throbber
10
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`0:00:13,219 ‐‐> 00:00:18,689
`hey guy thought we just give you a
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`20
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`0:00:15,959 ‐‐> 00:00:21,390
`little video tour of our prototype just
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`30
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`0:00:18,689 ‐‐> 00:00:23,430
`wanted to let you know this was built as
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`40
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`0:00:21,390 ‐‐> 00:00:26,579
`a prototype this isn't how we would 100%
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`50
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`0:00:23,430 ‐‐> 00:00:31,500
`build all once in the future this is in
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`60
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`0:00:26,579 ‐‐> 00:00:33,149
`a modified sea‐can it's 14 feet basic
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`70
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`0:00:31,500 ‐‐> 00:00:34,829
`concept is fans and filters so we're
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`80
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`0:00:33,149 ‐‐> 00:00:36,360
`just pulling air crews like you guys are
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`90
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`0:00:34,829 ‐‐> 00:00:39,600
`doing in your servers using the same
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`10
`00:00:36,360 ‐‐> 00:00:42,180
`concept for fresh air cooling these are
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`11
`00:00:39,600 ‐‐> 00:00:45,329
`just louvered fans there are 6,000 CFM
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`12
`00:00:42,180 ‐‐> 00:00:46,670
`each these louvers are gravity we're
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`13
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`1
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`CRUSOE-1008
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`

`

`trying to get it as cheap as possible
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`14
`00:00:46,670 ‐‐> 00:00:53,940
`we've used lures in the past that are
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`15
`00:00:49,100 ‐‐> 00:00:55,559
`that are motorized and controlled but if
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`16
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`all that adds costs that could be an
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`17
`00:00:55,559 ‐‐> 00:01:01,870
`option that we could add this units 14
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`18
`00:00:59,399 ‐‐> 00:01:04,119
`like I said
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`19
`00:01:01,870 ‐‐> 00:01:06,299
`there that's what we're going to be
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`20
`00:01:04,119 ‐‐> 00:01:08,650
`building it in is 20 feet in the future
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`21
`00:01:06,299 ‐‐> 00:01:12,040
`gives us a little bit more airspace in
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`22
`00:01:08,650 ‐‐> 00:01:14,950
`the front and the back wraps and this
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`23
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`side here is the intake air filter
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`24
`00:01:14,950 ‐‐> 00:01:20,290
`intake we went with very consumer level
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`25
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`filters because one they're easy to find
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`2
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`26
`00:01:20,290 ‐‐> 00:01:26,409
`and to the chief so anyone can go to
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`27
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`home hardware store and buy these
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`28
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`filters there's 25 inch square filters
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`29
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`then you can choose whatever filter
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`30
`00:01:30,940 ‐‐> 00:01:37,090
`level you want if you come in we built
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`31
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`we built this all at a plywood and
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`32
`00:01:37,090 ‐‐> 00:01:40,899
`that's probably what we would use it's
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`33
`00:01:38,860 ‐‐> 00:01:43,240
`the easiest amount things it's it's
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`34
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`cheap and it's fast and that's probably
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`35
`00:01:43,240 ‐‐> 00:01:47,590
`how we would do it in the future there'd
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`36
`00:01:45,520 ‐‐> 00:01:48,970
`be some more metal pieces inside but
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`37
`00:01:47,590 ‐‐> 00:01:53,200
`again like I said this is the prototype
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`38
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`3
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`three racks this has 17 spondoolie that
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`39
`00:01:53,200 ‐‐> 00:01:59,500
`we bought from you guys the SP 31 s
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`40
`00:01:56,520 ‐‐> 00:02:04,360
`right now this has a maximum capacity of
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`41
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`72 kW these are about 52 kW we might be
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`42
`00:02:04,360 ‐‐> 00:02:08,649
`able to get a few more in here once we
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`43
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`balance all the power requirements out
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`44
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`but we just didn't want to overdo that
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`45
`00:02:10,539 ‐‐> 00:02:16,660
`when we first started this units of 200
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`46
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`out system again like I said 72
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`47
`00:02:16,660 ‐‐> 00:02:22,090
`kilowatts we can do a 400 out as well
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`48
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`which is double that power and we think
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`49
`00:02:22,090 ‐‐> 00:02:29,560
`we can get 36 of your SP 35 s into that
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`50
`00:02:25,209 ‐‐> 00:02:31,450
`unit these are all spaced as you can see
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`4
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`51
`00:02:29,560 ‐‐> 00:02:35,260
`the whole concept is we're pulling air
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`52
`00:02:31,450 ‐‐> 00:02:37,510
`through as you know fairly rapidly we
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`53
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`need some space in between so we can
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`54
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`actually pull air through and across the
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`55
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`server's so it comes in the front of the
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`56
`00:02:41,470 ‐‐> 00:02:45,910
`servers and past the server so we can
`
`57
`00:02:43,060 ‐‐> 00:02:47,140
`pull air out the back and evacuate that
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`58
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`heat because it's building up fairly
`
`59
`00:02:47,140 ‐‐> 00:02:55,540
`quickly we've got in this unit we got
`
`60
`00:02:51,250 ‐‐> 00:02:57,340
`you know switch we've got just a
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`61
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`monitoring server here that does
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`62
`00:02:57,340 ‐‐> 00:03:01,910
`environmental and
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`63
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`5
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`

`of your systems we're going a very basic
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`64
`00:03:01,910 ‐‐> 00:03:08,330
`very basic switches in this switches and
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`65
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`BX again very chief the fans there's
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`66
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`three of them they'll each be on a
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`67
`00:03:09,590 ‐‐> 00:03:14,150
`single breaker and each one of them will
`
`68
`00:03:11,720 ‐‐> 00:03:18,170
`have a have a either on‐off switch or a
`
`69
`00:03:14,150 ‐‐> 00:03:22,970
`potentiometer to adjust speed again very
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`70
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`for the most basic model and a couple
`
`71
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`convenience plugs that's all we have
`
`72
`00:03:25,460 ‐‐> 00:03:28,670
`it's it's a very basic setup it works
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`73
`00:03:27,620 ‐‐> 00:03:31,550
`really well we've been running it now
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`74
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`for a while we managed to run it on two
`
`75
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`fans we've run it in warm temperature we
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`6
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`76
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`grind it fairly cold temperature we've
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`77
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`been down near zero and it runs quite a
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`78
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`bit better obviously when it's colder
`
`79
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`and as long as this units in ambient
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`80
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`temperature of 30 degrees or less we
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`81
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`should have no problem running any spawn
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`82
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`duties in this data center so we're on
`
`83
`00:03:51,440 ‐‐> 00:03:55,970
`the back side and the ha guy out here
`
`84
`00:03:53,500 ‐‐> 00:03:59,900
`talked a little bit about the electrical
`
`85
`00:03:55,970 ‐‐> 00:04:03,440
`we've got 60 amp PDUs which are the best
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`86
`00:03:59,900 ‐‐> 00:04:06,520
`size to use with these particular SP 31
`
`87
`00:04:03,440 ‐‐> 00:04:09,440
`s & SP 35 s we can get three servers per
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`88
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`7
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`

`per PDU there's a couple of options
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`89
`00:04:09,440 ‐‐> 00:04:14,750
`these are very cheap PDUs there's a
`
`90
`00:04:12,890 ‐‐> 00:04:17,630
`couple brands we can get for you know
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`91
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`under $300 they're just metered they're
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`92
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`not switched or managed so one of the
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`93
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`options is to put in a remote power
`
`94
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`cycle for each power bar so either you
`
`95
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`can buy it with that in which probably
`
`96
`00:04:29,270 ‐‐> 00:04:34,610
`brings the whole cost way too high or we
`
`97
`00:04:32,180 ‐‐> 00:04:35,980
`put a relay system in so remotely you
`
`98
`00:04:34,610 ‐‐> 00:04:37,750
`can come in and you
`
`99
`00:04:35,980 ‐‐> 00:04:39,940
`shut down each individual power bar so
`
`100
`00:04:37,750 ‐‐> 00:04:40,900
`if you have to reset power supplies at
`
`8
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`101
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`the most you're going to take three
`
`102
`00:04:40,900 ‐‐> 00:04:48,100
`servers down at a time so this one has
`
`103
`00:04:43,660 ‐‐> 00:04:51,100
`six six PDUs and you know we go up from
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`104
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`there with a 400 amp unit that has 36
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`105
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`servers we're gonna have to have more
`
`106
`00:04:52,300 ‐‐> 00:04:57,430
`PDUs and we have ones that are quite a
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`107
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`bit smaller than this as well so let's
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`108
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`go over some of the options the very
`
`109
`00:04:59,200 ‐‐> 00:05:03,100
`base unit we went through already now we
`
`110
`00:05:00,850 ‐‐> 00:05:05,860
`can add on options on top of the price
`
`111
`00:05:03,100 ‐‐> 00:05:08,260
`that we talked about some of the options
`
`112
`00:05:05,860 ‐‐> 00:05:09,430
`could include an amount of automatic
`
`113
`00:05:08,260 ‐‐> 00:05:11,260
`
`9
`
`

`

`transfer switch so if you have two
`
`114
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`different sources of power and you lose
`
`115
`00:05:11,260 ‐‐> 00:05:14,770
`one you can switch automatically to the
`
`116
`00:05:12,820 ‐‐> 00:05:16,260
`other source of power so you don't you
`
`117
`00:05:14,770 ‐‐> 00:05:18,310
`know you don't stay down very long
`
`118
`00:05:16,260 ‐‐> 00:05:23,130
`there's a lot of automation that we can
`
`119
`00:05:18,310 ‐‐> 00:05:25,930
`add in so what we can do is put in a PLC
`
`120
`00:05:23,130 ‐‐> 00:05:27,190
`this one doesn't have a PLC but we're
`
`121
`00:05:25,930 ‐‐> 00:05:29,860
`going to be putting that in and testing
`
`122
`00:05:27,190 ‐‐> 00:05:32,470
`it and what these are are variable speed
`
`123
`00:05:29,860 ‐‐> 00:05:34,570
`controllers for the fans so with the PLC
`
`124
`00:05:32,470 ‐‐> 00:05:38,200
`and the fan controllers we can control
`
`125
`00:05:34,570 ‐‐> 00:05:40,420
`and maximize the power that's consumed
`
`10
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`126
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`by the fans and keep all the
`
`127
`00:05:40,420 ‐‐> 00:05:45,370
`temperatures automatically in sync in
`
`128
`00:05:42,760 ‐‐> 00:05:46,900
`the unit without this with just switches
`
`129
`00:05:45,370 ‐‐> 00:05:49,630
`we just turn the fans on full‐blast and
`
`130
`00:05:46,900 ‐‐> 00:05:52,930
`it it runs less than optimal but it
`
`131
`00:05:49,630 ‐‐> 00:05:55,090
`still works fine with these with with
`
`132
`00:05:52,930 ‐‐> 00:05:56,680
`this here what what this is is a power
`
`133
`00:05:55,090 ‐‐> 00:05:59,140
`meter it's a remotely managed power
`
`134
`00:05:56,680 ‐‐> 00:06:02,230
`meter and it gives you the full power
`
`135
`00:05:59,140 ‐‐> 00:06:05,890
`usage kilowatt hours how much on every
`
`136
`00:06:02,230 ‐‐> 00:06:11,200
`phase how many volts how many amps and
`
`137
`00:06:05,890 ‐‐> 00:06:13,060
`it's all remotely monitor Balazs well we
`
`138
`00:06:11,200 ‐‐> 00:06:15,190
`
`11
`
`

`

`have a monitoring server in here as well
`
`139
`00:06:13,060 ‐‐> 00:06:18,670
`and the monitoring server would run our
`
`140
`00:06:15,190 ‐‐> 00:06:23,080
`DCIM software called QoS and that will
`
`141
`00:06:18,670 ‐‐> 00:06:25,710
`monitor everything PDUs servers routers
`
`142
`00:06:23,080 ‐‐> 00:06:28,060
`switches anything that can be monitored
`
`143
`00:06:25,710 ‐‐> 00:06:30,130
`funnels back into this monitoring
`
`144
`00:06:28,060 ‐‐> 00:06:32,230
`software one of the things we are
`
`145
`00:06:30,130 ‐‐> 00:06:33,790
`working on is getting your scripts
`
`146
`00:06:32,230 ‐‐> 00:06:36,490
`incorporated into that too so we can do
`
`147
`00:06:33,790 ‐‐> 00:06:38,890
`some remote group management to the
`
`148
`00:06:36,490 ‐‐> 00:06:41,080
`servers as well as seeing a rollup of
`
`149
`00:06:38,890 ‐‐> 00:06:45,360
`all the servers temperatures of Asics
`
`150
`00:06:41,080 ‐‐> 00:06:48,389
`temperatures front and back you know our
`
`12
`
`

`

`151
`00:06:45,360 ‐‐> 00:06:50,009
`the hash rates we can Rican Hickey lurtz
`
`152
`00:06:48,389 ‐‐> 00:06:51,900
`out then so as soon as your hash rate
`
`153
`00:06:50,009 ‐‐> 00:06:53,280
`goes below a threshold it'll kick you on
`
`154
`00:06:51,900 ‐‐> 00:06:55,110
`molar and you'll know that there's
`
`155
`00:06:53,280 ‐‐> 00:06:58,099
`something wrong with psu or something
`
`156
`00:06:55,110 ‐‐> 00:06:58,099
`wrong with the internet connection
`
`157
`00:06:59,840 ‐‐> 00:07:02,669
`another thing we can do is fire
`
`158
`00:07:01,710 ‐‐> 00:07:04,590
`suppression we don't have fire
`
`159
`00:07:02,669 ‐‐> 00:07:08,069
`suppression here but we do have a fire
`
`160
`00:07:04,590 ‐‐> 00:07:11,280
`alarm and smoke alarm we can do early
`
`161
`00:07:08,069 ‐‐> 00:07:14,460
`fire early smoke detection we can also
`
`162
`00:07:11,280 ‐‐> 00:07:16,469
`do Novak 12:30 which is gasps fire
`
`163
`00:07:14,460 ‐‐> 00:07:19,050
`
`13
`
`

`

`suppression we know that with all this
`
`164
`00:07:16,469 ‐‐> 00:07:22,680
`power it's hot and you know we've seen
`
`165
`00:07:19,050 ‐‐> 00:07:24,150
`fires in places in the industry so you
`
`166
`00:07:22,680 ‐‐> 00:07:26,580
`know that would probably be an option
`
`167
`00:07:24,150 ‐‐> 00:07:28,259
`people who want to choose security we
`
`168
`00:07:26,580 ‐‐> 00:07:30,360
`have internal cameras external cameras
`
`169
`00:07:28,259 ‐‐> 00:07:32,279
`again those all tie into the DCIM and
`
`170
`00:07:30,360 ‐‐> 00:07:35,580
`they can alert on motion that can alert
`
`171
`00:07:32,279 ‐‐> 00:07:38,189
`on on any of those things we can also
`
`172
`00:07:35,580 ‐‐> 00:07:39,840
`tie in to the plc the lighting system so
`
`173
`00:07:38,189 ‐‐> 00:07:42,360
`if you want to see with your camera
`
`174
`00:07:39,840 ‐‐> 00:07:44,909
`inside the unit remotely you can then
`
`175
`00:07:42,360 ‐‐> 00:07:47,189
`send a remote lights on command lights
`
`14
`
`

`

`176
`00:07:44,909 ‐‐> 00:07:49,949
`will come on you can see your servers a
`
`177
`00:07:47,189 ‐‐> 00:07:51,870
`lot better it's also security access
`
`178
`00:07:49,949 ‐‐> 00:07:54,509
`control so you can do card access on the
`
`179
`00:07:51,870 ‐‐> 00:07:56,190
`doors this all comes from our enterprise
`
`180
`00:07:54,509 ‐‐> 00:07:57,629
`data centers but these are options that
`
`181
`00:07:56,190 ‐‐> 00:08:00,779
`anyone can do if they're worried about
`
`182
`00:07:57,629 ‐‐> 00:08:03,779
`security as well we also have
`
`183
`00:08:00,779 ‐‐> 00:08:06,479
`environmental monitoring so this is this
`
`184
`00:08:03,779 ‐‐> 00:08:08,669
`is one of the units that we use and it's
`
`185
`00:08:06,479 ‐‐> 00:08:09,960
`it's really quite slick we have four
`
`186
`00:08:08,669 ‐‐> 00:08:12,210
`different temperature control
`
`187
`00:08:09,960 ‐‐> 00:08:14,219
`temperature sensors in here so we
`
`188
`00:08:12,210 ‐‐> 00:08:16,919
`
`15
`
`

`

`monitor temperatures in four different
`
`189
`00:08:14,219 ‐‐> 00:08:19,500
`locations outside the unit air coming in
`
`190
`00:08:16,919 ‐‐> 00:08:21,589
`air on the back air on the front and
`
`191
`00:08:19,500 ‐‐> 00:08:26,669
`then we also have a airflow control
`
`192
`00:08:21,589 ‐‐> 00:08:29,729
`dewpoint humidity sensor as well not
`
`193
`00:08:26,669 ‐‐> 00:08:33,740
`only that we do have a water detector if
`
`194
`00:08:29,729 ‐‐> 00:08:36,060
`we have a supplemental water cooling or
`
`195
`00:08:33,740 ‐‐> 00:08:37,289
`evaporative cooling we want to have the
`
`196
`00:08:36,060 ‐‐> 00:08:39,690
`water sensor in case something goes
`
`197
`00:08:37,289 ‐‐> 00:08:41,699
`wrong and the water starts coming in the
`
`198
`00:08:39,690 ‐‐> 00:08:44,699
`nice thing about this is we also have
`
`199
`00:08:41,699 ‐‐> 00:08:47,700
`relays so we can actually output two
`
`200
`00:08:44,699 ‐‐> 00:08:51,210
`relays and turn things on and off
`
`16
`
`

`

`201
`00:08:47,700 ‐‐> 00:08:53,010
`dialers alarms lights basically anything
`
`202
`00:08:51,210 ‐‐> 00:08:57,030
`with an on/off we can control through
`
`203
`00:08:53,010 ‐‐> 00:08:59,370
`this unit and what else we have Oh door
`
`204
`00:08:57,030 ‐‐> 00:09:02,580
`sensors so you can see here we've got a
`
`205
`00:08:59,370 ‐‐> 00:09:04,470
`door sensor off can't see but we have
`
`206
`00:09:02,580 ‐‐> 00:09:06,240
`door sensors open and closed so you'll
`
`207
`00:09:04,470 ‐‐> 00:09:09,060
`get an alert if you want to set that up
`
`208
`00:09:06,240 ‐‐> 00:09:10,230
`you can do an alert that'll that'll tell
`
`209
`00:09:09,060 ‐‐> 00:09:11,750
`you that someone's open the door so
`
`210
`00:09:10,230 ‐‐> 00:09:15,780
`let's close the door
`
`211
`00:09:11,750 ‐‐> 00:09:18,990
`you've got na sa firewall so what we can
`
`212
`00:09:15,780 ‐‐> 00:09:21,570
`do with the firewall clearly remember
`
`213
`00:09:18,990 ‐‐> 00:09:22,800
`
`17
`
`

`

`the firewalls we can we can get a secure
`
`214
`00:09:21,570 ‐‐> 00:09:25,590
`connection into here if you have
`
`215
`00:09:22,800 ‐‐> 00:09:27,360
`multiple units in multiple places you
`
`216
`00:09:25,590 ‐‐> 00:09:28,980
`can have your own private VPN network
`
`217
`00:09:27,360 ‐‐> 00:09:31,260
`between and you can monitor them all
`
`218
`00:09:28,980 ‐‐> 00:09:33,240
`through that through that network also
`
`219
`00:09:31,260 ‐‐> 00:09:34,380
`just gives you another layer of
`
`220
`00:09:33,240 ‐‐> 00:09:35,940
`protection against people coming from
`
`221
`00:09:34,380 ‐‐> 00:09:37,440
`outside in to the servers
`
`222
`00:09:35,940 ‐‐> 00:09:39,960
`we'll start it up for you so you can
`
`223
`00:09:37,440 ‐‐> 00:09:42,210
`have a look at what how it works and how
`
`224
`00:09:39,960 ‐‐> 00:09:43,950
`easy it is to get going once all the
`
`225
`00:09:42,210 ‐‐> 00:09:47,520
`servers obviously are in place it's
`
`18
`
`

`

`226
`00:09:43,950 ‐‐> 00:09:51,150
`pretty easy we just have each PDUs on a
`
`227
`00:09:47,520 ‐‐> 00:09:53,640
`60 amp breaker so we light it up and
`
`228
`00:09:51,150 ‐‐> 00:09:56,510
`three of the servers come up so we've
`
`229
`00:09:53,640 ‐‐> 00:10:00,440
`got these three down here start it up
`
`230
`00:09:56,510 ‐‐> 00:10:00,440
`you don't leave it running too long
`
`231
`00:10:00,450 ‐‐> 00:10:05,850
`so
`
`232
`00:10:02,200 ‐‐> 00:10:05,850
`keep and switches
`
`233
`00:10:06,850 ‐‐> 00:10:12,970
`they're running at about 50% right now
`
`234
`00:10:10,180 ‐‐> 00:10:16,290
`so I'll just always get them going those
`
`235
`00:10:12,970 ‐‐> 00:10:16,290
`three fans running in 50
`
`236
`00:10:23,130 ‐‐> 00:10:26,180
`and this all about me
`
`237
`00:10:28,480 ‐‐> 00:10:31,230
`have the automated
`
`238
`00:10:41,920 ‐‐> 00:10:46,889
`
`19
`
`

`

`can see that royal airflow coming
`
`239
`00:10:44,260 ‐‐> 00:10:46,889
`through here
`
`240
`00:10:47,230 ‐‐> 00:10:51,070
`18,000 CFM right now
`
`241
`00:11:11,950 ‐‐> 00:11:16,380
`olá server tacos over
`
`242
`00:11:24,040 ‐‐> 00:11:29,310
`okay so that's our overview is always
`
`243
`00:11:26,920 ‐‐> 00:11:29,310
`showing
`
`244
`00:11:33,590 ‐‐> 00:11:36,850
`we'll be able to handle your next
`
`245
`00:11:34,700 ‐‐> 00:11:36,850
`generation
`
`246
`00:11:39,040 ‐‐> 00:11:46,010
`next generation you can win
`
`247
`00:11:42,480 ‐‐> 00:11:46,010
`now at a 400 our unit
`
`248
`00:11:47,250 ‐‐> 00:11:52,540
`or factor not to the 24
`
`249
`00:11:49,310 ‐‐> 00:11:52,540
`but you have a lot of
`
`250
`00:11:53,070 ‐‐> 00:11:56,090
`a good way to do it
`
`20
`
`

`

`251
`251
`00:12:02,660 ‐‐> 00:12:04,720
`00:12:02,660 --> 00:12:04,720
`you
`you
`
`21
`
`21
`
`

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