They're almost certainly wrong, because it really doesn't take much power to add up to something significant when we're talking about thousands of PCs, but for the sake of approximately quantifying it,

How much power does an average desktop PC draw when switched on (not in Sleep mode) but idle?

(Yes, I am being a bit lazy here, but I don't have a meter available and I figure somebody here will have measured it before! Plus, it may be useful info for others.)

  • 2
    Why don't they use wake-on-lan when they want to work on a computer remotely?
    – gerrit
    Commented Nov 3, 2016 at 11:35
  • 2
    @gerrit I have wondered the same thing myself.
    – Flyto
    Commented Nov 3, 2016 at 12:22
  • Here they say "A typical desktop computer uses about 60 to 250 watts" even if the screen saver is running.
    – THelper
    Commented Nov 3, 2016 at 13:48
  • @THelper: Turn off the display(s), then. For my notebook in a docking station (connected to an external display, so the noteboox display is turned off), it's about 17 watts.
    – jamesqf
    Commented Nov 3, 2016 at 20:00
  • 5
    Sounds like your IT department should enter the 21st century. Mgmt may be interested to know that at the low end (17W) each PC costs an extra $10/year in electricity (assuming running the 16 hours outside of the work day for 365 days, at $0.10/kWh). Or, for the more realistic 170W, if there are 100 employees, that's $10,000.
    – LShaver
    Commented Nov 17, 2016 at 14:24

3 Answers 3


The problem here is that there is really no such thing as an "average desktop". There are a lot of factors that influence this, and just "averaging them out" doesn't really work. Your university may have very fancy modern power-efficient desktops that can use less than 20W idling, or it may have six year old power-hungry behemoths that use well over 100W idling. Who knows? You can't just say "ah, so the average must be about 60W", as that may not reflect reality at all (this is why "averaging it out" almost never works).

Some factors that influence this include:

  • Power usage of the components (du'h), especially the CPU and video card (if any).
  • Efficiency of the power supply (PSU); typical PSUs sit in the ~70% efficiency range, but some people put a 800W PSU for a 150W computer, which will drastically reduce the power efficiency. Really good (and usually expensive) PSUs are >90%.
  • Operating system and configuration; there are quite a few tricks you can do in some operating systems, and older operating systems may not be able to take advantage of some power-saving features. On my laptop I managed to get about one hour of extra battery life by frobbing with various settings.
  • The programs running on the computer. A computer is rarely 100% "idle"; there are various maintenance tasks that are done to keep the computer running (e.g. keep the computer clock running, listening for new emails, etc.). Typically this should use a negligible amount of processing power, but this is in no way guaranteed. I know of some programs that will use >20% CPU just by being open (not even doing anything).
  • BIOS settings; sometimes things like C-states (which will make the CPU to go a "light sleep mode" when not used) are turned off by default (why? who knows...)

The best and only sure way to figure out how much electricity this will cost your university is to get a power meter (the kind that you can stick between the wall socket and any appliance) and measure it. This will probably still only give you a rough estimate as your university will probably have a bunch of different computers models in use.

All of that being said, the absolute best case scenario you can get with modern components is probably around 10W, but it's almost certainly higher than that since most people don't buy the extra power-efficient components. The "realistic best case" is more like 20W, based on my experience of recently buying a power-efficient desktop and measuring its idle usage.

In the end I guess it depends on your definition of "very little energy". Is 20W times n computers "very little energy"? I'll leave that for the reader to decide...


If you come across this answer and have measured your idle system's power consumption please extend the list by editing this answer or adding a comment.

Power Consumption Measured by Users

Power consumption of running systems doing nothing. Does not include external devices like monitors.

  • 2 W business laptop from 2017, monitor off, CPU at idle, running on battery power. CPU: i5. GPU: integrated.
  • 18 W business laptop from 2011. CPU: i5. GPU: integrated.
  • 60 W desktop PC from ???. CPU: Pentium 4
  • 80 W desktop PC from 2014. CPU: i5. GPU: GTX 660
  • 100 W Desktop PC. CPU: Ryzen 7 1700 (Overcloaked to 3.8GHz). GPU: GTX 1080 ti.
  • 60-100 W desktop PC from 2021: Ryzen 5800x, GTX 3060 without any CPU/GPU workloads (IDLE/browsing).
  • 50 W desktop PC from 2023: i5-13600K, RTX 3060Ti

Now you'd think this question might have a tidy answer, but you'd be wrong. The gamer community seems to care the most about PC power consumption, though not for energy purposes but heat removal. For example "Gamers Nexus" has a long standing crowd funded effort to measure CPU energy use: https://gamersnexus.net/megacharts/cpu-power

But that's not the entire picture. In general a CPU with an iCPU (integrated GPU) will turn in better numbers than a CPU plus a dedicated graphics card. But there are many more factors, including a local router, switch, screen, mouse, etc.

Once you have a system you can measure it using a plug-in current meter like the ever popular Kill-A-Watt P3. Or at the electrical panel with recording current meter like those made by Emporia.

Enerystar logo But pre-purchase there's not much. The energyStar label means the vendor cared enough to get the PC listed at https://www.energystar.gov/products/computers

Many other factors go into the question. For example the choice of operating system and settings controls how often the machine goes to sleep. If you turn off sleep mode because you got tired of downloads getting interrupted or whatever you've thrown off the power budget. There's no EnergyStar standard for how effective the operating system is at keeping the user happy with sleep settings. Stuff like paused videos in closed tabs can cause a machine to stay awake and using power for example....

And finally there are many wakeup schemes including "Wake-on-LAN" that allow centrally managed computers to be bought online for centralized updates and virus scans, using a "magic packet".

If there's a user contributed crowdsourced database of PCs and energy use, do post it here!

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