AMD Ryzen 3000 Undervolting Offset vs. Override | Vcore Voltage

Article here! www.gamersnexus.net/guides/3494-amd-ryzen-3000-undervolting-offset-override
Watch our AMD R7 3800X review here: th-cam.com/video/PAGQwWDyURI/w-d-xo.html

Thanks for the follow up! I'm not sure at this point whether the 'clock stretching' is closer to a bug or a failsafe to keep the CPU running.
Great content piece as always and hopefully we can all get some rest soon lol.

I just want to say thank you for all the hard work you guys do, really impressive what you managed to test so far and i really highly appreciate that.
So thank you.

I see this as a good thing, instead of crashing, it slows down, which is a much better alternative for most people. They just need to implement a way for you to tell that his is happening.

2019 Belle Delphine sells bath water
2020 Steve sells GN overclocking water

We're like cavemen poking and prodding alien tech monoliths in trying to figure out how these Ryzen chips behave.

The blue bars on the side are a nice touch.

I just watched this whole video and didnt understand one thing! So proud of myself lol.

Good job once again. I particularly like the way you were clear in stating this was not meant to shame the person who did the original video, and kudos to them for taking it down once they realized the data was wrong.

I've been using a -0.125 offset with an LLC of 2 on my 3900X in the Crosshair VII Hero since I got the CPU. My Cenebech scores improved slightly and I got 15c lower idle temps and 5c lower temps under full synthetic load. I started doing this because the Asus bios on the C7H seemed to be putting more voltage through the CPU (up to 1.5v at idle). AMD has since explained the high idle voltage on Reddit, but I'm happy that it allowed me to stumble into the benefits of using a negative offset on the 3900X.

One question, why are you not at a million subscribers yet GN? The quality of the data you provide and nearly flawless presentation allows for you to easily attain these viewership numbers. Like always, best of luck's and fantastic work for the entire GN team.

One of the few no bulshit channels on TH-cam

Recently I noticed this behavior while tuning my Vega 56. Voltage at 975mv p7 seemed stable, clocks were at ~1620mhz while monitoring, but during games I was actually losing 10-15 fps compared to 1075mv.
Temps definitely improved but at the cost of performance, even though the numbers all looked good during stress testing.

Great set of tests. I was exactly looking for something to do with performance and temps when the Vcore is lowered for reduced power consumption. Looks like undervolting does wonders for cpu temp and power!

I'm running my 3600 at 1.168v 4000Mhz all cores, using the Ryzen Master software. If I go one step below at 1.1624v, the system crashes
Cinebench R15 Scores
Stock Profile - 1577
Undervolt - 1588
I'm using a stock cooler btw
My explanation would be that during stock settings, the V rises to 1.4s to touch the maximum boost clock but then it heats up the chipset instantly to 75 degrees or so and it throttles it back.
Using the undervolt, the temperatures don't rise as much and that's why it's able to stick to 4000Mhz. Also that people would say the software reports incorrectly, well if I underclock it a little more it doesn't send. Which means that it is in fact sticking to the voltage I'm giving it

I got 3900x with a x570 taichi at -160mv offset completely stable, my temps decreased about 10-15° and i haven't noticed any performance loss

Even with the performance loss which looks to be 20% at 1v on the 3900x it still seems the improvement in thermals is something that in certain builds might be worth doing if you want to put it in an ITX build with limited cooling. It would be interesting to see more numbers on what the performance loss vs thermals improvement looks like at other under voltage amounts. Interesting video as always and keep up the good work.

I can't believe that Ryzen 3000 has been around for so long, holy crap.

"Its not wise to undervolt Matisse, unless you enable the OC-Mode (fixed frequency).
That's because the CPU is constantly monitoring its supply voltage.
When it sees the supply voltage below the desired level, it starts increasing the VID request from the VRM controller.
When the VID request increases above the maximum voltage allowed by FIT, the clock stretchers will kick in. Your performance will decrease, despite the change is not visible
in the frequencies diplayed by the usual monitoring software.
For example on the 3900X sample I have, the default VID request during CB20 NT is 1.3125V.
With the offset set to -25mV the VID request raises to 1.33125V or so. At -75mV the VID request is already 1.36875V and increasing the negative offset any further will trip the stretchers.
There is an undervolting margin available, but it is tiny.
The exact behavior will depend on the silicon specimen and the workload.
Its also the very reason why this guy thinks he is running at > 4.2GHz with just 1.00V..."
Source: www.overclock.net/forum/28044514-post7.html
Here's a user's own UV testing: www.reddit.com/r/Amd/comments/cfdog5/realworld_3700x_analysis_and_other_ramblings/

Kudos for the way you have the time bars on each of the slides. It helps me find the slides I am looking for when searching back. Even more important is the way you do a time bar for each question on Q&A sessions. Very helpful. Thanks

Just make sure your getting proper rest. your smashing it out of the park and really dig deep. cheers mate.

Optimum Tech, the KING of compact builds!!! Excellent youtuber.

This is very interesting, I honestly never really thought about it like this. I want AMD's explanation follow up for sure.

Power figures would have been nice so we could see how the performance per watt changes when severely undervolted.

Could you please do a deep dive into memory Frequency & Latenzy scaling inkl. IF OC too - that would be so awesome!

Just want to say thanks to the Gamers Nexus team for all the awesome detailed content you have been producing lately. Keep up the awesome work guys! It great stuff to watch a learn more from.

Optimum Tech is a great channel! You guys would love working with him!

Best balance I've been able to find for my 3700x is setting a negative offset of 0.09 while also enabling PBO with 200mhz. As I understand it, the PBO setting kind of counters the negative offset, but not the extent that it ever really over volts like it did stock. My out of the box vcore was damn near 1.48 under load on an Asus x470 gaming-F, and temps were in the mid 80's in cinebench r20. Now my temps don't exceed 76 in the same test, and my vcore under load hovers between 1.34-1.39. My cinebench score actually slightly improved, and my multi core results are consistently between 4,865-4,900+, while my single core is 495-499. I think this slight improvement in results and thermals mirrors your results on your 3900x with negative 0.1 offset.
Idle temps also dropped from mid 40's and 50's to low to mid 30's now. Gaming temps in really cpu demanding games like BFV are in the low 60's , and most games stay in the 50s.

After watching this video, I decided to do a performance validation on my undervolted Ryzen 5 2600X. Running Cinebench R20 twice with stock auto voltage and my -0.1V offset, I noticed that the undervolt led to a 2% increase in all-core performance with no change in single core (with a noticeable change in boost frequency from 3975 MHz undervolted down to 3850 MHz at stock auto voltage), a 2-4 degree reduction in CPU peak temperature, and a 3-5 watt reduction in power consumption as measured by my UPS.

I've had the best experience limiting the watts limit. Even a small limitation of this option has a very positive effect on the temperature. Without losing much performance .

Thanks for the explanation! As always, I love the deep, realistic done into the performance hinders the CPU BIOS changes. Thanks!

I personally have found a sweet spot for the old 2700x at 1.2v fixed voltage with 4ghz on all cores. Temps and consumption are down (the spikes of the auto boost are crazy), multicore performance slightly better, single core workload slightly worse!
For me it's a win-win better performance with locked 1.2v instead of 1.45v spikee

So decreasing it down to 1 volt lowered heat output rather dramatically, and also lowered performance as well.
Though, did power efficiency improve or worsen?
Taking the "CB Mark" for CineBench R20 nT score difference, where the 1 volt undervolted one performed 80.8-82.5 % of stock.
And the corresponding graph for the temperature Tdie, where we can see a reduction from about 60 C down to about 30-40 C, and if we say that the ambient temperature were a constant 25C, then we could say that the power dissipation reduced to only about 30%, though extremely rough calculation based on the idea that a heatsink has a linear delta-T/watt figure through its operational range, this would mean that the CPU's power efficiency is about 2.7 times higher. (I would say that seems unrealistic.)
So an actual power consumption comparison plot would have been far more interesting, then the Tdie plot in my opinion. (Since Tdie will greatly vary with what heat sink one has, the power consumption would mostly be effected by clock speed and feature utilization on the die itself. (leakage currents are though temperature dependent.))
In the end, how much did the power efficiency actually improve? If it improved at all. Could be useful to know if running these in servers or the like.

This is super interesting stuff! My overclocking practices generally involve simply running Prime 95 for 10-20 minutes to make sure my voltage is stable for the clocks I'm getting. I'll have to keep this in mind as I start tuning clocks on my 3600.

Hey guys sorry to nitpick, but volts * amps = watts (power). You have it messed up in the description.

does any of this (or anything similar to this) apply to other CPU architectures like skylake? when I was undervolting mine I had this thought that perhaps even though the frequency was stable and it wasn't bluescreening, the scores might have actually been getting lower and/or the CPU might be encountering some micro faults or other interesting issues like increased DPC latency. the reason I had this thought was because hitting the lower volt limits (I got to 1.21v on 4.2ghz all core on a 6700k) seemed to give me the occasional quick 1 second "bzzzzzz" system hang (not a bsod, it would go back to normal right after) whereas with increased voltage this wouldn't happen.

Thanks for another eye opening segment . Had a strange feeling about things when a Ryzen 5 3600, already overclocked to 4.5 GHz and started at a Vcore of 1.38V, seemed to gain some serious thermal headroom with each decrease of the Vcore value. Ended up not going any lower than 1.5V ( in Override Mode) before I started having concerns and questioning a too good to be true scenario. Then I stumble upon this. Thanks for ALL the great research and crunching GN & team.

This is entirely over my head, but fascinating to watch anyhow 😁

I undervolted my rx 570 all the way down to 970mV at its stock speed of 1250MHz, and got a very, very slight possible improvement by +1 fps on average in benchmarks, but also about a 20C drop in temps, with the max temps eventually settling around 67C in furmark without even having to spin up my fan super loud. initially I'd tried overclocking it, but had pretty abysmal results, and i could barely even get it stable at 1300MHz. so i tried undervolting instead and I guess I just got a golden undervolter. I've decided im pretty happy with the stock performance at this point, given how little power its sipping and how little heat its producing.

I've been messing with undervolting my 3900x with a negative -0.1000v offset, now while my machine's performance was sort of on par, Cinebench etc were fine, did some x264 encoding , but it was completely unstable on idle, it would bluescreen as the voltages dropped to low.
That wasn't straight away, this was after a good 30 minutes of idle.
A -0.050v offset is stable on both load and idle, but temps jumped up by a good 7 - 9c in Cinebench and AIDA64 stress test.
Coming from Intel it's been a whole new learning curve with Ryzen 3000.

Undervolted R5 3600 with Ryzen Master 1.18125V @ 4.2Ghz and it works like a charm (air cooling). Temps down few celsius and Cinebench R20 went up 3460->3810

Awesome work! Love your content. I send my friends to your channel when they are looking for info on what hardware to buy. You and buildzoid are some of the hardware youtubers I actually trust.

I'd like to know the real reasons the 3000 series is volted the way it is. I personally and hav seen from countless others, that lowering voltage to around 1.25-1.275 (peak) results in much lower thermals and as good or better cinebench scores +/-2%. AMD must have known this. What is going on there? Something to do with peak/consistent max clock preformance?

Been playing with my 3700x since getting it, I've found 2 things that have helped performance, thermals and voltage with my ASUS X470 PRO. Simply setting the vcore to an offset of -100mv kept things quieter, cooler and performance was almost identical, another way was I had it running at 4.2Ghz 1.352v, I've noticed at stock it will run at 1.331-1.362v during an all core 4.2-4.3 boost, I've never seen it actually hit 4.4 yet, I just can't stand those voltage spikes while idle which cause the fans to ramp up like crazy for no reason, even with a very strict fan curve so I think I will be keeping it running at 4.2 1.352v, I know there was a post saying Ryzen 3000 series shouldn't go further than 1.325v for all core but I honestly don't believe that at all seeing as it is doing higher than that at stock when all core boosting, also cores can still sleep and slow down even with a manual overclock which is very interesting, even though HWiNFO doesn't display that, Ryzen Master does show lower core clocks and sleeping cores even with a manual overclock set

I tried a 3600 at 1.325V and 4.125GHz, it reaches 72°C on booster. In Stock it was 85ºC
It gets 1567pts on CB15 and it was 1508pts in stock.
I used AMD Ryzen Master program to test.

Your mileage may vary depending on your setup. On Asus X470-F Gaming + R7 2700X + Wraith Prism combo undervolting with vcore offset is beneficial. Because on default Asus X470-F Gaming outputs ridiculously high vcore and that heats up the cpu too much with Wraith Prism boxed cooler. When setting vcore offset to -0.1 you get higher boost clocks that stay on longer and your idle/surfing temps decrease thus leading to quieter system. After vcore offset of -0.1 the CB15 score went up quite a bit.

Yep, undervolting outsmarts the pbo, because temperature becomes at some point most important factor on boost

The best thing I got from this video was that unlike mine, your 3900X actually consistently stays at max boost clock during a 1T R20 run.
Mine at default settings runs about 300 MHz lower and I can't improve on it at all.
I sure hope a BIOS or X470 chipset update will fix this.

I don't get what the deal is with people here demanding to see the 0 on the vertical axis. If there is no useful data crossing the area and it's not a bar chart or a histogram there's no point in showing a blank plot. It can't be that difficult to read the scale and range from a graph. It's completely common practice to adjust the scale in order to use the plot area most effectively, there's a reason why programs adjust the scale by default.

A -.13V offset bumped my single and multi core scores in C15 and Passmark on my 3900X - better than forcing a 1.352V
I'm on an ASUS Crosshair VIII Hero which appeared to have high voltage at idle and load.

Hold on...
I tested this and benched. I explained how and why in the video.
The boost and core variance in the algorithms, works in a fashion.
Now the temp and voltage are microcoded, if the temp is lower the clock will rise.
Buy reducing voltage at the core, this lower temps and boosts are higher and bench results.
I did not push as low as 1v.
I did lock voltage at 1.225 and 1.32 and 1.35 as well as 1.37.
But I let the other compensation run to allow compensation and also not.
On total lock, there was no boost. (As you would expect) however due to science or ohm's law, by adding current, you could get a higher speed with lower temps.
On the video I did this is shown at 0:32 showing a boost clock of 5.1ghz
There should be some bench results in the video.
When I did the video it was more for the lower temps and expected performance. It just so happened to jump up more than expected.
Testing was performed over a week and serveral benches were ran to check the results.
However. Due to the performance variable being as it's software and algorithmic, the results varied constantly.
CB R15 varied by 200 points on the same clock speeds and settings.
In monitoring all bench and performance results, all hardware with "energy saving" and " boost stepping" would not consistently boost or peak clocks at the same times. This resulted in a significant difference in results, by up to 4/700 points.
The only thing that actually remained a constant was temperatures. (Actually was was required).
However as you have said, all chips and configurations are different and you do get silicon lottery. Therefore one processors result can and do differ significantly in some cases. Therefore this result may not transfer to all CPUs or motherboards.
However a key point is that the voltages on the processors is too high and is not required, this is not saying setting a low core is the right solution. But the processors need to run cooler.
And it appears the stock software does not manage voltage well at all. But this maybe a glitch in mine.
Hope that puts some light on the subject.

So it accidentally auto-underclocks itself. I underclock all my stuff anyway to gain back efficiency. If I lose 5% performance and 20% power then I see that as an absolute win.

I noticed same with my 2700x before. I don't think it's a bug, more like precision boost works. Clocks are set based on actual temperature, power limits, voltage delivered! Etc. You deliver less voltage, frequency doesn't jump as hight.
Same with PBO - all it does is set much higher power limits AND raise CPU voltage. Result are higher frequencies set by Precision boost.
Its like that since Zen+.

Nice to see everyone is enjoying their AMD experience.

I got my AMD Ryzen 5 3600 to undervolt 1.100 volts at 3.9GHz all cores. 32GB DDR4 3200MHz to 3400MHz. No crashes stays cool and perfect performance. Thank you!

Just got a 3800X for my old B350 TUF board to replace my 2600 and noticed it was super hot in comparison - offsetting core voltage by -0.1v lost about 4% performance in Cinebench multithreaded and less than 1% single thread, but -0.075V lost no performance at all and dropped my max temps under load by 6C.

Thanks to playing with this I was able to set my Ryzen 5 3600 at locked 4Ghz at 1.15 volts and not only I got rid of the saw-tooth reports in monitoring software but my CPU runs stable at freaking 18'C cooler. All tests like furmark and cinebench, 3dmark report same or slightly higher values. Still worth it for almost 20'C reduction of temp. Either it actually works or I was very lucky with the chip.

It simply boils down to temperatures. If undervolt causes temps to go down enough (65-70c om 3000 ryzen) it may not loose as much performance if it's running hot. that may be called gain. If temps are decent you may or may not loose as much.

You shoudl do a test with eco mode. I changed my 5800x on the master to eco mode 65w and it still runs 15661 in cinebench and while gaming with a 3090 it runs at 5 to 10% and even lower. So for gaming eco mode is a must use in my opinion

I underclocked my ryzen 3600x to 1.2375 volts and fixed the voltage to 4.125 and it’s cinabench r15 only went down 20 points and dropped 20 C, although I am bound by thermals as I have a hyper 212

The takeaway for me (oddly) is that my cheap Asus Prime B450M-A allows the R5 3600 to perform just as good or better than the expensive boards used in this test. My single-core Cinebench R20 result is 486, and that's with CBR20 running in WINE on Linux, and multiple desktops loaded up with other applications, including a Windows 7 virtual machine. Unbelievable what this CPU is capable of, even when paired with a sub-$100 MB.

I use another method, the kingdom come deliverance initial screen, in window mode at the lowest resolution possible with the lowest settings possible.
This is my cpu vs my cpu in various power plans, so no problem related wit that one "shilling situation". The monitoring tool is the HWinfo.
I've tried all possible overclocking scenarios and the voltage is still spikes like crazy without any meaningful effects.
So the best scenario is to let everything stock in the bios and overclock only the ram and put the Ryzen power saving plan in windows. The performance is nearly the same, without seeing the voltage and temperature spikes bouncing all over the place.
I use the Vega 56 and the fps is 270 with the low power and 286 with the maximum performance.
Also the voltage stays at 1.31 under 100% load and 1.38v boost.

Look at derBauer his video on CCX-overclocking. Interesting stuff, especially for the 3900X and 3950X.

I maxed out PBO and put about a -.08 offset on my zen+ / 2700x system and get insane results. 4.3 ghz all core with any submaximal load. You said these tests were done with PBO off right? I'm curious if buildzoid's offset instructions still apply.

So between this video and the one testing boost clocks and temperature. I finally have my 3800x boosting past advertised max. Before I couldn't get it to boost over 4.3 on any core. Even under water cooling CTR identifies my chip as a bronze sample, it doesn't OC well at all.
I picked up a Freezer II 420 and fitted it in my case with some modification. Then started playing with PBO and voltage offset. Now I'm running a -0.1250v offset and hitting 4.6GHz on any given core. Holding 4.4GHz in a 20min CB20 loop never going of 61°c. Not only are my benchmark scores finally equaling the 3800x averages they're even a little bit above average. Finally feel like I'm getting what I'm supposed to out of my CPU.

I undervolted my 3800X and used PBO. It now holds 4.3ghz all core boost and scores higher in Cinebench R20. 5160 where my previous score all default was 5010 and it would hold just under 4.2ghz all core boost. Temps are never breaching 60 now at full load where as before they could go up to 70. So yes........it works.

7:45 -- 5 gold stars 🌟 🌟 🌟 🌟 🌟 for understanding and pointing out a non-zero axis.

r5 3600 owner here, my solution was to high temps and voltages (85+ and 1.4v+ on cinebench r20) after reading/watching/trying lots of online solutions was firstly replacing the awful wraith stealth with a £20 wraith prism. That dropped temps nearly 20c instantly, then, when trying lots of different bios configs I set my multiplier at 39.75 and no PBO and now my CPU does not get any hotter than 75c on 20 min run on cinebench and still scores over 3600 points consistently only a tiny bit lower than my stock scores, now the voltage never goes over 1.2v and have not noticed any degradation in performance in daily use, when I set my multiplier to 40x the voltage went up to 1.3v and the temp another 7-8c so I put it back for a cooler, quieter less hassle PC experience.
R5 3600, 2 x 8 gb Viper 4 3200mhz, MSI B450M Pro VDH Max, Gigabyte GTX 1060 Mini OC 6gb, Coolermaster G650M PSU, Phantek P300 1x 120mm 3 x 140mm, Samsung 850 Evo 240gb, Seagate 7200 1TB. Built to a very tight budget, I know some stuff could be better, GPU next.

AMD 5600x here on MSI B550 Gaming Plus, 240mm aio water cooler. Ddr4 xmp enabled 4000mhz, fclk 2000mhz Infinity fabric 2000mhz (1:1), PBO AUTO. Custom per core negative offset core1 - 25 core2 - 17 core3 - 17 core4 - 20 core5 - 25 core6 - 17. Vcore negative offset 0.1500v. LLC and scalar AUTO. Cpu temp runing 12 celcius lower. Cinebench r23 score 10860 (Max temp 64,5c), stock cn r23 score was about ~ 10700. Hwinfo during throttling test shows cpu frequency ~ 4625mhz, cpu effective frequency ~ 4280mhz. So undervolt negative offset off -0.1500 on Vcore and setting custom negative curve offset per core got me significant less temperature, less fans noise (on windows absolute silent) and a little better multicore performance. No wheas errors. Cn r23 stability test passed. Playing warzone at 48,6 celcius average temp, pc almost silent, before was 56c.

AMAZING! The new Ryzen CPU's are really Cool for all Tech Nerds. Every Day we find some new things

Machine: Msi B450x Mortar Max, R5 3600, AIO CPU cooler. readings all from ryzen master.
[ ryzen master manual mode, all connected 4.2GHz @ 1.1v, CB Marks 3582, FSB 1866, cpu temp max around 58c, cpu power around 45w ]
[ ryzen master manual mode, all connected 4.3GHz @ 1.15v, CB Marks 3666, FSB 1866, cpu temp max around 65c, cpu power around 50w ]
[ ryzen master PBO mode, voltage excluded, CB Marks 3312, FSB 1866, cpu temp max around 74c, cpu power around 78w ] (cpu frequency goes around 3.9GHz automatically)
i'm really not good at playing with ryzen, i must have something set wrong since with all bios settings at default, one click PBO setting always give around only 3.9GHz and temp goes through up the roof. but now manually set a fixed cpu frequency and a lower voltage still gives better results.

I have my 3600 set at 4Ghz on 1.3v and returned my X570 board and kept my X470 as it doesn't use as much energy and less heat.

Interesting info and seems to pretty much mirror what I have seen, my 3900X was running at 1.42v out of the box (ASUS Strix-F, BIOS 4012 - still not updated). I manually set it to 1.2v - worked fine but only boosted to 4.1Ghz. Now running 1.375v (shows as 1.38v) and it boosts to 4.55Ghz - still can't get that 4.6, might have to try 1.85v.
Temps at idle are around 36 now (was 49 at stock - but I also had a crap mate with the water block which did not help), but does climb into the 70's under god load - running Handbrake 1080p encoding. If I run the radiator fans at max speed it never gets above 76 though.
Not going to update the BIOS till a lot of the issues are worked out - but I do wonder if most of the behaviours (temperatures, voltages, boosts etc) are all down to very immature BIOS/AGESA? Either way, the 3900X makes light work of most things :) I should also point out the the 4012 BIOS for the Strix-F mucks the RAM voltage right up, so had to fix that manually as well.

interesting glad you made this video cause i planned undervolting my cpu due partly pairing with a b350 gaming f and hoping it would assist vrm temps. in the past ive undervolt fx processors but never verified if performance degraded

Optimum Tech rulez dude.

This is probably tied to Ryzen throttling behavior also seen on Threadripper Zen+. When CPU overheats, Vcore is dropped like a brick (to about 1V actually) and performance obviously tanks. So the flat value probably invokes throttling, specifically maybe EDC throttling in this case? (Low voltage, CPU still wants similar power but can't get 50% more current.) Or special separate failsafe mode.
This is for use in laptops, I suppose. I'd check if PBO affects the behavior in this scenario. It might.

yeah, nvidia pascal did the exact same thing. Truthfully Radeons do not, but stability flies right out of the window though... even if performance 'actually' improves.

I wonder if Steve is planning an individual ccx overclocking video. Der8auer had some success that way. Seems like the best method of overclocking so far. I'm just hoping board partners start implementing it into their bios.

I started messing with Vcore on my 3700X literally a day ago, this is precisely the video I needed.

Do DDR4 speed dependancy benchmarks next

When I offset-undervolt Ryzen 5 3600 the clock speed goes up a little bit, BUT the max cpu usage CAPS OUT at 87% on all cores (clearly visible in task manager). Resulting in less power consumption and less MAX performance (like cinebench), but non-CPU intensive use scenarios (like gaming) might actually see a benefit still. Only validating with cinebench has its downsides too.

the fact these nodes can boot and be stable at 1v shows that Ryzen 3000 on mobile, is going to be pretty bad-ass... I mean, stable at that low, yes it's 3ghz, but seriously that's really decent. lock the mobile chips to 1.2v and temps and frequency probably would be pretty impressive in a mobile part.

The thing I hate with 3000 series is the insane voltage jumps, and this is the reason most people want to control the voltage.
Im not sure is there any difference between my copy of the 3600 and the gamer nexus but this is what I found to be true.
Undervolitng works, at least it does for me.
The things i changed in bios where: clock multliplier, vcore voltage, and xmp for my ram(3200)
After playing a while I get:
1. 4.2 ghz, vcore: 1.075V (cinebench: 3642 cpu temp:74)
2. 4.0 ghz, vcore: 1.000v (cinebench: 3485 cpu temp:71)
System:
Asus b450 itx strix
Ryzen 3600, noctua nh-l9a-am4
HyperX Fury, DDR4 3200MHz
gtx 1660 super
fractal node 202

Severely drop the temperature without compromising stability, but at a compromise for performance? Sounds like a laptop CPU ... AMD would definitely consider this a feature

I've definitely found a small performance decrease putting my 3600 at 1.1625v, but the temperature difference is huge, in an HTPC mind you, so the temperature control is the point.

i have used ryzen master to undervolt to 1.25625v and a 4200 clock, i get higher r20 score and lower temps (3500 to 3775 on my 3600) very good results.

I flashed the latest MSI B450 Tomahawk bios for 3000 chips even though I have a 2700x.
I gained 500 points in Firestrike and system is very stable.

I dropped 5 degrees from my idle temps with an undervolt to 1.35, from 1.45 on my 3900. Also took the system to 4200mHz all core, and saw a 200point cinebench improvement. Will try with the voltage at 1.45 4200mHz just to see.

I have seen so many articles and even had people sending me links to it, AMD Zen 2 undervolted 1V outperforms Zen 2 stock and only 2% behind Intel in gaming.
It also seems people still have this idea stuck in their heads that going over 60-70c will kill your CPU, when in fact a PC running 90c underload will probably last just as long as one running at 60c, or it will last for a good 7+ years to the point you would not want that CPU any longer. I ran my 4770k at 80c to 90c for nearly 5 years, 1.36v to hit 4.7Ghz, around last year it became unstable and so I dropped it from 4.7ghz to 4.5ghz at 1.3v, and then 4.4ghz at 1.2v because the extra 100mhz was not worth .1v and the extra heat and noise. I could still run it at 4.6ghz at 1.35v but I no longer have a hot loud ass GPU so the extra 200mhz is just not worth the added noise and extra heat cooking me.
I also have an OEM GTX 260 that I loaded a custom BISO in allowing me to hit 936mhz I think on the graphicsclock along with like 150-250 more on all of the other clocks, and it ran 24/7 at 85c and when I gamed it would hit 90c/93c for 5 years until I upgraded. When I upgraded it started hitting 96c to 103c and ran at 89c 24/7, I took it apart cleaned all of the coal dirt out of it and applied some kind of thick Articsilver even where thermal pads should have gone and it dropped 20c in Temps down to 78c and only 85c when gaming. It is still running in my old system in the basement at like 75c 24/7 because I am too lazy to find the stock BIOS.

I undervolt my R5 3600 at 1.225V with 4ghz. Finally, my idle temperature is stable at 38°C~41°C. Running smoothly

My new ryzen 3600 build is having serious problems. Hitting 70c at idle, fan speeding up and down by the second, terrible network speeds. I dont know what to do tbh.

this is good to know, thanks. I have a -100mV offset for my 1600 and I believe I'll need to remove or reduce that when I plan to upgrade to a 3700X

The reason is big difference between cores in Zen2 architecture.With undervolting are not all cores perfectly stable. More about it wrote The Stilt.

i saw that video, seemed legit with all the comparison tests. but yea with new devices being tested in different configurations it can get a bit tricky to work in ways you want it to.

on my system which is r5 3600 on an msi x570a-pro i got the following results (16gb RAM Gskill tridentz Neo 3600mhz 16gtz)
1. stock up to 1.4v, up to 4100mhz = 3601 cb score at peak 80C temp
2. 1.29V peak, locked 4300mhz = 3814 cb score at peak 75C temp
3. 1.275V peak, locked 4300mhz = 3826 cb score at peak 73C temp
4. 1.26V peak, locked 4300mhz = 3815 sb score at peak 73 temp
So I guess what best would work for me and the chip I got would be 1.275 locked voltage with a slightly oced frequency
That being said, this is me posting more than a few months after this video and a couple msi bios updates as well for x570 ..

Got my 3600 at -0.625 V; any lower and CPU benchmarks start to drop.
Just wish it would downclock at idle the way my 2600 did - the temps on this one bounce up and down like a flea on crack.

now while there is lower performance at 1v it still wasn't bad considering the huge power and heat drop it really makes the zen2 laptop processors an interesting proposition

I have managed -.1V Vcore offset on my r5 3600 with only a 20point difference in cinebench R20 and got 10C lower temps while stress testing with aida64 for 15min

this video inspired me to undervolt the other day. i got the 3800x running at 1.25 volts at 4.33 ghz. starting out my scores were the same then worse then better.. i tried running it at 4.4 ghz 1.36 volts and actually performed worse than 4.33 at 1.3 1.28 1.26 and 1.25. my cinebench scores were close to 4900 stock. now im pushing 5200 in cinebench. temps are riding around 72, occasional spike to 82 if some background app is trying to load up during aida64. but ive had it stable at the 72 for pretty much an hour in numerous test. it took a couple hours of testing to be sure i was getting results. i hope this helps someone out.

Navi power-play tables!!!