In theory, a high performance power plan should allow games to run faster on battery power. But in practice, this isn’t always the case. Why? One reason is that games often use more resources than usual when running on battery power. For example, they may use more CPU time or memory bandwidth. This is because they need to run as fast as possible without using any of the system’s regular power sources (like an outlet). Another reason is that some games are designed to run slower on battery power. For example, some mobile games are designed to be played for short periods of time (like 10 minutes or less). If you try to play them for longer periods of time, the game will start to slow down on battery because it will need to keep checking in with the server every few minutes. ..

If you love playing games, then you definitely want the best performance you can get out of your computer, but what if games on your laptop slow down even with a high performance power plan selected? Today’s SuperUser Q&A post has the answers to a confused reader’s question.

Today’s Question & Answer session comes to us courtesy of SuperUser—a subdivision of Stack Exchange, a community-driven grouping of Q&A web sites.

Screenshot courtesy of Michael Heilemann (Flickr).

The Question

SuperUser reader Egghead99 wants to know why his laptop’s games slow down even though he has selected a high performance power plan:

What is going on with Egghead99’s laptop?

Why is that? Is the battery unable to keep up with the power demands of the GPU? Is there any way to fix this?

The Answer

SuperUser contributor DragonLord has the answer for us:

Have something to add to the explanation? Sound off in the comments. Want to read more answers from other tech-savvy Stack Exchange users? Check out the full discussion thread here.

High-performance mobile GPUs can require significant amounts of power to operate at full speed. The GTX 765M requires 75 watts while top-of-the-line mobile GPUs like the GTX 780M and GTX 980M can consume up to 122 watts. The GPU is not the only power-hungry part in a laptop. A modern Intel performance mobile CPU typically draws about 47 watts at full power. In addition, you need to power other system components, such as the display, disk, and USB peripherals. When you add it all up, you might need anywhere from 140 to 200 watts to operate a gaming laptop under full load (depending on your system configuration). A typical battery in a gaming laptop can store about 60 to 80 watt-hours of energy. Most Li-Ion batteries are not designed to be discharged faster than twice their watt-hours rating per hour (2C) and continuous discharge at rates exceeding 1C can significantly reduce the life of the battery. Continuously pulling 150 watts or more from a typical 77 watt-hours battery is not a great idea. Your battery could overheat and fail or even catch fire. While it is likely the battery’s own protection circuitry would shut down the battery if overloaded or overheated, a device should never subject its battery to an unsafe load at any time during operation. To avoid overloading the battery, the GPU will typically throttle to a lower clock speed. The GTX 780M on my personal laptop will not run faster than about 400 Mhz when running on battery power. Lower clock speeds reduce power consumption not only by having transistors switch slower, but also by allowing lower voltages. Keep in mind that power consumption and dissipation scale with the square of voltage.