Yes, you read that article rightly. Here it is apparently the "right" way and the "wrong" way to connect devices to M.acBook with Thunderbolt / USB-C ports on both sides. Poor performance can affect the performance of your computer.
I just met them this information on a thread over StackExchange, and I was surprised to find that there could be a great The difference in the stability of your system depends on how you charge and connect the devices to your MacBook – MacBook Pro, in this example. The decision to clook at everything on one side it may have an impact on how your system works – aIt has a hot system likely to be seen its CPU focused on reducing internal temperatures, and it cost he works.
Before I get into this, I want to be careful about which side you choose he can difference; I'm not sure is an issue for every MacBook, and it is not the only issue that may cause your system to slow down. It is working to solve problems that most people will never think about, which is why you should know about it.
First, let's consider the first problem that led to this discovery, just so we're all on the same page. As a StackExchange user Adam posted:
Sometimes my machine will have
kernel_taskFor example max out the CPU :. This can last from minutes to even hours. The machine is not very efficient in this situation. Restarting doesn't help; newkernel_taskappears again until it completes whatever it does.How can I find out what the process is?
A StackExchange BMike user answered with a nice explanation of how the number of connected devices on the left side of the MacBook Pro can have an effect temperature inside your system — especially if you have connected devices and charge your MacBook Pro from the same one side. You can click for feedback see various graphs BMike it was created to track CPU usage in various different fields "integrated", but here's an idea:
The actual CPU temperature or CPU usage is inconsistent
kernel_task. The hot CPU is minimized by reducing its clock speed, not by planning a fake and op load.The graphs below are from iStatMenus. The machine was used on a battery and then plugged in.
Mention the USB-C center (mouse and keyboard, and high power) and the USB-C HDMI 2.0 adapter, both on the left side. You can see the Thunderbolt Left Proximity temperature sensor going up fast. About 3-4 minutes later they were shocked
kernel_taskhigh CPU usage begins.State B cures
kernel_taskProblem with moving power from left to right ports. The left-hand temperature drops oncekernel_taskruns within 15 seconds.This is the reason. Moving the power back to the left side, returning State A, quickly returns the temperatures again
kernel_taskcomes back in 3-4 minutes. It also moves forward with the power coming back to the right side, restoring State B, resolving the problem quickly.State C shows that simply stuffing into TB ports increases their temperature. Both the hub (mouse and keyboard ONLY) and the HDMI adapter each raise the temperature to about 10 degrees, and 15 degrees together.
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So, what take away? If you find that your MacBook is shaving, check the Activity Monitor to see if you can find a possible cause. If you notice a less obvious process for using your system resources – such as “kernel_task” – take a moment to look at what you have is connected to your laptop, and anywhere.
If you use all the ports on the left side to charge your MacBook and to connect to other devices, try to split the load: Departure your charging cable is to the right side, for example, it might be all you need to do to reduce the happy performance you are facing. Similarly, resist the urge to leave everything on the right-hand side — you may not have the same tendency, but to know suffer some system installs do not existthe negligent.
In short: If possible, separate the difference. And if you can't—for you are simply they were such a gear connected to your MacBook Pro, explore other cooling options. Although you look bad dork, third-party cooling pad it may not be all you need to keep your MacBook warm.
