WEBVTT 00:00:00.000 --> 00:00:07.859 we all make mistakes what a blue screened single graphics and 00:00:06.180 --> 00:00:13.799 when I built my personal gaming machine I made a few I bought a workstation CPU 00:00:11.519 --> 00:00:18.660 for no good reason I Hardline water cooled it which has caused me hours of 00:00:15.480 --> 00:00:21.660 headaches and I chose arguably the worst 00:00:18.660 --> 00:00:25.500 possible solution for storage an 8 00:00:21.660 --> 00:00:27.180 terabyte software Raid 0 SSD array they 00:00:25.500 --> 00:00:31.859 say don't let your memes be dreams you know what I say don't let them be your 00:00:29.099 --> 00:00:37.020 actual life the good news is I had a chance to rectify all of that in our 00:00:34.079 --> 00:00:42.239 epic tour of micron's Idaho r d facility I had the honor of manufacturing my own 00:00:39.960 --> 00:00:46.200 custom memory modules using engineering sample chips but micron's condition for 00:00:44.640 --> 00:00:51.300 that was that if they were going to go to so much trouble I had to actually 00:00:48.420 --> 00:00:55.680 daily drive them but my system doesn't support ddr5 so I guess I need a 00:00:53.820 --> 00:01:00.300 platform upgrade now the Intel versus AMD question was settled already in our 00:00:58.199 --> 00:01:04.440 recent drag race but it's taken until now to sort out all the other details 00:01:02.219 --> 00:01:08.520 and well I guess I'll just put it this way this is going to be a very 00:01:06.600 --> 00:01:13.140 unconventional video given that I am actually downgrading the system in more 00:01:10.799 --> 00:01:17.640 ways than one just like I downgraded this Segway to our sponsor let me see 00:01:15.119 --> 00:01:22.200 how low effort that was signal RGB with signal RGB you can control and sync your 00:01:19.979 --> 00:01:27.420 favorite RGB devices with a single easy to use app best of all it's free so 00:01:25.500 --> 00:01:30.020 download signal RGB at the link in the video description 00:01:36.380 --> 00:01:43.619 it makes sense to start with the very no not that no it was supposed to go into 00:01:41.520 --> 00:01:48.479 place like that that's what I meant to do but I 00:01:46.079 --> 00:01:53.159 let's start with the very worst decision that I made the eight terabyte raid card 00:01:51.180 --> 00:02:00.240 unlike a conventional raid card the aorus Gen 4 AIC SSD doesn't actually 00:01:57.000 --> 00:02:03.299 contain any raid Logic on it it just 00:02:00.240 --> 00:02:05.640 takes the 16 PCIe Gen 4 lanes that come 00:02:03.299 --> 00:02:10.259 up through the slot here and then splits them up into four quad Lane m.2 slots 00:02:08.520 --> 00:02:13.680 the advantage of this approach is that it's economical since you don't need an 00:02:11.879 --> 00:02:18.360 expensive controller on the board but the disadvantage is that this card will 00:02:15.959 --> 00:02:24.360 only work on a motherboard that supports PCIe Lane bifurcation so the ability to 00:02:21.660 --> 00:02:28.980 take a slot and split it into more Lower Lane count slots now some consumer 00:02:27.180 --> 00:02:33.480 motherboards support that but it's most common on workstation and server boards 00:02:31.560 --> 00:02:37.739 the other disadvantage is that because this is essentially just four 00:02:35.459 --> 00:02:41.280 independent drives the only way to get them to operate together is using 00:02:39.480 --> 00:02:45.780 software raid meaning that you can't just take this card plunk it in any 00:02:44.220 --> 00:02:50.280 system and assume that it's going to boot up as the eagle-eyed among you have 00:02:48.300 --> 00:02:54.599 probably noticed that last bit is not necessarily a problem today since I am 00:02:52.319 --> 00:02:58.680 sticking with AMD this time around but it doesn't change the fact that this is 00:02:56.280 --> 00:03:02.280 not a very elegant solution which means you're probably thinking one of two 00:02:59.819 --> 00:03:06.300 things right now either why did he do something so stupid when he knows it's 00:03:04.080 --> 00:03:10.680 stupid or that April Fool's video is real and the guy's actually an idiot and 00:03:09.239 --> 00:03:16.920 I wouldn't really blame you for either of them the honest answer is that I 50 00:03:14.280 --> 00:03:21.720 percent just wanted more capacity than you could get on a single m.2 at the 00:03:18.840 --> 00:03:27.180 time and the other 50 percent was straight memeing I absolutely know 00:03:24.659 --> 00:03:32.940 better but I mean come on when they said the PS5 SSD was faster than any pcssd 00:03:30.720 --> 00:03:36.239 they practically dared me to put one of these in my system also I couldn't 00:03:34.680 --> 00:03:41.280 resist seeing the look on Jake's face now to introduce the new life drive this 00:03:39.180 --> 00:03:47.879 is the sabrin eight terabyte Gen 4 plus it's PCIe gen 4x4 rated for 7.1 and 6.6 00:03:45.959 --> 00:03:52.620 gigabytes per second reading writes it's got the same eight terabyte capacity in 00:03:50.220 --> 00:03:57.000 a tiny little package like this and I don't have to deal with any software 00:03:54.599 --> 00:04:00.480 raid Shenanigans yeah this is much more sensible we were worried that my 00:03:58.620 --> 00:04:04.200 software raid setup would cause me one last inconvenience on my way out the 00:04:02.040 --> 00:04:07.620 door but thankfully with a compatible board and an old copy of paragon disk 00:04:06.239 --> 00:04:12.060 manager we were able to make short work of it this is actually booted to the new 00:04:09.900 --> 00:04:15.900 drive and we're ready to shutter down and move on with the build now a funny 00:04:14.159 --> 00:04:20.459 thing we noticed during the migration is that based on the data rates it seems 00:04:18.479 --> 00:04:27.240 like trim might not have been working properly meaning that while the raid 00:04:22.919 --> 00:04:29.820 card does use a full Gen 4 by 16 slot 00:04:27.240 --> 00:04:35.280 with 31.5 gigabytes a second of theoretical bandwidth that's twice the 00:04:32.340 --> 00:04:40.919 bandwidth of even a Gen 5 m.2 slot it was using basically none of it 00:04:37.979 --> 00:04:46.440 meaning that our first downgrade where I go from this to this is probably going 00:04:44.100 --> 00:04:51.660 to improve performance now that we've got a sensible SSD that doesn't require 00:04:48.120 --> 00:04:53.580 16 PCIe Lanes off of the CPU we can go 00:04:51.660 --> 00:05:00.540 with a much more sensible platform the heart of which will be the ryzen 9 7950x 00:04:56.280 --> 00:05:03.120 with only 16 cores this is our second 00:05:00.540 --> 00:05:11.820 technical downgrade I was running a threadripper 3960x before which is a 24 00:05:05.940 --> 00:05:14.520 core CPU but the 3960x is Zen 2. while 00:05:11.820 --> 00:05:19.199 this uses AMD's shiny new Zen 4 architecture meaning that even though 00:05:16.500 --> 00:05:22.979 the clock speeds are only a little bit higher the real world performance 00:05:21.240 --> 00:05:28.740 particularly in single threaded applications like games is a lot faster 00:05:26.039 --> 00:05:33.840 now when we tested the 7950x versus Intel's core I9 13900k the gaming 00:05:31.979 --> 00:05:39.780 performance was basically neck and neck meaning that when it came time to pick 00:05:36.180 --> 00:05:42.360 one it came down to price AMD has 00:05:39.780 --> 00:05:46.979 slashed the 7950x from its introductory price all the way down to 600 US dollars 00:05:45.120 --> 00:05:50.460 in the time since we did that video it looks like Intel has followed suit but 00:05:48.840 --> 00:05:53.639 we made the decision I've got water blocks and motherboards and all that 00:05:51.900 --> 00:05:57.360 kind of stuff anyway so I guess this is what we're doing you're probably wondering by the way what's going to 00:05:55.740 --> 00:06:02.460 happen to my old threadripper it's going to be going into one of our editing workstations since not only did AMD 00:06:00.660 --> 00:06:06.120 never provide an upgrade path for this platform they aren't even producing any 00:06:04.320 --> 00:06:10.500 more chips for it so they're really hard to get along with the price drop on the 00:06:07.979 --> 00:06:15.720 chips the motherboards for socket am5 have become much more affordable I mean 00:06:13.020 --> 00:06:21.419 look at this the x670e PG lightning isn't cheap it's 250 bucks but that's 00:06:18.780 --> 00:06:25.440 still half the price even a third of the price of some premium Boards out there 00:06:23.039 --> 00:06:29.520 and has basically everything that you could need 14 plus two plus one phase 00:06:27.780 --> 00:06:36.300 power design two and a half gig Lan ample PCIe and USB expansion and perhaps 00:06:33.360 --> 00:06:40.020 most importantly for me a gen 4x4 slot that's wired up directly to the PCIe 00:06:38.039 --> 00:06:44.220 lanes coming off of the CPU where I can install a Thunderbolt 4 card I have kind 00:06:42.539 --> 00:06:48.060 of an unconventional setup at home with my PC in another room and Thunderbolt 00:06:46.440 --> 00:06:51.900 allows me to have all the i o that I could want at my desk over a single 00:06:50.460 --> 00:06:58.740 cable I haven't even got my board installed yet and I'm already stripping it down I found something interesting 00:06:55.340 --> 00:07:01.440 AMD's x670 extreme platform supports 00:06:58.740 --> 00:07:06.300 more PCIe Lanes than their regular x670 and the way that they do that is they 00:07:03.539 --> 00:07:10.620 actually just wire up two of their motherboard chipsets in serial one after 00:07:08.460 --> 00:07:15.240 the other the reason I came across this is this is my first in detail am5 build 00:07:13.620 --> 00:07:19.080 and I was trying to figure out where to put my SSD so the way you do that is you 00:07:17.699 --> 00:07:26.220 check the block diagram for the motherboard and you're looking for whichever m.2 slots are wired up most 00:07:24.000 --> 00:07:30.060 directly to the CPU notice the block diagrams that there were two chipsets 00:07:27.720 --> 00:07:34.440 first one then the other which means that if I were to use this slot or this 00:07:32.280 --> 00:07:38.819 slot there's more potential bottlenecks as those PCIe Lanes make their way back 00:07:36.180 --> 00:07:42.419 to the CPU compared to this one and this one since this is a Gen 4 drive and I 00:07:40.860 --> 00:07:45.660 might want to add a higher speed Gen 5 Drive in the future I'm going to go 00:07:44.099 --> 00:07:50.400 ahead and choose the slot that's wired up through only one chipset rather than 00:07:48.180 --> 00:07:53.880 the one that goes through two of them it probably won't make any difference but 00:07:52.020 --> 00:07:58.319 you know hey if you want to be a purist about it then this is the best gen 4x4 00:07:56.280 --> 00:08:01.860 slot on the board this one also happens to be the only Gen 4 slot that comes 00:08:00.060 --> 00:08:07.020 with a heatsink not again like that matters but hey it's there oh next up 00:08:04.919 --> 00:08:14.060 we're doing water cooling here we go holy crap this thing is heavy apparently 00:08:10.919 --> 00:08:19.860 EK sent over their Quantum velocity to 00:08:14.060 --> 00:08:21.660 drgb am5 full nickel oh that explains it 00:08:19.860 --> 00:08:25.560 the bottom is machined out of pure electrolytic copper and then unlike most 00:08:23.699 --> 00:08:30.660 blocks which will have an acrylic top so you can see through them the top is more 00:08:28.259 --> 00:08:34.740 nickel plated copper I don't know that I would recommend water cooling these days 00:08:32.520 --> 00:08:38.940 the price to Performance just isn't there but you can't deny the looks and 00:08:37.380 --> 00:08:43.919 the advantage of this particular block is that it is designed for socket am5 00:08:41.640 --> 00:08:48.140 and the dye layout of ryzen 7000 specifically to provide optimal Cooling 00:08:50.580 --> 00:08:56.459 to be a back plate in here I don't believe it I think you have to 00:08:54.240 --> 00:09:01.440 disassemble the Block in order to install it what look I don't want to 00:08:59.279 --> 00:09:06.420 believe it either I know I know you'd think I was just finding an excuse to 00:09:03.060 --> 00:09:08.700 talk about the high quality ratchet and 00:09:06.420 --> 00:09:13.260 included bits of the LTT storage screwdriver but no I think I actually do 00:09:11.339 --> 00:09:16.320 need to do this I've never met a water block I couldn't figure out how to 00:09:14.580 --> 00:09:21.060 install I'm not about to start now I'm taking my shot my one shot my one 00:09:18.180 --> 00:09:26.399 opportunity mom's spaghetti right now yep oh I see because I gotta install 00:09:24.420 --> 00:09:30.420 these yeah yeah yeah I thought that you know there was going to be more of this 00:09:27.839 --> 00:09:33.720 and these were gonna be screwable into the back 00:09:31.740 --> 00:09:39.420 I might have to look this up installing the water block put it there and then 00:09:36.180 --> 00:09:42.060 using the included t7 L-shaped wrench 00:09:39.420 --> 00:09:46.140 fasten that wait what we brought Alex in as a consultant here to make sure that 00:09:43.740 --> 00:09:48.680 I'm not a complete idiot am I missing something here 00:09:49.019 --> 00:09:58.620 okay in the meantime let's talk memory these are super weird 00:09:55.440 --> 00:10:00.779 modules they are 24 gig modules meaning 00:09:58.620 --> 00:10:05.399 that with two of them which really is kind of optimal for am5 I'll have a 00:10:03.000 --> 00:10:10.500 total of 48 gigs of RAM my third downgrade from the 64 gigs in my old 00:10:07.680 --> 00:10:16.260 system but since they're ddr5 they should be substantially faster how much 00:10:12.480 --> 00:10:18.899 faster I don't know the Micron straight 00:10:16.260 --> 00:10:23.220 up memed the labels and while I have run them before I don't remember what they 00:10:21.360 --> 00:10:28.500 are so we'll find out once we Boot It Up of course we're not going to install them just like this as a gaming system 00:10:26.279 --> 00:10:34.440 we need some heat spreaders but not just any old heat spreaders will do we 00:10:31.140 --> 00:10:36.420 settled on these matching blue I have a 00:10:34.440 --> 00:10:42.360 bit of a theme going on here matching blue heat spreaders from some ancient 00:10:39.180 --> 00:10:44.279 Micron fully buffered dims from back in 00:10:42.360 --> 00:10:48.180 the day and there's a couple of reasons that we decided on an FB dim spreader 00:10:46.560 --> 00:10:51.779 when I said there were a couple reasons for using these spreaders there was 00:10:49.560 --> 00:10:56.100 actually just one reason see this little raised bit in the middle here that's to 00:10:54.420 --> 00:11:00.180 accommodate the buffer chip on these fully buffered dims 00:10:57.779 --> 00:11:05.220 now ddr5 doesn't have a buffer chip but what it does have is onboard power 00:11:02.640 --> 00:11:09.720 control so this is called the pmic and it seems to my eye like it's a little 00:11:07.500 --> 00:11:14.300 bit higher than the memory ICS themselves meaning that I wanted a 00:11:11.100 --> 00:11:14.300 spreader that would 00:11:14.820 --> 00:11:21.899 for that here's something I didn't really anticipate the memory packages on 00:11:19.019 --> 00:11:27.420 this are a lot lower is this even going to cover them also ddr5 is a touch wider 00:11:25.140 --> 00:11:32.519 so if I can just wow that's wild look how much this has 00:11:30.240 --> 00:11:36.540 faded there's no ICS on the back of this module so probably it wouldn't do 00:11:34.680 --> 00:11:39.660 anything bad but there's a possibility that it would short something if I put 00:11:38.040 --> 00:11:43.800 this on here like this what I'm going to do is I'm just going to put like a 00:11:41.640 --> 00:11:47.579 thermal pad back there and to help space it out this thermal pad is very sticky 00:11:45.959 --> 00:11:51.120 which is good that's what it's supposed to do right there yeah good good good 00:11:49.320 --> 00:11:54.720 good good good good good good good okay now I'm just going to try to hand Bend 00:11:52.680 --> 00:12:02.700 this oh yeah now I just got to put the clips on stickers back on stealthy ddr5 00:12:00.000 --> 00:12:08.700 nice nice 00:12:03.959 --> 00:12:11.399 yeah we figured it out this 00:12:08.700 --> 00:12:15.120 is how you turn it oh and you turn it this way so you're taking the screw and 00:12:13.680 --> 00:12:21.300 instead of screwing it in from the top you are pulling it into the threads from 00:12:18.240 --> 00:12:23.459 the bottom with this little Torx key 00:12:21.300 --> 00:12:28.440 that means that our stock backplate on this motherboard was perfectly fine and 00:12:26.279 --> 00:12:34.200 everything was fine all we needed to do was look more closely here 00:12:32.399 --> 00:12:39.440 please tell me this isn't cross-threaded we're going to forge our own path here 00:12:36.720 --> 00:12:39.440 new threads 00:12:41.300 --> 00:12:48.060 hopefully that was tight enough that will have to be drilled out this block 00:12:45.480 --> 00:12:53.040 is never coming off the sport now that the board's all geared up we are 00:12:49.620 --> 00:12:55.560 basically ready to do the upgrade huh 00:12:53.040 --> 00:12:59.399 not really the weight distribution is not what I thought it was yeah there's 00:12:57.420 --> 00:13:03.480 clearly still a lot of water in it though well I don't know you know what 00:13:00.720 --> 00:13:09.540 sure how bad could this be all right easy peasy no problem it's gonna be like 00:13:07.019 --> 00:13:14.100 the fastest system upgrade ever until we go to put in hard line tubing 00:13:12.360 --> 00:13:16.700 oh yeah also we're gonna need to water block this card 00:13:15.420 --> 00:13:21.120 oh I'm feeling good about this assembly of 00:13:19.380 --> 00:13:24.480 this card it looks like it's just a handful of screws on the back plate and 00:13:22.800 --> 00:13:29.940 then more screws through the PCB and this cooler is just going to pop right off please tell me it's easy to 00:13:27.720 --> 00:13:33.180 disassemble oh I mean there's some water but that's fine 00:13:31.800 --> 00:13:36.420 there was a spill at some point evidently for those of you wondering I 00:13:35.160 --> 00:13:40.920 am not going to be changing the power supply and the reason is that this 00:13:38.339 --> 00:13:44.339 particular 80 plus titanium unit from seasonic 00:13:42.180 --> 00:13:47.940 it's a thousand Watts that's more than enough for a single GPU system which is 00:13:46.260 --> 00:13:50.440 all anyone really does these days anyway so I'm just going to go ahead and leave 00:13:49.740 --> 00:14:05.480 it alone 00:14:05.480 --> 00:14:11.579 blow harder okay oh oh yeah definitely 00:14:08.820 --> 00:14:15.740 to blow harder I was joking following instructions yeah it's really going in 00:14:13.380 --> 00:14:15.740 the bucket 00:14:18.660 --> 00:14:26.779 it occurs to me that I don't know the exact height that that inlet's at that's 00:14:22.860 --> 00:14:26.779 what I'm doing this aha okay 00:14:31.980 --> 00:14:36.660 and now oh my gosh it is close to being 00:14:35.339 --> 00:14:41.279 too long hey look at that beautiful 00:14:41.279 --> 00:14:46.440 we definitely took one shortcut but 00:14:44.760 --> 00:14:51.300 In fairness to us this is a really hard Bend so we didn't 00:14:50.040 --> 00:14:55.980 we're pretty much ready to Cable manage it up and go given the last time that I 00:14:53.399 --> 00:15:00.480 daily drove AMD was over 10 years ago you guys are probably wondering what's 00:14:57.959 --> 00:15:03.779 the deal with the 7900 XTX in the build well there's a couple reasons for it 00:15:02.040 --> 00:15:11.040 first I'm in the middle of the AMD challenge so I'm going to AMD whether I 00:15:07.920 --> 00:15:12.720 like it or not and second why not AMD 00:15:11.040 --> 00:15:17.040 right now I mean yeah it's still expensive it's a thousand dollars for 00:15:14.339 --> 00:15:21.240 this card but for the first time in a long time AMD's not only competitive 00:15:18.959 --> 00:15:26.279 with the top offerings from NVIDIA but their driver improvements over the last 00:15:23.160 --> 00:15:28.279 few years have been unbelievable so I've 00:15:26.279 --> 00:15:33.899 already had this card in my system for at least a couple of weeks I just 00:15:31.199 --> 00:15:40.199 haven't had any issues with it so by all means you're welcome to stay Radeon 7900 00:15:37.440 --> 00:15:43.980 XTX it might not look new but it's kind of having a pretty new 00:15:42.180 --> 00:15:49.740 looking Vibe here David what do you think yeah you know I wasn't sure about that 00:15:47.339 --> 00:15:52.440 crusty blue memory but I am loving it it looks good it fits all your cables and 00:15:51.180 --> 00:15:56.220 everything looks awesome yeah it looks like oh we didn't put in the Thunderbolt 00:15:54.600 --> 00:15:59.399 card yeah oh and the 10 gig did you put the 10 gig in no okay so yeah they're 00:15:58.019 --> 00:16:03.839 still here there's still stuff for us to install yeah getting our hands on this guy was kind of a pain in the butt 00:16:02.399 --> 00:16:07.380 they're sold out everywhere so we had to go to eBay but it's an essential 00:16:05.519 --> 00:16:11.279 component of my build because I use Optical Thunderbolt cables to run my 00:16:09.540 --> 00:16:15.420 peripherals really far away from my tower this is a Thunderbolt add-in card 00:16:13.920 --> 00:16:19.320 and it's using the latest Intel controller codename Maple Ridge which I 00:16:17.639 --> 00:16:23.240 love because that's the town that I grew up in 00:16:20.699 --> 00:16:27.540 shout out Maple Ridge yeah all right anyway the point is it 00:16:25.920 --> 00:16:32.040 adds two 40 gigabit per second Thunderbolt ports supports up to 27 watt 00:16:30.120 --> 00:16:36.540 charging and you can use it to add Thunderbolt to any supported motherboard 00:16:34.260 --> 00:16:42.480 and you might be thinking really Thunderbolt on an AMD board the answer 00:16:38.699 --> 00:16:44.519 is yes not just usb4 actual Thunderbolt 00:16:42.480 --> 00:16:48.240 because the Intel Thunderbolt chip is this guy right here and while 00:16:46.500 --> 00:16:52.680 motherboard manufacturers are super cagey about this for some reason if you 00:16:50.880 --> 00:16:57.180 dig into the specs for these add-in cards they aren't Intel only and you can 00:16:55.079 --> 00:17:00.779 find lots of AMD boards that support them including this one right here the 00:16:59.339 --> 00:17:05.400 main requirement is that while Thunderbolt is PCIe based so 00:17:03.240 --> 00:17:09.360 theoretically those four lanes are what we're using to get all the bandwidth out 00:17:06.780 --> 00:17:14.339 of these ports the board has to have a special Thunderbolt header so I just 00:17:11.280 --> 00:17:16.620 need to go ahead and plug this guy 00:17:14.339 --> 00:17:22.319 Boop just like that so much for cable management and then it's weird but this 00:17:18.959 --> 00:17:24.780 particular card calls for a second USB 2 00:17:22.319 --> 00:17:30.480 connection to an internal header now I already used up both of my usb2 headers 00:17:27.600 --> 00:17:37.260 for my front panel connectors but here's a perhaps little-known trick 00:17:33.179 --> 00:17:39.660 you can convert USB 3 to USB 2 by simply 00:17:37.260 --> 00:17:47.940 not using all of the extra pins boom boom wow that bottom PCIe 16x slot 00:17:45.179 --> 00:17:51.419 is just 1X electrically that explains why we couldn't use almost any of the 10 00:17:50.160 --> 00:17:55.679 gig network cards that are out there because most of them use a buy four 00:17:53.760 --> 00:17:58.620 interface so a longer interface which you could absolutely plug into one of 00:17:57.299 --> 00:18:03.419 these slots but it would only be getting a quarter of its expected bandwidth oh 00:18:00.960 --> 00:18:08.100 except this one from OWC which uses a gen 4x1 interface which happens to be 00:18:06.000 --> 00:18:12.419 just about the right amount the 10 gig networking let's go ahead and put this 00:18:11.039 --> 00:18:16.740 little guy in here are you going to tell the people why you need 10 gig I mean I 00:18:14.880 --> 00:18:22.140 don't need it it's fast though it's really fast two and a half gig is such a 00:18:19.740 --> 00:18:26.880 good middle ground these days okay here we go let's fire it up 00:18:25.200 --> 00:18:33.299 oh wow those blocks look incredible you got 00:18:30.840 --> 00:18:36.660 a red light hey oh oh are you kidding me that's not good I hope it's not a RAM 00:18:34.740 --> 00:18:40.200 well actually I hope it is RAM that's probably the easiest solution why is it 00:18:38.340 --> 00:18:44.780 that every video we make turns into a troubleshooting video oh it's posting 00:18:42.360 --> 00:18:49.740 automatic repair wait automatic repair diagnosis diagnosing your PC hey this is 00:18:47.760 --> 00:18:54.360 a lot better than the red light and no screen we got 20 seconds ago now we blue 00:18:52.140 --> 00:18:58.080 screened sorry we lose an accessible boot device it's your drive blue blue 00:18:55.980 --> 00:19:02.520 screen yeah and it's an accessible boot device 00:18:59.600 --> 00:19:08.100 this is why you don't set up your boot Drive in the 4x2 grade zero 00:19:05.580 --> 00:19:13.080 configuration and then we transfer it to an eight terabyte Sovereign Drive what's 00:19:10.500 --> 00:19:17.340 the point there was none take that PlayStation we've got a couple ideas for 00:19:14.820 --> 00:19:22.200 how to fix this one is to just try the drive cloning process again and see if 00:19:19.140 --> 00:19:25.260 maybe something went wrong another is to 00:19:22.200 --> 00:19:27.179 try to drive as is but maybe enable AMD 00:19:25.260 --> 00:19:30.419 raid in the BIOS and just see if it's something to do with trying to load the 00:19:28.740 --> 00:19:33.600 AMD raid driver as it's trying to boot since that's faster why don't we do that 00:19:32.340 --> 00:19:37.620 first actually all right we're going to try NVMe RAID 00:19:35.400 --> 00:19:45.840 Mode oh yeah yeah nice yes oh hey what speed does 00:19:41.640 --> 00:19:48.299 this RAM run at 5600 CL 46 not the 00:19:45.840 --> 00:19:52.919 fastest thing ever but then it might be slow but damn it it's mine you know how 00:19:50.340 --> 00:19:56.940 sometimes a computer is not just fast but it's like Snappy and I could be like 00:19:55.140 --> 00:20:01.380 boom like I'm open Steam and then it's gonna be like wow connecting to your 00:19:58.799 --> 00:20:06.240 account boom steam let's go oh why have I not configured this to not come up 00:20:03.059 --> 00:20:09.660 it's like I hate myself I am all AMD for 00:20:06.240 --> 00:20:12.120 the first time since I was 18 years old 00:20:09.660 --> 00:20:17.700 is that wild or what like they're not just competitive on one because even in 00:20:15.780 --> 00:20:23.720 the dark times they would occasionally be competitive on GPU or like kind of on 00:20:20.760 --> 00:20:30.720 CPU but both so long 00:20:26.600 --> 00:20:32.039 casual 240 FPS in Halo infinite and make 00:20:30.720 --> 00:20:36.320 sure it's all cranked yeah let's turn it to 200 render scaling now I mean why not 00:20:34.559 --> 00:20:43.320 right a 150 frames per second Halo infinite 200 00:20:40.260 --> 00:20:44.700 we're running 4K boys come on come on 00:20:43.320 --> 00:20:49.740 come on get back here what are you doing yeah he's gonna turn around and kill you 00:20:46.980 --> 00:20:53.940 it's not gonna melee nothing I got him boom and he wasted his rocket launcher I 00:20:52.140 --> 00:20:58.140 consider that a win a one-to-one trade where you take out the rocket launcher 00:20:56.280 --> 00:21:02.220 okay look I play the objective David just like objective of this video is to 00:21:00.240 --> 00:21:07.500 segue to our sponsor that's not bad actually I like it Squarespace if you're 00:21:05.100 --> 00:21:11.580 building 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00:21:42.240 --> 00:21:50.280 LTT to get 10 off your first purchase if you guys enjoyed this video I'm gonna go 00:21:47.159 --> 00:21:52.919 massive throwback to the first time I 00:21:50.280 --> 00:21:57.480 did a black and blue themed build that's right personal rig update 2013.