Laptop Processor Vs Desktop Processor? The Differences

From a perspective of a common individual, both laptop and desktop have only thing different and that is its portability aspect, that a laptop can be carried everywhere, whereas a desktop is only fixed to one spot.

But that is completely false, there is more to this than meets the eye. Although complex, the engineering behind such machinery might have the same logic but there are some things that set the laptop apart from a desktop.

To start off, let’s take the processor which is also known as the heart of a device, which performs most of the computational tasks, how the laptop processor is different from the desktop processor, and what is the reason behind it?

Laptop Processor Vs Desktop Processor, What Sets Them Apart?

Read this article to know more about the specifics of each and every component of a laptop and desktop processor. And to know how it is different from each other, let’s find out.

1. Core Count And Threads

A processor generally compromises of cores and threads which it uses to process the instruction of data. The higher the core count is the faster it processes information in a second. 

On the other hand, threads are used in multitasking features such as hyperthreading and enable a machine to perform multiple tasks at once.

Desktop processors tend to have a higher core count and threads as compared to laptop processors because the processor used in a laptop are “mobile processors” which is power efficient as well as considerably slow to prevent battery draining.

On the other hand, the desktop doesn’t have battery issues and they usually have faster core count processors making them extremely efficient and significantly faster than a laptop even if they have the same generation processor installed.

2. Future-Proofing

When it comes to future-proofing, a laptop has a fixed processor which cannot be removed because it is pretty much soldered onto the motherboard which prevents future-proofing your hardware if you want to upgrade it to the newer generation.

On a desktop, there is plenty of upgradability options and you have the complete liberty to change the processor to a newer generation which is not only easy but also cost-effective as compared to a laptop.

Note: when changing the processor in a desktop, make sure the newer generation processor matches the motherboard model. Moreover, the intel has a higher incompatibility ratio as compared to the AMD because they can be compatible with pretty much any motherboard.

3. Thermal Cooling headroom:

Since laptops are space restricted to increase portability they tend to have smaller fans and very little ventilation system which restricts their capability to throttle beyond their required limit.

However, a desktop processor is free to be overclocked beyond the manufacturer’s specified speeds because it supports any type of cooling solution due to no limitation in space and compatibility. 

Generally, a desktop can have three types of cooling solutions.

  • Air cooling fan
  • Water Cooling 
  • AIO cooling system

4. Overclocking feature:

Speaking of thermal cooling, since a laptop is restricted in regards to ventilation, the liberty to overclock its processor is only limited to a mere 200-300mhz frequency which is insignificant as compared to a traditional desktop.

Because in desktop, the processor can be overclocked up to 1.5Ghz depending on the silicon lottery by tweaking its voltage in Bios settings, which gives a massive benefit in games and other CPU intensive as compared to a laptop.

Note: Never proceed to overclock your processor without having ample knowledge beforehand. Overclocking without being cautious can result in catastrophic results and bricking of your hardware which is irreversible.

5. Price Tag Variations:

One of the many attributes a laptop has to compensate for is price tags since they are specially designed for each model with a unique build and cooling system, which increases its price.

On the other hand, a desktop processor is pretty much universal and can be fitted in all desktops as long as it is compatible with its motherboard. This attribute makes the manufacturing of desktop processors quite cheap.

6. Power Consumption Differences

Keep in mind the aspect of thermal cooling and core count variability goes hand in hand which means the more cores are present in a processor the more it consumes power.

Since laptop processor draws power from their batteries, they lack plenty of cores to conserve power drain. On the other hand, the desktop processor has plenty of cores and consumes plenty of power in the form of WATTS through the direct power outlet current

Is a laptop processor and desktop processor are same?

Laptop has a toned-down underclocked processor which is designed to consume low power in order to prevent battery strain, desktops, on the other hand, don’t rely on these sorts of limitations.

Is a desktop processor more powerful than a laptop?

Desktop processors are quite powerful since they have no physical or software limitations, so they can utilize as much power as they need. In addition, they can also be overclocked to even produce better computational results.

Can we use a desktop processor in a laptop?

Unfortunately, no, a desktop processor can in no way, shape, or form can be used in a laptop as a substitute.

In Conclusions – The Difference Between Laptop and Desktop Processor

So the conclusion drawn from the Laptop processor vs desktop processor is that although a laptop might have an upper hand being highly portable, there are plenty of corners that are cut for the various reasons mentioned above.

On the other hand, desktops aren’t limited to such features making them all-rounder in all features except for portability which is why they have robust computational processing speeds and immense cooling headroom.

Furthermore, it is evident from the fact that mobile processors included in a laptop is made for working on the go and to conserve battery life which is their only source of power which is why they are underclocked as compared to a desktop processor so they won’t generate heat and don’t drain the battery life easier.

I hope this article has settled any confusion that you might have, feel free to comment below if you have any queries and I would be glad to sort you out.