• Welcome to TechPowerUp Forums, Guest! Please check out our forum guidelines for info related to our community.

NVIDIA GPUs Have Hotspot Temperature Sensors Like AMD

Joined
Oct 1, 2006
Messages
4,934 (0.74/day)
Location
Hong Kong
Processor Core i7-12700k
Motherboard Z690 Aero G D4
Cooling Custom loop water, 3x 420 Rad
Video Card(s) RX 7900 XTX Phantom Gaming
Storage Plextor M10P 2TB
Display(s) InnoCN 27M2V
Case Thermaltake Level 20 XT
Audio Device(s) Soundblaster AE-5 Plus
Power Supply FSP Aurum PT 1200W
Software Windows 11 Pro 64-bit
It is good information. Consider how matured Nvidia's boost algorithm has been it would be silly to think they dont have a large number of sensor information. Point is what does the extra sensor information help with besides generating internet outrage? For extreme overclockers it definitely matter. For daily usage the averaged die temp is more than enough to gauge operating condition of a GPU
This info is most valuable when trying to gauge how good the contact between the die and the cold plate.
A delta that is too much can indicate improper mounting pressure, cold plate flatness or just an uneven mount in general.
For daily users, I think the benefit is it help reviewers to provide the info. Hopefully buyers do some research before buying.
 
Joined
May 10, 2020
Messages
738 (0.44/day)
Processor Intel i7 13900K
Motherboard Asus ROG Strix Z690-E Gaming
Cooling Arctic Freezer II 360
Memory 32 Gb Kingston Fury Renegade 6400 C32
Video Card(s) PNY RTX 4080 XLR8 OC
Storage 1 TB Samsung 970 EVO + 1 TB Samsung 970 EVO Plus + 2 TB Samsung 870
Display(s) Asus TUF Gaming VG27AQL1A + Samsung C24RG50
Case Corsair 5000D Airflow
Power Supply EVGA G6 850W
Mouse Razer Basilisk
Keyboard Razer Huntsman Elite
Benchmark Scores 3dMark TimeSpy - 26698 Cinebench R23 2258/40751
Oh my... this will start another web drama about “how hot is my card? Will it break?”
 
Joined
Jul 16, 2014
Messages
8,219 (2.16/day)
Location
SE Michigan
System Name Dumbass
Processor AMD Ryzen 7800X3D
Motherboard ASUS TUF gaming B650
Cooling Artic Liquid Freezer 2 - 420mm
Memory G.Skill Sniper 32gb DDR5 6000
Video Card(s) GreenTeam 4070 ti super 16gb
Storage Samsung EVO 500gb & 1Tb, 2tb HDD, 500gb WD Black
Display(s) 1x Nixeus NX_EDG27, 2x Dell S2440L (16:9)
Case Phanteks Enthoo Primo w/8 140mm SP Fans
Audio Device(s) onboard (realtek?) - SPKRS:Logitech Z623 200w 2.1
Power Supply Corsair HX1000i
Mouse Steeseries Esports Wireless
Keyboard Corsair K100
Software windows 10 H
Benchmark Scores https://i.imgur.com/aoz3vWY.jpg?2
I've always known that hotspots can be much hotter than what a single sensor can read and 20C is huge. This is why I always buy cards with powerful coolers such as my current one (see specs) which can keep temperatures down under even the biggest loads. It does it silently, too.
also can indicate where TIM is too thin or not spread thoroughly.

Oh my... this will start another web drama about “how hot is my card? Will it break?”
Forever the Drama Queen? :p :p :p :p :eek:
 
Joined
Sep 20, 2019
Messages
528 (0.28/day)
Processor i9-9900K @ 5.1GHz (H2O Cooled)
Motherboard Gigabyte Z390 Aorus Master
Cooling CPU = EK Velocity / GPU = EK Vector
Memory 32GB - G-Skill Trident Z RGB @ 3200MHz
Video Card(s) AMD RX 6900 XT (H2O Cooled)
Storage Samsung 860 EVO - 970 EVO - 870 QVO
Display(s) Samsung QN90A 50" 4K TV & LG 20" 1600x900
Case Lian Li O11-D
Audio Device(s) Presonus Studio 192
Power Supply Seasonic Prime Ultra Titanium 850W
Mouse Logitech MX Anywhere 2S
Keyboard Matias RGB Backlit Keyboard
Software Windows 10 & macOS (Hackintosh)
I noticed between air cooling and water cooling my RX 5700 XT, water cooling has a much higher differential between GPU temp and hot spot temp. For ex, when hot spot temp can reach 110*C, the GPU temp might only be 68*C. That is an enormous differential. When on air, it was in line with what is reported here, such as 12*C - 20*C range. For example, GPU hot spot at 90*C would mean maybe GPU temp is 72*C

I believe the higher differential on water is from an aggressive OC though, and when the card is pushed to its limits
 
Joined
Jul 16, 2014
Messages
8,219 (2.16/day)
Location
SE Michigan
System Name Dumbass
Processor AMD Ryzen 7800X3D
Motherboard ASUS TUF gaming B650
Cooling Artic Liquid Freezer 2 - 420mm
Memory G.Skill Sniper 32gb DDR5 6000
Video Card(s) GreenTeam 4070 ti super 16gb
Storage Samsung EVO 500gb & 1Tb, 2tb HDD, 500gb WD Black
Display(s) 1x Nixeus NX_EDG27, 2x Dell S2440L (16:9)
Case Phanteks Enthoo Primo w/8 140mm SP Fans
Audio Device(s) onboard (realtek?) - SPKRS:Logitech Z623 200w 2.1
Power Supply Corsair HX1000i
Mouse Steeseries Esports Wireless
Keyboard Corsair K100
Software windows 10 H
Benchmark Scores https://i.imgur.com/aoz3vWY.jpg?2
I noticed between air cooling and water cooling my RX 5700 XT, water cooling has a much higher differential between GPU temp and hot spot temp. For ex, when hot spot temp can reach 110*C, the GPU temp might only be 68*C. That is an enormous differential. When on air, it was in line with what is reported here, such as 12*C - 20*C range. For example, GPU hot spot at 90*C would mean maybe GPU temp is 72*C

I believe the higher differential on water is from an aggressive OC though, and when the card is pushed to its limits
could that be because of the water block not fully covering the GPU or lack of TIM? Compare surfaces between the air cooler and the water block, or maybe the water channel isnt cut close enough to that spot.
 

qubit

Overclocked quantum bit
Joined
Dec 6, 2007
Messages
17,865 (2.87/day)
Location
Quantum Well UK
System Name Quantumville™
Processor Intel Core i7-2700K @ 4GHz
Motherboard Asus P8Z68-V PRO/GEN3
Cooling Noctua NH-D14
Memory 16GB (2 x 8GB Corsair Vengeance Black DDR3 PC3-12800 C9 1600MHz)
Video Card(s) MSI RTX 2080 SUPER Gaming X Trio
Storage Samsung 850 Pro 256GB | WD Black 4TB | WD Blue 6TB
Display(s) ASUS ROG Strix XG27UQR (4K, 144Hz, G-SYNC compatible) | Asus MG28UQ (4K, 60Hz, FreeSync compatible)
Case Cooler Master HAF 922
Audio Device(s) Creative Sound Blaster X-Fi Fatal1ty PCIe
Power Supply Corsair AX1600i
Mouse Microsoft Intellimouse Pro - Black Shadow
Keyboard Yes
Software Windows 10 Pro 64-bit
Joined
Nov 15, 2016
Messages
454 (0.15/day)
System Name Sillicon Nightmares
Processor Intel i7 9700KF 5ghz (5.1ghz 4 core load, no avx offset), 4.7ghz ring, 1.412vcore 1.3vcio 1.264vcsa
Motherboard Asus Z390 Strix F
Cooling DEEPCOOL Gamer Storm CAPTAIN 360
Memory 2x8GB G.Skill Trident Z RGB (B-Die) 3600 14-14-14-28 1t, tRFC 220 tREFI 65535, tFAW 16, 1.545vddq
Video Card(s) ASUS GTX 1060 Strix 6GB XOC, Core: 2202-2240, Vcore: 1.075v, Mem: 9818mhz (Sillicon Lottery Jackpot)
Storage Samsung 840 EVO 1TB SSD, WD Blue 1TB, Seagate 3TB, Samsung 970 Evo Plus 512GB
Display(s) BenQ XL2430 1080p 144HZ + (2) Samsung SyncMaster 913v 1280x1024 75HZ + A Shitty TV For Movies
Case Deepcool Genome ROG Edition
Audio Device(s) Bunta Sniff Speakers From The Tip Edition With Extra Kenwoods
Power Supply Corsair AX860i/Cable Mod Cables
Mouse Logitech G602 Spilled Beer Edition
Keyboard Dell KB4021
Software Windows 10 x64
Benchmark Scores 13543 Firestrike (3dmark.com/fs/22336777) 601 points CPU-Z ST 37.4ns AIDA Memory
Not even close
ok fair interpretation of my statement. what i meant to say is lower hotspot to edge temp. the whole aim of designing a chip is to distribute the heat evenly over it. if intel puts all of the avx 512 units right next to the imc the imc is going to be a turd and not do good clocks and timings. having the heat relatively the same across the die is the goal of any sillicon designer, hence ampere is a better circuit design
 
Joined
Jan 14, 2019
Messages
12,572 (5.80/day)
Location
Midlands, UK
System Name Nebulon B
Processor AMD Ryzen 7 7800X3D
Motherboard MSi PRO B650M-A WiFi
Cooling be quiet! Dark Rock 4
Memory 2x 24 GB Corsair Vengeance DDR5-4800
Video Card(s) AMD Radeon RX 6750 XT 12 GB
Storage 2 TB Corsair MP600 GS, 2 TB Corsair MP600 R2
Display(s) Dell S3422DWG, 7" Waveshare touchscreen
Case Kolink Citadel Mesh black
Audio Device(s) Logitech Z333 2.1 speakers, AKG Y50 headphones
Power Supply Seasonic Prime GX-750
Mouse Logitech MX Master 2S
Keyboard Logitech G413 SE
Software Bazzite (Fedora Linux) KDE
Nothing new here. Every boost algorithm uses hotspot temperature data (among others). Only that there hasn't been a way to monitor it on nvidia cards until now.

ok fair interpretation of my statement. what i meant to say is lower hotspot to edge temp. the whole aim of designing a chip is to distribute the heat evenly over it. if intel puts all of the avx 512 units right next to the imc the imc is going to be a turd and not do good clocks and timings. having the heat relatively the same across the die is the goal of any sillicon designer, hence ampere is a better circuit design
With that analogy, a single-threaded workload should be distributed evenly across a CPU for better heat distribution. Instead, the reality looks something like this:

singlecore.png


My conclusion is that we can't conclude anything related to chip design based on the difference between edge temp and hotspot temp.
 
Last edited:
Joined
Oct 1, 2006
Messages
4,934 (0.74/day)
Location
Hong Kong
Processor Core i7-12700k
Motherboard Z690 Aero G D4
Cooling Custom loop water, 3x 420 Rad
Video Card(s) RX 7900 XTX Phantom Gaming
Storage Plextor M10P 2TB
Display(s) InnoCN 27M2V
Case Thermaltake Level 20 XT
Audio Device(s) Soundblaster AE-5 Plus
Power Supply FSP Aurum PT 1200W
Software Windows 11 Pro 64-bit
ok fair interpretation of my statement. what i meant to say is lower hotspot to edge temp. the whole aim of designing a chip is to distribute the heat evenly over it. if intel puts all of the avx 512 units right next to the imc the imc is going to be a turd and not do good clocks and timings. having the heat relatively the same across the die is the goal of any sillicon designer, hence ampere is a better circuit design
Most importantly, the 2 chips are not under the same cooler, it can just be the nVidia's FE cooler having a more even mounting pressure compare to that particualr MSI model.
It is not that simple, GA102 being a much bigger die also aids with thermal transfer because of the larger surface area, and lower thermal density.

Also for IC designs, generally the smaller die that achieve similar performance is considered more efficient.
Smaller die-area = higher yields etc. Although Samsung 8nm and TSMC 7nm are very different processes, thus not directly comparable.
 
Last edited:
Joined
Sep 17, 2014
Messages
22,666 (6.05/day)
Location
The Washing Machine
System Name Tiny the White Yeti
Processor 7800X3D
Motherboard MSI MAG Mortar b650m wifi
Cooling CPU: Thermalright Peerless Assassin / Case: Phanteks T30-120 x3
Memory 32GB Corsair Vengeance 30CL6000
Video Card(s) ASRock RX7900XT Phantom Gaming
Storage Lexar NM790 4TB + Samsung 850 EVO 1TB + Samsung 980 1TB + Crucial BX100 250GB
Display(s) Gigabyte G34QWC (3440x1440)
Case Lian Li A3 mATX White
Audio Device(s) Harman Kardon AVR137 + 2.1
Power Supply EVGA Supernova G2 750W
Mouse Steelseries Aerox 5
Keyboard Lenovo Thinkpad Trackpoint II
VR HMD HD 420 - Green Edition ;)
Software W11 IoT Enterprise LTSC
Benchmark Scores Over 9000
I've always known that hotspots can be much hotter than what a single sensor can read and 20C is huge. This is why I always buy cards with powerful coolers such as my current one (see specs) which can keep temperatures down under even the biggest loads. It does it silently, too.

Irrelevant, if you miss a pad or a sensor somewhere you'll still have a hot spot but you just never saw it. What other use does cooling have... it keeps the GPU within spec. Which means hotspot peak spec among other parameters.

Good cooling does not prevent hot spots even if the other areas are well below spec, and on top of that, if you are air cooling Nvidia GPUs, you'll run into high temps anyway because of GPU Boost unless you handicap your card.

lower edge temp than amd indicates better circuit design

Nah its clearly because the GPUs are not that edgy o_O:kookoo:

Its going well here. Jesus christ.
 

qubit

Overclocked quantum bit
Joined
Dec 6, 2007
Messages
17,865 (2.87/day)
Location
Quantum Well UK
System Name Quantumville™
Processor Intel Core i7-2700K @ 4GHz
Motherboard Asus P8Z68-V PRO/GEN3
Cooling Noctua NH-D14
Memory 16GB (2 x 8GB Corsair Vengeance Black DDR3 PC3-12800 C9 1600MHz)
Video Card(s) MSI RTX 2080 SUPER Gaming X Trio
Storage Samsung 850 Pro 256GB | WD Black 4TB | WD Blue 6TB
Display(s) ASUS ROG Strix XG27UQR (4K, 144Hz, G-SYNC compatible) | Asus MG28UQ (4K, 60Hz, FreeSync compatible)
Case Cooler Master HAF 922
Audio Device(s) Creative Sound Blaster X-Fi Fatal1ty PCIe
Power Supply Corsair AX1600i
Mouse Microsoft Intellimouse Pro - Black Shadow
Keyboard Yes
Software Windows 10 Pro 64-bit
Irrelevant, if you miss a pad or a sensor somewhere you'll still have a hot spot but you just never saw it. What other use does cooling have... it keeps the GPU within spec. Which means hotspot peak spec among other parameters.

Good cooling does not prevent hot spots even if the other areas are well below spec, and on top of that, if you are air cooling Nvidia GPUs, you'll run into high temps anyway because of GPU Boost unless you handicap your card.
Not irrelevant.

The better the cooler, the lower the temps will be overall, including any hotspots, whether you have a sensor there or not, so it matters very much.

Imagine the scenario where the overall temp is 50C, but a hotspot is 20C higher. That still only makes 70C, so the chip is within spec and won't overheat, because of that powerful cooler.

Now imagine that same chip with an inferior cooler. The overall temp is now 70C, but the hotspot has hit a whopping 90C, or maybe even more, so the chip could be overheating, or very close to its limit.
 
Joined
Sep 17, 2014
Messages
22,666 (6.05/day)
Location
The Washing Machine
System Name Tiny the White Yeti
Processor 7800X3D
Motherboard MSI MAG Mortar b650m wifi
Cooling CPU: Thermalright Peerless Assassin / Case: Phanteks T30-120 x3
Memory 32GB Corsair Vengeance 30CL6000
Video Card(s) ASRock RX7900XT Phantom Gaming
Storage Lexar NM790 4TB + Samsung 850 EVO 1TB + Samsung 980 1TB + Crucial BX100 250GB
Display(s) Gigabyte G34QWC (3440x1440)
Case Lian Li A3 mATX White
Audio Device(s) Harman Kardon AVR137 + 2.1
Power Supply EVGA Supernova G2 750W
Mouse Steelseries Aerox 5
Keyboard Lenovo Thinkpad Trackpoint II
VR HMD HD 420 - Green Edition ;)
Software W11 IoT Enterprise LTSC
Benchmark Scores Over 9000
Not irrelevant.

The better the cooler, the lower the temps will be overall, including any hotspots, whether you have a sensor there or not, so it matters very much.

Imagine the scenario where the overall temp is 50C, but a hotspot is 20C higher. That still only makes 70C, so the chip is within spec and won't overheat, because of that powerful cooler.

Now imagine that same chip with an inferior cooler. The overall temp is now 70C, but the hotspot has hit a whopping 90C, or maybe even more, so the chip could be overheating, or very close to its limit.
The idea that you have GPUs running well below spec is a fallacy. They don't and neither does yours, because Nvidia develops an algorithm called GPU Boost that will boost based on temp limits.

They only do if you undervolt them and AIBs develop coolers sized to what the board can put through and the components can take. You're dreaming if you think a stock air cooler will do anything positive for hot spot temps. It'll just boost higher, because you can market boost clocks. And if a cooler stays far below, its a waste of money.
 
Joined
Jan 14, 2019
Messages
12,572 (5.80/day)
Location
Midlands, UK
System Name Nebulon B
Processor AMD Ryzen 7 7800X3D
Motherboard MSi PRO B650M-A WiFi
Cooling be quiet! Dark Rock 4
Memory 2x 24 GB Corsair Vengeance DDR5-4800
Video Card(s) AMD Radeon RX 6750 XT 12 GB
Storage 2 TB Corsair MP600 GS, 2 TB Corsair MP600 R2
Display(s) Dell S3422DWG, 7" Waveshare touchscreen
Case Kolink Citadel Mesh black
Audio Device(s) Logitech Z333 2.1 speakers, AKG Y50 headphones
Power Supply Seasonic Prime GX-750
Mouse Logitech MX Master 2S
Keyboard Logitech G413 SE
Software Bazzite (Fedora Linux) KDE
The idea that you have GPUs running well below spec is a fallacy. They don't and neither does yours, because Nvidia develops an algorithm called GPU Boost that will boost based on temp limits.

They only do if you undervolt them and AIBs develop coolers sized to what the board can put through and the components can take. You're dreaming if you think a stock air cooler will do anything positive for hot spot temps. It'll just boost higher, because you can market boost clocks. And if a cooler stays far below, its a waste of money.
Well said. Coolers are not designed to run cards as cool as possible. They're designed to keep the card within spec.

My Asus Strix RX 5700 XT runs at 75 C edge temp and 95 C hotspot temp on stock settings. Decreasing the power limit by 25% lowers the GPU voltage and clocks, but also the fan speed, resulting in the exact same temperatures (with less noise). It's not wrong, it's designed this way.
 
Joined
Mar 14, 2014
Messages
1,430 (0.36/day)
Processor 11900K
Motherboard ASRock Z590 OC Formula
Cooling Noctua NH-D15 using 2x140mm 3000RPM industrial Noctuas
Memory G. Skill Trident Z 2x16GB 3600MHz
Video Card(s) eVGA RTX 3090 FTW3
Storage 2TB Crucial P5 Plus
Display(s) 1st: LG GR83Q-B 1440p 27in 240Hz / 2nd: Lenovo y27g 1080p 27in 144Hz
Case Lian Li Lancool MESH II RGB (I removed the RGB)
Audio Device(s) AKG Q701's w/ O2+ODAC (Sounds a little bright)
Power Supply Seasonic Prime 850 TX
Mouse Glorious Model D
Keyboard Glorious MMK2 65% Lynx MX switches
Software Win10 Pro
I mean nice test but why use two different loads?... the cards didn't go through the same stress loads.. what a weird decision
 
Joined
Dec 16, 2012
Messages
540 (0.12/day)
Processor AMD Ryzen R7 5800x
Motherboard B550i Aorus Pro AX
Cooling Custom Cooling
Memory 32Gb Patriot Viper 3600 RGB
Video Card(s) MSI RTX 3080 Ventus Trio OC
Storage Samsung 960 EVO
Display(s) Specterpro 34uw100
Case SSUPD Meshlicious
Power Supply Cooler Master V750 Gold SFX
Mouse Glorious Model D Wireless
Keyboard Ducky One 2
VR HMD Quest 2
Software Windows 11 64bit
Joined
Oct 12, 2005
Messages
711 (0.10/day)
ok fair interpretation of my statement. what i meant to say is lower hotspot to edge temp. the whole aim of designing a chip is to distribute the heat evenly over it. if intel puts all of the avx 512 units right next to the imc the imc is going to be a turd and not do good clocks and timings. having the heat relatively the same across the die is the goal of any sillicon designer, hence ampere is a better circuit design
But you can have an unit that is bottlenecking the whole system while still not being able to fully use that unit. This would not lead to high delta between hotspot and gpu temp but that will not mean the Chip design is great.

A specific load could lead to a very large delta between hotspot/GPU temp on a specific architecture but if that give huge performance, that is not a bad chip design.

The end goal of chip design is performance/watt/cost. Having a small delta between hotspot and GPU temp isn't really something that make a chip good. I get your point but doing a very bad design like putting all the hot stuff together would lead in the end in a bad performance/watt/cost ratio. So we are back to that.
 
Joined
Feb 18, 2021
Messages
90 (0.06/day)
Processor Ryzen 7950X3D
Motherboard Asus ROG Crosshair X670E Hero
Cooling Corsair iCUE H150i ELITE LCD
Memory 64GB (2X 32GB) Corsair Dominator Platinum RGB DDR4 60000Mhz CL30
Video Card(s) Zotac GeForce RTX 4090 AMP Extreme AIRO 24GB
Storage WD SN850X 4TB NVMe / Samsung 870 QVO 8TB
Display(s) Asus PG43UQ / Samsung 32" UJ590
Case Phanteks Evolv X
Power Supply Corsair AX1600i
Mouse Logitech MX Master 3
Keyboard Corsair K95 RGB Platinum
Software Windows 11 Pro 24H2
Tested my Asus Strix 3090 OC and it's showing about a 12c average higher temp over the main core temp on the hotspot sensor after 20mins of gaming, not too bad (original air cooler). I did re-paste the card a month ago so it has Thermal Grizzly Kryonaut paste now. Card is running in the low 70s as I'm using the quiet BIOS, way too noisy on performance mode for pretty much zero gain in performance and 5c lower temps.

Capture.JPG
 
Joined
Aug 20, 2007
Messages
21,541 (3.40/day)
System Name Pioneer
Processor Ryzen R9 9950X
Motherboard GIGABYTE Aorus Elite X670 AX
Cooling Noctua NH-D15 + A whole lotta Sunon and Corsair Maglev blower fans...
Memory 64GB (4x 16GB) G.Skill Flare X5 @ DDR5-6000 CL30
Video Card(s) XFX RX 7900 XTX Speedster Merc 310
Storage Intel 905p Optane 960GB boot, +2x Crucial P5 Plus 2TB PCIe 4.0 NVMe SSDs
Display(s) 55" LG 55" B9 OLED 4K Display
Case Thermaltake Core X31
Audio Device(s) TOSLINK->Schiit Modi MB->Asgard 2 DAC Amp->AKG Pro K712 Headphones or HDMI->B9 OLED
Power Supply FSP Hydro Ti Pro 850W
Mouse Logitech G305 Lightspeed Wireless
Keyboard WASD Code v3 with Cherry Green keyswitches + PBT DS keycaps
Software Gentoo Linux x64 / Windows 11 Enterprise IoT 2024
Why this "feature for everyone to use" pop-up right now? Why not during release (or short time after)? Because NVIDIA & Co start worry about returning back their "cooked" cards? Maybe NVIDIA worry about class action lawsuit against them for hide important information from user which may prevent damage product?

Feature is AWESOME, but why now?
Becauase it still isn't public, but was literally just discovered via research?

Your stretching. Majorly.
 
Joined
Sep 20, 2019
Messages
528 (0.28/day)
Processor i9-9900K @ 5.1GHz (H2O Cooled)
Motherboard Gigabyte Z390 Aorus Master
Cooling CPU = EK Velocity / GPU = EK Vector
Memory 32GB - G-Skill Trident Z RGB @ 3200MHz
Video Card(s) AMD RX 6900 XT (H2O Cooled)
Storage Samsung 860 EVO - 970 EVO - 870 QVO
Display(s) Samsung QN90A 50" 4K TV & LG 20" 1600x900
Case Lian Li O11-D
Audio Device(s) Presonus Studio 192
Power Supply Seasonic Prime Ultra Titanium 850W
Mouse Logitech MX Anywhere 2S
Keyboard Matias RGB Backlit Keyboard
Software Windows 10 & macOS (Hackintosh)
could that be because of the water block not fully covering the GPU or lack of TIM? Compare surfaces between the air cooler and the water block, or maybe the water channel isnt cut close enough to that spot.


It has been reinstalled multiple times for standard maintenance, and have not had different results from any of them. I always check TIM coverage by installing, pulling apart, inspecting, OK LOOKS GOOD, and reinstall for good. GPU temp is in normal range, as is hot spot, this is just an observation that was different from expectation. its an EK water block, and believe it was built fine. I didn't expect the hot spot differential to be greater on H20, but it seems to be related to an aggressive OC using max settings where the card is stable. ~20*C differential on air that I saw is normal on water also when using stock settings....and in fact, I was undervolting when it was on air which should have made it less. So had I not undervolted, I bet the differential would be higher there too....so all seems normal to me. I also should mention these are the max readings, so just momentary spikes, and not where the card runs for the majority of the time. Also only get those max hot spot temps when doing something stupid like trying to play a game at 4K max ultra settings when it should be on 3200x188, or 2K or even 1080p lol.
 
Top