WEBVTT

00:00:00.240 --> 00:00:05.680
okay so where are we at with this so we just finished up like a day of

00:00:04.240 --> 00:00:12.639
testing a bunch of different stuff on this with liquid metal and without liquid metal and now we're going to

00:00:10.800 --> 00:00:17.119
put that guy right there on this

00:00:14.000 --> 00:00:19.600
is the world's most unusual water block

00:00:17.119 --> 00:00:24.400
it looks normal on the surface copper on the bottom plexi and metal on the top

00:00:22.240 --> 00:00:31.840
but the secret sauce is it actually replaces the integrated

00:00:28.560 --> 00:00:34.880
heat spreader of your CPU making direct

00:00:31.840 --> 00:00:36.880
contact with the die

00:00:34.880 --> 00:00:44.039
this is madness hopefully

00:00:47.039 --> 00:00:53.120
private internet access is exactly what it sounds like the vpn that encrypts all

00:00:51.280 --> 00:00:57.600
your internet traffic and uses a safe protected ip stay tuned to learn more

00:00:56.239 --> 00:01:02.320
you know what's funny is we're kind of coming full circle here this actually

00:00:59.359 --> 00:01:06.479
reminds me of the danger den tdx so that was a really old block designed

00:01:05.600 --> 00:01:12.080
for back before AMD cpus in particular had

00:01:09.600 --> 00:01:18.400
integrated heat spreaders so the secret sauce here really is just the way that

00:01:15.200 --> 00:01:19.439
nude cnc has designed the base of their

00:01:18.400 --> 00:01:25.200
block in the shape of the underside of an integrated heat

00:01:23.439 --> 00:01:30.000
spreader so you can see this lip right here is designed to be

00:01:28.159 --> 00:01:34.720
sealed onto the substrate

00:01:31.759 --> 00:01:39.119
these right here are designed to be held by the socket retention mechanism and

00:01:37.439 --> 00:01:42.560
then this flat surface right here you can actually see an outline from testing

00:01:41.119 --> 00:01:48.640
they must have done at the factory this is a prototype unit you can see the

00:01:44.799 --> 00:01:50.560
outline of where a die was making

00:01:48.640 --> 00:01:54.159
contact with it before so how's the mounting work first we got

00:01:52.399 --> 00:01:57.439
to de-lit it right yeah well this one's already been deleted not not right now

00:01:55.840 --> 00:02:00.799
obviously but it should come off pretty easily so one of the big ways that

00:01:59.360 --> 00:02:04.479
enthusiasts have been improving temperatures in some cases very

00:02:03.119 --> 00:02:09.759
dramatically over the last few generations is removing the integrated

00:02:07.600 --> 00:02:14.160
heat spreader from the CPU like alex is doing now and replacing the stock

00:02:12.319 --> 00:02:19.120
thermal compound that's in there with something a little more potent either a

00:02:16.080 --> 00:02:22.800
high performance paste or in extreme

00:02:19.120 --> 00:02:24.319
cases even liquid metal but

00:02:22.800 --> 00:02:28.560
the theory here is that nothing

00:02:26.720 --> 00:02:32.400
i guess that's where the name nude cnc comes from yeah

00:02:30.080 --> 00:02:36.640
nothing is better than anything

00:02:33.599 --> 00:02:38.480
so we're removing a full layer of

00:02:36.640 --> 00:02:43.360
thermal interface material and additional metal

00:02:40.000 --> 00:02:46.800
between the water and the dye which is

00:02:43.360 --> 00:02:49.200
where the heat is actually generated

00:02:46.800 --> 00:02:52.800
this is freaking crazy like you look at how

00:02:50.959 --> 00:02:56.879
thin everything we're dealing with is the tolerances for this

00:02:54.800 --> 00:03:01.120
have to be so tight

00:02:58.239 --> 00:03:05.680
which is why we're using a 7700k for our testing rather than an 8700k because as

00:03:03.920 --> 00:03:11.360
far as we know that's what this particular prototype is validated on

00:03:09.360 --> 00:03:16.720
it probably would work for an 8700k though probably but go back a couple of

00:03:14.000 --> 00:03:21.280
generations to when Intel was using a thicker package material

00:03:19.120 --> 00:03:24.800
and maybe not maybe you'd over tighten it which

00:03:22.720 --> 00:03:29.200
i mean look at this thing you don't want to do

00:03:26.560 --> 00:03:33.440
it's as thin as a chip um let's get some liquid metal off of

00:03:31.040 --> 00:03:37.599
this first just for the like nice new application we already put a whole bunch

00:03:35.760 --> 00:03:41.440
of conformal coating on this for everyone that's wondering i'm just gonna

00:03:39.760 --> 00:03:45.280
give it the old shirt treatment here make sure it's nice and clean kids don't

00:03:43.440 --> 00:03:51.840
try this at home certified esd safe yeah so we put this

00:03:48.319 --> 00:03:53.360
in the socket first here we go

00:03:51.840 --> 00:03:56.239
where's our dot i think it's this way

00:03:56.319 --> 00:04:03.040
okay so here you can see what i was talking

00:04:00.720 --> 00:04:08.000
about before where you do need some kind of ihs on it to even hold the CPU in

00:04:05.439 --> 00:04:12.000
place because that's how these mounting mechanisms work see

00:04:10.239 --> 00:04:15.599
there's far too much play in there you won't be making adequate contact between

00:04:13.840 --> 00:04:19.199
the pads on the bottom of the CPU and the pins in the socket there's something

00:04:17.519 --> 00:04:25.600
about german that makes warnings so much more fun

00:04:22.479 --> 00:04:28.080
warning me to lumininium cooler copper

00:04:25.600 --> 00:04:31.919
curtain vernon whereas like the english ones like warning do not use aluminum

00:04:30.479 --> 00:04:37.280
heatsinks all right what's next so we apply this right in the socket

00:04:35.440 --> 00:04:43.479
that's lots hey you can sort of get it in there and then just pull out and

00:04:38.800 --> 00:04:43.479
it'll like deflate it's really weird

00:04:45.919 --> 00:04:52.400
so this is the trickiest part you can see this notch is smaller and

00:04:50.720 --> 00:04:56.639
it's offset compared to the one that's built into the integrated heat spreader

00:04:54.560 --> 00:04:59.120
that is so that you can kind of start it over here

00:04:59.680 --> 00:05:05.120
move it where it will actually be held down

00:05:03.199 --> 00:05:13.360
and then tighten the whole thing down

00:05:07.919 --> 00:05:13.360
this is crazy like that is crazy

00:05:13.520 --> 00:05:17.840
yeah so now i guess we need to drain the sketchy loop

00:05:16.800 --> 00:05:22.080
what so we need to put the fittings in there no no you don't have to drain the loop

00:05:20.639 --> 00:05:26.800
to put in fittings why have you been wasting time in between runs draining

00:05:24.960 --> 00:05:33.919
loops what's wrong with you that is how you break motherboards

00:05:29.600 --> 00:05:37.039
he broke the dual socket c621 sage

00:05:33.919 --> 00:05:40.800
a 700 board there is a crater in the

00:05:37.039 --> 00:05:40.800
socket i don't get oh i see it

00:05:41.759 --> 00:05:47.919
oh my god there's so much water coming out

00:05:45.039 --> 00:05:52.560
how are you going to flip those around water everywhere water evaporates

00:05:50.320 --> 00:05:56.880
do you want to at least pour some out i don't think these are gonna fit

00:05:54.720 --> 00:06:01.759
yeah these don't work oh damn okay i'll get the zip ties

00:06:00.000 --> 00:06:05.680
no you know what we could do is uh yeah

00:06:03.600 --> 00:06:08.560
so we're just gonna go uh no callers on the compression fittings we're just

00:06:06.880 --> 00:06:12.880
going to use compressions as standard barbs fortunately alex is gone right now

00:06:10.800 --> 00:06:16.479
because i'm quite certain he would not approve of what i'm about

00:06:14.479 --> 00:06:19.919
to do i'm just gonna

00:06:17.759 --> 00:06:23.440
go for like a speed mount here oh no water

00:06:21.199 --> 00:06:28.240
yeah yep okay

00:06:25.919 --> 00:06:33.199
and if we go like oh

00:06:30.479 --> 00:06:36.960
i lifted it too high maybe we can fix it before he gets back

00:06:35.280 --> 00:06:40.000
okay hold on you're saying about not draining the

00:06:38.479 --> 00:06:43.280
loop just gotta absorb the water

00:06:43.840 --> 00:06:50.639
where's the power supply right below that below it now it should be fine

00:06:47.520 --> 00:06:52.400
is that going to dissolve the tubing no

00:06:50.639 --> 00:06:55.520
that's not going to touch the tubing i just want it on the board i need to oh i

00:06:54.400 --> 00:07:00.960
don't want it in the block though not really oh it's in the block now okay

00:06:58.639 --> 00:07:05.199
i just need it to carry away the water that's a

00:07:02.080 --> 00:07:07.039
that's an acrylic block so that might ah

00:07:05.199 --> 00:07:09.440
oh i really hope that this all survives

00:07:08.479 --> 00:07:15.360
i'll be right back with an air compressor i settled for this it was a lot lighter

00:07:12.720 --> 00:07:20.960
to bring up the stairs it's about to get really stinky in here

00:07:18.240 --> 00:07:26.000
no no nothing got over that far oh wait yeah maybe a little oh oh yeah

00:07:22.800 --> 00:07:26.000
it's way over there okay cool

00:07:26.319 --> 00:07:31.039
no no you don't have to drink it to put in fittings have you been wasting time

00:07:29.759 --> 00:07:35.120
in between runs draining loops what's wrong with

00:07:32.880 --> 00:07:39.440
you i mean realistically after applying this kind of heat to it it's probably

00:07:36.400 --> 00:07:39.440
drier than it was before

00:07:40.240 --> 00:07:45.759
what are you doing smelling it

00:07:44.160 --> 00:07:50.880
i'm still picking up some alcohol smell here that means it's probably not all evaporated look i wish i had all the

00:07:49.120 --> 00:07:54.080
time in the world to do things carefully and properly it would have been like a

00:07:53.120 --> 00:07:57.280
minute here we go

00:07:56.160 --> 00:08:02.319
dang it hey that really gets the liquid metal going though hey

00:08:00.240 --> 00:08:08.479
yeah i guess it's way more liquidy now yeah so let's put that bad boy on there again

00:08:05.919 --> 00:08:12.920
what could possibly go wrong okay yep it's on there

00:08:10.160 --> 00:08:14.319
okay having learned nothing

00:08:14.319 --> 00:08:19.520
we're just gonna quickly quickly quickly see how we're quickly

00:08:18.240 --> 00:08:23.599
doing that and quickly

00:08:23.599 --> 00:08:28.960
yeah see i told you it would work pro move is

00:08:26.879 --> 00:08:31.840
to tighten it clockwise so that that way you're tightening the barb as you

00:08:30.080 --> 00:08:35.599
tighten your zip tie plug and pump plugging around i got this the right way

00:08:33.440 --> 00:08:40.560
around right yeah okay good i am like legit excited right now

00:08:38.640 --> 00:08:44.159
i am a bit concerned okay let's do it

00:08:42.719 --> 00:08:48.160
does it have the switch yeah that's a memo k switch and oh it's power switch

00:08:45.839 --> 00:08:52.880
okay it's just hiding there it is

00:08:49.839 --> 00:08:54.320
we're gonna find out if it posts

00:08:52.880 --> 00:08:58.000
that that'd be pretty funny hey breaking the board in between all the testing

00:08:59.600 --> 00:09:05.040
there you go all the RAM is picked up see

00:09:03.600 --> 00:09:08.160
no problem no problem

00:09:06.880 --> 00:09:12.200
all right so what are we trying to beat here

00:09:10.240 --> 00:09:18.240
so we're looking for uh 53.4 degrees is our average temperature

00:09:14.959 --> 00:09:19.600
with the custom loop before okay

00:09:18.240 --> 00:09:23.920
and that was with liquid metal that was with liquid metal that's the mark to beat i feel like Windows search has

00:09:22.560 --> 00:09:28.320
gotten worse over time but somehow they did it i

00:09:26.080 --> 00:09:32.640
agree with you stress fpu hit it yep okay

00:09:30.640 --> 00:09:35.200
oh damn that's looking like it might be a little

00:09:34.160 --> 00:09:39.920
better 46 50.

00:09:37.839 --> 00:09:42.959
so what was the mark to beat max before was 58.

00:09:41.440 --> 00:09:46.640
wow all right well let's give it half an

00:09:44.480 --> 00:09:51.360
hour and make sure but this is looking really promising

00:09:48.959 --> 00:09:56.320
okay it's been 23 minutes just doing a quick check in here everything all right

00:09:54.000 --> 00:10:02.080
okay it's still up not only are these temperatures

00:09:58.240 --> 00:10:04.880
outstanding but look at that spread

00:10:02.080 --> 00:10:10.320
damn core decor temperatures are within like three degrees

00:10:07.120 --> 00:10:11.600
and this has clearly stabilized

00:10:10.320 --> 00:10:15.800
like this is it this is all we get

00:10:14.079 --> 00:10:22.640
so with an average of 51.5 degrees we are almost a full

00:10:19.760 --> 00:10:27.680
two degrees cooler on average than we were with our liquid metaled

00:10:26.160 --> 00:10:34.079
ihs so remember that that's key

00:10:31.440 --> 00:10:39.360
two degrees we dropped and

00:10:35.839 --> 00:10:41.680
we haven't even overclocked yet

00:10:39.360 --> 00:10:45.120
you ready so far everything seems to be behaving

00:10:43.680 --> 00:10:48.800
totally normally oh we are at that clock speed oh it's

00:10:47.279 --> 00:10:51.360
beautiful let's hit it

00:10:52.240 --> 00:10:58.800
wow that's like the same temperature

00:10:56.720 --> 00:11:06.000
like zero f's given about five gigahertz check this out

00:11:02.320 --> 00:11:07.600
five gigahertz at 55 to 60 degrees

00:11:06.000 --> 00:11:11.440
because remember this water is already pre-warmed like there's no way this has

00:11:09.120 --> 00:11:15.519
had enough time to cool down fully wow

00:11:12.800 --> 00:11:19.120
like look at the spread though that's what's crazy to me the

00:11:17.200 --> 00:11:24.800
consistency kind of just try going higher

00:11:21.600 --> 00:11:24.800
yeah we got nothing to lose

00:11:25.600 --> 00:11:32.640
okay so how hard do we hit it i don't know it seems like some people are

00:11:29.040 --> 00:11:35.519
getting like 5.5 with 1.5 volts so

00:11:32.640 --> 00:11:39.600
okay i'm trying 5.4 at 1.5 volts we might be getting into

00:11:37.760 --> 00:11:43.839
Windows at 5.4 no no we're not i mean let's just see

00:11:42.000 --> 00:11:47.920
let's try 5.3 we're going to Windows

00:11:45.920 --> 00:11:51.360
we are most certainly running at 5 i hate it when it does this

00:11:49.519 --> 00:11:55.680
5.29 takes the satisfaction right out of it

00:11:54.000 --> 00:12:00.079
wow so if we had a chip and a board that

00:11:58.320 --> 00:12:03.519
could handle higher frequency with this kind of voltage

00:12:01.839 --> 00:12:08.160
our cooling would still be well under control

00:12:06.720 --> 00:12:14.639
look at that we have settled in at around

00:12:10.880 --> 00:12:15.680
65 to 75 degrees on all four of our

00:12:14.639 --> 00:12:20.320
cores so to put that in perspective

00:12:17.839 --> 00:12:24.560
that is about what we might expect on a CPU like this at stock speeds with like

00:12:23.760 --> 00:12:28.800
an adequate but unexceptional air cooler

00:12:27.040 --> 00:12:33.760
so the conclusion here is both complicated and simple

00:12:31.279 --> 00:12:37.360
the simple part of it is that the nude cnc

00:12:35.440 --> 00:12:40.000
whatever this thing is called what's it called

00:12:38.800 --> 00:12:44.480
encore performs better than

00:12:42.079 --> 00:12:49.920
any water cooling solution that makes contact with the ihs even if your ihs is

00:12:47.600 --> 00:12:56.560
liquid metaled the part that's complicated is that the

00:12:52.959 --> 00:12:58.160
encore requires voiding the warranty of

00:12:56.560 --> 00:13:02.480
your processor in order to achieve these gains

00:13:01.040 --> 00:13:08.399
so we're not going to recommend it

00:13:04.880 --> 00:13:11.600
but we're not gonna say that it's not

00:13:08.399 --> 00:13:11.600
super cool either

00:13:11.680 --> 00:13:18.320
in no particular order here are some reasons to use private internet access

00:13:15.680 --> 00:13:23.279
one it hides your true ip address and geographic location two it allows you to

00:13:20.800 --> 00:13:26.560
browse anonymous it allows you to browse anonymously

00:13:24.959 --> 00:13:29.920
keeping your identity hidden which is especially important for political

00:13:28.399 --> 00:13:34.639
dissidents journalists human rights activists etc three it allows you to

00:13:32.720 --> 00:13:39.120
avoid data mining and targeted advertising four it allows you to block

00:13:37.279 --> 00:13:43.760
unwanted connections with advanced firewall and filtering capabilities six

00:13:42.160 --> 00:13:47.040
it allows you to unblock websites bypassing lots of get you know what the

00:13:45.360 --> 00:13:50.880
point is there's a lot of reasons and it's super affordable

00:13:48.800 --> 00:13:54.880
which is cool so check it out at the link in the video description

00:13:53.120 --> 00:13:58.160
so if this video sucks you guys can hit that button but if you liked it hit like

00:13:56.720 --> 00:14:01.600
get subscribed maybe consider checking out where to buy the stuff we featured

00:13:59.920 --> 00:14:06.800
at the link below while you're down there you can check out our merch store which has cool shirts like this one as

00:14:04.639 --> 00:14:10.560
well as our community forum we will see you in the next video at least i will

00:14:09.120 --> 00:14:14.720
you might not be there you did break that motherboard

00:14:12.560 --> 00:14:17.839
but you spilled water all over this one and it isn't broken

00:14:16.959 --> 00:14:24.160
um the one that's coming apparently is better than the one that i broke

00:14:21.760 --> 00:14:31.000
gary's just trying to help you out he said to give me a bonus

00:14:26.079 --> 00:14:31.000
he did not i'm on the email chain