1 00:00:00,199 --> 00:00:08,760 oh my God that's your notes for this video oh no I I have a tiny bit more 2 00:00:05,520 --> 00:00:12,599 stuff down here the point is we thought 3 00:00:08,760 --> 00:00:15,160 RTX 490 pretty fast but could it be 4 00:00:12,599 --> 00:00:21,920 faster good timing for that we're going to be taking this 490 stricks from its 5 00:00:18,560 --> 00:00:25,039 stock 450 WS of power consumption all 6 00:00:21,920 --> 00:00:26,679 the way to 1,000 Watts then we're going 7 00:00:25,039 --> 00:00:33,320 to be adding external voltage modification and chilled water cooling 8 00:00:30,039 --> 00:00:38,440 thanks to our thermoflex 5000 to see 9 00:00:33,320 --> 00:00:41,840 just how far this baby can fly fly like 10 00:00:38,440 --> 00:00:43,760 this fly segue to our sponsor Corsair 11 00:00:41,840 --> 00:00:47,840 looking for a thin highquality and portable keyboard well then look at this 12 00:00:45,800 --> 00:00:52,480 Corsair's latest keyboard the wireless K100 air it's got hyper fast 13 00:00:50,079 --> 00:00:57,000 connectivity and all day battery life it's Cherry MX Ultra lowprofile switches 14 00:00:55,000 --> 00:01:01,320 provide an ultra responsive experience that'll fit your work or gaming needs 15 00:00:59,440 --> 00:01:05,560 check it out the link below one of the coolest things about modern gpus is 16 00:01:03,280 --> 00:01:09,600 their ability to dynamically boost their clock speeds in order to deliver the 17 00:01:07,159 --> 00:01:13,560 best possible gaming experience but as you can imagine they can't just boost 18 00:01:11,280 --> 00:01:18,119 infinitely so there are three main factors that we need to overcome if we 19 00:01:15,479 --> 00:01:22,560 want to increase their performance the first is the thermal limit this 20 00:01:20,640 --> 00:01:27,159 intuitively is put in place to prevent your card from cooking itself in its 21 00:01:24,640 --> 00:01:32,280 attempts to run cyberpunk at 500 frames per second that we're not worried about 22 00:01:29,560 --> 00:01:36,439 today though because one this cooler is totally overbuilt this card survived at 23 00:01:34,079 --> 00:01:40,360 80° in a thermal chamber it's frosting over already Al off and two by the time 24 00:01:39,360 --> 00:01:44,799 we're done we're going to be running this Quantum Vector Square GPU block on 25 00:01:42,520 --> 00:01:49,640 it our main focus today then is how to overcome the other two the voltage limit 26 00:01:47,079 --> 00:01:53,840 and current limit for voltage control we're going to be using this cool little 27 00:01:51,079 --> 00:01:57,600 doohickey from Elmore Labs it used to be that through software you could just 28 00:01:55,479 --> 00:02:01,840 adjust the voltage on your GPU but then NVIDIA went 29 00:02:00,280 --> 00:02:06,159 I'm pretty sure that's exactly the email they sent out and made their Partners 30 00:02:03,799 --> 00:02:10,399 lock down voltage control thankfully with a relatively simple soldering job 31 00:02:07,960 --> 00:02:14,840 and a USBC connection to this board that functionality can be restored as for 32 00:02:12,959 --> 00:02:18,480 current we were planning to do a shunt mod again like we did with the 3090 33 00:02:16,640 --> 00:02:23,920 where we trick the onboard controller into thinking that it's putting out half 34 00:02:20,760 --> 00:02:26,760 as much power as it actually is but this 35 00:02:23,920 --> 00:02:30,640 time thanks to NVIDIA's control freak nature it turns out we don't even have 36 00:02:28,680 --> 00:02:36,480 to floating around the internet are modded 1,000 watt bioses for the RTX 490 37 00:02:34,680 --> 00:02:41,200 whether these came from enterprising users or were leaked for manufacturers 38 00:02:39,159 --> 00:02:45,120 we have no way of knowing but we do know that at some point in the development 39 00:02:42,840 --> 00:02:49,879 process the 490 was intended to be a much more power hungry card so we kind 40 00:02:47,360 --> 00:02:53,720 of suspect the former and as it turns out you don't even necessarily need to 41 00:02:51,840 --> 00:02:58,840 have a matching card to flash these bioses users have reported taking a 42 00:02:56,239 --> 00:03:05,120 mismatch BIOS flashing it to their card and it firing right up so thanks NVIDIA 43 00:03:01,680 --> 00:03:07,319 for making all 490s the same I guess 44 00:03:05,120 --> 00:03:11,319 convenient couple terrifying things about this BIOS first of all it removes 45 00:03:09,280 --> 00:03:15,920 temperature protections which is really yeah absolutely terrifying we can just 46 00:03:13,760 --> 00:03:21,000 super easy to cook it yeah and then G will come over here murder us yeah and 47 00:03:18,640 --> 00:03:25,879 for another obviously it removes the current protection which exists for a 48 00:03:22,840 --> 00:03:28,840 reason so a our power connector to the 49 00:03:25,879 --> 00:03:34,280 board is only rated for 600 watts not 1,000 - 7 50 00:03:30,760 --> 00:03:38,080 925 watts and for another the vrms on 51 00:03:34,280 --> 00:03:40,959 this board are a not designed to have 52 00:03:38,080 --> 00:03:44,120 1,000 Watts going through them and B I don't even know if they're going to be 53 00:03:42,040 --> 00:03:48,680 cooled by the block cuz this is also not designed with 1,000 watts in mind it's 54 00:03:46,760 --> 00:03:52,120 probably fine it's probably fine before we do any of that though we need to 55 00:03:50,159 --> 00:03:56,159 establish our Baseline performance so that we know if anything we're doing is 56 00:03:53,640 --> 00:04:01,439 even helping this is our results for f122 what is interesting is we can see 57 00:03:59,319 --> 00:04:06,280 that the performance cap reason is just voltage regulation that is what's 58 00:04:03,120 --> 00:04:11,280 holding us back okay and our maximum 59 00:04:06,280 --> 00:04:13,159 draw was somewhere around 390 yeah 390 60 00:04:11,280 --> 00:04:17,639 Watts that's a lot of Watts we could do better though that isn't the only number 61 00:04:15,599 --> 00:04:22,560 we need though there is some Performance Tuning that we can do without getting 62 00:04:19,440 --> 00:04:25,120 super sketchy by firing up GPU twerk 63 00:04:22,560 --> 00:04:30,720 really oh tweak that makes more sense by firing up GPU tweak 3 my vision's going 64 00:04:27,919 --> 00:04:34,759 we can adjust our power Target turn down in some cases our GPU voltage no we just 65 00:04:32,400 --> 00:04:38,680 crank it really it has no down by adjusting our power Target our GPU 66 00:04:36,360 --> 00:04:42,360 voltage our boost clock and maybe we'll throw a bit of a memory overclock on it 67 00:04:40,560 --> 00:04:45,919 sure we should be able to eek out a little bit more performance in a way we 68 00:04:44,000 --> 00:04:51,280 would actually recommend replicating at home our power Target is now 120 that's 69 00:04:48,360 --> 00:04:55,880 as high as it'll let us go plus 200 on the core Plus 900 on the memory I think 70 00:04:53,680 --> 00:04:59,080 it'll be fine the hot spot is the one we're particularly going to want to keep 71 00:04:57,280 --> 00:05:02,639 a close eye on because that's the one that especially with so much power 72 00:05:00,960 --> 00:05:06,360 running through it is going to spike extremely quickly in the absence of 73 00:05:04,360 --> 00:05:09,960 adequate cooling I mean it seems to be still working yeah just let it let it do 74 00:05:07,800 --> 00:05:15,199 this thing I mean we can tell that the hot spot is the hotter one way to go yep 75 00:05:12,440 --> 00:05:21,560 it's very not happy yeah we we clearly do need more voltage yep should we just 76 00:05:19,680 --> 00:05:26,400 send it maybe it was our core clock we'll 77 00:05:24,039 --> 00:05:31,120 adjust both at the same time okay here we go holy crap yeah it's nearly running 78 00:05:29,039 --> 00:05:35,800 at 3 GHz that's pretty fast okay what are we limited by voltage voltage okay 79 00:05:34,280 --> 00:05:41,080 if we want to get more clock speed then we're going to need more 80 00:05:38,400 --> 00:05:47,520 voltage oh one second okay well I guess that test isn't valid anymore I was just 81 00:05:42,560 --> 00:05:48,759 going to see okay 100% it apply sure wow 82 00:05:47,520 --> 00:05:52,720 that actually worked uh now we're drawing 430 Watts okay and the GPU 83 00:05:51,479 --> 00:05:58,280 clock's higher that was easy based on the 84 00:05:55,080 --> 00:06:00,639 scaling we're seeing here man we might 85 00:05:58,280 --> 00:06:04,759 be able to go quite a bit higher maybe or the card will just blow up for 86 00:06:02,880 --> 00:06:10,039 just taking some sliders and going like that we went from we just got 12% more 87 00:06:07,880 --> 00:06:15,759 performance yeah and like our minimums went up by a lot that's awesome yeah 88 00:06:12,800 --> 00:06:20,520 overclocking who knew let's go faster before we volt mod this 490 we need to 89 00:06:18,080 --> 00:06:25,520 make sure that we're actually modifying the voltages and not just some number on 90 00:06:22,680 --> 00:06:29,880 the screen is changing to do that we need to be able to probe this card now I 91 00:06:27,759 --> 00:06:33,919 don't know exactly where we can find core and memory voltages but I think 92 00:06:32,319 --> 00:06:37,919 there are some headers right here and if we just solder a couple wires to those 93 00:06:36,400 --> 00:06:42,199 we are good let's find out what these actually 94 00:06:40,120 --> 00:06:46,360 do what we're really concerned about here is the core voltage it is just at 95 00:06:44,080 --> 00:06:52,199 idle so it is currently 0.885 volts that's what we're looking 96 00:06:48,880 --> 00:06:53,919 for 0.89 that's probably it I don't know 97 00:06:52,199 --> 00:06:58,479 if you've watched previous attempts of Alex and I to try and sold the reg 98 00:06:55,599 --> 00:07:06,599 graphic card um they usually don't go too well ah it's such a bad SW IR dude 99 00:07:02,960 --> 00:07:07,479 it's on I'm not joking why is it so crap 100 00:07:06,599 --> 00:07:13,800 pretty terrible what are you going to do with those wires I think I was s of them right there oh okay yeah uh all right 101 00:07:12,599 --> 00:07:22,039 that's probably fine and then like what are you going to use to measure that uh and aamus oh 102 00:07:18,000 --> 00:07:24,960 no yeah no one's getting lead poisoning 103 00:07:22,039 --> 00:07:28,840 today so I'm just going to hold it there for a while it's the small things in 104 00:07:27,360 --> 00:07:36,319 life you got to like man okay I think we're done uh sure there you 105 00:07:32,879 --> 00:07:40,039 go so there's hot glue on it oh yeah 106 00:07:36,319 --> 00:07:41,919 strain relief and so it's safe the best 107 00:07:40,039 --> 00:07:47,360 part is we didn't quite do it right so to look at the voltage you uh you need 108 00:07:44,520 --> 00:07:55,159 to probe one of these guys to get ground but uh there it is uh 89 volts is 109 00:07:52,159 --> 00:07:57,039 what we're drawing at idol so uhhuh we 110 00:07:55,159 --> 00:07:59,720 now know that it works pretty good and you're just going to drag that all over 111 00:07:58,199 --> 00:08:04,120 the back of the card like that kind of what I was thinking yeah we'll see if we can get to any traces and short it out 112 00:08:02,720 --> 00:08:10,599 and kill it you were moving I can hold this it 113 00:08:07,360 --> 00:08:12,039 took a while but the evc2 is working 114 00:08:10,599 --> 00:08:16,680 it's the sort of thing where like you know when you get something off GitHub and you have to like you install a 115 00:08:15,240 --> 00:08:20,759 software and the drivers but for the drivers to work you need a specific 116 00:08:18,520 --> 00:08:24,000 version of java which requires Visual and all of that stuff it took me a 117 00:08:22,159 --> 00:08:28,240 couple hours but it's working yeah when he told me that he needed about half an 118 00:08:26,159 --> 00:08:35,519 hour I told the guys over there no less than an hour mhm it has now been four 119 00:08:31,720 --> 00:08:39,240 yes oh my God it's not even bolted to 120 00:08:35,519 --> 00:08:42,320 the Alex yeah you've only got four 121 00:08:39,240 --> 00:08:44,039 screws in it we can add more if you want 122 00:08:42,320 --> 00:08:54,000 but then we have to add the black plate ah it's fine it's fine H oh the system 123 00:08:48,519 --> 00:08:55,640 works okay wonderful we're at 089 so 124 00:08:54,000 --> 00:09:03,320 this right here is telling you everything that's happening with the voltage controller at the moment yeah 125 00:08:59,959 --> 00:09:07,320 1.05 yeah yeah 1.0 126 00:09:03,320 --> 00:09:10,680 is how accurate is this uh multimeter do 127 00:09:07,320 --> 00:09:13,800 I trust this or that you sort of don't 128 00:09:10,680 --> 00:09:17,839 trust either of them sick basically what 129 00:09:13,800 --> 00:09:20,320 we're doing here so 06 whatever you can 130 00:09:17,839 --> 00:09:27,519 see here like before we are voltage limited so you can go in here via offset 131 00:09:24,880 --> 00:09:32,000 how about 05 yeah sure okay and are we going to see this just waa 132 00:09:30,440 --> 00:09:37,600 W hello you can see the board power draw 133 00:09:35,360 --> 00:09:42,320 right there there we 134 00:09:40,360 --> 00:09:47,320 go that's the sort of speed we're looking for wow oh that's a lot of power 135 00:09:45,200 --> 00:09:53,480 draw over 3 GHz over 500 136 00:09:50,560 --> 00:09:59,440 watts 81° C and we're still voltage regulated oh 137 00:09:56,959 --> 00:10:03,880 oh it's a power for a second it did there it is that little tiny green blip 138 00:10:01,880 --> 00:10:07,760 there I feel like if we give it just like the tiniest bit more voltage power 139 00:10:06,120 --> 00:10:12,440 is going to be our problem hear you loud and clear okay how 140 00:10:10,600 --> 00:10:19,600 about 065 sure now let's see is it going to 141 00:10:15,600 --> 00:10:21,720 get is it even going to impact it midun 142 00:10:19,600 --> 00:10:29,440 yeah see this is weird the power draw goes up but the frequency doesn't we oh 143 00:10:25,839 --> 00:10:33,079 because we are power limited now yeah 144 00:10:29,440 --> 00:10:35,000 wow we're just shy of 600 watts sir 145 00:10:33,079 --> 00:10:43,000 should we do a run at 600 WTS and see what we end up with then the GPU chip 146 00:10:38,399 --> 00:10:44,720 alone is drawing over 500 watts that's a 147 00:10:43,000 --> 00:10:50,200 lot of power for one of those little guys it's like unfathomable right like 148 00:10:47,000 --> 00:10:52,959 those damn yeah let's get more power all 149 00:10:50,200 --> 00:10:56,720 right cool to flash your BIOS it's actually pretty easy what you need is 150 00:10:54,399 --> 00:11:01,040 Envy flash which a little application here you put that in the root of your 151 00:10:58,839 --> 00:11:05,920 thing hold on can we just set the card back to default before we do that yes 152 00:11:04,040 --> 00:11:10,600 yeah and I'm going to do that over here too before you update any kind of 153 00:11:08,839 --> 00:11:15,399 firmware be it on your motherboard or GPU you should return your entire system 154 00:11:13,320 --> 00:11:19,320 to stock settings and ideally you should be on a battery backup if for whatever 155 00:11:17,680 --> 00:11:25,800 reason the power fails in the middle of a firmware update it might 156 00:11:22,480 --> 00:11:28,519 survive it probably won't see Alex over 157 00:11:25,800 --> 00:11:33,360 your I've seen things survive with this GPU it's it's a little bit less risky 158 00:11:30,720 --> 00:11:38,519 because we do have two bioses so if we completely bork one of them flip her 159 00:11:35,839 --> 00:11:41,959 over other one still is probably good before you change your BIOS you want to 160 00:11:40,480 --> 00:11:47,120 just make sure that the one that's on there you have saved so just GPU Z quick 161 00:11:45,079 --> 00:11:50,680 right there save the file even if you never plan to roll it back if you ever 162 00:11:48,800 --> 00:11:54,680 needed to ARM your card back to the manufacturer for example you would need 163 00:11:52,320 --> 00:11:58,680 to return it to its stock configuration not that you're ring this once you've 164 00:11:56,160 --> 00:12:03,240 soldered things to it but if you didn't do that 165 00:12:00,160 --> 00:12:06,839 now we can have a look at our BIOS wow 166 00:12:03,240 --> 00:12:08,279 wow that's uh that's something yep we're 167 00:12:06,839 --> 00:12:18,000 in The Matrix now boys oh oh wait um I think I wait stop 168 00:12:14,519 --> 00:12:20,360 oh maybe it's fine now we maybe have the 169 00:12:18,000 --> 00:12:28,639 ability to murder this GPU if we so want now we cook uh I think one 80 is where 170 00:12:24,120 --> 00:12:30,959 it was happy okay firing it up oh this 171 00:12:28,639 --> 00:12:37,360 is scary hold on we can do the math here it's at 172 00:12:33,839 --> 00:12:41,199 14% of its TDP and the board power is 173 00:12:37,360 --> 00:12:43,000 142 Watts okay okay it thinks it's a 174 00:12:41,199 --> 00:12:47,639 th000 watt card you know NVIDIA is going to lock this down with the next gen and 175 00:12:45,199 --> 00:12:53,440 I remember when they were cool we're in kind of scary territory now as far as 176 00:12:49,560 --> 00:12:57,120 voltage goes okay and we're at 66° and 177 00:12:53,440 --> 00:12:59,880 480 Watts we got a result but it's not 178 00:12:57,120 --> 00:13:04,120 going to be any faster yeah 145 that's an improvement oh that's a 179 00:13:01,760 --> 00:13:11,680 sizable Improvement really what were we before we started at 137 oh all right 180 00:13:08,240 --> 00:13:13,199 yeah cool I mean it was a rock solid 181 00:13:11,680 --> 00:13:19,720 3.03 GHz didn't move are we going to run out 182 00:13:15,920 --> 00:13:21,160 of GPU twerk slider here I doubt it okay 183 00:13:19,720 --> 00:13:28,720 was that 210 I'm going to give her another 20 140 184 00:13:25,560 --> 00:13:29,760 average yeah she's fast but she's not 185 00:13:28,720 --> 00:13:36,880 consuming power how do we keep the card from 186 00:13:34,000 --> 00:13:40,920 kicking in its voltage cap like we're not thermally limited though something 187 00:13:38,279 --> 00:13:46,519 else is the problem it'll probably boost a little higher just being cooler but I 188 00:13:44,040 --> 00:13:50,519 don't think that's the issue here no all right I figured out what the problem was 189 00:13:48,680 --> 00:13:56,199 before we were only setting a voltage offset now I've like haveed the offset 190 00:13:53,519 --> 00:13:59,759 but increased the vo command so that seems to have broader voltage to where 191 00:13:57,959 --> 00:14:04,920 first of all the computers reading a lot more accurate and also I have got some 192 00:14:02,720 --> 00:14:09,000 very high temperatures I turn it down a tiny bit but uh yeah they more 193 00:14:07,160 --> 00:14:14,800 protections not a thing on this GPU anymore it's absolutely terrifying so uh 194 00:14:11,839 --> 00:14:20,560 I'll just give this a tiny bit more guess might be fine it might not be fine 195 00:14:16,440 --> 00:14:22,480 I don't know let's see tiny bit faster I 196 00:14:20,560 --> 00:14:26,360 have to watch the Hotpot temperature very closely cuz if that starts jumping 197 00:14:24,680 --> 00:14:34,480 up we just need to Al have four and get out of here oh that is fast 30 198 00:14:30,000 --> 00:14:37,120 120 drawing 540 Watts not bad I'm 199 00:14:34,480 --> 00:14:40,839 shocked how well this cooler works FPS is the same but that's about expected I 200 00:14:39,360 --> 00:14:45,519 think we're about at the point though where to go faster we need more cooling 201 00:14:42,680 --> 00:14:51,120 so water cooling down you you want to hear the most absolutely shocking thing 202 00:14:47,360 --> 00:14:55,880 Andrew yes I have not quite thought 203 00:14:51,120 --> 00:14:55,880 through how this GPU is going to go in 204 00:15:02,600 --> 00:15:08,639 for whatever reason our ground lead here doesn't seem to be working so I have 205 00:15:05,680 --> 00:15:14,320 this in continuity motor right now beeps touch it to ground does not beep before 206 00:15:12,199 --> 00:15:17,320 we put this in there I want this to just work and not have to worry about this 207 00:15:15,759 --> 00:15:22,360 lead kind of falling off and ending up somewhere bad kind of like that one right 208 00:15:26,399 --> 00:15:33,839 there all right I think we're all good to put it 209 00:15:30,279 --> 00:15:33,839 in here we 210 00:15:34,720 --> 00:15:40,000 go it's kind of sketchy something like 211 00:15:37,720 --> 00:15:40,000 uh 212 00:15:41,160 --> 00:15:47,959 that wow this really isn't all that sketchy but it sure is H looks like it I 213 00:15:46,240 --> 00:15:52,000 want to make sure that all of this is working perfectly before I turn the 214 00:15:49,880 --> 00:15:56,079 system on because if there's air bubbles in here there is currently no 215 00:15:53,600 --> 00:16:01,800 temperature protection on the GPU so it will actually just kill itself if I'm 216 00:15:58,120 --> 00:16:01,800 not like proper running water through 217 00:16:03,079 --> 00:16:06,880 it might as well top it 218 00:16:08,079 --> 00:16:16,199 up okay GPU hotspot 17° we're good heck 219 00:16:13,720 --> 00:16:21,720 yeah one thing that I like to do if you hit Windows control shift 220 00:16:18,560 --> 00:16:23,199 B like so it resets your video driver 221 00:16:21,720 --> 00:16:28,519 which can be quite helpful when you're crashing a video card a bunch of times 222 00:16:26,160 --> 00:16:33,959 well I think you did a fine job oh I know look at at the safety 223 00:16:30,079 --> 00:16:36,199 straps so secure genius I always forget 224 00:16:33,959 --> 00:16:42,720 about the capabilities of this Chiller she's chilly it's very good at its job 225 00:16:39,959 --> 00:16:48,319 unfortunately it doesn't really need to because what we've discovered is that 226 00:16:45,000 --> 00:16:51,360 this RTX 490 and for that matter pretty 227 00:16:48,319 --> 00:16:54,360 much all of them is not thermally 228 00:16:51,360 --> 00:16:57,440 limited in any way and in fact it's not 229 00:16:54,360 --> 00:17:00,440 even really current limited is it yeah 230 00:16:57,440 --> 00:17:01,920 no we solved the problem where we uh 231 00:17:00,440 --> 00:17:05,959 accidentally were applying a voltage rather than a voltage offset but what we 232 00:17:04,400 --> 00:17:12,679 discovered is that even though we were able to get the power consumption up 233 00:17:08,480 --> 00:17:15,880 like 580 I think is as high as I saw it 234 00:17:12,679 --> 00:17:17,720 doesn't impact performance anymore yeah 235 00:17:15,880 --> 00:17:23,480 unless of course we were to apply dangerously high voltages but we're 236 00:17:20,679 --> 00:17:27,400 trying to do this somewhat responsibly I don't know I had pretty dangerous 237 00:17:24,760 --> 00:17:33,160 voltages there and like it doesn't go faster I guess the conclusion is twofold 238 00:17:30,240 --> 00:17:37,919 then one there's definitely performance to ring out of the RTX 490 if only 239 00:17:35,840 --> 00:17:43,200 NVIDIA would give us the bloody controls to do it and two they made the right 240 00:17:40,520 --> 00:17:48,400 call to ship it at 450 Watts given how close the performance is to the 600 wat 241 00:17:46,600 --> 00:17:52,120 configuration like this right here is probably as fast as it'll go I play with 242 00:17:50,640 --> 00:17:57,720 the memory a little bit you can get it going like 100 mahz faster but at the 243 00:17:55,679 --> 00:18:01,039 same time I found that the actual scores went down so 244 00:17:59,360 --> 00:18:05,960 I'm guessing that it was not quite stable you're riding that Razor's Edge 245 00:18:03,320 --> 00:18:09,960 yeah NVIDIA gpus will pull back clocks for a couple Cycles if they think 246 00:18:07,720 --> 00:18:16,200 they're going to crash and so even though the number will be higher like in 247 00:18:12,600 --> 00:18:19,360 GPU Z the actual score is lower 248 00:18:16,200 --> 00:18:22,080 so we're ra at the limit at the limit of 249 00:18:19,360 --> 00:18:26,440 telling you about our sponsor oh first I want to see if we can hit the limit of 250 00:18:23,000 --> 00:18:28,000 our power supply oh God we could give it 251 00:18:26,440 --> 00:18:33,600 a tiny bit more voltage get it up to about 500 80 Watts the CPU even though 252 00:18:31,919 --> 00:18:37,039 we don't have like the direct die cooler on it we can get a pretty easy like 400 253 00:18:36,240 --> 00:18:41,600 out of thanks to this 254 00:18:39,480 --> 00:18:48,559 guy that's getting pretty close to the 12200 not quite okay let's see how good 255 00:18:45,440 --> 00:18:51,799 of a power supply Corsair makes oh she 256 00:18:48,559 --> 00:18:55,159 get CPU speed has oh wow we're at over 257 00:18:51,799 --> 00:18:58,000 600 watts on the GPU now oh yes what's 258 00:18:55,159 --> 00:19:03,280 the Hotpot temperature 73 okay that's fine I think 259 00:18:59,880 --> 00:19:05,480 that's not hot spot hot spot's 95 95 oh 260 00:19:03,280 --> 00:19:14,039 that's hot Will Smith that is hot how's our CPU 261 00:19:10,280 --> 00:19:18,600 doing 6 GHz casual 262 00:19:14,039 --> 00:19:20,559 no and the RGB turned off did we call it 263 00:19:18,600 --> 00:19:23,679 editor please cut out the awkward pause while I was thinking of that just use a 264 00:19:22,000 --> 00:19:26,960 punch in or something if you guys enjoyed this video you might enjoy the 265 00:19:25,360 --> 00:19:32,159 last time we did this in an even sketchier fashion with a shunt mod 266 00:19:29,880 --> 00:19:38,080 that one Drew like over 12200 WTS didn't it I don't remember I think it could but 267 00:19:34,440 --> 00:19:38,080 I don't know if it did