WEBVTT

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is this just like oh yeah yeah but where are they

00:00:05.200 --> 00:00:11.920
really buy an order of magnitude this

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will be the single most expensive unboxing we've ever done inside these

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boxes this crate this server rack this

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additional box and this final box over here this monster

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server from super micro is everything that we need to deploy a

00:00:31.920 --> 00:00:39.200
server with a petabyte of ssds keyoxia

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provided the ssds they sponsored this video it has been a year in the making

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and we are about to see performance the likes of which we have never seen and

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may well never see again realistically like yeah in our lifetime

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they're not even just ssds or NVMe ssds let's bring back holy sh that's a series

00:00:58.000 --> 00:01:03.440
we haven't done in a while holy holy

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holy think that server's worth like a hundred thousand dollars a hundred

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thousand dollar server you said something like that well let's uh move it gently then

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there's gonna be a whole follow-up video detailing the exact

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architecture there's gonna be multiple videos detailing the setup and

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architecture of a petabyte of flash because while keoksia does make such

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high capacity NVMe ssds now that you could pretty easily build a server with

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a petabyte of flash accessible to it but in order to get the full performance out

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of it

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oh my goodness you gotta do something

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a little special i don't think i'm gonna let you pick this one up

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you know you gotta give NVIDIA credit

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it looks pretty special does their hardware have sex appeal or does it have

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sex appeal i think this is just the module this actually slots into the the

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main server so what are we looking at here so each of these

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is an NVIDIA a100 80 gig so we've got

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eight of them envy linked together that's

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640 gigabytes of vram

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video memory these cards alone are probably worth

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more than any other individual server this thing

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this unit is almost 100 000 us dollars just this part of it and what are these

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are these just like some kind of i think that's just power delivery

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they asked us not to take them off but really we already have it so like we

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could just do it anyways i mean NVIDIA can't hate us anymore can they yeah well

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no they probably can you know what let's not piss off the enterprise guys this

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looks like paradise can i just say that it's all sponsored by keoxia who

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provided the flash but NVIDIA has been absolute bros and broads about this

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whole thing because we wouldn't have been able to do it without them so i

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guess yeah let's pick it up um why don't we move this off of the server so we at

00:03:07.680 --> 00:03:12.000
least have somewhere to put this i don't know what's under it the server oh wait

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that's it ah yes oh that's why the box was so big

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yeah oh look at those rails i know right

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these are chunk tasks let's just yeah let's just lift this uh put it on top of

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that sure sure that's safe so how did this even come to

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be now i've been babysitting this for a year a year but i wasn't there for the

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first conversation what happened was keoksi has worked with us a number of

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times and they were looking for you know some kind of cool SSD related video to

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do cool you say i took an absolute long shot

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because this was after we'd already seen the appetite for petabyte project on the

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channel right but they're a flash vendor and i was like well it would have to be

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ssds and it would have to be and i thought they were gonna come back with

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something way smaller don't tell kyocea but they would have gotten away with like a quarter of this

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but i was like well it's gonna it can't be smaller than what we've done before

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and they were like oh this is actually a very interesting engineering challenge

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from our standpoint let's see who we can partner with to try

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and make this happen and the answer was super micro AMD weka

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freaking everyone you could possibly name in the server space so how does

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this friggin work okay let's lift this boy up we're going to start at the back

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which is a little unusual this is our head unit

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this is PCIe over fiber

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because the ssds don't actually go in the control unit this is where all the

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compute lives in order to do this kind of throughput you need a very very

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exotic very powerful solution the ssds

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themselves this is the size of an atx power supply are gonna live in

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additional units that we're gonna unbox in a few minutes here

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how many watts are these holy sh this is a 3 000 watt power supply

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can we even power this i've never actually seen one of these

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plugs properly used

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i'm just curious what is in here oh oh

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wait what is this just like oh yeah yeah this will

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be like so you gotta unscrew it then uh no sorry

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like i meant this part oh yeah okay no you're right stop though you gotta take this side out

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well i thought you were gonna i don't have a screwdriver what are you doing what are you doing over here just

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waiting for you to hand me the screwdriver well

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oh

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so here's what we're looking at we've got our uh PCIe over fiber cards here

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these are just NVIDIA connect x6 200 gig

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cards wow there's eight of them and then we've got more PCIe so you can see we've got

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there you go right there okay we've got a little bit more PCIe to these NVMe

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bays at the back here so you got four more of those

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and then you've got a little bit more PCIe okay up here and that's going to

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this which is probably like a dual 10 gig card or something like that that's

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just just gigabit like for management you know what

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i know you like that much PCIe i got to tell you this would

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there's more PCIe oh are you serious so this unit can take

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a total of 10 NVMe drives and then it has another eight PCIe 16x slots then

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there were those NVMe connectors i didn't recognize to the sleds at the

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back and then there's all the a100s oh my

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goodness so do we slide it in uh i think we should put it in the rack

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first they have to be epics of some sort oh they are so dual 64 core where are

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they oh they're in the top they're in like the very top yeah so there's the PCIe

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lanes for the a100s that just sit under it

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very cool i don't know how to take this out cause kind of i wonder if it got hit

00:07:03.520 --> 00:07:09.919
a little actually in shipping looks a little wobbly a little bowed

00:07:07.440 --> 00:07:15.360
oh boy oh boy oh there's a screw right here oh there's your problem

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you got this don't drop it i got it dual 64 core

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epics i have to assume that that's like is this two terabytes of samsung memory

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uh the spec sheet's at 256 but i don't actually know who sent it okay

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here let's just pop one out oh boy they're not gonna like this that's a 64

00:07:33.680 --> 00:07:40.880
gig dim dual rank 3200 megahertz samsung well it's super micro memory so yeah

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this is they're qualified so 64 gigs that would make this yeah 32 2 terabytes

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two terabytes of RAM oh look at those frequencies these

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things must scream yeah these fans one

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of those 40 mils gotta be absolutely ridiculous

00:07:54.960 --> 00:08:01.120
this is a lot of hardware in one box on freaking reel love the airflow

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management here gotta put basically all of it through

00:08:03.520 --> 00:08:09.360
the cpus the rams the rams just like a little bit yeah come on maybe there's a

00:08:07.599 --> 00:08:14.960
little bit of cooling it's like a tiny little spot there yeah these vrm heat

00:08:11.440 --> 00:08:17.599
sinks are like i don't need much

00:08:14.960 --> 00:08:19.840
there's business level hardware and then there's enterprise level

00:08:18.800 --> 00:08:24.400
hardware this thing is unbelievably heavy

00:08:22.400 --> 00:08:28.720
there is a lot of freaking cooling in it it's like a

00:08:26.400 --> 00:08:32.000
solid ass block it's very heavy yes i understand let's put it in the goddamn

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thing huh how many watts oh look at that they

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got flappers what the hell holy crap the

00:08:37.839 --> 00:08:42.959
fan itself is this thick yeah wait no is

00:08:40.880 --> 00:08:47.360
there two in there crazy there might be two in there so there's two blades

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see this yeah so you've got this blade is swept this way they spin

00:08:49.279 --> 00:08:55.760
independently and then this one is swept this way because if you want more static

00:08:53.760 --> 00:09:00.160
pressure you can't put two fans that spin the same way there's some kind of

00:08:58.320 --> 00:09:04.160
aerodynamics thing that makes it so that doesn't work very well they have to be

00:09:01.440 --> 00:09:07.519
spinning counter to each other uh we didn't really consider that when we

00:09:05.839 --> 00:09:11.680
assembled this up here we were going to have to bring it down

00:09:09.839 --> 00:09:14.240
yeah okay where are we going to put it we're

00:09:13.040 --> 00:09:21.680
going to put it on top of the rack for now i'll take the lights off i see we ready

00:09:18.560 --> 00:09:23.279
oh my god okay if we drop this like this

00:09:21.680 --> 00:09:28.800
game over no no you know we're good we're here's what we're gonna do this thing already got beat up to hell in

00:09:26.399 --> 00:09:31.600
shipping so we're gonna bring it down like this

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go ahead and put it on yeah there you go little guy

00:09:33.200 --> 00:09:40.080
oh i don't know if little guy is the right word for it absolute unit guy this is

00:09:38.800 --> 00:09:44.560
when you have all the budget because it's not just

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powerful it's dense you got to remember in the data center

00:09:46.000 --> 00:09:52.240
density has a ton of value because building a data center is the most

00:09:50.640 --> 00:09:56.240
expensive thing about building a data center so each of these 1u servers are

00:09:54.160 --> 00:10:02.880
going to be our storage hosts there's six of them six six we gotta put 72

00:10:00.240 --> 00:10:08.320
drives in here now you might think hey guys this is austin

00:10:06.080 --> 00:10:13.279
you might think hey guys why didn't you just pick servers that could take more

00:10:10.640 --> 00:10:18.720
NVMe ssds well here's the thing once you've got high performance enough ssds

00:10:15.360 --> 00:10:23.200
and these are all keyoxys cd6 PCIe gen

00:10:18.720 --> 00:10:24.399
4x4 NVMe drives you run out of CPU power

00:10:23.200 --> 00:10:30.160
as well as PCIe for networking as well so you can't

00:10:27.839 --> 00:10:34.399
just put as many drives as you want in each server you gotta add more compute

00:10:32.640 --> 00:10:38.399
you gotta add more networking yeah it's a dual processor so these are

00:10:36.959 --> 00:10:46.000
oh gosh 32 cores each and a far more reasonable

00:10:42.800 --> 00:10:48.320
i'm guessing this is 512 gigs of RAM it

00:10:46.000 --> 00:10:53.279
says 256 but i think this is wrong yeah only 256. and then of course we've got

00:10:50.720 --> 00:10:58.000
the NVIDIA connect x6 200 gigabit network cards that are going to handle

00:10:55.200 --> 00:11:00.399
our NVMe over i guess actually they're not fiber are they because they're so

00:10:59.360 --> 00:11:05.360
close i think we're going to be using direct attachments but how do you call it NVMe over fire it's

00:11:03.360 --> 00:11:09.680
NVMe over fiber just with fiber you can go farther is that the boot SSD it's

00:11:07.760 --> 00:11:12.480
adorable oh my god it just slots right into the it's a little see the thumb

00:11:11.440 --> 00:11:16.480
drive come on out i think there's probably a

00:11:14.560 --> 00:11:21.440
lot there's probably a lock on it oh yeah there is look at that

00:11:18.800 --> 00:11:24.959
these are these are super cool oh look they even included a usb type-a

00:11:23.680 --> 00:11:30.640
port so you could run unrate on this thing yeah so the reason that people use these instead

00:11:28.480 --> 00:11:34.160
of an internal usb drive is just that the grade of nand flash that gets used

00:11:32.720 --> 00:11:39.200
for a device like this tends to be higher and while honestly in a real

00:11:36.720 --> 00:11:42.560
enterprise deployment uh a boot drive failing is probably not the end of the

00:11:40.839 --> 00:11:47.519
world a lot of the time they're booted over fiber too yeah it's just

00:11:45.120 --> 00:11:51.040
why right just use something better now you might be wondering why we went AMD

00:11:49.360 --> 00:11:55.040
epic which means you probably haven't been paying close attention over the

00:11:52.399 --> 00:12:00.000
last few years but basically these will boost up to 3.7 gigahertz

00:11:56.959 --> 00:12:02.560
giving us tons of compute 64 total cores

00:12:00.000 --> 00:12:08.399
and they have lightning fast not to mention a ton of PCIe connectivity so

00:12:05.360 --> 00:12:10.240
every device in pretty much this whole

00:12:08.399 --> 00:12:13.920
rig i think is going to be running at full speed maximum definitely we don't

00:12:12.480 --> 00:12:18.480
want any bottlenecks we can't have bottlenecks before we move on a couple more fun

00:12:16.800 --> 00:12:21.519
things i noticed about this these are 20 watt fans

00:12:21.519 --> 00:12:26.720
80 watts that's 150 watts in fans that

00:12:24.800 --> 00:12:31.600
just oh yeah they're like the same type epic has so much PCIe that you can just

00:12:29.040 --> 00:12:36.079
put a PCIe 16x slot just chilling in the middle of your server

00:12:33.839 --> 00:12:38.399
just hang in there yes this is a 200 gigabit card

00:12:37.360 --> 00:12:42.720
one of two each of these is gonna have a 400

00:12:40.800 --> 00:12:45.839
gigabit per second connection to our head unit

00:12:44.000 --> 00:12:48.800
the best part there's that slot there's another one back here oh wow second one

00:12:47.600 --> 00:12:53.519
over there well that one's at least accessible from the outside yeah yeah this is just hanging they're like wow

00:12:52.000 --> 00:12:58.399
you want to put some NVMe in there no just you only live once man

00:12:56.800 --> 00:13:01.600
now for the next part you guys saw this crate we were using as

00:13:00.160 --> 00:13:06.480
a table oh it's very sharp what the heck is all

00:13:04.160 --> 00:13:12.240
this wait hold on go down what i think there might be more servers in here

00:13:08.639 --> 00:13:14.639
kiosks yeah oh these must be the drives

00:13:12.240 --> 00:13:19.760
oh what's this from mel oh excuse me excuse me the box says melanox but i

00:13:16.800 --> 00:13:26.079
mean to say NVIDIA NVIDIA acquired melanox somewhere in between this box

00:13:22.320 --> 00:13:28.240
being printed and us doing this project

00:13:26.079 --> 00:13:31.519
what could be in this box hmm oh wait what

00:13:31.839 --> 00:13:38.240
we originally asked micron to send memory for this project but super mario was like oh it's not qualified yet blah

00:13:36.720 --> 00:13:42.160
blah blah blah blah wait what i think these are just eight

00:13:39.839 --> 00:13:45.680
gigabytes pick 3 200. can i take some of this home

00:13:44.000 --> 00:13:48.880
is it all aching i don't know

00:13:47.040 --> 00:13:53.519
well thanks micron what's behind this door in

00:13:51.760 --> 00:13:58.000
fairness though there are some really cool cables in here there's power cables

00:13:56.240 --> 00:14:03.920
those aren't the cool ones and then there's these guys

00:14:00.880 --> 00:14:06.000
these will do 200

00:14:03.920 --> 00:14:09.120
gigabit per second and these are the direct attached copper cables that we're

00:14:07.760 --> 00:14:14.480
going to be running between our head unit and our SSD units

00:14:12.240 --> 00:14:18.959
now there's networking gear that's like pretty cool

00:14:17.199 --> 00:14:25.519
and then there's this this is a melanox well NVIDIA

00:14:21.959 --> 00:14:27.279
3700 series 200

00:14:25.519 --> 00:14:31.440
gigabit switch that's right each of these ports 200

00:14:29.839 --> 00:14:39.360
gigabit per second and it can do it all at full speed at the same time this thing is bananas

00:14:36.560 --> 00:14:44.160
they will all do 200 gigabit per second it's always fun when you start measuring

00:14:41.040 --> 00:14:46.720
your network switches and terabits yeah

00:14:44.160 --> 00:14:51.440
the fans are 30 watt 31 fans i want to see how big of the

00:14:48.800 --> 00:14:51.440
power supply

00:14:52.399 --> 00:15:00.800
really i just looked at the spec sheet of that switch

00:14:56.839 --> 00:15:04.399
12.8 terabit uh oh they are

00:15:00.800 --> 00:15:07.360
oh that's hilarious we were look kioskia

00:15:04.399 --> 00:15:10.800
are you guys new to working with the position matters oh the position

00:15:09.199 --> 00:15:14.880
matters yeah don't don't switch them around oh i was going to be all like

00:15:12.560 --> 00:15:19.839
kyocea come on what's the fun of you know unboxing all the ssds if you don't

00:15:17.760 --> 00:15:26.160
put them in a box but okay the position actually matters a lot for

00:15:23.760 --> 00:15:31.360
this configuration so we'll just take a look at this drive and carefully put it

00:15:28.160 --> 00:15:32.959
back in here each of these is 15.36

00:15:31.360 --> 00:15:38.720
terabytes and can deliver a total throughput of six gigabytes per second

00:15:36.320 --> 00:15:43.600
which is impressive considering that we're gonna have 12 of them per server

00:15:40.800 --> 00:15:47.920
so that's 72 gigabytes a second per server absolutely

00:15:45.600 --> 00:15:52.720
mind-boggling numbers but there's even better stuff so it's obviously using a

00:15:50.480 --> 00:15:57.440
completely custom solution everything from the controller to the flash is all

00:15:55.360 --> 00:16:02.800
keyoxia through and through and this puppy can do a million iops per drive so

00:16:00.959 --> 00:16:06.959
by the time we're done with this we are going to be putting everything we have

00:16:05.120 --> 00:16:10.560
ever done before to absolute shame

00:16:08.959 --> 00:16:13.279
if you don't watch our channel regularly you might not have heard of kyocia but

00:16:12.079 --> 00:16:17.920
we've actually worked with them a fair bit they were the first to deliver a u.3

00:16:15.519 --> 00:16:22.880
capable drive the first to deliver PCIe gen 4 drives they are formerly toshiba's

00:16:21.040 --> 00:16:26.639
flash division so they've got literally decades of experience working

00:16:24.800 --> 00:16:30.480
with this kind of technology and i'm really excited to see

00:16:28.800 --> 00:16:34.079
what these drives can do at their absolute

00:16:31.920 --> 00:16:38.160
peak of course speed's not the entire story and i'm obligated to tell you that

00:16:36.320 --> 00:16:42.639
they are of course using the same high quality flash that they use in their

00:16:40.079 --> 00:16:46.240
high-end enterprise sas and other NVMe products with the same reliability

00:16:44.560 --> 00:16:51.839
features and of course also they've got support for everything from non-encrypted drives to sanitize instant

00:16:49.680 --> 00:16:56.880
array self-encrypting drive scd fips to level two certified

00:16:54.240 --> 00:16:59.759
if you need it and it's an SSD kyoku has something for you

00:16:58.160 --> 00:17:03.440
or something better than you or something better

00:17:01.279 --> 00:17:07.439
the final piece of the puzzle is our server rack

00:17:04.959 --> 00:17:07.439
sort of

00:17:08.400 --> 00:17:14.640
let's talk about how we're powering this

00:17:12.160 --> 00:17:18.000
oh my goodness what the heck is going on here

00:17:15.439 --> 00:17:22.799
is this the most wack power cord you guys have ever seen here it is

00:17:20.000 --> 00:17:27.120
next to a human hand for scale i mean i don't know about a human

00:17:24.720 --> 00:17:32.559
normal hand freaking ridiculous these are l630s so that's 240 volt 30 amp

00:17:31.200 --> 00:17:35.840
each of them we didn't actually have a place to plug these in uh yeah we're

00:17:34.400 --> 00:17:40.559
going to be stealing i think one of the plugs from the welder and then one of

00:17:37.600 --> 00:17:43.760
the plugs from the mill i got infinite cables to make these giant extension

00:17:42.320 --> 00:17:48.799
cords they're like just as thick maybe thicker

00:17:47.200 --> 00:17:52.160
so yeah we can't use we can't use the welder or the router when we run this

00:17:50.559 --> 00:17:56.320
rack but uh i think that'll be okay infinite cables also provided a 100

00:17:54.400 --> 00:17:59.600
meter 100 gig cable so we can plug it into the switch back there no i guess

00:17:57.919 --> 00:18:03.360
we'll have to like run it outside but yeah guys this is going to be a really

00:18:01.679 --> 00:18:08.320
fun series we're going to go through the hardware the software

00:18:05.919 --> 00:18:15.520
we're going to show you ai benchmarks yeah it's going to be great 4 times 12

00:18:11.440 --> 00:18:17.760
384 300 plus another one another 512

00:18:15.520 --> 00:18:17.760
cores

00:18:18.880 --> 00:18:28.720
that's the same amount of RAM we have in our main uh editing server we're going to have 512

00:18:25.360 --> 00:18:29.760
cores and a terabyte of flash it's a

00:18:28.720 --> 00:18:37.200
little bit more than that this is going to be a terabyte of flash head like 1.1 sorry my brain broke yeah

00:18:34.400 --> 00:18:42.400
that's not possible yeah petabytes 12.8 petabyte of flash that's crazy no

00:18:40.480 --> 00:18:47.360
one would be crazy enough final shout out to everyone who helps

00:18:44.400 --> 00:18:51.760
keoxia NVIDIA slash melanox whatever you decide you want to be AMD micron super

00:18:50.640 --> 00:18:58.240
micro fs.com infinite infinite

00:18:54.840 --> 00:19:00.799
cables whoever and Jake tyvee Jake tybee

00:18:58.240 --> 00:19:04.640
who's been cool and all of our contacts taking all this home you guys have been

00:19:02.320 --> 00:19:08.799
so patient this has been it's going to be a trade show at my house if you guys

00:19:06.559 --> 00:19:12.720
are are enjoying this series maybe go check out the original petabyte project

00:19:10.640 --> 00:19:18.679
series i actually don't think the panel in my house has enough capacity to run

00:19:14.640 --> 00:19:18.679
this i don't think mine does either