1 00:00:00,160 --> 00:00:07,759 As you may already know, we bought a fire truck, which can mean only one 2 00:00:05,440 --> 00:00:10,000 thing. We're going to cool a computer with 3 00:00:12,920 --> 00:00:20,160 it. Obviously, this would have worked a little better if we plumbed up some 4 00:00:17,199 --> 00:00:25,600 water blocks, but here's the rub. A fire truck can reach up to 200 PSI of 5 00:00:23,279 --> 00:00:31,840 pressure. Normal PC water cooling fittings, those are rated for about 8 6 00:00:28,720 --> 00:00:35,079 PSI. But if Jay's video is anything to 7 00:00:31,840 --> 00:00:37,840 go on, that's at 140 PSI. 8 00:00:35,079 --> 00:00:43,879 Oh, we think they might be able to handle a whole lot more. How much? Well, 9 00:00:41,760 --> 00:00:51,280 there's only one way to find out, courtesy of AMD, who sponsored this 10 00:00:48,120 --> 00:00:52,280 video. The Shiptorm sale event is live 11 00:00:51,280 --> 00:00:56,440 now on ltstore.com. You'll get free shipping on 12 00:00:54,640 --> 00:01:01,280 any order over $150 worldwide. So, it's a great time to 13 00:00:59,280 --> 00:01:04,799 pick up a commuter backpack or a scribe driver, a screwdriver, or anything else 14 00:01:03,199 --> 00:01:08,640 you've had your eye on. And we're featuring our lowest price ever on our 15 00:01:06,799 --> 00:01:14,080 magnetic cable management essentials bundle. Go check it out at the link down 16 00:01:10,560 --> 00:01:17,200 below. Woo! Yep, we bought a firetruck. 17 00:01:14,080 --> 00:01:20,560 All right, a pumper to be specific. But 18 00:01:17,200 --> 00:01:24,000 how hard does it pump? Well, we know it 19 00:01:20,560 --> 00:01:26,080 has an 8.3 L Cumins diesel engine, but 20 00:01:24,000 --> 00:01:30,479 these things came in all kinds of configurations, meaning that the exact 21 00:01:28,240 --> 00:01:36,400 power this engine makes, it's kind of hard to say, but somewhere between 240 22 00:01:33,840 --> 00:01:42,880 and 400 horsepower, which is good because under this console is a 23 00:01:39,799 --> 00:01:44,880 1,250 gall per minute pump, which is 24 00:01:42,880 --> 00:01:51,680 perfect because according to some rough maths from Alex, we need at least 240 40 25 00:01:49,200 --> 00:01:56,560 horsepower coming down this drive shaft to run that pump at its rated output. 26 00:01:54,720 --> 00:02:01,759 Now, I know what you're saying down there, typing, "Oh, my RAV 4 makes more 27 00:01:59,360 --> 00:02:06,640 power than that." Well, this diesel engine makes about four times the 28 00:02:04,000 --> 00:02:15,120 torque. Let's put into the context of a PC. A D5 pump makes about 0.03 29 00:02:10,479 --> 00:02:18,400 horsepower, 5.5 PSI, and is able to 6.6 30 00:02:15,120 --> 00:02:21,440 gall per minute. Our fire truck exceeds 31 00:02:18,400 --> 00:02:23,400 those numbers by anywhere from 36 times 32 00:02:21,440 --> 00:02:28,239 to a whopping 8,000 times, which kind of makes sense 33 00:02:26,879 --> 00:02:33,840 when you consider the difference in size, I guess. And as you saw in the 34 00:02:30,800 --> 00:02:36,400 intro, it results in a big difference in 35 00:02:33,840 --> 00:02:41,040 performance in the real world. With that said, as we learned when we built the 36 00:02:38,480 --> 00:02:45,840 maximum air flow PC, there's a law of diminishing returns when you add more 37 00:02:43,200 --> 00:02:51,760 coolant flow. So, we aren't actually 100% certain that our firetruck is going 38 00:02:48,720 --> 00:02:53,599 to meaningfully outperform our D5 here. 39 00:02:51,760 --> 00:02:59,040 I mean, we're pretty sure. We're just not 100% sure. We will soon, though, 40 00:02:56,959 --> 00:03:05,280 once I'm finished hooking this up. To adapt our fire hose to our PC, we've got 41 00:03:01,280 --> 00:03:07,360 this G82 BAT to 1/4in NPT adapter from 42 00:03:05,280 --> 00:03:12,000 Greenline. Shout out Jeff there, by the way. He had a wonderful LT store water 43 00:03:09,440 --> 00:03:15,680 bottle. Oh, that's pretty cool. Yeah, I just entered with a fire hose and he was 44 00:03:14,080 --> 00:03:19,360 like, "Please tell me you're not connecting that to a computer." And then 45 00:03:17,680 --> 00:03:23,120 sold me all the stuff to connect it to a computer. Nice. What a guy. It's easy to 46 00:03:21,840 --> 00:03:26,440 be a good mood when you're always refreshed and 47 00:03:24,840 --> 00:03:30,959 hydrated. ltstore.com. We're ready to go. Well, 48 00:03:29,120 --> 00:03:34,319 pressure gauge. We want to know how much we're actually putting into these 49 00:03:32,319 --> 00:03:39,360 things, right? Oh, and there is one other thing. AMD, our sponsor who made 50 00:03:36,720 --> 00:03:46,799 this video possible, kindly requested that we not unal alive any of their 51 00:03:41,680 --> 00:03:48,640 hardware. So, are we Oh, Oh, but 52 00:03:46,799 --> 00:03:52,799 on the first run, all this stuff is dead anyway. 53 00:03:50,120 --> 00:03:58,799 So, yeah, we'll find out how badly it's going to go here. Hey, AMD, great stuff 54 00:03:55,440 --> 00:04:01,760 though. Shout out AMD. Oh, yeah. Okay. 55 00:03:58,799 --> 00:04:05,360 This is terrifying. I mean, should we should we fire it out of this just to 56 00:04:03,200 --> 00:04:10,159 see what happens before we do that? Okay, that's a regular PC water cooling 57 00:04:08,000 --> 00:04:14,159 pump then. Now for the truck. Oh god, where are my glasses? On the subject of 58 00:04:12,159 --> 00:04:18,639 safety, never do what we did in our last video where we were quickly opening and 59 00:04:16,400 --> 00:04:22,639 closing the shut off valve. The sudden stoppage of flow can cause the pressure 60 00:04:20,239 --> 00:04:27,919 to spike potentially over 10 times the working pressure. Uh this can be helped 61 00:04:25,440 --> 00:04:31,440 with relief valves, but we don't have them. And also in firefighting 62 00:04:29,919 --> 00:04:35,440 situations, they normally don't bother with them because it takes too long to 63 00:04:33,520 --> 00:04:43,759 put it on. Also, we're going to get a bunch of electronics wet. So, we have a 64 00:04:37,840 --> 00:04:43,759 GFCI plug. Yeah. Good job, everyone. 65 00:04:44,600 --> 00:04:55,040 Woo. Okay. Okay. What's the pressure like? Okay. We have about like 70 PSI 66 00:04:51,840 --> 00:04:58,000 coming out of this hose. 67 00:04:55,040 --> 00:05:02,320 Okay. Another safety thing. Note that I like approached with caution. Really 68 00:05:00,560 --> 00:05:07,280 high water pressure can like rip your skin off. 80 PSI probably not so much, 69 00:05:05,120 --> 00:05:12,800 but still. Man, this thing wants to go. She's getting right snaky. Snaky? Yeah. 70 00:05:10,720 --> 00:05:19,520 What would happen if you let go? Do you want me to let go? I don't know. Sure. 71 00:05:15,120 --> 00:05:21,199 It's getting warm. Oh jeez. 72 00:05:19,520 --> 00:05:28,080 Wow. That's pretty funny. It's a good sprinkler system. Why is this water so 73 00:05:23,639 --> 00:05:30,000 hot? Are you noticing this? Feel this. 74 00:05:28,080 --> 00:05:34,720 Oh, wow. Okay, give her more. You want more? 75 00:05:32,720 --> 00:05:40,479 Yeah, I want more. I mean, what are we even here for if we don't do more? 76 00:05:37,759 --> 00:05:48,000 125. Okay, it's going up to like 150 nearly. Okay. Okay. 150. Okay. So, 77 00:05:44,639 --> 00:05:51,840 that's 150. Okay. Well, that's great. 78 00:05:48,000 --> 00:05:53,520 Okay. So, I'm going to close the valve. 79 00:05:51,840 --> 00:05:58,080 Okay. It's all fine. Okay. All right. Drop her down. Okay. Should we have face 80 00:05:55,759 --> 00:06:03,360 shields for this? I think it's fine. 200 PSI is a lot in computer, but hydraulic 81 00:06:01,680 --> 00:06:07,680 lines are like 3,000. That's when it starts actually getting scary. Okay. I'm 82 00:06:05,360 --> 00:06:11,680 just going to be out of line of sight of a fitting. I don't want a fitting in the 83 00:06:09,840 --> 00:06:15,039 teeth, you know. Okay. So, are we at about what the pump was doing before 84 00:06:13,280 --> 00:06:18,400 now? No, it's way more. Oh, that's way more. Okay. So, that's about that's 85 00:06:16,639 --> 00:06:22,880 probably about the pump. Oh my god. Yeah. Nears makes no difference. Zero. 86 00:06:20,319 --> 00:06:27,680 That's like five PSI. So, let's have a look at what would be double computer 87 00:06:25,520 --> 00:06:33,680 pressure. Okay. Yeah. Fine. About like so. Yeah. Doing great. Okay. Let's 88 00:06:30,000 --> 00:06:37,440 double that. Whoa. She's at about 40. 89 00:06:33,680 --> 00:06:40,160 All right. Okay. Okay. She's uh she's 90 00:06:37,440 --> 00:06:47,199 holding. She's holding steady. She's steady, boys. All right. Alex, give me 91 00:06:43,319 --> 00:06:48,960 100. 80. 92 00:06:47,199 --> 00:06:55,800 Wow. Okay, I'm going to start standing back. 90. I'm honestly surprised it still is 93 00:06:52,880 --> 00:07:02,440 just fine. 100. Is she going still? Yeah, it's 94 00:06:58,479 --> 00:07:05,080 fine. It's 95 00:07:02,440 --> 00:07:09,759 working. 125. Okay, we've been up to 125. And 96 00:07:08,160 --> 00:07:13,919 what would you be expecting to show signs of wear here? At this point, I was 97 00:07:11,919 --> 00:07:17,360 expecting the radiator to maybe bulging a bit or some of the fittings to be 98 00:07:15,440 --> 00:07:22,400 leaking. But well, on Jay's system, the reservoir detached from the pump. It was 99 00:07:19,360 --> 00:07:25,840 those acrylic uh threads that went, but 100 00:07:22,400 --> 00:07:28,479 this all seems to be fine. Yeah, besides 101 00:07:25,840 --> 00:07:32,960 all of it just shaking. Well, yeah. Aside from that, full 102 00:07:33,080 --> 00:07:39,919 150. I mean, this tube is a little bit. 103 00:07:36,880 --> 00:07:42,560 And she's rock hard, boys. 104 00:07:39,919 --> 00:07:48,240 The tubes are definitely a bit engorged. I was expecting this to let go by now. 105 00:07:44,560 --> 00:07:51,479 What the hell? Does it have more? has a 106 00:07:48,240 --> 00:07:51,479 lot more. 107 00:07:52,360 --> 00:08:03,759 170 175 200 PSI. Oh man, the fan spinning. 108 00:08:00,000 --> 00:08:05,840 What do you think that is from the pump? 109 00:08:03,759 --> 00:08:11,120 What? The pump I think is generating a bunch of electricity and powering the 110 00:08:08,479 --> 00:08:14,680 fan. What the? They're connected to the same molec. 111 00:08:13,120 --> 00:08:21,319 What the pump's plugged in here? Yeah, it's 112 00:08:17,759 --> 00:08:24,319 powering the pan. 113 00:08:21,319 --> 00:08:24,319 Okay. 114 00:08:31,000 --> 00:08:36,880 Jesus. Right at me. I knew we needed a 115 00:08:34,959 --> 00:08:39,880 blast. Oh, you got it, too. Yeah, I got it. 116 00:08:39,919 --> 00:08:50,000 One of these old bits power compression fittings finally partially let go. Now, 117 00:08:46,880 --> 00:08:51,680 one tricky thing is I didn't anticipate 118 00:08:50,000 --> 00:08:56,560 what this pressure was going to do to the water's temperature. It's getting 119 00:08:54,000 --> 00:09:00,080 hot. Water cooling with the fire hose. Feel it. 120 00:08:58,320 --> 00:09:05,440 Oh, yeah. It's pretty warm. May not be that effective, sir. But that won't stop 121 00:09:02,880 --> 00:09:09,600 us from trying it. Just like AMD won't stop making the world's best gaming 122 00:09:07,200 --> 00:09:14,880 CPUs, now it's time to kick things up a notch with our fully armed and 123 00:09:11,920 --> 00:09:20,240 operational gaming battle station. This thing has a 5800X in it. So very 124 00:09:17,920 --> 00:09:24,880 capable. Not the most modern thing, but yeah, what he said. And we really don't 125 00:09:22,240 --> 00:09:29,440 want to kill it, do we? No. That other system was very successful. But do you 126 00:09:27,519 --> 00:09:33,920 think these more modern, very fancy fittings will hold up the same? See, I 127 00:09:32,160 --> 00:09:39,120 actually have a theory that these more modern fittings might not hold up as 128 00:09:36,080 --> 00:09:40,560 well. Yeah, same. A, this tubing, while 129 00:09:39,120 --> 00:09:45,600 it's really good for preventing evaporation, is actually a little bit 130 00:09:42,399 --> 00:09:47,120 more slick on the outside. And B, I feel 131 00:09:45,600 --> 00:09:51,200 like a lot of water cooling manufacturers have gone away from those 132 00:09:49,360 --> 00:09:55,040 old school bits powers that were just raw, rugged clamping force, and they're 133 00:09:53,279 --> 00:09:58,959 more about the looks. Like, I don't know if this reservoir is going to hold 134 00:09:56,720 --> 00:10:03,200 Corsair. How's that even attached? Here's the thing. Just because our 135 00:10:00,800 --> 00:10:07,600 pressure gauge goes up to 200 PSI doesn't mean that that's where our fire 136 00:10:04,800 --> 00:10:15,320 truck stops. Alex, what'll she do? I think it'll go up to 400. Let me check. 137 00:10:11,600 --> 00:10:18,680 So, we're putting a blast shield in 138 00:10:15,320 --> 00:10:21,279 place. Well, it is 139 00:10:18,680 --> 00:10:25,040 bright. It's just that the blacks are also 140 00:10:22,440 --> 00:10:30,880 bright. Like probably brighter than most other monitors that we use. 141 00:10:27,440 --> 00:10:34,560 We're getting about 46 to 47° on the GPU 142 00:10:30,880 --> 00:10:36,320 and about 6263 on the CPU. Let's see 143 00:10:34,560 --> 00:10:40,079 what happens when we dramatically increase our water flow. This may be the 144 00:10:38,480 --> 00:10:43,839 most pointless thing we've ever done. Are we just leaving this system running 145 00:10:41,600 --> 00:10:47,040 and just swapping the coolant live? I guess so. I mean, the valve is closed on 146 00:10:45,680 --> 00:10:51,240 this. So, theoretically, you just open her and we're good to go for the beans. 147 00:10:51,760 --> 00:10:59,760 Woo! Give me 150. You want one? You want to start at 150? Yeah, cuz I can adjust 148 00:10:57,440 --> 00:11:05,000 it with the valve. How's our tent? Okay. Very high. Oh, 149 00:11:01,480 --> 00:11:10,640 god. Okay, here comes some water, 150 00:11:05,000 --> 00:11:12,880 boys. Okay. All right. We're now at 36°. 151 00:11:10,640 --> 00:11:18,079 Okay. So, temps are good. Okay. So, here's pretty typical water cooling, you 152 00:11:15,519 --> 00:11:25,440 know, flow. Uh well, this is a little on the high side. We're at about uh 10 153 00:11:21,640 --> 00:11:26,880 PSI. Oh my god, why am I back here? 154 00:11:25,440 --> 00:11:32,640 Literally, what is the point of a blast shield if I am behind 155 00:11:29,000 --> 00:11:34,399 it? Okay. All right. There's 50. Oh 156 00:11:32,640 --> 00:11:38,480 jeez. She's leaking. Can I get a zip tie? She's leaking. She's What? She's 157 00:11:36,399 --> 00:11:44,240 leaking. What do you mean she's leaking already? Yeah. What a piece of crap. 158 00:11:42,720 --> 00:11:47,279 Okay, that's at least partially our fault for leaving a plastic fitting in 159 00:11:45,760 --> 00:11:53,839 here. Is that where it leaked? Yeah, from there. Oh, this piece piece of 160 00:11:50,720 --> 00:11:55,360 first gen Corsair water blocks. I 161 00:11:53,839 --> 00:12:00,240 remember calling them out on this and they were like, "No, no, it's really good." And I was like, "No, it's not." 162 00:11:58,959 --> 00:12:06,839 And they were like, "We felt you were very unfair." And I was like, "No, I wasn't. Let's go get the emergency just 163 00:12:04,240 --> 00:12:10,600 in case we need a more hardcore machine machine." We'll let this thing dry out. 164 00:12:09,040 --> 00:12:18,440 It should be fine, by the way. Should be fine. Meet Big Bertha. Oh god, we used a 165 00:12:14,560 --> 00:12:21,120 Corsair block again. Oh jeez, we 166 00:12:18,440 --> 00:12:25,440 did. That might be bad. You can really see that other than that Corsair block, 167 00:12:23,519 --> 00:12:29,760 uh, which might be better. It is a newer one. 168 00:12:26,600 --> 00:12:32,079 Um, this is pretty robust. We're using 169 00:12:29,760 --> 00:12:35,839 pressure rated hose this time. We're using server barbs that are generally 170 00:12:34,079 --> 00:12:39,680 designed to have hose clamps on them. And then we're using Yeah, there you go. 171 00:12:37,760 --> 00:12:43,440 And we're using worm drive hose clamps because working with these ones is kind 172 00:12:41,680 --> 00:12:47,920 of a pain. The best thing about this system, though, is probably going to be 173 00:12:45,200 --> 00:12:54,399 that flow meter. That thing's gonna be 174 00:12:50,920 --> 00:12:58,160 going. There's the new one. And that 175 00:12:54,399 --> 00:13:00,600 looks a fair bit more robust. Oh, my 176 00:12:58,160 --> 00:13:06,680 confidence level just went up 100 PSI. Hey, let me know when you're 177 00:13:04,600 --> 00:13:10,000 ready. We're ready to 178 00:13:10,120 --> 00:13:14,720 slow. This scares me every time. We 179 00:13:13,200 --> 00:13:18,560 pulled out the radiator. Had a little issue there, but now we're good to go. 180 00:13:16,560 --> 00:13:22,000 Oh, we got our flow meter and let's get our screen cap set up and get this thing 181 00:13:20,160 --> 00:13:26,720 running. I feel good about this. On the CPU, we've got an all metal block. So, 182 00:13:25,279 --> 00:13:30,639 that means the screws on the underside are threaded right into metal. And on 183 00:13:28,560 --> 00:13:35,200 the GPU, we've got an acrylic block. But man, this is one of the thuggest looking 184 00:13:33,360 --> 00:13:38,200 acrylic blocks I've ever seen. It's so thick. 185 00:13:40,800 --> 00:13:47,519 We have a different GPU now, so it's not an applesto apples comparison, but this 186 00:13:44,880 --> 00:13:56,800 is a 450 watt GPU, and it's currently running at uh about 60°. 187 00:13:51,959 --> 00:13:59,440 Okay, 100 PSI. Oh my goodness. You can't 188 00:13:56,800 --> 00:14:07,600 even see the blades moving in this flow monitor. It's just a blur. We're at 189 00:14:03,440 --> 00:14:10,399 freaking 35° on the GPU. See, the die on 190 00:14:07,600 --> 00:14:16,320 the GPU is so big that your bottleneck for thermal transfer actually is the 191 00:14:13,760 --> 00:14:20,880 block to the coolant rather than the die to the block. Like you see the CPU 192 00:14:18,079 --> 00:14:25,959 stopped going down. We're at 42. I mean, it went down a little, but we can bring 193 00:14:23,279 --> 00:14:32,519 this GPU down to damn near the ambient temperature just by hooking our PC up to 194 00:14:28,720 --> 00:14:37,480 a truck. That's all you had to do. 195 00:14:32,519 --> 00:14:42,399 Wow, it seems so obvious now. 196 00:14:37,480 --> 00:14:46,880 Woo! Let's go. All right. 150. How we 197 00:14:42,399 --> 00:14:49,320 doing, brother? Is our GPU at 26°? 198 00:14:46,880 --> 00:14:54,880 I had Alex put some fresh water in the tank. This may have thrown our results 199 00:14:51,920 --> 00:14:59,839 off a little bit, but my god, it's working good. And yet, the CPU is still 200 00:14:57,920 --> 00:15:04,320 locked. 33° is not what I would consider lock. 201 00:15:02,639 --> 00:15:07,920 Oh, I mean, yeah, that's fair. That's fair. 202 00:15:05,760 --> 00:15:12,720 Whoa. Is the tubing starting to bulge? Are things leaking? Holy crap. I think 203 00:15:10,320 --> 00:15:18,240 things are leaking. It's like dripping. Where is it leaking? 204 00:15:15,360 --> 00:15:26,120 Oh crap. The GPU block is leaking. Wait, the GPU block? 205 00:15:21,160 --> 00:15:29,519 Yeah. Is it Bode? I think it's Bow, 206 00:15:26,120 --> 00:15:31,360 Alex. Whoa, buddy. Yeah, you can see it. 207 00:15:29,519 --> 00:15:35,920 Yeah, it's bode. I mean, I guess that's what 150 PSI will do for you. At this 208 00:15:34,560 --> 00:15:42,000 point, do you just turn off the system and see what you'll take? 209 00:15:38,680 --> 00:15:46,160 No. The people came here to see it run. 210 00:15:42,000 --> 00:15:50,800 Let's see what temps we can get. 200. 211 00:15:46,160 --> 00:15:53,279 200. It's at 200, boys. Oh my god. The 212 00:15:50,800 --> 00:15:58,240 GPU looks okay now. Wait, it didn't even go down anymore. 213 00:15:55,680 --> 00:16:02,480 At 30C. Yeah, that's probably just the temperature of the water. Yeah, the 214 00:16:00,079 --> 00:16:07,199 temperature is going up. Also, the GPU blocking might have something to do with 215 00:16:04,639 --> 00:16:12,000 it. Oh, I wonder if it's not flowing through the fins as much. 216 00:16:10,079 --> 00:16:15,880 It's probably shortcutting this impinchment jet. That makes sense, dude. 217 00:16:15,040 --> 00:16:19,920 That's crazy. 250. Let's 218 00:16:20,360 --> 00:16:28,320 go. My gauge only goes to 200, 219 00:16:25,639 --> 00:16:34,680 so I'm just going to open her up. Alex says it's at 250. I'm gonna hope this 220 00:16:30,800 --> 00:16:34,680 gauge doesn't blow up. 221 00:16:36,160 --> 00:16:44,040 Oh, it's leaking a lot. What? 222 00:16:40,240 --> 00:16:44,040 Oh 223 00:16:52,880 --> 00:17:00,880 Did you kill the computer? Woo. 224 00:16:57,199 --> 00:17:03,440 Oh wow, she failed hard. Okay, to be 225 00:17:00,880 --> 00:17:08,079 clear, we're not criticizing EK. Not for this anyway. I mean, we were well over 226 00:17:05,360 --> 00:17:11,360 200 PSI. Probably like 230, 235. I didn't have it open all the way yet. And 227 00:17:09,760 --> 00:17:14,559 also like our gauge doesn't go that high anyway. Yeah. So, we're guessing. We're 228 00:17:12,959 --> 00:17:18,079 guessing. We're flying blind. I guess bottom line, it's just a matter of the 229 00:17:16,000 --> 00:17:21,280 materials and surface area, which you know what? That other one that had like 230 00:17:19,679 --> 00:17:28,000 twice as thick acrylic probably would have done better. The issue was just that that car ended up not working. So, 231 00:17:25,600 --> 00:17:33,880 dude, and the metal CPU block didn't give any cares. And this thicker acrylic 232 00:17:30,799 --> 00:17:36,400 flow meter, dude, this thing cared about 233 00:17:33,880 --> 00:17:41,039 nothing. I think part of it is that the screws on this one are secured into 234 00:17:38,160 --> 00:17:46,000 metal into a metal face plate. So, that probably helps quite a lot. Just like it 235 00:17:43,840 --> 00:17:54,160 helps to tell you about our sponsor. I mean, AMD. Oh, yeah. Right. AMD. Hey. 236 00:17:49,360 --> 00:17:56,080 Hey. The AMD CPU did fine and survived 237 00:17:54,160 --> 00:18:00,080 probably. If you guys enjoyed the vibe of this video, you might like the one 238 00:17:57,440 --> 00:18:05,440 where we hooked up an array of uh lithium polymer batteries to this like 239 00:18:02,480 --> 00:18:10,559 bizarre turbine fan. And you might also enjoy checking out our sponsor AMD. Uh 240 00:18:08,080 --> 00:18:17,120 Alex actually, I know, right? Just switched over to the Ryzen AI Max. What 241 00:18:12,960 --> 00:18:20,799 is it? The 395. Max Plus Pro 395. This 242 00:18:17,120 --> 00:18:22,880 thing is sick. It's insane. Like 243 00:18:20,799 --> 00:18:29,919 investment disclosure and framework, but damn, this ebook. Damn, it's so good. Go 244 00:18:27,520 --> 00:18:29,919 AMD.