Gigabyte's pressurized thermal pads lower SSD temperatures in M.2 slots by up to 12C

(Image credit: Gigabyte)

Gigabyte has added pressurized thermal pads to M.2 slots for SSDs on its latest Aorus Stealth Ice motherboards (via Uniko's Hardware) to maximize heat dissipation of high-end SSDs. The motherboard maker claims that its pressurized thermal pad may reduce SSD temperature by 12 degrees Celsius, though it admits that the effect depends on multiple factors.

Thermals often constrain the performance of high-end SSDs in an M.2 form-factor, as both the controller and memory packages tend to heat up under high loads. Most high-end drives come with a pre-installed heat spreader, and many high-end motherboards come with their thermal solutions for SSDs. However, these thermal solutions are mainly designed to cool down the controller and the upper side of the drives, whereas backplates are tailored for single-sided or double-sided drives. Apparently, Gigabyte has found a flexible solution. Literally.

Gigabyte’s EZ-Flex solution, introduced on its B850 Aorus Stealth Ice motherboard, addresses these shortcomings by combining pressurized thermal pads with a spring-loaded, flexible backplate. This setup adapts to the thickness of both single- and double-sided M.2 SSDs, maintaining uniform pressure and ensuring better thermal contact on both sides of the drive. As a result, SSD temperatures can be reduced by up to 12°C, helping to prevent thermal throttling and sustain high performance during intensive workloads.

Gigabyte’s EZ-Flex design not only improves thermal performance and enhances compatibility with both single- and double-sided SSDs, but it also ensures more consistent mechanical pressure for better stability and reduces the risk of installation errors due to its adaptive fit. As a bonus, such a design could reduce SSD bending after prolonged usage. In addition, lowering temperatures helps extend the lifespan of SSD components. It minimizes performance throttling under sustained workloads, making it especially beneficial for users handling large data transfers or demanding applications.

It remains to be seen whether EZ-Flex will now be a part of all Gigabyte’s motherboards, or will only be featured on premium solutions. Considering that the B850 is not a premium platform, EZ-Flex will likely be a widespread feature on Gigabyte mainboards. After all, just two springs are not expensive, right?

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Anton Shilov is a contributing writer at Tom’s Hardware. Over the past couple of decades, he has covered everything from CPUs and GPUs to supercomputers and from modern process technologies and latest fab tools to high-tech industry trends.

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5 Comments Comment from the forums

Notton

This sounds like a great idea. It simplifies applying a heatsink to an SSD and you'll get great contact without the use of 2 or 3 different pad thicknesses.

The worst type of SSD to mount a heatsink to is clam shell with differing heights between NAND, DRAM, and controller. A further icing on top are tall SMD caps on both sides that you don't want to short.
Reply
Amdlova

That gigabyte graphics with the thermal melt down is the first gigabyte attempt for this new tech.
With some heat and pressure you will get the perfect fit lol
Reply
Findecanor

It is "12° C", not "12C".

On Mac, you can type Option + 0 (zero).
On Linux, with a non-English keymap, the symbol is often available on a similar combo: Alt Gr + 0.
On French, German/Austrian/Swiss and Italian layout, it is available right on a key, but sometimes with Shift.

Otherwise, I'd recommend installing/enabling support for the very versatile Compose key, Then type Compose o o
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bit_user

Notton said:
This sounds like a great idea. It simplifies applying a heatsink to an SSD and you'll get great contact without the use of 2 or 3 different pad thicknesses.
If you're talking about a heatsink that doesn't directly attach to the SSD, sure. I guess you're counting on the spring pressure, over time, to mold the pad so it conforms to the chips better? I wonder if most thermal pads would flow very much, even when hot? I'm not sure they would, because some people depend on them to provide electrical insulation between the components and heatsink, but if the material got too soft and flowy when hot, they would no longer offer such protection.

Notton said:
The worst type of SSD to mount a heatsink to is clam shell with differing heights between NAND, DRAM, and controller. A further icing on top are tall SMD caps on both sides that you don't want to short.
How important is it to cool those surface-mount components? If you can cool the NAND & controller enough, then it seems to me that the caps and whatever else will do fine, just dumping their heat to the PCB. I think the NAND is far and away the most heat-sensitive component on there.

Furthermore, consumer SSDs are only made to be stressed for a limited proportion of the time. So, unless you know otherwise, I wouldn't be too concerned about the other components on those drives.
Reply
bit_user

Findecanor said:
It is "12° C", not "12C".
Yeah, I don't bother with the degree mark in forum posts. But, it'd be a different matter, were I writing an article. And in the headline no less!
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