1 00:00:19,960 --> 00:00:25,240 well guys the lab coat's on which means it's time for another ultimate build 2 00:00:23,640 --> 00:00:29,199 guide this time it's going to be the ultimate video editing workstation so 3 00:00:27,960 --> 00:00:34,760 we're going to be walking you through the mechanic of putting this system together but more 4 00:00:32,559 --> 00:00:39,800 importantly we're going to be talking about the rationale behind each of the 5 00:00:37,440 --> 00:00:44,239 parts we chose as well as giving a couple of other options cuz for 6 00:00:41,440 --> 00:00:48,320 professional use there are often at least a half a dozen options that would 7 00:00:46,320 --> 00:00:53,960 all be valid for any given part depending on your particular needs like 8 00:00:51,879 --> 00:00:58,960 most rigs a professional video editing machine starts at the CPU now our CPU 9 00:00:56,600 --> 00:01:04,360 choice is not the only choice we went with the 493 K on the LGA 2011 platform 10 00:01:02,440 --> 00:01:09,240 and we did this for a number of reasons we found the 4930k to be a good sweet 11 00:01:06,760 --> 00:01:14,280 spot it's the lowest end six core processor that's available from the core 12 00:01:11,200 --> 00:01:15,680 i7 family we could step down to a 4820k 13 00:01:14,280 --> 00:01:20,320 but then we'd be losing a couple of cores even though it is less expensive 14 00:01:17,759 --> 00:01:23,799 or we could step up to a 4960x extreme Edition but we wouldn't be getting a lot 15 00:01:22,159 --> 00:01:28,119 more performance and we'd be paying quite a bit more for it zons are also 16 00:01:26,360 --> 00:01:32,360 options but from a price to Performance standpoint we didn't find that for car 17 00:01:30,159 --> 00:01:36,399 rig bearing in mind that adobe can be easily offloaded without even buying 18 00:01:34,159 --> 00:01:40,840 additional licenses to a render Farm we didn't find we needed even more 19 00:01:38,079 --> 00:01:45,680 processing cores or more than 64 gigs of RAM which would be another benefit of a 20 00:01:42,840 --> 00:01:50,360 Zeon processor support for ECC memory now benefit number two beyond having 21 00:01:47,640 --> 00:01:56,439 more cores of choosing the LGA 2011 platform is more PCI Express Lanes these 22 00:01:53,360 --> 00:01:58,320 are PCIe 3.0 lanes and it has about 23 00:01:56,439 --> 00:02:03,920 double the lane support of the consumer grade platform meaning that as you add 24 00:02:00,880 --> 00:02:06,240 in bandwidth hungry expansion cards like 25 00:02:03,920 --> 00:02:10,759 accelerator cards and raid cards and nit cards and graphics cards and anything 26 00:02:09,160 --> 00:02:14,840 that you want compute cards whatever kind of crazy stuff you might want to put on here you need to make sure that 27 00:02:13,160 --> 00:02:19,239 bandwidth is available and only a professional grade platform will have 28 00:02:16,440 --> 00:02:23,920 that benefit number three is more RAM support even using consumer grade 29 00:02:21,680 --> 00:02:30,360 modules such as these Corsair Dominator platinums these are clocked at 2133 MHz 30 00:02:26,560 --> 00:02:33,120 we can get up to 64 gigs of RAM in this 31 00:02:30,360 --> 00:02:36,599 board which is more than we need for our application although it'll be up to you 32 00:02:35,040 --> 00:02:42,680 guys to decide whether you need more than that but you might end up with something like a dual socket board with 33 00:02:40,280 --> 00:02:48,200 even more memory slots or highdensity ECC modules now let's talk a little bit 34 00:02:45,440 --> 00:02:52,640 more about the memory we went with DDR3 2133 modules so remember we did a 35 00:02:51,040 --> 00:02:57,040 showcase a little while ago where we demonstrated that anything of around 36 00:02:54,080 --> 00:03:00,400 1333 or higher doesn't benefit gaming applications however with Pro 37 00:02:59,000 --> 00:03:06,319 applications where you're swapping massive amounts of data in and out of the memory that can be a bit of a 38 00:03:04,200 --> 00:03:09,080 different scenario with that said you still want to find a sweet spot and you 39 00:03:07,840 --> 00:03:15,959 don't necessarily want to spring for DDR3 3,000 MHz or anything like that so 40 00:03:12,560 --> 00:03:18,280 we found 2133 was a good balance now why 41 00:03:15,959 --> 00:03:23,239 did we go with this particular kit and really a big part of the answer is not 42 00:03:20,720 --> 00:03:27,159 all memory kits are available in eight-way configurations so first of all 43 00:03:25,840 --> 00:03:30,920 you have to be able to get a quad Channel kit of whatever memory it is 44 00:03:29,159 --> 00:03:35,239 there's a chance that two dual Channel kits will work together in Quad Channel 45 00:03:33,120 --> 00:03:39,519 but if you want maximum compatibility buying quad Channel kits is the way to 46 00:03:36,840 --> 00:03:44,799 go remember LGA 2011 not only supports more memory but also about double the 47 00:03:41,959 --> 00:03:48,640 theoretical bandwidth of LGA 1150 so we had to find a quad Channel kit then we 48 00:03:46,840 --> 00:03:54,280 wanted to find a quad Channel kit that actually has all eight modules in one 49 00:03:51,040 --> 00:03:56,599 kit all validated together because this 50 00:03:54,280 --> 00:04:01,120 again improves compatibility with your motherboard and CPU and is makes it less 51 00:03:59,799 --> 00:04:05,720 likely that you're going to run into any issues down the road you want a six core 52 00:04:03,959 --> 00:04:10,400 processor and 64 gigs of RAM you're going to need a board that supports it 53 00:04:07,120 --> 00:04:12,959 this is the p9x 79e Ws from ASUS and 54 00:04:10,400 --> 00:04:16,560 don't let the Ws fool you it's not just suitable for workstation use guys so if 55 00:04:14,840 --> 00:04:21,799 you want to overclock or game on this board yeah that'll be just fine don't 56 00:04:18,919 --> 00:04:26,479 worry but what makes it WS well number one is there's the pure quality of the 57 00:04:23,840 --> 00:04:30,840 components it is an an extremely well-built board it is designed to be 58 00:04:28,479 --> 00:04:35,440 used in a professional environment and yes those components do cost more and 59 00:04:33,000 --> 00:04:41,400 they do last longer next up is the expansion so check this out seven PCI 60 00:04:38,600 --> 00:04:47,600 Express 16x physical slots three of them are wired for 8X four of them are wired 61 00:04:43,840 --> 00:04:50,880 for PCIe 16x 3.0 that's supported by 62 00:04:47,600 --> 00:04:53,680 that IV brid e processor wow lots of 63 00:04:50,880 --> 00:04:58,840 expansion you've also got8 DDR3 module slots so that'll support up to 64 gigs 64 00:04:55,759 --> 00:05:01,960 of regular non-cc memory with a normal 65 00:04:58,840 --> 00:05:04,639 Core Series processor or you can support 66 00:05:01,960 --> 00:05:07,240 even more if you step up to a Zeon processor which will cost you a little 67 00:05:06,120 --> 00:05:11,759 bit more and then you'll spend a little bit more on the memory as well to get 68 00:05:09,440 --> 00:05:14,960 even more Rock Solid stability and even better performance now it's got other 69 00:05:13,320 --> 00:05:19,080 workstation oriented features as well such as the Dual Intel NYX at the back 70 00:05:16,759 --> 00:05:23,800 that increases throughput and decreases CPU utilization when you're working off 71 00:05:21,120 --> 00:05:28,919 of network resources but that is not actually where it really shows its value 72 00:05:26,960 --> 00:05:33,319 compatibility is where this board shows its value could spend half as much less 73 00:05:31,440 --> 00:05:36,840 than half as much on a motherboard that would give you the same performance yes 74 00:05:35,520 --> 00:05:41,160 I'm going to let that sink in for a moment less than half as much so why 75 00:05:39,360 --> 00:05:45,360 doesn't everyone just do that because when you're buying a professional grade 76 00:05:42,800 --> 00:05:49,199 product you expect zero downtime when you buy a new red rocket accelerator 77 00:05:47,600 --> 00:05:52,759 card and throw it into your board you expect it to work you don't expect to 78 00:05:51,160 --> 00:05:56,800 find out that there's a compatibility issue and you've got to pull that 79 00:05:54,280 --> 00:05:59,680 motherboard eBay it flip it somehow buy a new one and replace it you can't 80 00:05:58,600 --> 00:06:06,880 afford that if you want something something that you know is going to work this is it friends WS series boards are 81 00:06:04,000 --> 00:06:10,840 validated to a much higher standard with aftermarket parts than other boards 82 00:06:09,280 --> 00:06:15,039 whether it is the aforementioned red rocket card raid cards multi- Channel 83 00:06:13,039 --> 00:06:21,599 Nicks or whatever else you can fill up these PCI Express slots Zeon F cuadros 84 00:06:18,479 --> 00:06:23,599 Teslas it's all validated in this board 85 00:06:21,599 --> 00:06:27,039 so if you can't afford the downtime and you're willing to pay an extra premium 86 00:06:25,080 --> 00:06:32,919 for that and you just want what I generally consider to be the best single 87 00:06:29,039 --> 00:06:35,319 socket board on the market p9x 79 ews my 88 00:06:32,919 --> 00:06:38,440 friends we went with a prograde product for the motherboard but for the power 89 00:06:36,880 --> 00:06:43,639 supply we're going with a bit of more of a gaming branded product why would that 90 00:06:41,080 --> 00:06:47,720 be well for one thing the Corsair axi series comes with a seven-year warranty 91 00:06:45,599 --> 00:06:51,759 so if you had any doubts as to how wellb built they are there's that you can also 92 00:06:49,840 --> 00:06:55,879 check out the reviews on Johnny guru.com these are extremely well-built power 93 00:06:54,560 --> 00:07:00,280 supplies right up there with a workstation grade power supply and they 94 00:06:58,120 --> 00:07:04,160 come with a seven-year warranty and they come with Corsair link which allows you 95 00:07:01,840 --> 00:07:08,400 to monitor its usage as well as its efficiency as well as your voltage 96 00:07:05,919 --> 00:07:10,560 levels and all that crazy stuff so we kind of went well what's the real 97 00:07:09,599 --> 00:07:15,919 difference between this and a workstation power supply well there's the brand name on the front which isn't 98 00:07:14,120 --> 00:07:19,160 terribly important to us and there's the fact that it doesn't look like an 99 00:07:17,479 --> 00:07:22,680 industrial piece of equipment and sound like an industrial piece of equipment 100 00:07:20,919 --> 00:07:27,520 it's very very quiet to go along with that 80 plus Platinum efficiency so 101 00:07:25,560 --> 00:07:32,240 there doesn't appear to be a downside we went with the ax860i 102 00:07:29,879 --> 00:07:36,879 now there's a million different options in terms of storage there really are 103 00:07:35,160 --> 00:07:41,720 literally a million but we're going to walk you through what we went with SSD 104 00:07:39,120 --> 00:07:45,879 boot Drive I still feel is the most important thing to have in any machine 105 00:07:43,680 --> 00:07:51,039 gaming workstation doesn't really matter and for us we went with the Intel 530 106 00:07:48,000 --> 00:07:52,680 series 240 gig drive it's got a 5-year 107 00:07:51,039 --> 00:07:56,520 warranty so they're standing behind it in terms of the reliability the 108 00:07:54,240 --> 00:08:01,240 durability of The Flash you could spend a lot more and get something like a$ 109 00:07:58,560 --> 00:08:06,280 3500 series drive that would be an option but because we're not going to be 110 00:08:03,680 --> 00:08:10,639 using this drive for any of the real work we're not using it as a scratch 111 00:08:08,720 --> 00:08:15,039 disc we're not using it to actually store any HD footage on it we're just 112 00:08:12,800 --> 00:08:20,360 basically reading off of it we did not feel it was necessary to go with a 113 00:08:17,319 --> 00:08:22,720 prograde component in this case when 114 00:08:20,360 --> 00:08:28,919 working with HD video files or even Ultra HD video files you will need a ton 115 00:08:25,919 --> 00:08:30,879 of space we wanted to try and keep our 116 00:08:28,919 --> 00:08:35,599 storage internal to make this workstation as as portable as possible 117 00:08:33,640 --> 00:08:40,680 without tying us down to an external storage array so we went with four WD 118 00:08:38,320 --> 00:08:44,440 black 4 tbte drives we're going to be running them in RAID 10 we're going to 119 00:08:42,519 --> 00:08:48,720 be running them off the onboard raid these are not necessarily the only 120 00:08:46,560 --> 00:08:53,240 options Available to You adding in a high-end raid card so that you can run 121 00:08:50,640 --> 00:08:58,360 something like raid five very quickly or some kind of an unraid or some kind of a 122 00:08:55,880 --> 00:09:02,480 raid six these are definitely options but by the time you buy a raid card 123 00:09:00,160 --> 00:09:06,079 that's capable of running those types of raid fast enough for professional usage 124 00:09:04,839 --> 00:09:11,040 you're probably looking at adding another 500 to ,000 to the cost of the 125 00:09:08,760 --> 00:09:15,399 build so I wanted to present that option but that's not something that we went 126 00:09:12,480 --> 00:09:21,680 with RAID 10 allows us to take our four four terabyte drives and get a total of 127 00:09:17,760 --> 00:09:23,600 8 terabytes of fast safe storage we get 128 00:09:21,680 --> 00:09:27,760 the benefits of raid zero so that is double the sequential throughput and we 129 00:09:25,640 --> 00:09:32,079 get the benefits of raid one which means that we can have any one of the drives 130 00:09:29,760 --> 00:09:36,839 in the system fail and up to two of the drives in the system fail before any 131 00:09:34,720 --> 00:09:41,000 data losses incurred this is so important for for professional work 132 00:09:39,000 --> 00:09:44,839 whether you're running a raid card whether you're running raid off of your 133 00:09:42,440 --> 00:09:49,360 onboard or whether you're running uh some kind of an external enclosure 134 00:09:46,839 --> 00:09:54,560 whether that's Network or USB 3 or ESAT or whatever the case may be redundancy 135 00:09:52,079 --> 00:09:59,399 is key it is not a substitute for backing up preferably offsite but 136 00:09:56,880 --> 00:10:03,240 redundancy will save you from a hardware failure choosing a graphics card for a 137 00:10:01,440 --> 00:10:07,600 professional rig is a very personal choice and I just want you guys to maybe 138 00:10:05,839 --> 00:10:11,440 be able to make a better educated one even if I can't tell you exactly what's 139 00:10:09,399 --> 00:10:16,200 right for you now graphics cards in general have always had the hardware 140 00:10:13,720 --> 00:10:21,600 oomph to be great for applications like video editing but the software is still 141 00:10:18,680 --> 00:10:24,720 catching up so prior to Adobe CS5 for example if you're a premier editor 142 00:10:23,360 --> 00:10:28,240 anyone telling you you needed a great workstation graphics card for better 143 00:10:26,440 --> 00:10:31,640 video editing performance was probably trying to sell you a great workstation 144 00:10:30,000 --> 00:10:36,480 graphics card that ultimately wasn't going to be doing a whole lot for you in 145 00:10:33,600 --> 00:10:40,079 terms of performance anyway with CS5 that all changed so we're able to 146 00:10:38,160 --> 00:10:44,160 leverage that highly parallelized processor the onboard memory the fast 147 00:10:42,240 --> 00:10:48,079 interconnects to the rest of the system for wholesale changes to individual 148 00:10:46,440 --> 00:10:52,760 pixels imagine a graphics card being good for that such as uh color 149 00:10:50,240 --> 00:10:57,639 correction scaling or compositing so that was with CS5 now we're actually 150 00:10:55,600 --> 00:11:02,720 continuing to improve so for example in After Effects in CS6 the Optics Ray 151 00:11:00,720 --> 00:11:07,680 tracing engine was added that's GPU accelerated as well so that instead of 152 00:11:04,880 --> 00:11:14,720 fake cluggy 3D effects and after effects now editors can work in real 3D with 153 00:11:11,240 --> 00:11:17,079 real depth values now on the NVIDIA side 154 00:11:14,720 --> 00:11:20,760 alone you've actually got options in terms of you got two whole different 155 00:11:18,760 --> 00:11:23,959 lines of graphics cards to choose from so there's quadros which I was waving 156 00:11:22,440 --> 00:11:28,519 around before the workstation grade cards and then there's also the consumer 157 00:11:25,959 --> 00:11:32,800 grade GeForce cards now what GeForce cards do is they offer a great price to 158 00:11:31,079 --> 00:11:38,240 Performance ratio if you're looking for sheer Cuda cores and Cuda performance if 159 00:11:36,800 --> 00:11:42,519 the application that you're running doesn't call for a specifically 160 00:11:40,079 --> 00:11:47,360 validated GPU where there's no easy hack GeForce cards offer great bang for the 161 00:11:45,320 --> 00:11:52,040 buck now with that said they don't undergo the same degree of validation 162 00:11:50,040 --> 00:11:56,079 because there's a whole lot of variety in the implementations from different 163 00:11:53,800 --> 00:11:59,240 manufacturers so that means that you've got to make a pretty careful choice for 164 00:11:57,639 --> 00:12:04,839 which one you going want to go with the the ASUS direct cu2 GTX 780 that we've 165 00:12:02,240 --> 00:12:09,200 got for our rig is an overbuilt card it's overclocked but you know not crazy 166 00:12:07,480 --> 00:12:12,800 like it's going to die immediately or anything like that and it has a 167 00:12:10,760 --> 00:12:17,839 fantastic cooler on it so we'd expect it to have a very long life cycle even 168 00:12:14,839 --> 00:12:19,040 though it's not rated for 24/7 operation 169 00:12:17,839 --> 00:12:24,320 the same way that something like a Quadro is with Quadro cards on the other 170 00:12:22,160 --> 00:12:28,800 hand performance takes a definite backseat to validation and reliability 171 00:12:26,800 --> 00:12:35,000 the things that workstation users value the most these cards are all built by NVIDIA with 172 00:12:32,800 --> 00:12:39,720 exactly the same components every time allowing large corporations to validate 173 00:12:37,760 --> 00:12:43,839 particular workloads and particular machines with this particular card and 174 00:12:42,000 --> 00:12:47,560 know that it's going to be available in exactly that configuration over a long 175 00:12:45,639 --> 00:12:50,160 period of time this is important in a corporate environment but not 176 00:12:48,720 --> 00:12:55,360 necessarily something that individual users value now that goes for software 177 00:12:52,800 --> 00:12:59,839 makers as well this is less of an issue with Adobe software where they actually 178 00:12:57,480 --> 00:13:05,199 do validate some G4 uh chips and configurations in addition 179 00:13:02,360 --> 00:13:10,839 to Quadro configurations but AVID for example only certifies workstation grade 180 00:13:08,079 --> 00:13:15,839 cards for their Avid software now with that said there are hacks there are text 181 00:13:12,880 --> 00:13:20,800 file hacks for both Adobe applications and for Avid that allow you to you know 182 00:13:18,240 --> 00:13:25,600 cludge in GeForce cards and and allow them to be recognized as validated cards 183 00:13:22,880 --> 00:13:29,199 but this is a very a very home brew way of approaching it and not everyone's 184 00:13:26,920 --> 00:13:33,000 comfortable with that now for the multi talented video editor who also does some 185 00:13:30,959 --> 00:13:37,399 3D rendering work as well you'll probably just plain old need a Quadro 186 00:13:35,440 --> 00:13:43,360 card professional 3D rendering applications such as 3ds Max and Maya 187 00:13:40,040 --> 00:13:45,360 are often only going to work with GPU 188 00:13:43,360 --> 00:13:49,639 acceleration with Quadro cards this is because of the way that the quadro 189 00:13:46,839 --> 00:13:54,720 driver is architected to specifically enable performance profiles and 190 00:13:51,320 --> 00:13:56,480 compatibility settings even down to if 191 00:13:54,720 --> 00:14:00,120 that particular rendering application is the active window on the screen it's 192 00:13:58,279 --> 00:14:04,519 making optimization in the background for the utmost compatibility and the 193 00:14:02,240 --> 00:14:08,079 gForce drivers just aren't tuned to operate that way they're going for Balls 194 00:14:06,320 --> 00:14:12,639 to the walls performance rather than that stability and validation that 195 00:14:10,279 --> 00:14:16,720 Quadro brings to the table so basically if it it comes down to choices if you're 196 00:14:14,920 --> 00:14:20,720 a tinkerer and you're willing to spend the time you know hacking things a 197 00:14:18,279 --> 00:14:24,160 little bit and you don't mind if if a card isn't validated for 24/7 operation 198 00:14:22,880 --> 00:14:27,040 and if it dies you kind of go to yourself well I spent half as much on 199 00:14:26,000 --> 00:14:32,199 this card as I would have on the workstation one I'll just buy another one and it'll probably be higher 200 00:14:30,360 --> 00:14:36,360 performance by that time anyway if you're one of those kinds of folks 201 00:14:33,920 --> 00:14:40,480 GeForce can be a great option if you're building workstations that just need to 202 00:14:39,120 --> 00:14:45,279 work and you don't want to ever touch them again then maybe there's a value to 203 00:14:43,120 --> 00:14:47,959 you for the additional stability that something like a Quadro brings to the 204 00:14:46,680 --> 00:14:53,160 table I mean another example is if you're building a system for someone else where frankly it's not your money 205 00:14:51,399 --> 00:14:57,160 anyway and you want them to have a great experience with your system maybe you 206 00:14:55,040 --> 00:15:00,759 just go for the hassle-free solution that doesn't have the hack that you 207 00:14:59,040 --> 00:15:03,360 implemented and validated by a driver update that comes down through GeForce 208 00:15:02,320 --> 00:15:08,519 experience and you're kind of sitting there going well I wouldn't be dealing with that if it was a Quadro then you 209 00:15:06,600 --> 00:15:14,839 might find that to be a better option as well now with that said you can't just 210 00:15:12,279 --> 00:15:18,639 swap out quadros for gfor and get all of the same functionality some of it is 211 00:15:16,680 --> 00:15:23,680 just plain Hardware so if you're doing any kind of stereo 3D video editing and 212 00:15:21,120 --> 00:15:27,920 you want to use a prograde 3D solution that runs off of a D connector Quadro is 213 00:15:25,839 --> 00:15:35,519 going to be the way to go if you wanted to take advantage of ah yes deep color 214 00:15:31,639 --> 00:15:38,199 so 10bit panels more on this pa279q in a 215 00:15:35,519 --> 00:15:42,279 moment for any kind of serious color work during your video editing process 216 00:15:40,399 --> 00:15:46,279 you are going to need a Quadro because that's the only thing that is going to 217 00:15:44,120 --> 00:15:51,240 support the 10bit output that that monitor can then interpret and finally 218 00:15:49,440 --> 00:15:55,839 they come in form factors that GeForce cards just don't come in this Quadro 219 00:15:52,959 --> 00:15:59,800 k4000 is a single slot card giving you a ton of flexibility in systems where you 220 00:15:58,040 --> 00:16:03,560 might also have you know a red rocket accelerator and all those other things 221 00:16:01,839 --> 00:16:07,000 where you can run out of expansion cards pretty quickly and I mean for us it's 222 00:16:05,440 --> 00:16:11,240 great because we were able to put a two slot GeForce card in sneak a single slot 223 00:16:09,519 --> 00:16:15,399 Quadro card in and still have a lot of expansion for other things as well so 224 00:16:12,839 --> 00:16:20,959 that's yet another advantage of Quadro for peripherals particularly for 225 00:16:18,600 --> 00:16:26,399 keyboards and mice we've moved almost completely towards gaming peripherals 226 00:16:23,440 --> 00:16:29,600 not because gaming peripherals are you know more professionall looking in fact 227 00:16:28,199 --> 00:16:33,800 they're not but because the functionality and the build quality of 228 00:16:31,399 --> 00:16:37,800 them tends to be well designed for more wear and tear than your typical mouse or 229 00:16:36,000 --> 00:16:42,639 keyboard so this right here my friends is the g602 and this gets my 230 00:16:40,279 --> 00:16:48,240 recommendation it lasts for weeks in performance mode and much longer than 231 00:16:44,880 --> 00:16:51,639 that in its endurance mode it has very 232 00:16:48,240 --> 00:16:53,920 good precision and it has a ton of fully 233 00:16:51,639 --> 00:16:57,720 programmable buttons which can be great not just for gaming and binding to your 234 00:16:55,639 --> 00:17:02,480 voice chat application or whatever else but also for programming in things like 235 00:16:59,920 --> 00:17:07,280 keyboard shortcuts it's comfortable it's wireless it's hard to go wrong for our 236 00:17:05,280 --> 00:17:11,079 keyboard same thing we've started moving towards gaming keyboards because 237 00:17:08,959 --> 00:17:15,039 features like lighting up in the dark having programmable keys on the sides 238 00:17:13,160 --> 00:17:19,520 having built-in media controls and a volume wheel well these are useful for 239 00:17:17,319 --> 00:17:23,919 professionals as well as for gamers so the g710 plus gets my vote it has 240 00:17:22,160 --> 00:17:27,959 excellent software it comes with Cherry MX Brown key switches with O-rings 241 00:17:26,280 --> 00:17:33,520 meaning that it's not that loud so you're not going to be bugging your neighbor again the loud system thing and 242 00:17:31,720 --> 00:17:36,880 it's Logitech so it's extremely wellb built and if anything goes wrong with it 243 00:17:35,080 --> 00:17:40,559 you will definitely get a replacement it's also very well priced for a 244 00:17:38,440 --> 00:17:44,600 mechanical keyboard with those features now when it comes to audio that's where 245 00:17:42,640 --> 00:17:50,520 the gaming thing goes completely out the window most of our guys here use Im so 246 00:17:47,760 --> 00:17:56,320 something like sennheiser's i8s would be an excellent option although any kind of 247 00:17:53,240 --> 00:17:58,200 closed monitoring or reference sounding 248 00:17:56,320 --> 00:18:04,400 headphones from the likes of AKG be Dynamics heer or Den would be great 249 00:18:02,039 --> 00:18:08,840 choices ASUS originally told us they were going to send us a new PB 27in 250 00:18:06,880 --> 00:18:14,480 monitor for this showcase and I kind of went okay um yeah I can dig it PB is uh 251 00:18:12,400 --> 00:18:20,320 is a good value option if you want you know great monitors that are not Factory 252 00:18:18,000 --> 00:18:25,240 pre-calibrated like the PA series the proart series is um and if you want me a 253 00:18:23,120 --> 00:18:31,120 little bit more value uh that's not what they sent they ended up sending a pa279q 254 00:18:28,840 --> 00:18:35,440 which is one that I can wholeheartedly recommend for use with this video 255 00:18:33,200 --> 00:18:40,480 editing rig or pretty much any video editing rig yeah it's expensive if you 256 00:18:38,480 --> 00:18:44,320 look at it from like a gamer's perspective you go oh Pro art monitors 257 00:18:42,400 --> 00:18:47,520 those are really expensive but when you look at it from a professional user's 258 00:18:46,320 --> 00:18:52,880 perspective and you consider the features you're getting you compare it to something like an HP dream color and 259 00:18:50,760 --> 00:19:01,559 it starts to look a lot more attractive this right here is a 27in 2560x1440 260 00:18:56,159 --> 00:19:02,919 monitor it has a 10 bit Ah IPS panel so 261 00:19:01,559 --> 00:19:08,799 for those of you who understand what that means great for those of you who 262 00:19:04,960 --> 00:19:11,200 don't that means a much much tighter 263 00:19:08,799 --> 00:19:15,919 level of granularity in the colors that it can display so on your monitor when 264 00:19:13,360 --> 00:19:20,480 you see blocking or banding between similar colors that will not be present 265 00:19:18,520 --> 00:19:25,360 on this monitor as long as you are using a supported graphics card so in our case 266 00:19:22,400 --> 00:19:30,000 a Quadro with a supported driver Quadro and a supported application such as 267 00:19:26,919 --> 00:19:32,960 Adobe Premiere now you are taking full 268 00:19:30,000 --> 00:19:37,159 advantage of deep color it also has a 14bit lookup table so it can actually 269 00:19:35,440 --> 00:19:40,880 understand even more than it can actually display to you giving it an 270 00:19:38,679 --> 00:19:44,679 even better approx ability to approximate those colors and it's got 271 00:19:43,400 --> 00:19:49,880 more features as well so it's a professional monitor meaning that the onscreen display has an updated 272 00:19:48,039 --> 00:19:54,280 navigation menu with a little four-way switch it's highly ergonomic so you got 273 00:19:51,880 --> 00:19:58,039 your height adjust your tilt your swivel your pivot all that stuff that you could 274 00:19:56,120 --> 00:20:02,919 possibly want it comes pre-calibrated like all PA monitors and this time ASUS 275 00:20:01,039 --> 00:20:07,720 is going for gold because they're promising a Delta e of less than two and 276 00:20:05,440 --> 00:20:12,200 they actually ship a little certificate inside the box that shows you how your 277 00:20:09,919 --> 00:20:18,520 individual monitor tested it supports six AIS individual color adjustments so 278 00:20:15,440 --> 00:20:20,400 that's on RGB s magenta and yellow so 279 00:20:18,520 --> 00:20:24,280 you can adjust individual colors without affecting the other ones it has 280 00:20:22,000 --> 00:20:28,240 uniformity compensation which is one of the big issues with even many prograde 281 00:20:26,440 --> 00:20:32,200 monitors and that is to say that the back leg isn't always uniform so as much 282 00:20:30,400 --> 00:20:36,799 as the color reproduction might be perfect you might still have issues with 283 00:20:34,559 --> 00:20:40,200 this corner being a little bit different looking than this corner and you want it 284 00:20:38,240 --> 00:20:43,960 to be as uniform as possible comes with compensation for that of course with you 285 00:20:42,280 --> 00:20:52,039 know a 10B bit panel and all of these fancy features it has 99% Adobe RGB 286 00:20:48,159 --> 00:20:55,280 color support and 100% srgb color space 287 00:20:52,039 --> 00:20:58,120 support and 120% ntsc color space 288 00:20:55,280 --> 00:21:03,600 support and I think I've probably gushed about it in enough but guys this is a 289 00:21:00,720 --> 00:21:07,640 fantastic choice if you're looking for a great monitor for color work and you 290 00:21:05,880 --> 00:21:11,360 don't necessarily want to spend several thousand dollars on it choosing a case 291 00:21:09,960 --> 00:21:16,840 for this was actually a bit of a challenge because what's a professional 292 00:21:14,919 --> 00:21:20,840 case I mean you don't want to go and spend $300 on a case for a video editing 293 00:21:19,520 --> 00:21:24,919 rig unless there's some kind of a compelling reason like you need support 294 00:21:22,600 --> 00:21:27,880 for 12 hard drives or something like that you want something that's 295 00:21:26,279 --> 00:21:31,799 reasonably portable if you ever had to move it around or you know take it 296 00:21:29,840 --> 00:21:35,000 somewhere else in order to work on it I mean we do that from time to time when 297 00:21:33,080 --> 00:21:39,480 we go to shows for example you don't want it to be like you know covered in 298 00:21:37,080 --> 00:21:43,039 like flames and plastic or all that unless you you don't mind people seeing 299 00:21:41,520 --> 00:21:49,440 that when they come into your office for a meeting or whatever else um so we 300 00:21:46,600 --> 00:21:55,240 ended up with the Silverstone tj4 e it's clean looking metal construction it has 301 00:21:52,320 --> 00:21:59,679 great features it's around $150 which is reasonable although it's certainly not 302 00:21:57,440 --> 00:22:04,120 inexpensive and it's easy to build in I like this 303 00:22:02,480 --> 00:22:07,480 case I've been using it for years actually back to the old tj4 model I 304 00:22:06,159 --> 00:22:11,600 don't think Silverstone gets enough attention for how high quality their 305 00:22:10,000 --> 00:22:15,440 products are and how reasonably priced they are especially can when you 306 00:22:13,200 --> 00:22:19,000 consider how much better built they are than some of the other really really 307 00:22:17,279 --> 00:22:22,159 popular options that are out there now if I didn't want to spend 150 bucks and 308 00:22:20,799 --> 00:22:28,360 I didn't mind stepping down to something that has a little bit more of a plastic construction the fractal designed Define 309 00:22:25,760 --> 00:22:31,480 R4 is a great option one of the reasons we didn't go with the Define R4 for this 310 00:22:30,080 --> 00:22:35,279 build guide is that we've already done a build guide in the Define R4 so I didn't 311 00:22:33,559 --> 00:22:40,279 really see much of a value to doing another build guide in the Define R4 the 312 00:22:37,679 --> 00:22:45,760 first step as always is to prepare yourself at an anti-static workstation 313 00:22:43,159 --> 00:22:50,840 not working on a carpet preferably using an antistatic strap whether it's on your 314 00:22:48,200 --> 00:22:55,279 wrist or like I prefer to wear it on my ankle you're also going to need a 315 00:22:53,520 --> 00:22:59,760 Phillips head screwdriver which should be pretty much all we need in terms of 316 00:22:57,240 --> 00:23:05,360 tools for this particular I build I always start with building the system 317 00:23:02,200 --> 00:23:07,240 outside of the box as much as possible 318 00:23:05,360 --> 00:23:11,320 and by box I of course being the case not the box but I'm not going to kill 319 00:23:08,760 --> 00:23:16,559 the shot just for that so I've got the motherboard the CPU the CPU Cooler on 320 00:23:15,000 --> 00:23:20,600 previous build guides when we've used liquid cooling installing the CPU Cooler 321 00:23:18,840 --> 00:23:24,559 prior to putting the board into the case has not been an option but this time 322 00:23:21,919 --> 00:23:29,480 we're going to do that and if UPS would hurry up and bring the RAM to us I would 323 00:23:26,679 --> 00:23:34,240 have the RAM here as well Intel uses simple eco-friendly packaging for their 324 00:23:31,279 --> 00:23:38,000 2011 processors it does not come with a heat sink so it's a good thing we have 325 00:23:36,320 --> 00:23:42,720 an aftermarket heat sink to use they expect professional and Enthusiast users 326 00:23:40,720 --> 00:23:46,799 to have their own cooling solution we open up the plastic clamshell and find 327 00:23:44,960 --> 00:23:50,000 the little Golden Triangle on the corner of the CPU that's important so we're 328 00:23:48,559 --> 00:23:53,840 going to put it down on our motherboard oriented correctly relative to the 329 00:23:52,000 --> 00:23:59,400 little triangle on the corner of the socket itself then with LGA 2011 there 330 00:23:56,840 --> 00:24:04,200 are two retention arms first we lift the one with the hook at the end then we 331 00:24:02,000 --> 00:24:09,320 lift the one with the kink in the middle and the straight end once that's done we 332 00:24:06,559 --> 00:24:13,400 can lift up the hold down plate position the CPU carefully in the socket without 333 00:24:11,520 --> 00:24:18,520 putting any force on it while we're putting it down if you bend those pins 334 00:24:15,520 --> 00:24:20,520 you will likely be so guys because no 335 00:24:18,520 --> 00:24:25,000 motherboard manufacturer will warranty physical damage and they're extremely 336 00:24:22,360 --> 00:24:30,000 difficult to repair now we lower the hold down 337 00:24:26,440 --> 00:24:32,600 plate lower the k ARM and lower the 338 00:24:30,000 --> 00:24:36,679 hooked ARM then pull off the plastic plate and the CPU is installed if you 339 00:24:34,919 --> 00:24:40,880 follow Noz instructions carefully mounting the nhu1 14s isn't going to be 340 00:24:39,000 --> 00:24:45,440 too complicated you'll need all the hardware from inside the Intel mounting 341 00:24:43,520 --> 00:24:49,360 hardware box other than the back plate for LGA 2011 that's not needed and then 342 00:24:47,799 --> 00:24:53,480 you'll need some stuff from the accessories box so it does come with a 343 00:24:51,559 --> 00:24:57,799 screwdriver which is pretty handy you'll also need the extra fan Clips the extra 344 00:24:55,520 --> 00:25:01,039 fan grommets as well as the thermal compound the the only thing we're not 345 00:24:59,080 --> 00:25:05,600 going to use from inside here is the case badge which is totally optional and 346 00:25:03,679 --> 00:25:10,200 the low noise adapter because this motherboard includes excellent software 347 00:25:07,679 --> 00:25:13,799 fan control now that we've got everything together it's pretty 348 00:25:11,559 --> 00:25:17,960 straightforward get the four little pieces with threads on either side and 349 00:25:15,799 --> 00:25:24,200 the thicker thread goes into the four holes around the LGA 2011 socket next up 350 00:25:21,559 --> 00:25:28,320 take the two mounting bars and position them on either side just like this 351 00:25:26,399 --> 00:25:31,799 you've got four more nuts that then go go over top I recommend using a 352 00:25:30,000 --> 00:25:36,320 screwdriver to tighten these ones into place because this is what's giving you 353 00:25:33,720 --> 00:25:41,320 the security and firmness for that large heat sink next up is applying thermal 354 00:25:38,840 --> 00:25:45,880 compound I recommend the line method on LGA 2011 processors use a little bit 355 00:25:43,880 --> 00:25:50,559 more than you'd use on a smaller LGA 1150 processor now you have to pull the 356 00:25:48,720 --> 00:25:55,720 original fan which comes pre-mounted to your heat sink off because otherwise you 357 00:25:53,080 --> 00:26:01,039 won't actually be able to mount it then position it centered on top of the CP 358 00:25:58,440 --> 00:26:06,559 you so that both of the pre-installed tensioned screws are positioned over top 359 00:26:04,440 --> 00:26:13,480 of the threads that are on that mounting plate now alternating sides make sure 360 00:26:10,320 --> 00:26:15,919 first that the threads catch then switch 361 00:26:13,480 --> 00:26:21,320 back and forth until they stop and you can't screw them in any further put the 362 00:26:18,960 --> 00:26:26,559 original fan back on then for your secondary fan which is totally optional 363 00:26:24,120 --> 00:26:29,720 and is only if you buy an additional fan what you're going to want to do is take 364 00:26:27,880 --> 00:26:35,000 the thick ER spacers that are included in the box with your heat sink swap off 365 00:26:32,080 --> 00:26:39,039 the four spacers that are on the side where okay that are on the side that is 366 00:26:36,960 --> 00:26:43,200 pulling air into the fan so you can tell from the label of the fan guys so here 367 00:26:41,399 --> 00:26:47,799 you go the label should be facing away from the CPU heat sink on that other 368 00:26:44,919 --> 00:26:51,240 side then swap on the thicker spacers that are included it's a little bit 369 00:26:49,679 --> 00:26:55,200 tricky you got to kind of pull the little Nubs through the corners but this 370 00:26:53,480 --> 00:26:59,600 will generate a little bit less turbulence when the air is passing first 371 00:26:57,799 --> 00:27:04,159 from the push fan through the heat sink and then is being drawn away by the pull 372 00:27:02,279 --> 00:27:07,960 positioned fan when you're done it should look a little something like this 373 00:27:05,880 --> 00:27:12,480 nice massive heat sink lots of cooling fans plenty of space for 64 gigs of RAM 374 00:27:11,120 --> 00:27:18,440 now something you might have noticed about this board is in order to achieve 375 00:27:14,559 --> 00:27:20,279 its massive seven PCI Express slots 376 00:27:18,440 --> 00:27:25,399 there wasn't a lot of clearance between the RAM slots and the PCI E slot so Aus 377 00:27:23,679 --> 00:27:29,840 has done the only natural thing which is to remove the movable clips from one 378 00:27:28,240 --> 00:27:34,120 side so you can see here on the one side we have clips that snap forwards and 379 00:27:32,200 --> 00:27:37,720 back and on the other side we have no clips due to the fact that there's no 380 00:27:35,600 --> 00:27:41,919 clearance there so this makes installing RAM a little bit different in this board 381 00:27:39,520 --> 00:27:46,640 from most also if you were installing only four modules please note that you 382 00:27:44,120 --> 00:27:50,279 would install them in the blue slots because we're installing eight modules 383 00:27:48,240 --> 00:27:54,440 we're just going to go to town fill them up on one side fill them up on the other 384 00:27:52,760 --> 00:27:59,039 side now you might have noticed that on the side where we put in the additional 385 00:27:55,880 --> 00:28:01,399 spacer on the fan that is a very tight 386 00:27:59,039 --> 00:28:04,480 fit for that first memory module so it's up to you whether you want to opt for 387 00:28:03,000 --> 00:28:07,919 the slightly less turbulence and slightly lower noise operation or if you 388 00:28:06,519 --> 00:28:12,640 want to opt for having a little bit more clearance for your 389 00:28:09,960 --> 00:28:16,399 memory so the first thing is to open up the case by removing the two thumb 390 00:28:16,559 --> 00:28:24,200 screws then getting the insides basically prepared so we're going to 391 00:28:20,919 --> 00:28:26,000 remove that SSD mounting bracket that's 392 00:28:24,200 --> 00:28:29,480 down here in the bottom of the case we're also going to put our power supply 393 00:28:27,760 --> 00:28:33,919 right in so if you look at these These are the types of screws that we use for 394 00:28:31,320 --> 00:28:37,600 power supply mounting for screws there's a bit of a decision to be made when 395 00:28:35,559 --> 00:28:42,960 you're deciding whether to have your fan mounted up or down for your power supply 396 00:28:40,519 --> 00:28:46,519 fan up has the benefit of pulling air away from your graphics cards and 397 00:28:44,440 --> 00:28:51,640 helping cool your graphics cards but the drawback of drawing hot air into your 398 00:28:49,440 --> 00:28:56,200 power supply making your power supplies cooling less efficient so we opted 399 00:28:53,919 --> 00:29:00,360 instead to go for drawing air in through the bottom of the case this case can 400 00:28:58,080 --> 00:29:04,720 conveniently has an air filter down here that you can easily remove and clean 401 00:29:02,159 --> 00:29:08,200 whenever you need to this isolates the heat from your graphics cards away from 402 00:29:06,519 --> 00:29:12,919 your power supply and will make it run cooler in the long term when installing 403 00:29:10,919 --> 00:29:16,320 the io shield into the case do a quick sanity check and make sure you're 404 00:29:14,240 --> 00:29:19,440 putting it in right side up just align the io shield with the back of the 405 00:29:17,679 --> 00:29:25,039 motherboard make sure all the ports stick through then align it with the 406 00:29:21,519 --> 00:29:27,559 back of the case and press firmly on all 407 00:29:25,039 --> 00:29:31,440 four corners this might require some pressure in order to get it to work 408 00:29:29,039 --> 00:29:36,080 properly and it's not incorrectly until it snaps into place and you can put some 409 00:29:33,799 --> 00:29:39,679 pressure on it from behind without it falling back inside the case now to 410 00:29:38,240 --> 00:29:44,200 continue preparing the case we're going to replace those stock fans and fill her 411 00:29:42,320 --> 00:29:48,840 all up with better fans for awesome cooling so Silverstone includes okay 412 00:29:46,840 --> 00:29:53,000 fans with their cases but that's exactly what they are they're okay in the back 413 00:29:51,360 --> 00:29:57,399 we're going to take that okay fan we're going to take out all four screws and 414 00:29:54,440 --> 00:30:02,679 replace it with an NF F12 now we don't have to use use the same stock screws to 415 00:30:00,559 --> 00:30:06,760 install that n12 back there because premium fans also come with some premium 416 00:30:04,559 --> 00:30:12,640 mounting options so instead we're going to use these little rubber isolators to 417 00:30:10,240 --> 00:30:18,880 have what is what is a very vibration resistant Mount so the way that it's 418 00:30:14,840 --> 00:30:21,240 done is you position the fan then push 419 00:30:18,880 --> 00:30:24,440 the little rubber spacers through as much as you can you won't be able to 420 00:30:22,760 --> 00:30:28,480 completely Mount them this way then if you have room for your fingers you can 421 00:30:26,320 --> 00:30:32,519 pull them through to the point where the fan now is locked into place and if you 422 00:30:31,120 --> 00:30:36,960 don't have room for your fingers then you can make your life a lot easier by 423 00:30:34,559 --> 00:30:42,200 using a pair of needle nose pliers once you're done with that check it out very 424 00:30:39,640 --> 00:30:47,559 little vibration if any can be passed now from the fan with its spinning 425 00:30:43,799 --> 00:30:49,799 blades to the case on the top there's a 426 00:30:47,559 --> 00:30:55,240 top piece that actually acts as both an aesthetic cover for our fans and as an 427 00:30:53,320 --> 00:30:58,840 easily removable and cleanable fan filter we have a bit of a unique 428 00:30:57,159 --> 00:31:06,679 configuration for the top of this case it accepts 1 140 mm fan and 1 120 mm fan 429 00:31:04,240 --> 00:31:12,159 in the top there is not enough room for us to use those rubber spacers unless we 430 00:31:09,240 --> 00:31:16,480 were really determined so in this case we just went for the old hard mount with 431 00:31:14,279 --> 00:31:20,880 screws it should be noted that again premium fan features these fans have 432 00:31:18,799 --> 00:31:24,840 little rubber isolators built into them as well so they're still not making 433 00:31:22,840 --> 00:31:29,840 direct plastic to metal contact with the case which will reduce vibration we want 434 00:31:27,720 --> 00:31:34,880 to pay special attention when installing all case fans to the position of the 435 00:31:32,799 --> 00:31:38,960 cables that are coming out of them with respect to where we expect them to plug 436 00:31:37,120 --> 00:31:42,600 into the motherboard or any other kind of power solution that we have planned 437 00:31:41,080 --> 00:31:45,880 in this case because we're one motherboard fan header short on this 438 00:31:44,399 --> 00:31:49,600 board for the number of fans we're going to have in the system I'm going to be 439 00:31:47,440 --> 00:31:53,760 using a splitter off of this top connector right here into these two top 440 00:31:52,000 --> 00:31:58,120 fans so I want them positioned near the back so I can route them cleanly up 441 00:31:56,200 --> 00:32:01,960 there without any additional wire clutter the last fans that we're going 442 00:32:00,159 --> 00:32:07,000 to swap out are going to require us to take off the other side panel and there 443 00:32:04,639 --> 00:32:12,880 we go two more nf12 these are going to be used to directly cool our hard drive 444 00:32:10,080 --> 00:32:16,720 RAID 10 array now I want to take a moment here okay so yeah we use slightly 445 00:32:14,679 --> 00:32:19,639 different Hardware here it includes more of it but just to save time because 446 00:32:18,360 --> 00:32:24,679 we're just doing a build guide here this isn't a permanent build I'm just doing 447 00:32:21,440 --> 00:32:26,639 two screws per fan and at diagonals okay 448 00:32:24,679 --> 00:32:31,000 so maintain the cable management that's there and I want to take a moment to 449 00:32:27,960 --> 00:32:34,080 talk about why I love N1 12s and other 450 00:32:31,000 --> 00:32:35,360 pressure optimized fans um manufacturers 451 00:32:34,080 --> 00:32:38,919 will often make the argument you should use an air flow optimized fan for 452 00:32:37,080 --> 00:32:43,440 something like a case intake or rear exhaust or whatever else the negligible 453 00:32:41,760 --> 00:32:48,159 performance Improvement that you get with an air flow optimized fan versus a 454 00:32:45,480 --> 00:32:52,039 pressure optimized fan I feel is offset by the versatility of pressure optimized 455 00:32:50,600 --> 00:32:55,559 fans because you can do all the planning in the world and if you go and buy an 456 00:32:53,799 --> 00:32:59,279 airflow optimized fan that's going to end up being a case intake that sits 457 00:32:57,279 --> 00:33:04,320 next to hard drives pulls air through a honeycomb mesh and pulls air through a 458 00:33:01,960 --> 00:33:08,399 fine mesh fan filter I would make the argument that's more of a static 459 00:33:06,279 --> 00:33:12,679 pressure optimized application anyway and you run into that a whole lot so I 460 00:33:10,039 --> 00:33:17,840 love the versatility of pressure optimized fans I find them more useful 461 00:33:15,480 --> 00:33:22,080 in a wider variety of scenarios every manufacturer takes a 462 00:33:20,200 --> 00:33:27,120 slightly different approach to which motherboard standoffs come pre-installed 463 00:33:24,360 --> 00:33:31,679 Silverstone has opted for the skinny but fulllength ATX configuration so that is 464 00:33:30,080 --> 00:33:35,600 six screws two at the top two in the middle and two at the bottom in order to 465 00:33:33,480 --> 00:33:41,240 put a standard ATX motherboard or in this case a slightly eatx motherboard so 466 00:33:39,320 --> 00:33:45,840 it uses standard holes but it is a little bit wider we're going to need 467 00:33:42,919 --> 00:33:48,960 three more screws or standoffs rather so standoffs look a little something like 468 00:33:47,519 --> 00:33:52,360 this and they screw into the back of the motherboard tray you're going to also 469 00:33:50,600 --> 00:33:56,600 find another piece that has a Phillips head on one side and then a socket on 470 00:33:54,519 --> 00:33:59,799 the other side you can use that piece to screw your standoffs into the 471 00:33:58,279 --> 00:34:03,960 motherboard tray so we're going to install three more one in line with the 472 00:34:01,960 --> 00:34:08,200 two bottom ones one in line with the two middle ones and one in line with the two 473 00:34:06,000 --> 00:34:12,119 top ones so we end up with a total of nine here here here here here here here 474 00:34:10,839 --> 00:34:16,639 here and here now positioning the motherboard 475 00:34:14,560 --> 00:34:21,000 it's important to be extremely careful the last thing you want to do is scratch 476 00:34:18,960 --> 00:34:24,879 the back of your board on those fancy new standoffs that you just put into the 477 00:34:22,679 --> 00:34:29,240 motherboard tray so what I recommend is going in at a bit of an angle and 478 00:34:26,679 --> 00:34:34,200 positioning the rear IO so that it sticks through the back of your IO 479 00:34:30,760 --> 00:34:36,800 Shield back here before you actually lay 480 00:34:34,200 --> 00:34:43,159 the mother board down flat on the standoffs now holding the motherboard in 481 00:34:39,839 --> 00:34:44,960 place put in at least one screw in this 482 00:34:43,159 --> 00:34:48,720 case we're using the same coarsely threaded screws that we used for the 483 00:34:46,599 --> 00:34:53,280 power supply although this varies from manufacturer to manufacturer and even 484 00:34:50,679 --> 00:34:57,000 from case to case so always do a test fit before you start installing screws 485 00:34:55,440 --> 00:35:03,920 into your standoffs or you might cross thread something then proceed to tighten in the other 486 00:35:00,760 --> 00:35:05,800 eight screws now once you've done that 487 00:35:03,920 --> 00:35:10,440 it's easier to install your motherboard connectors before we move on so we're 488 00:35:08,079 --> 00:35:16,160 going to start with the front panel connectors for the power reset and as as 489 00:35:13,400 --> 00:35:20,119 well as our LEDs so first up is power and reset for these ones the orientation 490 00:35:18,560 --> 00:35:24,680 doesn't matter so just follow the clearly labeled connectors and clearly 491 00:35:22,240 --> 00:35:27,200 labeled pins on the motherboard itself if you have a little bit of trouble 492 00:35:25,720 --> 00:35:30,960 reading those grab out the old magnifying glass or better yet just 493 00:35:29,480 --> 00:35:35,520 consult the manual because it'll tell you exactly where they are next up are 494 00:35:33,240 --> 00:35:40,960 your power LED and your hard drive activity LED for these ones the 495 00:35:38,480 --> 00:35:45,560 orientation of the cables does matter you want the colored wires towards the 496 00:35:43,400 --> 00:35:50,079 back of the motherboard or where the io and the PCI Express slots are on all 497 00:35:47,839 --> 00:35:53,599 ASUS motherboards that way you're going to have your positive and negative wires 498 00:35:51,680 --> 00:35:57,480 in the right place if you do get them wrong don't stress out about it it's not 499 00:35:55,599 --> 00:36:00,920 going to break anything just switch them around around when you realize that the 500 00:35:58,880 --> 00:36:06,040 light isn't working next up we've got our front USB 3 for this one be really 501 00:36:03,920 --> 00:36:10,880 careful to install it in the correct orientation there is a key on the USB 502 00:36:09,040 --> 00:36:14,960 connector itself as well as on the socket so you shouldn't be able to 503 00:36:12,440 --> 00:36:19,599 install it incorrectly but if you did you would likely Bend all those very 504 00:36:16,599 --> 00:36:21,680 fragile pins the usb3 connector is very 505 00:36:19,599 --> 00:36:26,880 large but the pins themselves are quite small and delicate finally we have our 506 00:36:24,319 --> 00:36:31,800 front HD audio this has been simplified so much since 10 years ago and now all 507 00:36:29,200 --> 00:36:35,200 you got to do is figure out which block doesn't have a pin in it align that with 508 00:36:33,920 --> 00:36:40,599 the one on the motherboard that doesn't have a pin in it and plug the whole 509 00:36:37,359 --> 00:36:42,200 thing in finally fans we actually have 510 00:36:40,599 --> 00:36:46,280 an opportunity here to show you a multitude of different ways that you 511 00:36:43,800 --> 00:36:50,599 might install fans our rear fan we have a little bit of extra slack on that wire 512 00:36:48,200 --> 00:36:55,960 so we're going to do my signature Knot Before we plug it into the motherboard 513 00:36:53,160 --> 00:37:00,599 fan header next up we've got our top fans I needed to use a splitter for 514 00:36:58,160 --> 00:37:04,440 these because I don't have enough stand or enough headers on the motherboard in 515 00:37:02,359 --> 00:37:08,240 order to install all of my fans so the splitter plugs directly into the 516 00:37:06,440 --> 00:37:11,680 motherboard this came with my fans another benefit of buying premium 517 00:37:09,680 --> 00:37:15,800 quality fans then runs around to the back of the motherboard tray where 518 00:37:13,800 --> 00:37:20,200 because I was thinking Cable Management as I was building my motherboard fan 519 00:37:18,119 --> 00:37:24,760 cables are already running so I can plug those in tuck them away and I'm good to 520 00:37:22,359 --> 00:37:30,040 go which leaves us finally with the front fans these ones are both different 521 00:37:27,839 --> 00:37:34,280 so one of them is perfect it's a perfect run to one of the remaining plugs on the 522 00:37:32,200 --> 00:37:39,800 motherboard that's the top one the second one the bottom one actually has a 523 00:37:36,480 --> 00:37:41,839 cable that's too short Noctua includes 524 00:37:39,800 --> 00:37:46,400 very short cables built onto their fans to allow for shorter cleater cable runs 525 00:37:44,480 --> 00:37:50,440 without having a lot of extra wires to tuck away so what they also include is 526 00:37:48,760 --> 00:37:54,880 extension cables so I'm going to use one of those extensions in order to make 527 00:37:52,440 --> 00:38:00,040 this wire long enough to reach my final fan header which is down in the bottom 528 00:37:57,800 --> 00:38:05,160 of the chassis next up we're going to install our SSD and our hard drivve so 529 00:38:02,960 --> 00:38:10,839 in order to do any drives we're going to have to take out that entire hard drive 530 00:38:07,720 --> 00:38:12,960 cage assembly so four screws two up at 531 00:38:10,839 --> 00:38:17,640 the top and then two up at the bottom this handle comes out and then you can 532 00:38:15,520 --> 00:38:22,240 pull the whole assembly out of the case now this is a very strange hard drive 533 00:38:20,280 --> 00:38:27,720 mounting system I've never seen anything quite like it before but it's also very 534 00:38:25,079 --> 00:38:32,319 versatile so first things the first things first we're going to install our 535 00:38:29,200 --> 00:38:34,640 SSD in the very very bottom here we got 536 00:38:32,319 --> 00:38:38,760 to use screws that are counter sunk screws so that is to say they don't have 537 00:38:36,480 --> 00:38:42,000 a head sticking up above them so we're going to use anywhere from two to four 538 00:38:40,599 --> 00:38:46,640 of those depending what you prefer it's an SSD so it's you know not going to be 539 00:38:44,640 --> 00:38:49,680 moving or anything so I usually use just two screws on them so we're going to go 540 00:38:48,240 --> 00:38:52,960 ahead and mount that down in the bottom where it's nice and hidden then we're 541 00:38:51,480 --> 00:38:57,480 going to have a look at this hard drive cage it can accept up to eight drives if 542 00:38:56,040 --> 00:39:02,640 you're willing to stack them right up next to each other but the way we're going to install them is we're going to 543 00:39:00,240 --> 00:39:06,720 do four WD black drives and we're going to stagger them out so we're going to 544 00:39:04,880 --> 00:39:11,040 leave spaces in between them for more air flow in between the drives however 545 00:39:09,119 --> 00:39:14,880 how necessary this is I don't know so we're going to install one screw into 546 00:39:12,760 --> 00:39:19,640 each of them on this side then flip the whole cage over and install two more 547 00:39:17,240 --> 00:39:23,800 screws on the other side but wait we're not done yet this is a very unique 548 00:39:21,880 --> 00:39:27,680 feature of this case that's the kind of thing that I would expect to see as like 549 00:39:25,480 --> 00:39:32,079 a weird aftermarket option for most cases but Silverstone instead includes 550 00:39:30,280 --> 00:39:36,839 what's probably a couple bucks worth of aluminum in heat sinks for your hard 551 00:39:34,400 --> 00:39:40,640 drives so you can actually Mount these directly to up to eight drives on the 552 00:39:38,880 --> 00:39:45,560 other side they're going to be taking air flow directly from those nf12 that 553 00:39:44,000 --> 00:39:49,240 are coming in on the side keeping your hard drives much cooler than they'd be 554 00:39:47,359 --> 00:39:53,400 able to be if you didn't have heat sinks on them if you wanted to go crazy you 555 00:39:51,000 --> 00:39:56,480 could get some thermal pads and install those in there or even some thermal 556 00:39:55,119 --> 00:40:01,079 paste if you think you've got a nice tight Mount although you have to check and make sure it's actually mounted 557 00:39:59,119 --> 00:40:05,040 right up against there but this is a very unique way to keep your hard drives 558 00:40:03,119 --> 00:40:08,319 cool and very unexpected to see as a stock option on a case so we can go 559 00:40:06,800 --> 00:40:12,000 ahead and put a couple more screws into each drive with the heat sinks there 560 00:40:10,599 --> 00:40:16,319 then put the whole assembly together it's quite heavy now and slide it back 561 00:40:14,160 --> 00:40:21,040 into the case this is where Silverstone shows yet another great Innovation and 562 00:40:18,599 --> 00:40:25,800 that is with these SATA cable Splitters so you can see we're able to wire things 563 00:40:22,800 --> 00:40:28,400 up quite cleanly now we weren't quite 564 00:40:25,800 --> 00:40:32,440 able to reach that 2 and2 in SSD down in the bottom however if this was my own 565 00:40:30,359 --> 00:40:37,000 rig I would either stretch it and see if I could just barely get there or what 566 00:40:34,319 --> 00:40:39,839 I'd do is I'd move that SSD take the screws out of it mount it with 567 00:40:38,240 --> 00:40:44,440 double-sided tape to get it a little bit closer and then I'd be able to use those 568 00:40:42,079 --> 00:40:48,680 SATA splitters for all of my drives and I'd only need two SATA connectors to 569 00:40:46,240 --> 00:40:53,079 power all the drives in my case very very nice thinking now I've been using a 570 00:40:51,160 --> 00:40:56,079 new technique lately where instead of pre-attached 571 00:40:57,400 --> 00:41:03,680 modular power supply and then running them to where they need to go I've been 572 00:41:10,440 --> 00:41:17,119 pre-attached I'd never built in this case before but check this out behind 573 00:41:14,560 --> 00:41:21,079 the power supply there is a whack ton of space where you could put all the cables 574 00:41:19,280 --> 00:41:25,560 you need to that you're not using from a nonmodular power supply Silverstone has 575 00:41:23,680 --> 00:41:28,760 then put the power supply right up against the side panel which doesn't 576 00:41:27,359 --> 00:41:32,760 matter cuz it's not like it needs any extra space on this side very unique 577 00:41:30,720 --> 00:41:35,839 approach I really like this anyway we started with the 24 pin plugging that 578 00:41:34,440 --> 00:41:40,040 into the motherboard and then running it behind the motherboard tray next up is 579 00:41:37,880 --> 00:41:44,000 the eight pin for the CPU up at the top left this is a No Frills no gimmicks 580 00:41:42,400 --> 00:41:47,440 professional grade board so there's only one eight pin because the reality of it 581 00:41:45,800 --> 00:41:50,880 is guys you only need one eight pin unless you're going like crazy Wicked 582 00:41:49,599 --> 00:41:55,839 liquid nitrogen which you're not doing with a board like this now in order to 583 00:41:53,760 --> 00:41:58,760 Cable Management those cables we're going to want to install the rest of the 584 00:41:57,240 --> 00:42:02,319 the power supply cabl so we'll need to install our graphics cards first the 585 00:42:00,760 --> 00:42:06,359 first stage in installing a graphics card in this case is to remove this 586 00:42:04,760 --> 00:42:10,880 little cover back here that gives you access to all the screws that allow you 587 00:42:08,640 --> 00:42:13,880 to remove the PCI slot covers which have extra ventilation in them very nice 588 00:42:12,359 --> 00:42:17,680 silver Stone so we're going to go ahead take those two screws off and remove 589 00:42:15,400 --> 00:42:21,559 that now it is time to consult the manual because regardless of how 590 00:42:19,680 --> 00:42:24,319 experienced you are technically and regardless of how much you wish you 591 00:42:22,920 --> 00:42:29,839 could do things without the manual this one's important so the PCI Express slots 592 00:42:26,760 --> 00:42:31,319 on this board they're all 16x physical 593 00:42:29,839 --> 00:42:34,319 okay but that doesn't mean that you just take any card and install it into any 594 00:42:33,000 --> 00:42:38,000 slot and you're going to get Optimal Performance it doesn't necessarily work 595 00:42:36,559 --> 00:42:41,400 that way you want to check the manual where it will give you recommendations 596 00:42:39,880 --> 00:42:45,520 for how many cards you have installed and which ones you should use so that 597 00:42:43,319 --> 00:42:51,359 you can best take advantage of native PCI Express Lanes versus ones that are 598 00:42:48,240 --> 00:42:53,119 relying on a plx chip for example so in 599 00:42:51,359 --> 00:42:57,559 this case we wanted our cards installed in PCI Express slot one and five so 600 00:42:56,160 --> 00:43:01,720 we're going to go ahead and remove move those slot covers then we can install 601 00:42:59,839 --> 00:43:05,400 the quadro into the very top one we're going to be using this for our display 602 00:43:03,119 --> 00:43:09,520 out the reason for using the quadro here was that with the back plate on the GTX 603 00:43:07,240 --> 00:43:14,359 780 it was too tight of a fit with this cooler up here even the quadro was very 604 00:43:12,440 --> 00:43:18,559 very tight and normally I would recommend using even something like a 605 00:43:16,400 --> 00:43:22,960 non any kind of non-conductive very thin material in between this heat sink and 606 00:43:20,920 --> 00:43:26,800 this graphics card but in this case there's a a chip on the back that is 607 00:43:24,800 --> 00:43:29,960 non-conductive that is causing it to not short out but anyway I would still 608 00:43:28,240 --> 00:43:35,160 recommend slipping something in there to make sure it doesn't short out cu they're very very close to these fan 609 00:43:33,079 --> 00:43:40,720 Clips in particular right here so we installed the quadro then next up is the 610 00:43:37,520 --> 00:43:42,559 GTX 780 so once that's done we go ahead 611 00:43:40,720 --> 00:43:47,200 and put the screws back into each of these cards so it's one screw for the 612 00:43:44,680 --> 00:43:52,720 quadro two screws for the 780 then we can go ahead and put that back cover 613 00:43:49,680 --> 00:43:55,559 back in place and now we are pretty much 614 00:43:52,720 --> 00:44:00,359 done with those so now we can do the same thing we did last time where we are 615 00:43:58,200 --> 00:44:05,319 installing our PCI Express cables backwards so this power supply the 616 00:44:02,440 --> 00:44:09,160 ax860i comes with harnesses that have two plugs and ones that have an 617 00:44:07,640 --> 00:44:12,760 individual plug so we're going to use an individual plug one for the quadro and 618 00:44:11,200 --> 00:44:17,839 then we're going to use a dual plug one for the GTX 780 so we only actually have 619 00:44:14,960 --> 00:44:23,240 to run two cables finally we're going to use a single four port SATA harness to 620 00:44:20,280 --> 00:44:26,640 plug in our 2 and 1/2 in SSD and then those two Splitters that we were using 621 00:44:24,720 --> 00:44:30,839 for power to our hard drives remember guys we now easily add additional hard 622 00:44:28,760 --> 00:44:35,839 drives without running any additional cables due to those Splitters we can 623 00:44:32,280 --> 00:44:37,960 fill this bad boy right up now that we 624 00:44:35,839 --> 00:44:42,440 have everything run I usually find it's easiest to take everything that isn't a 625 00:44:39,960 --> 00:44:45,680 power supply cable and tie all that down because they tend to be relatively low 626 00:44:44,079 --> 00:44:50,559 profile so we'll spend a little bit of time uh tucking things into nooks and 627 00:44:47,880 --> 00:44:54,520 crannies and tying cables down you don't necessarily have to have an anchor point 628 00:44:52,760 --> 00:44:58,400 in order to get a cable tied down satisfactorily you can just take a zip 629 00:44:56,200 --> 00:45:02,200 tie even and you know tie it to another cable that happens to be running 630 00:44:59,800 --> 00:45:05,839 somewhere useful or tie it to itself in such a way that you fold it so that it's 631 00:45:03,720 --> 00:45:09,200 not visible anymore but either way I find that it's uh you know worth the 632 00:45:07,920 --> 00:45:13,200 time to just kind of play around with those ones then get started on the power 633 00:45:11,160 --> 00:45:18,200 supply cables so now that everything's installed we can plug the power supply 634 00:45:15,559 --> 00:45:22,760 cables into the power supply so first the 24 pin then the eight pin and the 2 635 00:45:20,880 --> 00:45:27,079 PCI Express ones those all go into the same spots and finally the one lone 636 00:45:25,680 --> 00:45:32,599 peripheral harness that we ended up using this is one of the benefits of a modular power supply not having all 637 00:45:30,400 --> 00:45:36,599 those extra cables plugged in and finally we can take those power supply 638 00:45:34,520 --> 00:45:40,720 cables and now add them to our cable management system at the back making 639 00:45:38,599 --> 00:45:44,760 sure that we don't stack things up on each other so much that we're not going 640 00:45:42,680 --> 00:45:48,359 to be able to close the side panel there is lots of cable management room in this 641 00:45:46,760 --> 00:45:53,319 case but that doesn't mean that we should you know take it for granted 642 00:45:50,400 --> 00:45:56,520 necessarily either admittedly if I'd been thinking straight I would have done 643 00:45:54,640 --> 00:46:02,000 this earlier in the assembly process probably before I installed graphics 644 00:45:58,440 --> 00:46:04,000 cards but SATA data we have to install 645 00:46:02,000 --> 00:46:10,359 our SATA cables that actually deliver data to the drives so in this case this 646 00:46:08,440 --> 00:46:15,680 motherboard has some interesting options for how we can plug in the drives the 647 00:46:12,319 --> 00:46:17,440 SSD for sure we needed a straight SATA 648 00:46:15,680 --> 00:46:20,760 cable so unfortunately the board doesn't come with any of those so we had to go 649 00:46:18,839 --> 00:46:25,400 scr one but we plugged in a straight SATA cable and we're going to plug that 650 00:46:22,200 --> 00:46:27,440 into the Intel controller SATA 3 6 GB 651 00:46:25,400 --> 00:46:33,599 per second ports so that's the very top SATA 3 ports all right next we've got 652 00:46:30,800 --> 00:46:40,119 four Intel SATA 2 3 gbit per second ports or four Marvel SATA 3 6 gbit per 653 00:46:37,640 --> 00:46:44,920 second ports so we could plug these drives these WD black drives into either 654 00:46:42,680 --> 00:46:49,559 of them they both support the raid 10 that we're going for and it's just a 655 00:46:47,119 --> 00:46:54,079 matter of whether we feel like we need SATA 360 gbit per second or whether we 656 00:46:51,599 --> 00:46:58,240 want the compatibility of Intel RAID because if our board ever did die or for 657 00:46:56,559 --> 00:47:02,280 some reason we needed to grab all these drives and migrate the data off of them 658 00:47:00,680 --> 00:47:05,960 by putting them into another system if you use Intel RAID you'll get better 659 00:47:03,800 --> 00:47:10,520 compatibility however we might see slightly better performance particularly 660 00:47:08,040 --> 00:47:14,160 in burst operations using the Marvel controller so we opted for the Marvel 661 00:47:12,200 --> 00:47:18,440 controller but you might opt instead for the Intel one and that's uh that's 662 00:47:16,240 --> 00:47:22,040 definitely a good option as well in terms of cable management we weren't 663 00:47:20,280 --> 00:47:26,200 able to move them back around the back of the motherboard tray so we just ran 664 00:47:23,720 --> 00:47:30,200 them up the drives cable tied them off and then plugged them into into the 665 00:47:27,240 --> 00:47:35,520 ports where they belonged well there you have it guys we're done and the Mystery 666 00:47:32,960 --> 00:47:40,559 of whether or not we can put that six 2 and 1/2 in Drive cage back in when we're 667 00:47:37,640 --> 00:47:45,599 done is has been answered the answer is yes however I think you'd be hardpressed 668 00:47:42,960 --> 00:47:49,960 to uh cable manage six more drives into that spot on top of being able to have 669 00:47:47,960 --> 00:47:55,200 another eight drives here and you would definitely need to add some kind of SATA 670 00:47:52,760 --> 00:47:58,599 or SAS controller card to even be able to plug in all of those drives which 671 00:47:56,839 --> 00:48:04,559 which I mean it's very cool the amount of capability this case has when you 672 00:48:00,920 --> 00:48:06,880 consider its size so without further Ado 673 00:48:04,559 --> 00:48:09,839 I'm going to hand it off to Slick to walk you guys through some of the 674 00:48:08,440 --> 00:48:14,160 performance we were able to get out of the machine as well as sort of his 675 00:48:11,720 --> 00:48:17,280 impressions of the overall configuration all right so we're going 676 00:48:15,800 --> 00:48:22,520 to jump into the BIOS here and our mission is to change to XMP profiles and 677 00:48:20,359 --> 00:48:27,119 to change the boot drive so first thing we're going to go to is Advan mode and 678 00:48:25,119 --> 00:48:30,359 then jump into AI overclock to and change it to 679 00:48:28,200 --> 00:48:37,480 XMP once that's done we're going to jump over to the boot menu over here go down 680 00:48:33,559 --> 00:48:40,280 14 times which is ridiculous down to 681 00:48:37,480 --> 00:48:43,599 hard drive BBS priorities don't worry I know it's not a hard drive just jump in 682 00:48:41,680 --> 00:48:48,520 here change boot option one to your SSD ours is an Intel 683 00:48:46,040 --> 00:48:53,000 520 press F10 to save you can review your changes and then just press enter 684 00:48:50,359 --> 00:48:57,240 for yes and you're good to go so once we get into the controller we just jump 685 00:48:54,839 --> 00:49:01,119 directly into the configuration wizard and go down and select all of our drives 686 00:48:59,160 --> 00:49:04,160 by pressing space bar and down once you've done that press enter change to 687 00:49:02,920 --> 00:49:09,599 raid 10 which is just raid 1 and zero keep 688 00:49:07,079 --> 00:49:13,240 64k stripe size as it's a little bit faster and then name it something that 689 00:49:11,480 --> 00:49:17,280 probably isn't default and once you've done that just go next and you are done 690 00:49:15,160 --> 00:49:20,240 that's all it has to do just press y to confirm that you actually want to do 691 00:49:18,640 --> 00:49:25,520 this and you'll see right there under virtual diss that what you've named is 692 00:49:22,520 --> 00:49:27,599 now an actual raid so we wanted to talk 693 00:49:25,520 --> 00:49:31,280 about the PA 279 but instead of just talking about it and how ridiculously 694 00:49:29,720 --> 00:49:36,319 good it looks we wanted to show it off so this is a 10 bit image sample that 695 00:49:32,960 --> 00:49:38,400 we're showing on a 10bit p279 panel and 696 00:49:36,319 --> 00:49:42,400 an 8bit panel you can see on the 10-bit panel that it is extremely smooth and 697 00:49:40,520 --> 00:49:45,760 when when you move it over to the 8bit panel you can see vertical lines running 698 00:49:44,119 --> 00:49:49,760 through it so while we can talk about how good it looks this actually shows 699 00:49:47,720 --> 00:49:53,359 how good it looks so we want to show off the raw power of this system so what 700 00:49:51,319 --> 00:49:58,160 we're running is Da Vinci resolve using a source file that was filmed by Brandon 701 00:49:55,520 --> 00:50:02,240 and then heavily eded by edited by edzel we are currently rendering it using Cuda 702 00:50:00,880 --> 00:50:07,280 although with this system you can use CPU encoding Cuda accelerated encoding 703 00:50:04,440 --> 00:50:11,200 or even h264 encoders because of all the options that you have as you can see 704 00:50:09,160 --> 00:50:15,440 we're using both of our gpus the quadro is at fairly low usage and is actually 705 00:50:12,960 --> 00:50:20,920 just being used for guy for dentally resolve and the rest of the general 706 00:50:17,040 --> 00:50:22,280 Monitor and then GPU 2 G the GTX 780 is 707 00:50:20,920 --> 00:50:28,280 actually being used for its Cuda performance so it's actually pushing pretty hard along with the CPU you can 708 00:50:26,359 --> 00:50:32,440 see temps in here right now both the gpus are sitting right around 50° which 709 00:50:30,280 --> 00:50:37,040 is totally fine and the CPU is only going around 40 to 50° tops which is 710 00:50:35,240 --> 00:50:40,359 also totally fine and great for this system as you can see the CPU is 711 00:50:38,880 --> 00:50:45,680 actually running fairly hard bouncing between 60 and 70% so with all of that 712 00:50:43,720 --> 00:50:50,280 out of the way a big thanks to you guys for sitting through this entire video a 713 00:50:48,160 --> 00:50:54,559 huge thanks to Intel for making this video possible these are extremely 714 00:50:52,680 --> 00:50:58,200 timeconsuming for us to produce and with their sponsorship we are able to bring 715 00:50:56,359 --> 00:51:02,599 you guys Guys these fantastic build guides in the ultimate build Guide 716 00:50:59,799 --> 00:51:05,880 Series and as always guys like the video if you liked it dislike it if you 717 00:51:03,920 --> 00:51:20,040 disliked it and if you're not subscribed already don't forget to subscribe 718 00:51:28,760 --> 00:51:41,550 it's