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as Gamers we're running machines with

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four eight maybe 16 cores if we're lucky

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so when AMD launched their first 96 core

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epic CPU I figured well we're done here

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that ought to be enough chip for even

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the most dedicated Potato Head but the

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Spud Masters at AMD said no and last

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year launched a

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128 cor CPU surely that must be enough

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right no it wasn't and thanks to Super

0:28

Micro who sponsored this video I have

0:30

the brand new AMD epic 9965 a CPU with

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not 96 not 128 but

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192 cores making it alongside its Turin

0:41

family members the fastest CPU on the

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planet by a wide margin we're talking

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384 threads terabytes of ddr5 ECC memory

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128 Gen 5 PCI lanes and a 500 wat TDP I

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can only think of one word what holy sh

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[Music]

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I never thought I'd find myself saying

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only 500 watts of power consumption on a

The 500W CPU

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CPU but when you consider that AMD

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packed 192 cores into the same space

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they used for half as many just two

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years ago you got to agree it's pretty

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impressive I mean sure that's more than

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my entire first gaming PC but but

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compared to the king epic at that time

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this new chip has double the core count

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and the same maximum boost clock for

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real world performance that utterly

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obliterates it so how did they do it

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well for starters just like amd's latest

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ryzen 9000 desktop processors this

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monster is powered by Zen 5 which comes

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with a bunch of architectural

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improvements like NextGen Branch

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prediction which allows these chips to

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predict their next move two steps in

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advance rather than one not to mention

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with greater accuracy and lower latency

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all while increasing cash bandwidth

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implementing a wider execution path and

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adding a full 512-bit data path for AVX

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512 workloads if all that sounds like

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gobbley that's fine it boils down to a

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claimed 16% average IPC uplift from zen4

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to Zen 5 in PC workloads and potentially

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even more for high performance compute

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and the Enterprise workloads that

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typically run on servers let's get it

2:29

installed but wait while 500 W seems

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downright reasonable for 192 cores it

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does mean you can't just plop them into

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any old chassis and expect it to work

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you need a compatible bios sufficient

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Cooling and sufficient power so keep

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that in mind but it isn't going to be a

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problem for us today since super micro

Our Supermicro server

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can build practically anything including

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this as 2126 HSN hypers server that they

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provided for this video This Magnificent

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machine can handle not one but two of

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these monsters which is 1,000 watts of

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just CPU that's 384 cores 768 threads

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now typically if you were to buy one

3:13

from Super Micro it's going to come

3:15

preassembled but we went out of our way

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to take the CPU out so I can put it back

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in and show you how these new Chips use

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the same socket as last generation so if

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you have one you in theory could use it

3:28

but you are going to want something that

3:29

can handle more power not every

3:31

motherboard is going to be rid to handle

3:33

a 500 W CPU right out of the box you

3:35

should check your motherboard manual

3:37

this one purpose buil for this platform

3:40

so we should have no problems at all M

3:43

PTM 7950 LTT store.com it's a thermal

3:47

pad and actually perfect for this

3:49

application because it's super durable

3:51

these things can handle like hundreds or

3:54

thousands of heat Cycles while barely

3:56

even losing any of their original

3:58

performance which is awesome on a CPU

4:00

this big it's important to make sure

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everything is tightened down properly so

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that the CPU actually makes contact with

4:05

all of those thousands of pins because

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unlike most desktop CPUs these days the

4:11

CPU is actually held in by the force of

4:13

the cooler not by like a little bracket

4:16

on top I mean there is a bracket but

4:18

that mostly just kind of holds it in

4:19

place while you're tightening everything

4:20

down order 1 2 3 4 5 6 fully tightened

4:24

one at a time yeah not a little bit at a

4:26

time not a little bit at a time which is

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the conventional wisdom you know no I

4:30

tried to do that on one of the CPUs and

4:31

it it actually didn't post look how

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scary that is gorgeous now while we

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could have spec this machine with up to

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9 terabytes of 6,000 megat transfer per

4:42

second registered ECC memory across its

4:44

24 dim slots that would have cost um

4:49

probably as much as my car I think maybe

4:52

more than both of my cars so I think the

4:55

1 and 1 12 terabytes that super micro

4:56

sent over is going to be plenty for us

4:59

this is 6400 I heard that AMD is doing

5:01

like special models with certain

5:03

providers that support 6400 that's

5:06

incredible I guess this is one of them

5:08

that's a big Improvement hold on that

5:10

means standard server memory is faster

5:14

than standard desktop memory what hasn't

5:16

changed from last gen is pcie expansion

5:19

we still get 128 or 160 Gen 5 Lanes in

5:24

single and dual socket configs

5:26

respectively and this particular chassis

5:28

can be speced for either eight eight

5:30

Lane expansion slots or four 16 Lane

5:33

expansion slots if we have dual width

5:35

cards they also crammed another 16 Lanes

5:38

into an ocp 3.0 mezan slot here all of

5:41

which well most of which we aren't using

5:44

for now but you definitely could while

5:47

our hypers server is fairly well-rounded

5:49

a solid setup for virtualization which

5:51

we'll show you later or Cloud workloads

5:53

where you need a lot of cores and not a

5:55

ton else aside from memory this chassis

5:57

is also perfect for high performance

5:59

computer cute and even AI I mean you've

6:01

already got the maximum amount of CPU so

6:03

with the rear slot stuffed with

6:05

high-speed networking gpus accelerator

6:07

cards maybe even all three at the same

6:09

time there's not a lot that a machine

6:11

like this can't do don't wait today is

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of the best deals of the year on

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and more at lg. gblack Friday we're

6:26

going to have it linked down below what

Installing storage

6:27

we will be installing now is a few of

6:29

these 15 TB kokia nvme ssds in the eight

6:33

slots that each support pcie gen 5x4

6:37

funny thing about this chassis by the

6:38

way if you're building out high

6:40

performance storage for AI or I don't

6:42

know something else that needs fast

6:43

storage maybe with software like WKA it

6:46

can be configured with up to 24 2 and 1

6:49

12 in Drive Bays thanks to the modular

6:51

design of the front so you could install

6:54

an eight drive back plane like this one

6:56

in each section with a bunch of 30 TB

6:59

CM7 and you could have over 700 terab of

7:03

Gen 5 storage in a single 2ou machine

7:06

that's a theoretical read performance of

7:08

240 gbt per second across those drives

7:12

in a single chassis or more than 330 GB

7:16

per second if you went with 15s you know

7:19

we get excited by fast ssds in our

7:21

gaming systems but when you stack them

7:23

up together in a stupid fat server like

7:25

this it's kind of mind-blowing speaking

7:27

of blowing if you're speacking 500 w

7:29

CPUs like we've got or gpus for AI or

7:32

rendering you uh might actually

7:35

appreciate the modularity of this

7:36

chassis and the fact that it doesn't

7:38

necessarily have all those Drive bays in

7:40

there because these are some flipping

7:43

wild counter rotating fans but they're

7:46

still going to pull air better if they

7:47

don't have a whole bunch of restriction

7:49

in front of them so the bottom line is

7:51

whatever your needs are super micro's

7:52

hypers systems and the entire rest of

7:54

the lineup are designed with flexibility

7:56

and modularity in mind you ready to put

7:59

the top on did you look at the power

8:01

supplies yet 2,000 Watts 80 plus

8:05

titanium two of them naturally what are

8:08

the odds this boot's first

But will it boot?

8:10

time but those giant sockets even if you

8:13

do it properly like I don't know this

8:16

thing same 85% 90 you did it properly

8:20

yeah but I wasn't here when you put in

8:22

the other one

8:23

so waa she's going to go she's going to

8:26

go these things take forever to post the

8:29

first time that actually makes sense

8:31

think how long your desktop ryzen takes

8:33

to do memory training the first time

8:36

well is it up F yeah oh look oh that's

Yes, but it's so, so loud

8:38

great and you doubted well I didn't

8:41

doubt much I said 85 90% all right can I

8:43

reboot it uh-oh oh boy I think it's set

8:48

to Max yeah I think so we should just

8:51

leave it like that right yeah maybe not

8:55

optimal speed that sounds more

8:56

manageable oh thank God oh my God that's

8:59

oh oh that's downright Pleasant wow now

9:02

that we know it boots we should probably

9:04

put a GPU in there right and what better

9:06

GPU to go with the oops Top Dog AMD epic

9:09

Enterprise CPU then a top dog not

9:12

Enterprise but still awesome Radeon RX

9:14

7900 XTX now despite this chassis being

9:18

well equipped for gpus I mean the power

9:20

connectors are like right there so they

9:21

just plug right in and they've got a

9:24

2600 wat power supply option that you

9:26

can upgrade to these slots are meant for

9:28

full height fulllength workstation and

9:30

Enterprise gpus not weird shaped gaming

9:34

gpus so our plan is to put our GPU

9:37

outside the server with a riser and a

9:41

jumpered ATX power

9:44

supply nice Flawless oh my God it

Look at all those cores!'

9:51

Scrolls how much stuff can I do and

9:54

still maintain 0% utilization could I

9:56

launch a browser oh I'm sure you can

9:58

play a YouTube video it's only 1% oh no

10:01

it's it's at zero again once it settles

10:03

in and it's doing its thing it's nothing

10:06

it going to load One Core it's 384 cores

10:09

it could load two cores and still be

10:12

below 1% duplicate this tab uh well hold

10:15

on hold on first I want to I want to try

10:17

different I want to try different

10:18

resolutions cuz we're not even at 1080p

10:20

yet remember this is this is happening

10:22

on the

10:23

GPU CPU Works a little harder it works a

10:26

little harder CPU is at 10% so I think

10:28

most of the this is GPU 4K here we go

10:31

there's like some cores there's one core

10:33

I see at

10:34

9% the rest of them are vibing thriving

10:37

one might even say okay the GPU is at

10:40

77% according to task manager how is

10:43

that even possible I think it's just cuz