WEBVTT 00:00:00.040 --> 00:00:06.919 today is a good day because I have everything I need 230 L of liquid 00:00:04.160 --> 00:00:12.519 nitrogen this rotten apple this giant hunk of copper these tongs the one and 00:00:09.719 --> 00:00:18.240 only Alan spave gers such current world record holder for 12900 K and 12900 K 00:00:15.480 --> 00:00:22.519 overclocking and of course this map gas torch what are we going to be doing with 00:00:20.080 --> 00:00:28.080 them we are going to be overclocking why you ask I'm glad you did because it's 00:00:24.800 --> 00:00:32.599 the day of Our Lord June the 9th and we 00:00:28.080 --> 00:00:35.320 desire a 6.9 G gz CPU nice like this 00:00:32.599 --> 00:00:40.039 message from our sponsor ug green make charging more convenient with ug Green's 00:00:37.200 --> 00:00:45.120 new 65 W charger it's a 3in1 charger that has two USBC ports and a USB a port 00:00:43.120 --> 00:00:49.879 in a super compact form factor that fits in the palm of your hand get yours today 00:00:47.039 --> 00:00:55.039 using the link down below step one get liquid nitrogen from this through the 00:00:51.879 --> 00:00:58.359 phase separator into this 00:00:55.039 --> 00:01:00.559 woo it's freaking me out guys how do we 00:00:58.359 --> 00:01:04.720 tell how full it is we can't see a thing also my hand's very cold he why do you 00:01:03.199 --> 00:01:09.880 drive a Subaru stranger things how you doing 00:01:07.720 --> 00:01:13.159 there hosie boy the next step is obviously to play with it for a bit what 00:01:11.880 --> 00:01:16.600 is it a minus 195° yeah the fact that it's still 00:01:15.159 --> 00:01:23.759 boiling around the apple means it's not quite Frozen through yet right you got it drink your 00:01:19.720 --> 00:01:26.159 juice all right come on banana buddy 00:01:23.759 --> 00:01:30.439 okay ah you should probably put on some 00:01:28.000 --> 00:01:34.799 safety glasses you'd hardly even believe that was a 00:01:32.119 --> 00:01:41.399 tangerine once I guess we should get to work now 00:01:37.920 --> 00:01:43.520 huh watch out watch out God oh wait it 00:01:41.399 --> 00:01:47.640 it broke through whoa our buckets leaking crap this is where it was 00:01:45.200 --> 00:01:50.439 sitting on the floor yeah the epoxy that's there I guess froze with that out 00:01:49.280 --> 00:01:55.119 of the way let's fill up a more reasonable sized container from lpt 00:01:52.640 --> 00:02:00.200 store.com and talk about why we want liquid nitrogen for overclocking at all 00:01:57.560 --> 00:02:04.439 woo see the thing about microprocessor is the faster you run them that is more 00:02:02.200 --> 00:02:09.080 gigahertz the more heat they generate and as they get hotter their internal 00:02:06.640 --> 00:02:15.160 resistance goes up generating you guessed it even more heat this creates a 00:02:12.280 --> 00:02:21.200 kind of hard barrier to how fast you can go that's why we don't have 10 GHz CPUs 00:02:17.800 --> 00:02:24.000 today but what if you could remove all 00:02:21.200 --> 00:02:29.239 of that heat as efficiently as possible say take it down to greater than 00:02:26.560 --> 00:02:33.680 170° C well that's where this buddy comes in but it's not as simple as just 00:02:31.680 --> 00:02:37.879 taking your CPU plunking it into the motherboard and dumping liquid nitrogen 00:02:35.599 --> 00:02:41.599 on it for reasons that you might not necessarily think of it's not the liquid 00:02:39.760 --> 00:02:45.440 nitrogen that I'm putting on this board that has a chance to kill it it's 00:02:43.200 --> 00:02:50.200 actually the moisture in the air around us you see as that moisture contacts my 00:02:47.959 --> 00:02:54.040 cold board is going to condensate or turn into liquid water which as you guys 00:02:52.440 --> 00:02:58.440 can imagine having sitting on a motherboard is a pretty bad time things 00:02:56.280 --> 00:03:02.959 like closed cell foam dialectric grease artist eraser and shop top towels are 00:03:00.519 --> 00:03:07.159 great tools to keep air and therefore moisture away from your sensitive 00:03:04.760 --> 00:03:11.400 Electronics however this particular board which was prepared by spave is 00:03:09.560 --> 00:03:16.040 using a technique that I haven't seen before it looks almost like a conformal 00:03:13.480 --> 00:03:21.239 coating what is this this is a liquid electrical tape oh I ruined too many 00:03:18.720 --> 00:03:24.159 clothes with Vaseline okay fair enough now the key knite among our viewers have 00:03:22.799 --> 00:03:28.159 probably noticed that you didn't just blanket the whole board in electrical 00:03:26.159 --> 00:03:32.680 tape and in fact it seems to be built up in thicker layers in certain areas 00:03:31.000 --> 00:03:35.200 obviously you don't want any moisture in your vrms with the kind of current 00:03:34.159 --> 00:03:42.519 you're going to be running through there it would Arc much more easily but can you explain the rationale behind why you 00:03:38.959 --> 00:03:45.480 might say coat the audio chipset but not 00:03:42.519 --> 00:03:50.200 coat the motherboard PCH the motherboard PC is going to be pretty warm as it is 00:03:48.560 --> 00:03:54.200 and when I don't run a cooler on it to let it get warm so it kind of acts as a 00:03:52.159 --> 00:03:57.720 defroster in this area and then would that be the same thing for the bottom of 00:03:55.760 --> 00:04:02.239 the board here or yeah it won't really get this far but a heat backboard heater 00:04:00.439 --> 00:04:06.280 and the chipset and the vrm will'll keep it pretty defrosted printed circuit 00:04:04.239 --> 00:04:10.480 boards are made of copper and copper as you guys know is an excellent conductor 00:04:08.280 --> 00:04:14.400 of heat and also cold so if we put something really cold here it's 00:04:12.319 --> 00:04:19.799 conceivable that if we didn't have other heat sources on the board this entire 00:04:16.720 --> 00:04:24.800 thing would get really cold really fast 00:04:19.799 --> 00:04:27.880 that's a heater oh I see how fun is this 00:04:24.800 --> 00:04:30.600 this is a giant freaking CM thick 00:04:27.880 --> 00:04:37.880 thermal pad delicious and under it is what is this 00:04:34.960 --> 00:04:41.600 an eot who makes this Elmore Elmore is another famous overclocker and you guys 00:04:39.479 --> 00:04:46.080 are all you guys are all bitter enemies Yeah so basically all I'm really looking 00:04:44.120 --> 00:04:50.919 at here is pretty much the same thing you'd find on your rear car window for 00:04:48.680 --> 00:04:57.840 defrosting it's just High Resistance wires on a PCB so you just use a simple 00:04:54.919 --> 00:05:01.479 six pin PCIe and then it basically just goes yep Heat this boy up the next 00:05:00.199 --> 00:05:06.320 weapon in the extreme overclockers Arsenal that I am familiar with is of 00:05:03.720 --> 00:05:10.960 course the pot now these can be designed for various substances dry ice liquid 00:05:09.199 --> 00:05:14.960 nitrogen liquid helium I would imagine you use pretty much the same design for 00:05:12.800 --> 00:05:19.240 helium and nitrogen and these are not just a hunk of copper they are 00:05:16.919 --> 00:05:24.000 specifically engineered to optimize the transfer of heat from your CPU to the 00:05:21.680 --> 00:05:29.160 liquid that is boiling within it now as you can imagine mounting one of these is 00:05:26.680 --> 00:05:33.479 not as simple as just you know putting a normal mount bracket on it because 00:05:31.400 --> 00:05:41.240 you've been paying very close attention any brackets or metal pieces around the 00:05:36.000 --> 00:05:43.960 CPU are going to collect condensation so 00:05:41.240 --> 00:05:49.319 we actually use a very specific way of mounting these with extremely long posts 00:05:46.720 --> 00:05:52.960 on our thermal padded heated back here and all of our Hardware way up here so 00:05:51.120 --> 00:05:56.360 that we can wrap it all up in shop towel and make sure that any condensation that 00:05:54.560 --> 00:06:00.639 does inevitably gather is going to be absorbed by that and that's it Yeehaw 00:05:59.080 --> 00:06:04.360 I'm a professional overclocker right ladies and gentlemen well no actually 00:06:02.520 --> 00:06:08.800 isn't how it works see this probe right here this is a k type probe plugs into 00:06:06.319 --> 00:06:13.919 one of these you don't just want the CPU running as cold as possible and managing 00:06:11.479 --> 00:06:19.960 The Thermals of the chip are a huge part of the art SL science SL Blackmagic that 00:06:17.840 --> 00:06:24.960 is Extreme overclocking you see for example some chips or or even entire 00:06:22.199 --> 00:06:28.240 platforms might have a bug say for example where if they're too cold when 00:06:26.479 --> 00:06:32.560 you first try to boot them they won't turn on at all you got to start them 00:06:29.840 --> 00:06:36.680 warm then cool them down or vice versa that means just as important as our 00:06:33.880 --> 00:06:41.800 application of cold is our application of heat we also need the knowledge any 00:06:39.680 --> 00:06:46.599 idiot could pour L2 on a CPU and overclock higher than they would be able 00:06:43.479 --> 00:06:48.759 to on air or water cooling but to reach 00:06:46.599 --> 00:06:53.280 the absolute limits you've got to invest in both your own knowledge and personal 00:06:51.440 --> 00:06:58.400 experience something that can only be gained through countless hours spent on 00:06:55.520 --> 00:07:01.919 this stuff and in building connections none of those are things that you can 00:06:59.800 --> 00:07:06.639 buy for any amount of money but that doesn't mean it's a cheap hobby no one 00:07:04.400 --> 00:07:10.800 even with years decades of experience could hope to achieve a world record 00:07:08.199 --> 00:07:15.720 overclock without what we call a Golden Chip as we also learned in our Intel Fab 00:07:12.919 --> 00:07:19.800 tour every piece of silicon is a little bit different and not all have the same 00:07:18.160 --> 00:07:26.639 capabilities the one that I'm holding in my hand is the result of buying 100 of 00:07:23.160 --> 00:07:29.879 Intel's 12900 K and taking only the top 00:07:26.639 --> 00:07:32.080 10 of those with one of these you might 00:07:29.879 --> 00:07:37.400 have a chance but let me get this out of the way for you there is absolutely no 00:07:34.560 --> 00:07:41.360 money in extreme overclocking whatsoever very true and the folks who do dedicate 00:07:39.440 --> 00:07:46.120 their lives to it do it for the thrill of the hunt so with that in mind let's 00:07:44.120 --> 00:07:49.960 get the fourl over with and overclock some CPUs is this one going to do 6.9 I 00:07:48.560 --> 00:07:54.879 know we can do it that's what a whole gigahertz lower than what you've done on these pretty up there still but it 00:07:53.599 --> 00:07:58.879 should be should be okay oh he's changing his tune already so now when 00:07:56.800 --> 00:08:04.759 now when he doesn't do it well I didn't say for sure actually you won that yeah 00:08:02.440 --> 00:08:07.400 oh really yeah small world hilarious what's a safe voltage that I can 00:08:05.960 --> 00:08:14.479 actually I'll just guess well we'll just see what happens I'll just go if 00:08:11.240 --> 00:08:18.280 you got the defaults you have the RGB 00:08:14.479 --> 00:08:20.240 where you want it turbo performance yay 00:08:18.280 --> 00:08:25.120 we did it what I'm really curious about now is just how fast this will go with 00:08:23.000 --> 00:08:30.280 liquid nitrogen and just stock settings like XMP just enable the power limit to 00:08:28.080 --> 00:08:37.120 go as high as it wants the highest that I've ever seen on an Intel CPU like this 00:08:33.519 --> 00:08:40.399 air cooled is about 28 00:08:37.120 --> 00:08:45.800 29,000 in cinch show negative 00:08:40.399 --> 00:08:48.959 temperatures zero yeah 0° yes oh weird 00:08:45.800 --> 00:08:51.720 but it only Drew 160 Watts even though 00:08:48.959 --> 00:08:55.480 it was 4.9 allor so that could be due to our colder temperature oh like it's that 00:08:54.040 --> 00:09:00.519 big cuz I would normally expect that to be like 300 and a bit watts do you want 00:08:58.440 --> 00:09:04.160 to try to go colder and see if we can get even less wattage well I want to 00:09:02.160 --> 00:09:08.760 open up XTU first and see what we can get sure it should be pretty happy at 00:09:06.120 --> 00:09:13.959 like 42 there we'll just take all of these to five and we need some more 00:09:10.800 --> 00:09:15.800 voltage po voltage offset let's do .12 00:09:13.959 --> 00:09:21.760 sure I'm just guessing numbers that's all I 00:09:17.040 --> 00:09:23.120 do didn't blue screen wow you a pro so L 00:09:21.760 --> 00:09:28.839 and2 is just like easy mode we're drawing 230 watts and I would expect 00:09:25.560 --> 00:09:31.200 this to normally be like 400 yeah all 00:09:28.839 --> 00:09:34.800 right here broke 30,000 points and C a bench right there that's what faster 00:09:32.680 --> 00:09:38.640 than a Threadripper 32 core yeah and we're only atus 00:09:36.040 --> 00:09:42.800 90 compared to that stupid Chiller that we have oh my God all right let's just 00:09:40.640 --> 00:09:48.680 try 6 GHz there's no way this just a 6 GHz like that oh my God it's doing it 00:09:45.079 --> 00:09:51.120 how 6 GHz on all the Pees it's only 260 00:09:48.680 --> 00:09:56.800 Watts this is insane below your typical wattage at 6 GHz holy crap 3,200,000 00:09:54.440 --> 00:10:01.000 points in cin bench just did it it's like the black hole Yeah it's just 00:09:58.760 --> 00:10:05.800 completely black this can't read below -40° C is there any hot spots on the 00:10:03.760 --> 00:10:11.600 board it's it's having a lot of trouble with a thing that's that cold around 00:10:08.240 --> 00:10:17.079 here it's confused chipsets at 40° SSD 00:10:11.600 --> 00:10:18.959 is at 47 well let's uh apply 6.4 and see 00:10:17.079 --> 00:10:24.600 if it crashes it's not fine I have more CPUs we can 00:10:20.800 --> 00:10:27.360 use no way it just do 6.4 oh it didn't 00:10:24.600 --> 00:10:31.079 you could do one thing turn off C States and you could put it on fixed voltage or 00:10:29.800 --> 00:10:35.480 saying fix the voltage normally you would have a VF curve so the more 00:10:33.279 --> 00:10:39.360 frequency that you want the More Voltage it gives it we don't care about that at 00:10:37.120 --> 00:10:42.680 all we're just sticking one voltage cuz we're going for just the highest point 00:10:41.120 --> 00:10:48.959 on that VF curve and that's the only one that we care about you wouldn't want to run your system like that the voltage 00:10:46.200 --> 00:10:52.000 kind of erodes away your silicon and uh it it won't be very happy in a while but 00:10:50.839 --> 00:10:59.560 if you're just doing stuff like this it's totally fine so about like 1.45 00:10:54.680 --> 00:11:03.560 sure 1455 sure uh let's try 6.3 00:10:59.560 --> 00:11:07.800 6.3 GHz and that's just with me not even 00:11:03.560 --> 00:11:10.440 trying in XTU this is amazing 3500 00:11:07.800 --> 00:11:14.880 points in cinn bench oh my God we just beat a Threadripper 00:11:12.800 --> 00:11:21.839 3960x if I don't even need your help to get 6.9 that would be amazing I think I 00:11:17.959 --> 00:11:23.920 will will it do 6.5 is this going a lot 00:11:21.839 --> 00:11:28.240 better than I thought it would oh do we freeze no never mind all right well do 00:11:26.160 --> 00:11:35.800 you want to take over sure you can go further I'm going to set like a basee 00:11:31.360 --> 00:11:39.600 core frequency of 55 uh like 42 on the 00:11:35.800 --> 00:11:41.480 EES just give us some voltage so it's 00:11:39.600 --> 00:11:45.880 booting a little warmer and I'm going to turn C States off so it's always at its 00:11:43.519 --> 00:11:51.560 highest level okay there water on top of the memory is that good yeah not optimal 00:11:49.040 --> 00:11:55.880 but I I think it'll be all right okay so what we're doing right now is retraining 00:11:53.480 --> 00:12:02.000 the memory apparently it isn't too happy when you're below what 140° C so he just 00:11:59.240 --> 00:12:07.720 just changed one setting incredibly slightly filled the pot dumped it down 00:12:04.120 --> 00:12:09.760 to what is this 193° C then you just 00:12:07.720 --> 00:12:17.160 restart it and the memory retrains itself and apparently is fine afterwards 00:12:12.600 --> 00:12:19.000 it's fine okay uh 162 1.62 volts you 00:12:17.160 --> 00:12:24.959 told me to stop at 1.5 I didn't want you to beat me do you want to go for it sure 00:12:22.240 --> 00:12:31.000 yeah go for it it's a 69 wo 6.9 yep we can see it in the thing 00:12:28.519 --> 00:12:35.000 let's open up to task manager oh task manager's dead window doesn't know what 00:12:32.839 --> 00:12:38.760 to do with any of this oh my God it's doing it I think the beginning is 00:12:36.920 --> 00:12:45.079 usually the hardest part so should be all right and we're getting as warm as 00:12:41.120 --> 00:12:48.279 188 boom holy crap we did it 6.9 GHz CPU 00:12:45.079 --> 00:12:50.480 we did it nice that wasn't even hard 00:12:48.279 --> 00:12:55.720 that was easy sorry do you want to do a base clock 00:12:52.800 --> 00:13:00.320 over clock oh sure 6969 yeah 6969 I'll go grab lonus and this is where it goes 00:12:57.839 --> 00:13:05.680 AR you hear a little pop and thermal pace is gone 00:13:02.600 --> 00:13:08.880 y so we had a catastrophic failure there 00:13:05.680 --> 00:13:10.839 so I have to torch it up two around 150 00:13:08.880 --> 00:13:16.560 it'll should come back it's it's just a black hole still 00:13:13.800 --> 00:13:16.560 what if you go like this 00:13:16.800 --> 00:13:26.120 ready watch my eyebrows do you see our IO is all oh 00:13:23.160 --> 00:13:30.360 jeez that can't be good why is it so wet I don't know have you used this stuff 00:13:27.680 --> 00:13:36.360 before lonus no it's amazing I got what 6.3 GHz no problem it only Drew like 240 00:13:34.040 --> 00:13:46.800 WTS too it's like within Intel's TDP wow it's insane what are we at right now 6.9 00:13:41.800 --> 00:13:50.120 4.2 oh it passed beautiful 00:13:46.800 --> 00:13:52.120 36,000 that is absolute Madness I have 00:13:50.120 --> 00:13:57.839 the scores right here like hold on a second so that's what you'd expect out 00:13:54.120 --> 00:14:01.120 of an epic server CPU with twice as many 00:13:57.839 --> 00:14:03.680 cores yeah literally double wow does 00:14:01.120 --> 00:14:08.440 that ever boil fast boy you must go through a crap ton of this stuff you 00:14:06.560 --> 00:14:12.759 want to hear underload it gets even low I 00:14:10.240 --> 00:14:16.800 do we went through like this much just to run that one Benchmark so what you're 00:14:14.839 --> 00:14:22.839 saying is that if I were to try and do this 24/7 it would cost an astronomical 00:14:19.600 --> 00:14:25.800 amount of money half a liter a run maybe 00:14:22.839 --> 00:14:30.120 no it seems that 12900 K just handles cold really well and you just freaking 00:14:27.959 --> 00:14:34.800 go for it we could go colder it would be even better really can we do more on 00:14:32.560 --> 00:14:39.160 this chip yeah we can bump it up and see where it fails holy crap did we ever 00:14:37.639 --> 00:14:44.440 boil away a lot on that one was there more power we hit 00:14:41.040 --> 00:14:47.120 38.5k now so the eor has Juiced the 00:14:44.440 --> 00:14:53.199 score quite a bit 1,500 off the world record for a 16 cor core I9 so give it 00:14:50.320 --> 00:14:57.959 more I guess is pouring the L and2 considered a glamorous job or is that 00:14:55.279 --> 00:15:02.920 like the monkeyy job we call it the ln2 bit but not when you're doing it at 00:15:00.720 --> 00:15:09.920 least not to my face right it's boiling so hard it's like slopping out of the 00:15:05.240 --> 00:15:12.560 thing here oh we hit a blue 00:15:09.920 --> 00:15:17.639 screen so why is it only the start that it doesn't like super cold I think it's 00:15:14.639 --> 00:15:20.600 kind of like when it's on it's not as 00:15:17.639 --> 00:15:24.440 cold oh cuz like the actual CPU isn't getting down to like0 cuz it's right 00:15:22.880 --> 00:15:29.680 running and making heat got some wattage in it woo when you find a Golden Chip I 00:15:27.959 --> 00:15:33.160 mean do you try and get as much juice out of it as soon as you can knowing 00:15:31.680 --> 00:15:37.480 that what you're doing to it is going to degrade it significantly as long as 00:15:34.959 --> 00:15:39.759 you're careful careful yeah this looks really 00:15:40.600 --> 00:15:47.519 careful woo you have until my dunk CPU hits room 00:15:45.160 --> 00:15:51.480 temperature to break a record ready go actually it's worse than that you have 00:15:49.199 --> 00:15:55.839 until my hand gets too cold to hold this all right I already 00:15:53.279 --> 00:16:00.839 failed you know who never fails our sponsor MSI looking for a GPU for your 00:15:59.040 --> 00:16:07.160 next build guess what you can actually buy them now haha check out the MSI RTX 00:16:03.560 --> 00:16:09.759 370 TI Ventus 3x8 gooc it's powered by 00:16:07.160 --> 00:16:14.440 NVIDIA's ampure architecture and has 8 gigs of gddr6 memory with Boost clocks 00:16:11.959 --> 00:16:20.480 up to 18800 MHz it's got three DisplayPort 1.4 a ports and an HDMI 2.1 Port 00:16:17.880 --> 00:16:24.360 plus three of their Torx 3.0 fans coupled with a beefy heat sink to keep 00:16:22.399 --> 00:16:28.560 your temperatures low their zero frozer technology turns your fans off while the 00:16:26.120 --> 00:16:32.199 system is not underload and a custom brush metal back plate helps provide a 00:16:30.360 --> 00:16:35.800 clean look on top of all that it has a three-year warranty you can learn more 00:16:33.759 --> 00:16:38.839 at the link down below if you guys want to know if this still works we're going 00:16:37.079 --> 00:16:42.360 to have a Floatplane.com exclusive where we find out the answer could very 00:16:40.680 --> 00:16:45.920 well be no I legitimately don't know if you enjoyed this video you guys can 00:16:44.120 --> 00:16:48.839 follow spave and his exploits at the links down below and if you're looking 00:16:47.319 --> 00:16:54.279 for something else to watch maybe check out our most extreme air cooled PC yeah 00:16:52.240 --> 00:17:02.480 where we hooked a computer tower up to the most powerful fan we could find and 00:16:56.399 --> 00:17:02.480 a wind tunnel it was pretty dumb yeah