1 00:00:00,160 --> 00:00:06,400 a portion of this video is sponsored by salesforce watch till the end to learn 2 00:00:04,160 --> 00:00:06,400 more 3 00:00:10,559 --> 00:00:17,760 uh yeah i would and we did 4 00:00:15,440 --> 00:00:21,840 not the whole pc mind you just the case but believe it or not there are plenty 5 00:00:20,080 --> 00:00:28,240 of options out there for cases that you can download and print for yourself tons 6 00:00:25,039 --> 00:00:31,199 for tiny pcs and raspberry pi's and even 7 00:00:28,240 --> 00:00:35,840 some full size options like these ones after a bit of browsing we stumbled 8 00:00:32,960 --> 00:00:40,719 across this beauty by empiricus the opf-1 we were like dang 9 00:00:38,800 --> 00:00:44,640 but it gets even better we checked out their profile and found the opf-2 and 10 00:00:43,600 --> 00:00:48,000 this this is the one 11 00:00:46,960 --> 00:00:53,120 but we had a small problem while the prusa 12 00:00:50,320 --> 00:00:57,120 i3 mark 3s's that we have in our print farm here are 13 00:00:55,440 --> 00:01:02,160 great work horses they don't exactly have the biggest 14 00:00:59,199 --> 00:01:07,360 build volume so we had no way to print the opf ii unless we sliced it up into 15 00:01:05,280 --> 00:01:12,000 tons of little bits which could be done but would involve a lot of 16 00:01:10,000 --> 00:01:16,080 gluing which wouldn't be the best for structural integrity not to mention that 17 00:01:13,600 --> 00:01:20,720 it would take a really long time so we made a call to the fine folks at e3d and 18 00:01:19,200 --> 00:01:24,400 if you don't know who e3d is they're one of the top manufacturers in the 3d 19 00:01:22,560 --> 00:01:29,280 printing world primarily known for their hot ends so that's the part that melts 20 00:01:26,720 --> 00:01:33,119 the plastic filament and their extruders the part that pushes and pulls the 21 00:01:31,439 --> 00:01:36,960 aforementioned filament a few years ago though e3d built 22 00:01:35,280 --> 00:01:43,360 something totally different that would push the boundaries of 3d printing as we 23 00:01:39,119 --> 00:01:45,759 know it the tool changer this bad boy 24 00:01:43,360 --> 00:01:50,640 is not for the faint of heart colin needed three 25 00:01:47,200 --> 00:01:52,960 full weekends to assemble it but the 26 00:01:50,640 --> 00:01:58,880 finished product is unlike anything we've ever used before e3d very 27 00:01:55,520 --> 00:02:02,079 specifically and intentionally does not 28 00:01:58,880 --> 00:02:03,840 market it as a 3d printer they refer to 29 00:02:02,079 --> 00:02:09,119 it instead as a motion system 30 00:02:05,759 --> 00:02:11,280 let me explain what that means because 31 00:02:09,119 --> 00:02:15,760 it's not an off-the-shelf click and print machine you can configure 32 00:02:13,520 --> 00:02:21,360 everything about it to your exact specifications so we started out with a 33 00:02:18,879 --> 00:02:26,000 fairly standard config for camaro 3d printing heads all set up identically 34 00:02:23,520 --> 00:02:29,440 with 0.4 millimeter nozzles but with each loaded with a different color of 35 00:02:27,920 --> 00:02:34,239 filament in case we wanted to give our case a little flare by the way our 36 00:02:32,080 --> 00:02:38,400 filament spools are down here in this rep cord filament storage chamber that 37 00:02:36,800 --> 00:02:42,879 see we've got our little desiccant pouches in here actually has a built-in 38 00:02:40,239 --> 00:02:47,120 humidity sensor pretty sweet to give you an idea of the flexibility 39 00:02:45,040 --> 00:02:50,480 that this affords though maybe more colors maybe that's not your thing no 40 00:02:49,599 --> 00:02:54,879 problem throw some dissolving support material 41 00:02:52,640 --> 00:02:59,360 on one of them or maybe you prefer a variety of nozzle sizes so you could do 42 00:02:56,959 --> 00:03:04,640 the bulk of your print really fast just laying down big old thick lines of 43 00:03:01,920 --> 00:03:08,560 filament without sacrificing quality in the fine details bringing in a finer 44 00:03:06,800 --> 00:03:12,800 head for those but none of what i said makes it a motion 45 00:03:11,440 --> 00:03:18,560 system this does want a laser etch chuck a laser diode 46 00:03:16,400 --> 00:03:23,280 onto one of these nifty tool plates and away you go what about a milling cutter 47 00:03:20,879 --> 00:03:26,959 to get perfectly machined surfaces or even a pick and place head if you want 48 00:03:25,120 --> 00:03:30,799 to build your own pcbs no problem i mean hell you could 49 00:03:28,720 --> 00:03:34,720 probably reflow them right on the print bed this thing runs on mains voltage and 50 00:03:33,040 --> 00:03:40,720 heats up like you wouldn't believe peaking at about 200 degrees celsius and 51 00:03:38,319 --> 00:03:46,319 the duet 2 wi-fi and expansion board that runs this whole thing 52 00:03:42,480 --> 00:03:48,400 it's legit a small computer plugged into 53 00:03:46,319 --> 00:03:54,400 the back of the unit it can support up to seven extruders and a crazy amount of 54 00:03:52,080 --> 00:03:57,680 inputs and outputs all while hosting its own web server so you can control it 55 00:03:56,080 --> 00:04:03,920 remotely which is super handy for 20 hour prints which is 56 00:04:01,360 --> 00:04:07,200 what this took i feel really bad that i didn't get to use the full potential of 57 00:04:05,840 --> 00:04:12,239 this machine but with some of these prints being over 20 hours and the 58 00:04:09,040 --> 00:04:15,680 timeline being really tight like 59 00:04:12,239 --> 00:04:17,440 when a print fails 12 hours into a print 60 00:04:15,680 --> 00:04:22,079 all of a sudden i'm set back a full day so for most of these prints i just used 61 00:04:19,759 --> 00:04:27,360 one extruder just to simplify things yeah i mean this is really cool but um 62 00:04:25,520 --> 00:04:30,560 yeah the results are a little they're a little bit rough yeah that was actually 63 00:04:28,880 --> 00:04:33,840 accidental so one of the hard parts with this printer is you need to slice it you 64 00:04:32,639 --> 00:04:37,759 need to take your files and tell it where you want the colors to be yeah and 65 00:04:36,160 --> 00:04:42,800 there is not a lot of support for tool changers in fact i use prusa slicer 2.4 66 00:04:40,560 --> 00:04:46,880 alpha one which came out like days before i needed to start printing things 67 00:04:44,400 --> 00:04:52,240 here and uh it it has pretty good support now but it was a a mess trying 68 00:04:50,479 --> 00:04:55,360 to get this thing working the good news is a bit of playing lego uh not with 69 00:04:54,639 --> 00:04:59,919 this and a few 632 screws later 70 00:04:57,919 --> 00:05:04,080 and we end up with this 71 00:05:01,360 --> 00:05:08,560 surprisingly rigid too which is kind of crazy considering that it's all 72 00:05:05,919 --> 00:05:12,639 just made of like hollow plastic yeah i think it's am i gonna break it i 73 00:05:11,039 --> 00:05:17,280 hope not but worst case scenario we just make more that's true 74 00:05:14,800 --> 00:05:21,280 man and this is such a this is such a unique shape compared to what you could 75 00:05:18,880 --> 00:05:26,320 do with metal like this would cost a fortune to see and see get some of these 76 00:05:23,680 --> 00:05:29,759 curves and stuff well you just yeah 77 00:05:28,160 --> 00:05:33,360 the harder part is holding things when you're machining so like how do you 78 00:05:31,759 --> 00:05:39,039 fixture that so that it doesn't just go spraying when you're machining and then the tool grabs it and chucks it across 79 00:05:36,720 --> 00:05:44,560 the shop no idea i mean yeah stuff like this big pockets really tough insets you 80 00:05:42,080 --> 00:05:49,600 can't do them some of these arches are like really clean yeah so some of these 81 00:05:47,680 --> 00:05:53,600 parts we did on prusas if it would fit on the build plate just because i needed 82 00:05:51,360 --> 00:05:56,720 to get more parts done in you know a set amount of time but other parts they're 83 00:05:54,960 --> 00:06:01,520 too big so they had to go in the tool chain okay what did this part uh this 84 00:05:59,120 --> 00:06:04,800 part this is clean i think this is actually it barely fits on a prusa it's 85 00:06:03,280 --> 00:06:08,080 a thin like three millimeter so that's a that's right off of prusa like no tuning 86 00:06:06,479 --> 00:06:12,880 and that's why they're so great fun fact our prusas actually use e3d hot ends so 87 00:06:10,880 --> 00:06:16,960 the work was also done on an e3d component at least so let's see if i 88 00:06:15,120 --> 00:06:20,000 can find one that's done on the big boy then what you're holding there in the 89 00:06:18,160 --> 00:06:23,520 center is done i didn't put enough top layers on that and so you can actually 90 00:06:21,280 --> 00:06:27,919 see the the pattern oh yeah the infill yeah i can see it step one is for us to 91 00:06:26,080 --> 00:06:32,080 heat set all of the inserts you can actually see we've got these super handy 92 00:06:30,800 --> 00:06:38,560 these are actually the same thing that i used back when i did that build in the 93 00:06:34,400 --> 00:06:40,720 underside of a table so these little uh 94 00:06:38,560 --> 00:06:44,560 insets they have a threaded part in the middle so that's where you screw into 95 00:06:42,319 --> 00:06:48,400 for the motherboard or for a standoff and then they have this kind of like 96 00:06:46,160 --> 00:06:52,080 knurled or textured outside so what you do with wood anyway is you 97 00:06:50,639 --> 00:06:56,400 put them into a pre-drilled hole and then you hammer them in but obviously 98 00:06:53,840 --> 00:06:59,599 that would not be a good idea with a case like this so we 99 00:06:58,000 --> 00:07:03,680 are going to use heat i've never actually done this before yeah really 100 00:07:01,120 --> 00:07:10,080 easy so we got a hakko 888d my favorite soldering iron and it's at i think it's 101 00:07:06,240 --> 00:07:10,800 669 nice nice and you just pop it in 102 00:07:10,080 --> 00:07:17,360 there and wait for it to heat up and it will sink in look at that oh wow that's clean 103 00:07:15,759 --> 00:07:20,560 boys that's insane 104 00:07:19,199 --> 00:07:26,400 now i just have to make sure i get them all at the same depth 105 00:07:22,960 --> 00:07:28,319 that's super cool do we have a um do we 106 00:07:26,400 --> 00:07:31,520 have extra standoffs you messing up no no no i no i mean or do we have more 107 00:07:30,000 --> 00:07:36,400 than what we need oh yeah we have every size we need so we made it compatible with any motherboard then pretty much 108 00:07:34,400 --> 00:07:40,400 it's atx now but it'll fit everything smaller than atx a lot of this build was 109 00:07:38,560 --> 00:07:45,120 just finding fasteners there's no instruction manual with this so 110 00:07:42,560 --> 00:07:49,680 everything had to be kind of figured out i don't actually see enough clearance 111 00:07:47,919 --> 00:07:53,039 here to put standoffs are we supposed to screw it directly into the back 112 00:07:51,599 --> 00:07:59,680 standoffs oh we're using plastic spacers these 113 00:07:57,759 --> 00:08:03,599 okay all right now like i said that yeah that works my concern though is just 114 00:08:02,400 --> 00:08:09,599 that oh yeah oh okay get getting them in is 115 00:08:06,639 --> 00:08:13,039 going to be a real challenge uh yes i see that yeah the spacers do appear to 116 00:08:12,000 --> 00:08:16,879 be the right height though so that's good that was a concern 117 00:08:15,120 --> 00:08:21,120 here's what we're gonna do colin okay i've got an idea oh no we're going to go 118 00:08:19,919 --> 00:08:27,759 backwards upside down uh oh oh oh mm-hmm okay i get you so 119 00:08:26,000 --> 00:08:32,800 we're going to put them all on here wait these are not all the same yes they are 120 00:08:30,160 --> 00:08:32,800 this one's not 121 00:08:33,599 --> 00:08:41,599 all right thankfully we have some extras actually we had one extra oh crap i need my 122 00:08:38,800 --> 00:08:46,800 screwdriver we gotta oh no yep but i have lttstore.com 123 00:08:44,880 --> 00:08:51,839 okay here's the idea it's gonna take teamwork 124 00:08:48,080 --> 00:08:55,200 i've got all the spacers in place and i 125 00:08:51,839 --> 00:08:57,200 am going to 126 00:08:55,200 --> 00:08:59,760 hold this like this and then i'm going to drop this on top 127 00:08:58,640 --> 00:09:08,120 of that you're going to put the case on top and then i'm going to screw it in from the underside okay 128 00:09:03,279 --> 00:09:08,120 uh oh god we're not even close 129 00:09:09,279 --> 00:09:12,320 oh there comes one 130 00:09:18,480 --> 00:09:25,040 my mouth got talent yo that's definitely going okay okay so the board's on there 131 00:09:22,720 --> 00:09:28,560 well very little kind of let's do one more up here 132 00:09:26,240 --> 00:09:33,600 okay there that's using your head okay we got three now the rest we can put 133 00:09:31,040 --> 00:09:33,600 down here 134 00:09:34,839 --> 00:09:39,760 okay oh this is gonna look sick 135 00:09:37,839 --> 00:09:43,839 all right let's get the CPU in because it's an open-air case cooling is not a 136 00:09:42,240 --> 00:09:50,720 concern so we went for some of the hottest most performant components on 137 00:09:46,240 --> 00:09:53,600 the market including a core i9 10 900k 138 00:09:50,720 --> 00:09:58,640 we could have gone 11900k but we misplaced it 139 00:09:55,440 --> 00:10:02,160 by we he means me quantum magnitude CPU 140 00:09:58,640 --> 00:10:02,160 block thanks ck 141 00:10:02,839 --> 00:10:09,279 oh so nice don't worry the aluminum doesn't 142 00:10:06,880 --> 00:10:12,000 actually touch the water so it's all good 143 00:10:10,240 --> 00:10:15,040 well there you are there you are 144 00:10:13,519 --> 00:10:20,000 i see you got a seasonic prime 1000 watts very 145 00:10:18,880 --> 00:10:25,440 nice that's really smart uh as well 146 00:10:22,480 --> 00:10:28,720 designed and relatively strong as it is taking the heaviest parts and putting 147 00:10:27,360 --> 00:10:35,040 them at the bottom really down low definitely it's good for stability right you don't want it sitting way up here 148 00:10:31,680 --> 00:10:37,519 yeah this is ek's flt240 now this case 149 00:10:35,040 --> 00:10:40,720 is designed to run the flt240 that has an integrated pump in the back but it 150 00:10:39,360 --> 00:10:44,320 didn't show up on time so we're just going to use the standard res and then 151 00:10:42,959 --> 00:10:49,519 we're going to run a standalone pump behind it just vhb it on the back oh 152 00:10:47,120 --> 00:10:55,120 that looks awesome yeah oh that's sick i'm not as into ek's 153 00:10:52,560 --> 00:10:57,760 reimagined CPU block mounting solution but it does look really good once it's 154 00:10:56,800 --> 00:11:04,800 installed for RAM we've gone with a set of 3 200 155 00:11:00,640 --> 00:11:06,880 megahertz cl 14 sticks from g-skill here 156 00:11:04,800 --> 00:11:10,480 can't go wrong with those man this is going to be a wicked fast 157 00:11:08,880 --> 00:11:16,800 machine i mean if you're going to download a computer you better download 158 00:11:12,000 --> 00:11:16,800 a fast one right it's free real estate 159 00:11:17,440 --> 00:11:25,680 for our boot drive we went with a relatively pedestrian 500 gig crucial p5 160 00:11:23,519 --> 00:11:31,440 and then for our mass storage we went with these 161 00:11:26,839 --> 00:11:34,560 5300 pro SATA ssds that are 7.68 162 00:11:31,440 --> 00:11:36,800 terabytes each oh this is a cool mount 163 00:11:34,560 --> 00:11:40,480 yeah not the prettiest thing ever because it looks like you're intended to 164 00:11:38,560 --> 00:11:45,440 have the interface facing the back but you can put up to three ssds in here 165 00:11:42,000 --> 00:11:51,839 that's super cool this is chunky we went 166 00:11:45,440 --> 00:11:54,720 with an ASUS rtx 39 24 gigs of GDDR 6x 167 00:11:51,839 --> 00:11:58,399 memory a board it's like almost as big as the freaking motherboard it 168 00:11:56,079 --> 00:12:02,079 absolutely dwarfs the rest of the machine which was already pretty 169 00:12:00,160 --> 00:12:06,560 freaking overkill oh my goodness it like sticks way out of 170 00:12:04,240 --> 00:12:10,480 the freaking case on the website it might be too big no no it's exactly the 171 00:12:09,120 --> 00:12:14,880 right size i love it i just wish we had the active 172 00:12:12,399 --> 00:12:19,040 backplate for it i know so we'll we'll have to keep an eye on 173 00:12:17,440 --> 00:12:23,279 vram temperature on the back but realistically with water cooling on the 174 00:12:21,360 --> 00:12:29,279 front open air case like this it's not gonna be it'll be fine oh interesting so 175 00:12:25,760 --> 00:12:30,720 the fittings come off the front yes so 176 00:12:29,279 --> 00:12:34,800 here's the plans the fittings come off the front it'll tuck under goes through 177 00:12:32,800 --> 00:12:39,279 this very convenient hole and then we're gonna have the pump sit back here okay 178 00:12:37,040 --> 00:12:44,240 oh vhb it and then there's a little slot if you look front wise yep i see it and 179 00:12:41,760 --> 00:12:49,760 then that's where water will come out up up red rad 180 00:12:47,200 --> 00:12:53,040 and then back down to dump here oh and the top here yeah so we'll have 181 00:12:51,440 --> 00:12:57,200 interesting we'll have a we're going to have two rads and then we'll have a 182 00:12:55,120 --> 00:13:02,399 little joiner up here got it to make this front mounted fitting look not so 183 00:12:59,279 --> 00:13:04,560 atrocious is to 184 00:13:02,399 --> 00:13:08,720 ah just make a fitting snake going to be a lot of o-rings here not more than 185 00:13:06,240 --> 00:13:12,880 desks pc we went full mad lad on this one okay 186 00:13:10,000 --> 00:13:17,040 wait for it yep nice it's in for the water cooling i used two right angles 187 00:13:14,959 --> 00:13:22,320 and an extender along with a regular compression fitting to get a nice clean 188 00:13:20,079 --> 00:13:26,720 look to the front of the case here and it comes out right over here we're going 189 00:13:24,480 --> 00:13:30,639 GPU priority on this build it's getting the coolest water and then we're going 190 00:13:28,560 --> 00:13:34,480 up to the CPU we talked about this in our roasting your setups video but clean 191 00:13:33,120 --> 00:13:38,480 soft tubing definitely looks better than crappy 192 00:13:36,320 --> 00:13:42,639 hardline and are we going dual rad here we're going dual red oh that's awesome 193 00:13:41,040 --> 00:13:45,600 you might say it's rad 194 00:13:44,240 --> 00:13:50,160 i know what you're thinking how the heck does this go oh the fans go first yes 195 00:13:48,399 --> 00:13:55,199 i'm out in the middle fan before you put it on uh-huh and then it sits on top of 196 00:13:52,560 --> 00:13:59,279 these two fans uh-huh i think i forgot to get one and three-quarter inch screws 197 00:13:57,199 --> 00:14:04,480 so the fix there is i go to fastenal and i get screws um i think we can fix it 198 00:14:02,160 --> 00:14:07,040 another way we just need open open corner fans okay so that's all we need 199 00:14:05,839 --> 00:14:11,199 we'll just go find open corner let's go find some open corner fans okay 200 00:14:09,360 --> 00:14:15,360 this is why it makes me so angry when i see radiator optimized fans that are 201 00:14:13,680 --> 00:14:20,560 closed corner because when you're open corner you see this you have so much 202 00:14:17,360 --> 00:14:22,399 more flexibility for accessing screws 203 00:14:20,560 --> 00:14:27,279 right whereas when you have a closed corner design noctwas is semi-open 204 00:14:25,360 --> 00:14:31,760 you can't really get in there because the head of the screw won't fit into 205 00:14:29,360 --> 00:14:36,160 this gap so here's how it works we've got open corner 632 screws going into 206 00:14:34,800 --> 00:14:40,240 the case here then we've got screws going all the way 207 00:14:38,240 --> 00:14:44,000 through the fans into the radiator for the other eight 208 00:14:41,920 --> 00:14:46,880 so it's going to be perfectly firmly attached 209 00:14:45,120 --> 00:14:50,160 actually probably better than most of my radiators end up being one of the nice 210 00:14:48,639 --> 00:14:54,000 things about this material is it has a very low shrinkage rate pla shrinks i 211 00:14:52,399 --> 00:14:57,440 was going to ask about that drinks a couple percent these are such big parts 212 00:14:55,760 --> 00:15:03,440 like you can't the shrinkage rate is like point eight or something 213 00:15:00,079 --> 00:15:05,600 that is sick the cost to make molds to 214 00:15:03,440 --> 00:15:10,480 injection mold these parts in plastic or machining is like it'll be crazy yeah 215 00:15:08,000 --> 00:15:16,240 just not but for this was two spools of 30 plastic 216 00:15:13,199 --> 00:15:18,240 like not bad less than less than 60 217 00:15:16,240 --> 00:15:22,240 bucks of material this makes me feel like an early thousands mcdonald's 218 00:15:20,560 --> 00:15:26,639 commercial papa baby 219 00:15:23,839 --> 00:15:32,560 because i am loving it hold on a second colin i might have made a mistake 220 00:15:28,720 --> 00:15:34,880 how grave of a mistake um 221 00:15:32,560 --> 00:15:40,639 not too grave oh you just didn't plummet into the pump yeah 222 00:15:36,399 --> 00:15:42,399 mine went right past the pump yep yep uh 223 00:15:40,639 --> 00:15:45,920 that's fine just put chuck an elbow in there okay good luck everybody here we 224 00:15:44,720 --> 00:15:49,600 go cutting it 225 00:15:47,920 --> 00:15:53,600 yeah it really is too bad we don't have that one with the 226 00:15:51,120 --> 00:15:57,040 built-in uh pump well i mean would have been perfect it's coming what we're 227 00:15:55,680 --> 00:15:59,920 going to do is we are going to 228 00:15:58,880 --> 00:16:04,560 kind of we're going to kind of hang the pump there 229 00:16:02,800 --> 00:16:08,880 so i'm just going to jam this barb fitting this is a classic ek fitting 230 00:16:07,199 --> 00:16:14,160 here 3 8 inch bar really big barb head on it it's going to 231 00:16:10,880 --> 00:16:14,160 kind of friction fit there 232 00:16:16,800 --> 00:16:23,040 okay okay it's on and it just sits it's just yeah right there that's pretty good 233 00:16:21,279 --> 00:16:26,639 it kind of works right it totally works okay here we go you ready oh you got to 234 00:16:25,120 --> 00:16:30,000 warn me before you start tipping ready you ready 235 00:16:28,320 --> 00:16:33,440 we're good right we good oh god 236 00:16:31,680 --> 00:16:38,160 that was not a good noise um 237 00:16:34,720 --> 00:16:39,839 okay but this tube is on now 238 00:16:38,160 --> 00:16:44,399 you know if it breaks i'll just print another yeah this looks sick this looks 239 00:16:42,480 --> 00:16:48,639 absolutely awesome should we put color in or just water in 240 00:16:46,240 --> 00:16:52,959 it water all the cool kids run pure water they know what's up this is the 241 00:16:50,639 --> 00:16:55,440 front this is the front really the front's wherever you want yeah the front 242 00:16:54,480 --> 00:17:00,560 is whatever you want to show off yeah there's no front i o so you'd kind of 243 00:16:58,560 --> 00:17:05,360 need access to it at the very least you could just face it like it's so it looks 244 00:17:02,720 --> 00:17:10,400 so good like it's presenting yeah yeah a little awkward 245 00:17:07,839 --> 00:17:13,600 this is the workplace i created i get it man this thing must have been so much 246 00:17:11,919 --> 00:17:19,360 work to design we talk about how difficult it would have been to manufacture this in a conventional 247 00:17:16,720 --> 00:17:24,400 manner but even just designing something with this many curves and contours is 248 00:17:21,280 --> 00:17:26,319 not easy actual true design where you 249 00:17:24,400 --> 00:17:30,679 like taking something from a concept to a fully fleshed beautiful industrial 250 00:17:28,240 --> 00:17:34,880 designed thing that's hard can i get an lttstore.com cable tie we've sold three 251 00:17:33,600 --> 00:17:38,240 of them you know what we haven't yet sold through huh 252 00:17:37,280 --> 00:17:43,520 look at that Linus plushie we've got bearded and unbearded 253 00:17:41,679 --> 00:17:49,280 i'm having a thought right now this is a dangerous aesthetic standpoint i would 254 00:17:46,320 --> 00:17:53,120 prefer to go from here to here but from an ease of use standpoint i 255 00:17:51,520 --> 00:17:56,000 would prefer to go from here to here i think it looks better that way do you 256 00:17:54,720 --> 00:18:01,360 think so absolutely and that's what we're doing yeah okay i think we just need like power cables well Linus was 257 00:17:59,360 --> 00:18:04,160 out filming pc or an opc get subscribed so you don't miss that the wiring has 258 00:18:02,720 --> 00:18:09,200 been tidied up the loop has been filled and i've run a few benchmarks to get some ideas on performance we even tossed 259 00:18:07,360 --> 00:18:13,600 a mild afterburner overclock on raising GPU core clocks 300 megahertz and 900 260 00:18:11,600 --> 00:18:17,840 megahertz on the memory and a quick run around cyberpunk 2077 with video 261 00:18:15,600 --> 00:18:23,520 settings cranked all the way to insane netted a rock solid 60fps with dlss off 262 00:18:21,200 --> 00:18:27,679 turning that on to balanced gave a 25 boost in frame rates up to around 80 FPS 263 00:18:26,400 --> 00:18:32,880 similarly cranked sightings of battlefield v made for a very playable 264 00:18:29,840 --> 00:18:35,360 110 FPS at 4k with our temps under load 265 00:18:32,880 --> 00:18:39,280 settling in around 60 degrees totally fine to make sure it wouldn't 266 00:18:37,200 --> 00:18:43,200 melt i left a particularly spicy benchmark loading overnight and 267 00:18:41,440 --> 00:18:46,960 thankfully it didn't melt it's still here 268 00:18:45,200 --> 00:18:51,600 a little bit of RGB and fan management and iq and we end up with what we have 269 00:18:49,120 --> 00:18:55,600 here now the cable mod cables really did a number to keep everything 270 00:18:53,440 --> 00:18:59,679 super tidy in the back there's no real place to hide the cables and it's kind 271 00:18:57,679 --> 00:19:03,840 of okay it's an open frame case i think it looks great 272 00:19:00,880 --> 00:19:07,919 so thanks again to e3d for this beast of a printer to prusa and repcord for the 273 00:19:06,080 --> 00:19:10,799 filament solutions underneath and of course thanks to salesforce for 274 00:19:09,280 --> 00:19:15,280 sponsoring this section of the video salesforce makes it easier for your small business to adapt to evolving 275 00:19:13,840 --> 00:19:18,480 customer needs in an increasingly digital work from anywhere world by 276 00:19:17,200 --> 00:19:23,919 using salesforce you'll be able to generate new business and develop relationships with your customers right 277 00:19:21,440 --> 00:19:27,840 from your crm send messages to specific list of recipients getting as broad or 278 00:19:25,840 --> 00:19:30,640 as targeted out as you like create a help center page for your customers and 279 00:19:29,360 --> 00:19:35,360 assist in getting the answers they're looking for you can also meet your customers where they're at to better 280 00:19:33,760 --> 00:19:38,080 assist them by connecting your email phone and social channels and easily 281 00:19:36,880 --> 00:19:42,320 respond to them right inside of the salesforce app request a demo or get 282 00:19:40,240 --> 00:19:47,200 started for just 25 dollars per user per month head to salesforce.com linustech 283 00:19:45,120 --> 00:19:50,480 and try salesforce today thanks again to salesforce for sponsoring this section 284 00:19:48,640 --> 00:19:54,320 of the video and uh that's a wrap on this build if you want to see some more 285 00:19:52,160 --> 00:19:58,480 wild builds check out desk pc that was a slog and it's got some 3d printed bins 286 00:19:56,000 --> 00:19:58,480 in it