WEBVTT

00:00:00.400 --> 00:00:06.319
So, at like midnight a couple weeks ago,

00:00:03.919 --> 00:00:11.519
I just got a link from Lionus that says, "Please buy put in the B ideas list."

00:00:08.880 --> 00:00:17.920
Okay, but hold on. Hold on. How irresistible is this thing? Okay, now

00:00:15.120 --> 00:00:25.199
here in North America, typically our AIO liquid coolers connect to a CPU or a

00:00:20.800 --> 00:00:30.000
GPU. This one connects to both. And it's

00:00:25.199 --> 00:00:32.480
got great features like comet tail LED

00:00:30.000 --> 00:00:37.520
designed with two high water flow pumps. Take heat away from hot spot and moves

00:00:34.800 --> 00:00:42.000
to radiator. This one is going to be a good one, ladies and gentlemen.

00:00:40.079 --> 00:00:45.360
And today's video is brought to you by GlassWire. With Glasswire, you can

00:00:43.920 --> 00:00:48.879
instantly see your current and past network activity, detect malware, and

00:00:47.120 --> 00:00:55.280
block badly behaving apps on your PC or Android device. Use offer code Linus to

00:00:50.800 --> 00:00:55.280
get 25% off at the link below.

00:01:00.079 --> 00:01:05.519
So, should we just start with the unboxing here? Yeah, might as well. We have this

00:01:03.760 --> 00:01:08.720
beautiful computer over here. Yeah, the computer is a total misfit for

00:01:07.439 --> 00:01:12.000
this thing cuz I think this thing's going to be kind of junky. I don't know how beautiful it should be

00:01:11.520 --> 00:01:17.600
by the end. How much did we pay for this?

00:01:14.640 --> 00:01:23.200
It was it was quite a bit. Uh, so from like the US, you're able to get it for

00:01:19.920 --> 00:01:24.960
like 150 160 bucks thereabouts. That's

00:01:23.200 --> 00:01:28.159
competitive. Um, especially because you're just buying one of them instead

00:01:26.880 --> 00:01:32.079
of, you know, two of them if you wanted to use AIO's. Yeah. Getting one of them shipped to

00:01:31.040 --> 00:01:37.280
Canada cost us a fine $260.

00:01:35.119 --> 00:01:39.759
Oh, seriously? I hate it when that happens.

00:01:38.960 --> 00:01:46.479
Yeah. All right. So, let's have a look at this thing. It's actually

00:01:43.439 --> 00:01:49.360
kind of clever. So, you get some savings

00:01:46.479 --> 00:01:53.920
because you only need a single radiator. Um, but then you negate some of your

00:01:51.759 --> 00:01:59.520
savings because they actually went and put two pumps in the thing. So, this one

00:01:56.960 --> 00:02:03.439
is designed, I guess, to go in either the front of your case, maybe hopefully.

00:02:01.840 --> 00:02:07.360
I don't know if that's going to reach or the top. And then this one is supposed

00:02:05.520 --> 00:02:11.680
to go down to your GPU. Wow, the spacing is Yeah, there's not a lot there.

00:02:09.200 --> 00:02:16.080
Pretty tight, actually. And then this one's cute. So, I've actually seen these

00:02:14.319 --> 00:02:21.520
kinds of mods before. It's got what looks like a pretty standard AIO block

00:02:19.280 --> 00:02:26.160
and pump unit. And then it's just got this uh cooling fan shroud that's

00:02:24.080 --> 00:02:29.440
attached to it with the idea being that you don't need a full coverage cooling

00:02:27.680 --> 00:02:34.800
solution cuz this is going to cool your VRM and your RAM. Honestly speaking,

00:02:32.160 --> 00:02:39.120
other than committing one of my favorite sins, which is to have a fan that the

00:02:37.599 --> 00:02:46.720
frame doesn't seal against the edge of the radiator. Oh yeah. So like it just it kills your pressure.

00:02:43.440 --> 00:02:49.599
Um, there's no obvious deficiencies in

00:02:46.720 --> 00:02:53.599
like materials quality that I can see. Yeah. The only thing that I'd say is

00:02:50.879 --> 00:02:56.400
this radiator is kind of small for a CPU and a GPU.

00:02:54.720 --> 00:03:01.760
A triple would have probably been better. Yeah, they did actually show off a

00:02:58.239 --> 00:03:03.120
triple at CES, but it never came to

00:03:01.760 --> 00:03:07.519
actually exist. So, Oh, there you go.

00:03:05.040 --> 00:03:13.200
Oh, boy. Um, silicone heat sink plaster.

00:03:10.640 --> 00:03:18.480
What is heat sink plaster? Whatever it is, I think it involves putting these

00:03:15.519 --> 00:03:23.120
little memory chip coolers onto our card possibly permanently.

00:03:20.080 --> 00:03:24.800
Oh, I feel bad for that 1070 then.

00:03:23.120 --> 00:03:28.480
Well, we wouldn't be having the whole experience if we didn't follow the

00:03:27.519 --> 00:03:32.000
instructions. Should be pretty easy. Theoretically, yes. Are we AMD or Intel

00:03:31.760 --> 00:03:38.080
here? Intel. Do you want to talk us through if there's any other amazing features while

00:03:35.360 --> 00:03:45.040
I go ahead and power this down? Uh, so maybe my personal favorite is TDP

00:03:41.760 --> 00:03:47.440
400 watts Intel platform, 350 watts AMD

00:03:45.040 --> 00:03:53.040
platform. Not sure where those extra watts come from for Intel, but uh, sure.

00:03:50.239 --> 00:03:56.319
Let's see what else we have in here. Nope. The details. It's just a couple

00:03:54.640 --> 00:04:00.239
pictures. Uh, do you know for sure that this is

00:03:57.920 --> 00:04:04.640
booted? Cuz I pressed it and it's not shutting down.

00:04:02.080 --> 00:04:09.519
Uh, I don't know. Well, in our convenient and fancy new

00:04:07.920 --> 00:04:18.120
workshop, got to move this water bottle out of the way, ltstore.com. Fortunately,

00:04:13.760 --> 00:04:18.120
we have a very easy way to check.

00:04:21.440 --> 00:04:26.160
Should wake up when you plug in a new thing. There we go.

00:04:24.479 --> 00:04:29.919
Oh, heck yeah. All right. In terms of mounting hardware, honestly, it doesn't

00:04:28.080 --> 00:04:36.880
look that much more complicated than any other AIO. The one challenge is that in

00:04:32.960 --> 00:04:40.720
addition to your CPU mounting hardware,

00:04:36.880 --> 00:04:43.040
right, you've also got a whack of

00:04:40.720 --> 00:04:49.680
graphics card mounting hardware. All right.

00:04:49.680 --> 00:04:56.160
Uh, I'm going to do the radiator to start with. Then I get Wait, what? No,

00:04:53.600 --> 00:05:00.880
we have to like Oh, what is the best way to tackle this? I guess you kind of have

00:04:58.320 --> 00:05:04.639
to mount the GPU to this first. Oh yeah.

00:05:01.919 --> 00:05:09.039
And then you like mount this in the case and then this to the CPU.

00:05:06.960 --> 00:05:16.000
They should they should clarify that cuz Wait, what the hell?

00:05:12.639 --> 00:05:18.800
It only has a CPU guide. You're on your

00:05:16.000 --> 00:05:22.560
own for the graphics card. Is there another piece of documentation I missed?

00:05:21.039 --> 00:05:25.600
Yeah, the uh downloads page on their website's really helpful, too. Oh. Oh, good.

00:05:24.479 --> 00:05:29.280
Yeah. Okay. Literally nothing there. Um, all right.

00:05:27.520 --> 00:05:38.240
Let's figure out the GPU first, then I guess. Unreal.

00:05:38.240 --> 00:05:43.919
Do you ever feel like NVIDIA's stock coolers are just unnecessarily difficult

00:05:42.880 --> 00:05:48.400
to take apart? Yep. And rip.

00:05:46.639 --> 00:05:52.320
One. No. Sure. So, I had the back plate. Um, hopefully

00:05:50.639 --> 00:05:56.479
you weren't looking for that. Isn't this great? Check this out. We

00:05:54.000 --> 00:06:02.240
already have a hardware destroying problem.

00:05:58.400 --> 00:06:05.039
This right here interferes.

00:06:02.240 --> 00:06:07.520
Oh, yep. That's a bit That's a bit of a zapper.

00:06:05.680 --> 00:06:11.440
Well, they include fiber washers to deal with that. The problem is just that

00:06:09.280 --> 00:06:14.000
there's no spacers, so it would crush this thing.

00:06:12.560 --> 00:06:18.000
So, I guess what I was thinking is, do we even need this? Um, we should use one.

00:06:16.960 --> 00:06:25.840
Well, but we can still just put the other back plate on and no one will even notice. But we could just use the back

00:06:22.319 --> 00:06:27.440
plate now that I have spacers,

00:06:25.840 --> 00:06:32.000
I guess. So, why do you hate my back plate?

00:06:29.440 --> 00:06:34.960
Basically, we just need to put this puppy on now then, right?

00:06:33.520 --> 00:06:38.479
Yeah. Should we install all the little heat sink chummies first?

00:06:36.960 --> 00:06:44.000
It seems like a good idea. You got the alcohol? Uh, yep.

00:06:42.080 --> 00:06:47.919
I'm afraid to put that paste on this thing. Are we really doing this?

00:06:47.039 --> 00:06:52.080
Yep. Screw it. Fine.

00:06:50.400 --> 00:06:54.720
I'm glad you grabbed a 1070 and on like an RTX 2080 Ti or something stupid like

00:06:54.240 --> 00:07:00.759
that. I was kind of concerned that it just might not work like it should.

00:07:02.000 --> 00:07:08.960
I'm pretty concerned about these. They don't really seem to be on there that much. Yeah, but I think this is glue,

00:07:07.280 --> 00:07:14.160
I guess. So, it doesn't say anything about like how long it takes to adhere

00:07:12.400 --> 00:07:19.759
or anything. We're flying blind. Sure.

00:07:16.319 --> 00:07:21.440
Oh, here's some random thermal compound.

00:07:19.759 --> 00:07:24.720
Realistically, it's probably about the same as everything else.

00:07:23.199 --> 00:07:27.720
So, we'll cover the GPU. Yep.

00:07:28.240 --> 00:07:32.400
And this is it then, right? Uh, should we put the thingies in there

00:07:32.000 --> 00:07:36.960
first? Oh, yeah. Yeah, definitely.

00:07:35.280 --> 00:07:41.080
Okay. So, that seems fine, right? Yep. Okay.

00:07:42.160 --> 00:07:45.160
Oops.

00:07:46.160 --> 00:07:51.960
Sure. Okay. It's a thing.

00:07:52.240 --> 00:07:57.440
It's something. Wouldn't it just be beautiful if one of

00:07:55.520 --> 00:08:03.520
those heat sinks just popped off and shorted it out?

00:07:58.960 --> 00:08:05.680
No. Okay, now we need our nylon spacers

00:08:03.520 --> 00:08:09.240
that I obtained for us. Look, I even got four matching ones.

00:08:10.479 --> 00:08:17.039
And there we go. No interference issue. Nice.

00:08:15.599 --> 00:08:21.360
It's too bad the instructions didn't have anything about this. Otherwise, uh,

00:08:19.599 --> 00:08:25.680
more people might not destroy their graphics card. Well, I've seen uglier

00:08:23.919 --> 00:08:30.160
graphics cards. Not often. Yeah, I've seen prettier ones a couple

00:08:28.560 --> 00:08:36.640
seconds ago. Okay. Well, that's it. That's the GPU.

00:08:32.320 --> 00:08:38.000
So, now we got to like put it in.

00:08:36.640 --> 00:08:42.159
This is This is actually going to be a twoerson job

00:08:40.240 --> 00:08:46.080
cuz like otherwise it's going to be all over the place.

00:08:44.399 --> 00:08:51.800
All right. Oh jeez, these fans are like wired right

00:08:48.399 --> 00:08:51.800
into the case.

00:08:57.920 --> 00:09:04.320
Holy crap, Alex. Oh jeez. What happened there?

00:09:01.760 --> 00:09:06.640
You left the wi the window open and it it was heavy enough it just

00:09:05.839 --> 00:09:12.399
tipped it. That could have been unfortunate.

00:09:09.440 --> 00:09:17.839
Okay. So, the good news is that our concerns about the tubing lengths seem

00:09:15.120 --> 00:09:21.760
to be completely unfounded. You know what? I'd say going towards the

00:09:19.600 --> 00:09:25.680
front is what they intended. I like that look more anyway.

00:09:24.640 --> 00:09:30.640
All right. So, do you want me to hold the fans in place? Yep.

00:09:29.360 --> 00:09:36.880
Is that like anywhere close? Yep. You're close. Thank you. All right. So, I think this is as simple

00:09:34.399 --> 00:09:41.600
as they have just cloned the regular ASItech mounting system and I can just

00:09:39.920 --> 00:09:43.600
pop these bad boys on here and we're pretty much ready to rock.

00:09:42.959 --> 00:09:49.120
Perfect. In case you guys were wondering why this thing is not typically available in

00:09:47.360 --> 00:09:55.120
North America, that would be my guess. ASET has a North American patent on

00:09:51.600 --> 00:09:58.399
these uh CPU block and pump combo units

00:09:55.120 --> 00:10:00.560
like this. And I can guarantee you these

00:09:58.399 --> 00:10:03.200
guys are not paying the licensing fee. If ASICH even offers that RAM. I don't

00:10:02.640 --> 00:10:07.440
know if they do. I wonder if that Noctua compound that we had left over would have been better

00:10:06.320 --> 00:10:13.760
than what they have. Probably here. I can hold this. And I can put the

00:10:11.519 --> 00:10:18.720
mounting mechanism on it, too. All right. It really is not the greatest

00:10:16.240 --> 00:10:22.959
looking mounting mechanism. And actually, they didn't straight up clone

00:10:20.399 --> 00:10:28.160
the ASIC system because there's no way to kind of rotate it for the most

00:10:25.360 --> 00:10:32.880
optimal tubing runs. But the good news is that it did fit in our case just

00:10:30.399 --> 00:10:36.560
fine. Um, it's putting a little bit more strain on this tube and this memory

00:10:34.800 --> 00:10:39.839
stick than I'd like, but not the end of the world. Yeah, whatever. Do I have your

00:10:38.480 --> 00:10:44.000
permission to throw this piece of paper towel off out? No, just leave it here. And then if we

00:10:42.560 --> 00:10:50.079
need to wipe off more thermal compound, we'll have it. Don't waste. So, that's

00:10:47.440 --> 00:10:56.320
it. It's on. I'm stoked. So, I'm going to plug this into our AIO pump header.

00:10:52.880 --> 00:10:59.760
So, I will plug the two. Man, I just I

00:10:56.320 --> 00:11:03.600
love how perfect all the fan header

00:10:59.760 --> 00:11:06.240
spots are for this system. It's amazing.

00:11:03.600 --> 00:11:11.680
Like, I've got CPU fan, CPU opt for my radiator fans. I've got AIO pump over

00:11:09.120 --> 00:11:16.320
here. I've got chassis fan over here for this one. And then I've got W pump over

00:11:14.079 --> 00:11:19.760
here for this pump. It's amazing. It's amazing. And it's ready to rock. You

00:11:19.040 --> 00:11:22.959
ready? Yeah. All right. Moment of truth. Do it. Hit

00:11:22.240 --> 00:11:29.640
it. I'm ready. Is the power supply on? I don't know. Yeah. No. Yes. Yeah.

00:11:30.160 --> 00:11:33.920
Okay. The RGB lighting is pretty uh it's

00:11:33.360 --> 00:11:41.360
there. Is it RGB or is it just R? It's not configurable at all. There's no

00:11:39.600 --> 00:11:45.920
USB. It's just like that for days.

00:11:43.760 --> 00:11:51.279
Well, but Lionus, the Cometail LED design adds to the visual enjoyment.

00:11:49.760 --> 00:11:55.680
All right. Well, yeah. I don't know about you, but I'm enjoying it visually

00:11:53.440 --> 00:12:01.200
right now. It's like a feast for the eyes, especially with these Royale dims.

00:11:58.320 --> 00:12:06.079
Nice touch. Love it. All right, so what were we using for our stress test today?

00:12:04.160 --> 00:12:13.360
So, we did Blender, we did Firmark, and we did 3D Mark. So, in this before,

00:12:09.839 --> 00:12:15.600
after 10 minutes, we got to

00:12:13.360 --> 00:12:20.560
uh we're already at 71°. Okay, so we got to a max of 79° after 10

00:12:18.720 --> 00:12:23.839
minutes. What was our clock speed though? I'm not sure what the clock speed was.

00:12:22.160 --> 00:12:29.200
We're doing 100 FPS. So, we're at 75° already, but we're at

00:12:26.800 --> 00:12:31.519
107 FPS. So, it is still turboing higher.

00:12:29.839 --> 00:12:37.120
Oh, I wonder if part of the problem is that we're not controlling like the pump

00:12:34.160 --> 00:12:40.720
speed of the GPU with the GPU temperature.

00:12:38.240 --> 00:12:43.760
It shouldn't matter. The pump should just go ham. That's what those pump

00:12:42.320 --> 00:12:49.200
headers are supposed to do. Should we just put them to full blast? It's definitely spinning. No, it's at

00:12:47.760 --> 00:12:56.399
81° now. Well, that's it. It's going to start thermal throttling now. 104 FPS. How can

00:12:53.440 --> 00:12:59.760
it be that bad? Let's just double check it in the BIOS.

00:12:57.839 --> 00:13:02.880
Let's go back. Set all the pumps to just full blast. And

00:13:00.959 --> 00:13:06.800
I mean, it happens so fast. It can't be a fan issue. It would have to be a pump

00:13:04.639 --> 00:13:11.440
issue. But like, it's not bad enough that like,

00:13:10.160 --> 00:13:17.680
you know, it's clearly not doing anything.

00:13:13.760 --> 00:13:17.680
How could it be so terrible?

00:13:17.760 --> 00:13:23.440
Holy crap. Did we just break a graphics card?

00:13:20.880 --> 00:13:26.720
There's no way. Uh, there is a way.

00:13:25.200 --> 00:13:30.560
Well, there is a way, but I just don't even get it. This thing

00:13:28.880 --> 00:13:34.320
would have to be basically a flat piece of copper to be this bad.

00:13:32.399 --> 00:13:36.639
Well, a flat piece of copper at least wouldn't break your GPU, probably.

00:13:35.839 --> 00:13:40.720
I mean, the cooling Oh, we're back. Okay. Well, the cooling

00:13:39.040 --> 00:13:45.360
Thank god. The cooling fan for the back of the card

00:13:42.320 --> 00:13:50.480
is doing its job for the most part.

00:13:45.360 --> 00:13:52.160
Okay. AIO pump 2,000 RPM. Oh, yeah. Wump

00:13:50.480 --> 00:13:56.880
Plus cranked. Okay.

00:13:55.120 --> 00:14:01.040
All right. How about Blender then? Which render did you run? Uh, we did classroom.

00:13:59.519 --> 00:14:04.320
What processor are we even running in here? Uh, 7900X.

00:14:03.920 --> 00:14:09.839
Okay. So, 10 cores. So, last time with the

00:14:07.440 --> 00:14:15.040
Noctua, the CPU temperature was a max of 70°, which that was after like 8 or so

00:14:13.040 --> 00:14:21.440
minutes. But this really isn't looking that bad. So, blender just finished. Uh,

00:14:18.240 --> 00:14:22.320
we got a max of 70°.

00:14:21.440 --> 00:14:27.680
That's not bad. Yeah, that's exactly the same as this small cooler. That's $100 less.

00:14:26.320 --> 00:14:33.279
I mean, where we really run into trouble, though, is if we were to try

00:14:29.600 --> 00:14:37.040
and hit the GPU and the CPU at the same

00:14:33.279 --> 00:14:38.959
time. Oh, the GPU is at 70° already.

00:14:37.040 --> 00:14:45.360
Yep. How can it be so at least mostly

00:14:42.160 --> 00:14:47.040
sufficient on the CPU and so far off on

00:14:45.360 --> 00:14:50.240
the GPU? Doesn't make sense.

00:14:48.480 --> 00:14:54.160
Should we just try remounting it? Like I can't think of anything else that would

00:14:52.560 --> 00:14:58.639
like are we just missing part of the die? Do you want to try remounting it?

00:14:57.360 --> 00:15:02.880
Like it can't hurt. Okay, I'm going to go set up Wancho

00:15:01.600 --> 00:15:07.760
while you do that then. So, it does look like that we missed a

00:15:05.040 --> 00:15:13.680
bit of the die here. So, I am going to try and fix that. I still don't know if

00:15:10.880 --> 00:15:18.639
that's enough to really cause us a problem. All right. So, not all of the

00:15:16.000 --> 00:15:19.839
GPU die was covered in paste. So, maybe that was our issue.

00:15:19.519 --> 00:15:23.760
Okay. Right now at it's at 31°,

00:15:22.639 --> 00:15:28.320
that's what we'd expect with good contact. So, let's just hit it and see what

00:15:26.000 --> 00:15:32.320
happens. 45 50 512.

00:15:30.959 --> 00:15:36.959
So, was that it? Yeah, it might have just been poor contact.

00:15:34.560 --> 00:15:41.839
Nice. This it's run for like 10 minutes or something. Find out if it actually

00:15:38.240 --> 00:15:43.199
does better than stock. 10-minute timer.

00:15:41.839 --> 00:15:50.959
You know, I got to say I'm actually pretty impressed. Yeah, we got what was it? A maximum of

00:15:47.279 --> 00:15:52.480
66° in firm mark after it's been running

00:15:50.959 --> 00:15:56.560
for like 30 minutes. And when I didn't have a blender render

00:15:54.639 --> 00:16:01.360
running in the background, we got 106 FPS, which is more important. That tells

00:15:58.800 --> 00:16:04.880
us that our GPU is actually turboing higher with this cooler than it was with

00:16:03.360 --> 00:16:09.360
the stock cooler. Now, our CPU is running a bit hotter

00:16:07.279 --> 00:16:13.440
when you're hitting both the CPU and GPU at the same time, but at 75° on a what

00:16:12.000 --> 00:16:20.079
is this? A seen X, Y, that's pretty reasonable for a 10 core,

00:16:17.360 --> 00:16:25.680
not particularly efficient CPU. So overall, bad instructions, significant

00:16:23.279 --> 00:16:33.040
risk of damaging or destroying your hardware, but for 160 bucks compared to,

00:16:30.800 --> 00:16:36.000
you know, say buying like a regular just CPU AIO.

00:16:34.880 --> 00:16:39.600
Yeah, not bad. Is it getting the seal of approval?

00:16:38.480 --> 00:16:43.839
I don't know if it gets a recommendation, but it gets the like if

00:16:42.480 --> 00:16:46.639
if it fits, it sits. If you're like kind of edgy with your

00:16:45.759 --> 00:16:52.000
computer, yeah, it's actually not bad. I mean, I wouldn't I wouldn't overclock the CPU or

00:16:50.320 --> 00:16:56.399
anything. This is for stock operation and it's not particularly quiet or

00:16:53.920 --> 00:16:59.839
anything, but it does make your GPU go faster. I mean, maybe you'd just be

00:16:57.759 --> 00:17:04.160
better off getting a GPU AIO and then a CPU heatsink. Well, but also if you have like an i5,

00:17:02.480 --> 00:17:07.199
like the overclockable one, you could chuck that on there.

00:17:05.679 --> 00:17:10.640
Yeah, might be able to get a bit. You could overclock the GPU.

00:17:09.280 --> 00:17:15.199
So, I wouldn't recommend overclocking the CPU. And for the money, you might be

00:17:13.439 --> 00:17:23.360
better off just getting a heat sink and then a GPU only AIO. But hey, if you

00:17:19.760 --> 00:17:25.039
want to be water cooled on a budget, it

00:17:23.360 --> 00:17:28.960
is not as stupid as we thought it might be. Yeah, not bad.

00:17:27.039 --> 00:17:32.720
Speaking of not stupid, our sponsor for today's video, Squarespace. Squarespace

00:17:30.799 --> 00:17:37.360
is our sponsor for today's episode. And Squarespace makes it easy for anyone to

00:17:35.520 --> 00:17:41.600
build their own functional, beautiful website. We use it for both ltxo.com and

00:17:40.000 --> 00:17:44.720
linusmedi.com. And you'll find that no matter what

00:17:43.200 --> 00:17:48.720
you're trying to build, Squarespace has got a template for you. If you need

00:17:46.640 --> 00:17:53.280
help, Squarespace offers webinars, a full series of help guides, or you can

00:17:50.400 --> 00:17:56.400
even contact their support 24/7 via live chat and email. But don't take my word

00:17:55.039 --> 00:18:00.240
for it. Try it out for free at squarespace.com/LTT.

00:17:58.559 --> 00:18:03.200
If you use our link, you'll get 10% off your first purchase. If you enjoyed this

00:18:02.080 --> 00:18:07.679
video, guys, and you're looking for another crazy cooling video with Alex,

00:18:06.080 --> 00:18:11.039
um, what's that thing called? Thermal.

00:18:09.280 --> 00:18:14.640
Thermal. That was you. Oh, yeah. Thermosiphon was new, but I was thinking

00:18:12.320 --> 00:18:18.320
the one where Colin put a CPU cooler on the GPU. Oh, yeah. That one's good, too. Uh,

00:18:16.720 --> 00:18:22.720
that's Oh, that's actually a cheaper way to get great cooling on both. Whatever.

00:18:21.200 --> 00:18:26.160
Check it out. I'll throw the thermal siphon down there, too.

00:18:24.799 --> 00:18:29.520
And I'm gone. To the W show.