Planning a Small Server Room 98
An anonymous reader writes: "Our company is planning to build a small server room. Initial requirements are for two or three enclosed server cabinets in which various servers and network gear will be installed. The cabinets are planned to hold between 15 to 20 servers of various types and sizes, switches, routers, four dial-in modems for after hours use by staff who do not have ISPs and a KVM switch. We would expect for a small desk as a work area, a book case, storage for some spare parts as well as server documentation and records. We know that we need some power protection in the way of a UPS and a generator. We also expect that this room will get quite warm in the summer months so it will need more air conditioning than the rest of the office. What should we expect for power and cooling needs? Are there any 'rules of thumb' when it comes to building a server room. Good suggestions and help would be appreciated."
Link! (Score:3, Insightful)
Link [slashdot.org]
Cooling, Power, Cooling, Power (Score:2)
I've been where you are, and let me say that your #1 problem will probably be cooling. If it's really a closet/old office/whatever, it is unlikely your building management will be able to get enough cooling to you. I'd recommend planning for one of those free-standing moving cooling units that can vent into the drop ceiling. By planning, I mean both power and space.
Power: Again, better get in touch with your bldg management. Most office circuits are in the range of 20 amps, which sounds like a lot, but isn't -- you shouldn't plan on using all 20 amps, and remember that if you coldstart everything at once, they will pull a lot more than 20. I would plan on an amp per server at least, and go no more than 16 boxes per circuit. You may need a 220 circuit for a movable AC or some other weird piece of equipment.
Do NOT do the latter yourself. Hire a professional electrician. One mistake in this area can not only ruin your business, but potentially take your life.
Re:Cooling, Power, Cooling, Power (Score:2, Informative)
A good electrician will be able to hook up a meter to a few sample servers and get the exact amount of juice they pull. Use the GREATER of that number and the name plate rating on the computer. I would plan on having UPS's that can take 125% of your calculated load. Also the UPSs should be considered continuous loads so the circuits that feed them need to be rated to 125% of the actual load (per the NEC). Also most wiring in commercial spaces is done in conduit and more than 3 wires in a conduit requires that the wires be derated and not all electricians pay attention to that (again per the NEC). The net effect is that you should plan on the electrician using #10 THHN in any conduits. Computers often need good grounding systems, so I would also require a separate ground wire to be run in the conduits even though it is usually not done since the conduit can act as a ground. You will also want to make sure the racks are grounded and you may even wish to consider putting a wire mesh beneath the floor and grounding that.
Finally, if possible, require that the communications cables be run in over sized conduit as well. It makes expansion much easier in the future and also provides a measure of RF shielding.
Re:Cooling, Power, Cooling, Power (Score:5, Insightful)
For little things like KVMs, modems, inkjet printers, etc. you can safely use the nameplate ratings.
For big things, determine how many machines you would ever conceivably want in the room. Choose the biggest, baddest equipment you could possibly want. 1U dual-proccesor machines, arrays of 15000 rpm hard drives, a desk full of 21 inch monitors, you name it. Then go to the manufacturers web sites and find the nameplate ratings for the various things, and add 'em all up. The total will be a number you won't easily outgrow.
Be sure to account for start-up loads. You don't want to trip a breaker by turning everything on at once. Hard drives draw a lot of power while they're spinning up, monitors while degaussing, laser printers while warming up the fusion rollers. This is just an educated guess, but use a factor of 2 for hard drives, and 5 for monitors. Read the specs for the laser printers very, very carefully and find the worst-case.
I'd go even farther. When many surge protectors divert a surge, they divert it into the ground wire. This causes a brief, high voltage spike on that circuit's ground relative to the other circuits in the room. The longer the ground wire is, the larger the spike. This spike can do nasty things to serial lines, KVM cables, and so forth that connect machines on different circuits.So if the building breaker box is farther than, say, 50 feet from the server room, I'd have a small breaker box installed in the server room. Also this lets you recover from a tripper breaker without getting the main breaker box unlocked.
If you can afford it, have a couple of separate circuits run from the main breaker box. This gives you someplace to plug in coffee pots and vacuum cleaners without disturbing the electronics.
If the room gets its own air conditioner, make sure that has a dedicated circuit from the main breaker box.
If you can afford it, have a big industrial surge protector installed at this breaker box. Also the breaker box is a good grounding point for surge protectors on your external data lines.
This is excellent advice. The electrical code is based on safe operation of motors and heaters. Bigger wires make your electronics more reliable by reducing voltage droop.Also, computers often don't draw sine wave current. They draw less current at the beginning and end of the AC cycle, and more in the middle. This means the peak current is larger than the sinewave loads envisioned by the electrical codes.
More excellent advice. Conduit is completely unacceptable for grounding computers. A grounding wire is cheaper than the cost of a single computer crash caused by a poor ground. Have an electrician tie all the racks and other metal stuff together with big ground wires. This will help protect the rest of your equipment if one of the devices has a ground fault. It'll also help reduce static electricity by giving you lots of big grounded metal things to touch. Wire is cheap compared to the cost of a single failure. Conduit does make running wires much easier. If there is no other wiring or fluorescent lights within a few feet, I'd use nonmetallic conduit, as metallic conduit can actually act as an antenna for picking up radio waves and coupling them into your data cables. OTOH if there are AC lines parallel to the run, metallic conduit is probably better, and be sure to make the electrician ground the conduit properly.Re:Cooling, Power, Cooling, Power (Score:1)
Alas - the dream of cold fusion rollers was just that......
Methought it was considered a fuser, not a fusion plant
Re:Cooling, Power, Cooling, Power (Score:1)
I do agree with this, however there is one problem to mention. Check with the building management before installing such a thing. The building management here was very reluctant to let us install a simple free-standing AC unit.
They were concerned about water leaks, mostly. These free-standing units need somewhere to drain to. There is an evaporation pan, but the building management was concerned about it overflowing, on a weekend, flowing down to the floors below us. A very unlikely scenario, but it concerned them none the less.They finally agreed to let us install it after we agreed to tie it into the fire alarm system, to notify them of an overflow.
Re:Cooling, Power, Cooling, Power (Score:1)
Needless to say, we got it cleaned up quickly. However, just because we were lucky and didn't get electrocuted, or have servers explode or anything else as dramatic doesn't mean you shouldn't be extremely careful!
Re:Cooling, Power, Cooling, Power (Score:1)
Now, i'm not an electrician, but this is probably the worst bit of advice here. Don't get me wrong, electricity is important, but let's do the math, and determine how good your advice is.
Amps x Volts = Wattage.
Therefore, assuming you're using 110 Volt power, and your calculation of 1 amp per server, we get:
1 x 110 = 110 Watts, per sever.
It should be painfully obvious from the above that this is obviously way too little power to be running a server on. (to say nothing of your expertise with electricity and servers.)
Now, a 20 amp circuit gives you 2220 watts of power. ( 20A x 110v = 2200W ) Assuming 500 watts per server, you can run about 4 boxes per circuit. Remember, computers run on electricity, and if you rob them of power, they are entirely useless without it. Do not skimp on power.
In fact, if you want to do power right, you will run ONE circuit PER server. This way, if you need to cut power, or a breaker blows, only one server is affected, not the entire rack. And also, you don't have to worry about not having enough power for a big server, unless your server wants more than 2000 watts, which is less likely, unless you're getting some big iron servers. And those would likely have dual (or more) power supplies. And you would want them plugged into seperate circuits, because if one fails, the other is a backup.
The overall point is, it's hard to have too much power, and with some simple math, it's easy to figure out your needs, and what to set up. Compared to the cost of a server, a curcuit is pretty cheap to install, (i'm guessing $50 each) so there's no reason to cheat yourself here. If you want to do a server room right, you've got to have good power.
Re:Cooling, Power, Cooling, Power (Score:2)
Now, assuming you don't have a balls-to-the-wall system (say 1 processor, 1 disk, and 1-2gb, it's reasonable to assume you're only going to be drawing maybe 150W, or slightly more than 1 Amp. If you are using something like a desktop as your server, it will probably be less.
While I wholeheartedly agree that power is important, one circuit per server is very extravagant except in the most mission-critical circumstances. It's going to cost more than the aforementioned $50/circuit in parts to implement that solution, not counting electrician time (oh, $100/hour?). That'll include plug assemblies, cable, and breakers -- and a brand new breaker box if you don't have enough slots in your current one. And think of the bundle of cables! Remember, this guy was asking about small closet-sized server rooms, not something for an E911 system!
But the point and formula is simple: take the time to add up what all your power supplies say. Then get a circuit put in that gives you a quarter to a third overhead.
Try to use common sense. (Score:3, Insightful)
When you initally layout the room, pack everything as tightly as possible. You'll be happy you made that decision 5 years from now.
Be careful with roof-mounted air conditioners. They have a habit of spewing ice cold water all over the place when they have a problem.
Offset the racks far enough away from the wall so that you have enough room to work. Make sure that some dope doesn't push them back on you.
Re:Try to use common sense. (Score:2)
we were actually bitten by this over this past summer. i work for the electrical engineering department at the college i attend, and we don't have a whole lot of choice as to where our server room is, or how the air conditioning works. we just got stuck with an interior room in a converted train station. over the summer, we filed complaints with the maintenance people that the whole ac system was screwed. we were getting so much ac in the server room that we had to HEAT it, and none of the other rooms in that area of the building were getting much of anything. after a few weeks of complaining futilely, we come in one morning to find a puddle covering half our floor, and a steady drip coming from the ceiling. (thank god it was over a low point in our painfully uneven floors, or some equipment might have been damaged.) after we told this to maintenence, they finally sent somebody over. it seems there was a backup of some sort of crap in the air ducts that caused everything, including that water, to come out of our vent.
Re:Try to use common sense. (Score:2)
Amen to that. We got a wall-mounted unit put in just under the ceiling in our server room at my last job. We came in one morning to find a dark spot on the carpet. Turns out that that model had a known defect where it would just never stop running, would ice up, and then trip its breaker and shut off, leaving the ice to melt as the servers heated the room to near-oven temperatures. Ended up having to jury-rig a normal, everyday thermostat to the thing to set a minimum temperature for the room in addition to the maximum temp set on the built-in thermostat.
~Philly
Cooling Theory (Score:5, Funny)
Of course, if you intend to send large amount of data out over the internet the environment is no longer entropically closed and you will experience heat buildup. In fact, Josh Bell proved in 1999 that data transmitted over a CAT5 cable is mathematically isomorphic to heat transferred backward over that same cable.
Since you are probably intending to have a net link, make sure you insulate your T1 connection well to keep this heat gain to a mimimum.
Re:Cooling Theory (Score:1)
Good job!
Re:Cooling Theory (Score:2, Funny)
On top of this assumption, you are assuming that the computer acts as a better-than-ideal engine. The amount of heat put off, even if deleting a file did cool a computer, would still be extreme because work is done by the computer, and I'm sure that code optimization does not mean thermodynamic optimization.
There are many more problems with this argument, even the internal clock in the computer is going to create this type of entropy generated heat.
What you absolutely cannot get around is the heat generated by the current in the wires. Even in superconducting wires, current generates heat. Factor in resistance and you have a source of heat far greater than any heat generated by entropy reversal.
These are fine theoretical assumptions, but in practice, computers generate a lot of heat.
Re:Cooling Theory (Score:1)
"Why can't we combat Global Warming by having everyone crank their ACs and open their windows?"
I don't even know where to start on that one. Even if all of the ACs were perfect engines your net effect would be zero. Now take into account the heat generated making all of the electricity to run these ACs, etc. I was dumbfounded. The answer is right there in any 1st year Physics book.
--Mike
Re:Cooling Theory (Score:1)
Re:Cooling Theory (Score:1)
Remember to install a phone (Score:5, Insightful)
Re:Remember to install a phone (Score:2)
Re:Remember to install a phone (Score:1)
Re:Remember to install a phone (Score:1)
Re:Remember to install a phone (Score:2)
Many phone lines! (Score:2)
There is a lot of equipment that you can buy with a "call-home" feature. Most just calls the manufacture (You pay service for them to answer), but some will page you.
Even if you don't want to pay for this feature now, you will in the future (odds are you will eventially have at least one critical machine to keep up)
Re:Remember to install TWO phones (Score:3, Informative)
These phone lines will save your career sometime when the power is flaky, or your PABX has gone down, or you have to call two different hell desk lines at the same time (finger pointing? Who? Not me!)
Since you will have some dial-in modems, ensure one of your telephones is a simple, plain, ordinary telephone, which doesn't require electricity to operate. For the other, follow the other suggestions in this sub-thread; i.e. cordless, handsfree speakerphone, etc.
And a selection of RJ-11 (not RJ-45) cords, long enough to reach from corner to corner of your machine room. And a couple of banjo breakout connectors.
And depending on the theft/wandering kit factor in your place, florescent spraypaint to mark your easily lost phones
the AC
I'm back!
Re:Remember to install TWO phones (Score:2)
I have had a hard time finding speakerphones that will work in a server room. With almost all half-duplex phones (except for the very rare model where you can manually adjust switching sensitivity) the ambient hum of all the servers and UPSes is so loud that it triggers the switching mechanism such that you don't hear much of the person at the other end.
The only really effective experience I had was spiriting the expensive full-duplex Polycom from the conference room into the server room. It was later tracked down and I was the recipient of some profoundly dirty looks.
Already on Track (Score:5, Informative)
Locks, you'll want to have good locks on this room. Maybe a camera in it too, Security is always important. Not only security, but preventing some uneducated employee from accidently wondering into the room and pressing buttons. It happens I've seen it. I've also seen employees wonder in and realize their monitor isn't as good as the one you have in the server room, and switch them.
Keep it clean - I can't stress this enough either. Server rooms are a breeding ground for dust. Keep it well filtered with air filters, de-humidifiers to keep the moister down, and try to limit what kind of cardboard products are in the room.
I'm not a good expert on Power and Cooling, but I think one rule of thumb is as much as you can get it. And Redundancy, cooling included. Multiple Air Conditioners, and Multiple power backups. I've been in many places where Air Conditioners go out in server rooms and those things jump to 100 degees in just a few hours.
That's about all the advice I can offer, good luck.
Re:Already on Track (Score:2)
Re:Already on Track (Score:3, Informative)
Yup. And then you end up with the door propped open so you can run a fan.
If you care at all about security, do yourself a big (and cheap!) favor. Install an emergency exhaust fan. Don't forget you'll need air in from somewhere to. If you live in a cold climate, you might like to pull air from outside the building. Otherwise, you might choose to use building air.
Something cheap like this can keep you up and running while you fix the expensive HVAC gear; without leaving the door open overnight.
Re:Already on Track (Score:2)
An alternative is to mount a lockable steel mesh door on the free side of the door frame leading into the server room. You can get such a door for a couple hundred bucks, which may be cheaper than having the wall cut or windows adjusted for an exterior exhaust fan.
Then pick up a big floor fan at CostCo and you've got a way to steal A/C from the rest of the building when necessary.
Noise will be an issue from climate control (Score:1)
A regular telephone with a speakerphone and a l-o-o-ng cord and possibly a headset is also a good idea for calls to various tech support lines.
--Paul
Re:Noise will be an issue from climate control (Score:1)
Question:
If you have machines plugged into two different circuits with isolated grounds, will you run into trouble if they're connected by LAN cables?
--Mike
Re:Noise will be an issue from climate control (Score:1)
Cooling thumb (Score:2)
I speak from experience... (Score:1)
Get a subfloor (Score:2, Insightful)
Most of the stuff you'll want can be gotten cheaply at Anixter [anixter.com].
Another reason for a sub-floor.... (Score:3, Informative)
Under the floor is really where racks are meant to have their cables run. Some flooring units have inserts that act as vents, and that works nicely. Your under-floor is ventilated, kept dry, and your smoke sensors have a higher chance of sniffing the smoke if the air moves through that closed area. There are actually some commercial smoke alarms that continually pump and sniff air, rather than the passive ones we have in our homes that rely upon convection and diffusion for the smoke to reach a sensor. Put some sort of dust-handling equipment on your air-conditioning. The folks that sell you the AC will be able to help. See if they can tie the ventilation into the smoke alarm so that if there is an alarm, fresh oxygen stops getting pumped to that room. (They do this on some modern highrises.) The folks that sell you the AC should also be able to help you with sizing the air conditioning to your requirements.
Call in your local pest control expert to mouse-proof the building, then make sure there's serious screening over all entries into the building. Mice get bored, and for fun, they pick their teeth with the fiber core of the cable running to your most mission-critical server. However, they have to chew through several cables before they find the right one.
Consider one of those big panic buttons that shut the room down in a hurry. Just make sure under a cover so that someone doesn't accidentally punch it. At the very least, place the circuit breaker panel in the room, and clearly exposed (meaning don't stack crap in front of it), so that someone can get to it and flip things on and off.
Also place several of the correct class fire extinguishers there. Place a wall-mounted first-aid kit (some cases have sharp burrs that cut fingers well) near the door. Doesn't have to be fancy. Could just be something on a shelf. Also have a paper-towel dispenser (or just a roll of Bounty) for when someone forgets, takes their drink in, and then knocks it over.
Finally, plan for expansion. Make the room a bit bigger than you think, but leave one wall that can be bumped out to claim the room next to it sometime in the future. (However, I think server sizes have stopped growing, so the need for more physical space is lessening.)
Re:Get a subfloor (Score:2)
However, you do want to make sure that you don't cram too many cables under the floor; you run the risk of blocking airflow if your airconditioning is trying to dissipate heat using that gap as an airflow path. However, that's probably not an issue in a smaller room.
Aside from that, make sure you have enough power points in place and there is enough juice to power them all.
Finally, for wire ties, try to get some of the ones IBM use (at least for their Unix systems); they are basically strips of velcro which you can easily attach/detach.
Re:Get a subfloor (Score:2)
A cheap way manage wire around the perimeter is to fasten 2-4' long U-shaped troughs to the wall at 7' high or so, with a few inches separation between each section to drop wires down. In a small room like yours, that may be all you need.
On an unrelated note, don't forget to stash some clean underwear somewhere for when the doors slam shut and the halon goes off.
Wire shelving (Score:1)
And either black anodized or chrome plated depending on decor.
Re:Wire shelving (Score:1)
-Ster
Re:Wire shelving (Score:1)
Our data center uses a non-liquid fire extinguishing system made by Ansul [ansul.com] that will set off an alarm warning anyone in the room to get out, then it releases an O2 displacing mixture of inert gases (mostly N2). Much better than water.
Re:Wire shelving (Score:1)
I don't know if I like this. Joe Sysop is behind a cabinet standing on his head in a pile of cabling with a toolbox behind him. *BWAH* *BWAH* *BWAH* "Holy shit, time to evacuate!" Joe heart-rate goes through the roof, he jumps up, hits his head on the case above him, trips on the cabling behind him, knocks the rack over onto his feet, gets thoroughly tangled in cables, and is lying there. *BWAH* *BWAH* *BWAH* Here comes the gas. Poor Joe, he was a helluva nice guy too.
Look at your specs. (Score:3)
Power, Power, Power. Going to go with a big UPS or smaller ones for each rack? Talk to an electrician about circuits. Figure up how many amps of power you need and then decide on the number of circuits. They didn't do that in the room I took over and we've blown circuits three times, but it's been fixed on my watch.
I recommend a locking door, of course. Raised floors if you can do it. And always figure on another rack or two. They seem to multiply and working in a cramped server room switching equipment gets old.
NOTE: If anyone needs server racks in the RTP, NC area let me know. I have three that would be free to a good home. Glass front nice cases.
POWER. (Score:2)
We run a pair of 20-amp circuits to hardwired 'plugmold' power outlet strips mounted to each rack, with the 'left' and 'right' side being fed from a distinct UPS and battery (two giant UPS systems, one giant diesel generator).
Thus every power strip has it's own circuit breaker, overloading any one will only take out half of the equipment in one rack.
Re:POWER. (Score:1)
Fire Supression (Score:2, Insightful)
I have seen when a diskpack caught fire from a crashed disk. When they opened the door to the disk pack a sudden backdraft type explosion occured. The Halon released just seconds later putting out the fire, all while the other servers, printers, and mainframe continued to work. Sprinklers would of been a $20 million dollar mistake.
Fatz
Re:Fire Supression (Score:2)
Re:Fire Supression (Score:2)
If the site is properly designed, you'll probably survive, because the ventilation system is supposed to kick in after a couple of minutes to clear the halon. (But don't assume that is the case at your site.) What I'm wondering is whether blowing out the floor tiles is a "desired" feature of a Halon system. (Ours is supposed to do that, halon blasted out from the floor.) Still, as I recall, you would have to be worried about dying from the stuff long-term (cancer, emphysema)
Re:Fire Supression (Score:1)
BTW, the cause of all death is lack of oxygen to the brain.
Re:Fire Supression (Score:2)
Re:Fire Supression (Score:1)
FM 200 [fm-200.com] - in a big red tank and buttons by the doors (on the outside, so you can (a) not worry about access when the place is on fire and (b) not suffocate yourself when you evacuate the aforementioned big red tank).
Re:Fire Supression (Score:1)
According to the guys who set up our system, you can breathe immediately after a release of this stuff. It's a compound of Nitrogen, Argon, and CO2.
They also said that it's not a good plan to be in the room if the system does discharge, as a properly designed system has 1.5* the room's volume in the tanks. The installation includes venting to the outside atmosphere, otherwise the windows will be blown out.
But it is effective at snuffing fires, and relatively benign to the electronics.
Fond memories (Score:4, Informative)
The room housed the servers for our local network and for the WAN which consisted of roughly two dozen buildings scattered around the county. We had a mix of HP/UX, Linux and NT servers -- and even one MPE/iX box (an HP3000 server). We also had our dial in, frame relay, outside Internet connection and terminal servers in the room. I believe there were 6 rackmount cabinets for most of the servers and the network equipment (the HP3000 and our voicemail systems were their own fridge-sized units outside the cabinets).
It was actually separated in to two parts, as well. The main room, which housed the actual servers, was about 40x50 feet. The second part was separated by a glass wall and was 40x15 feet. The smaller area had desks and a couple enclosed rooms where the support staff would usually work. Hardware work was done inside the main server room because of the air control.
The main things done right with the room were:
- AC Unit: this thing kept the room at a nice 54 degrees Fahrenheit no matter what was going on outside. The AC in the rest of the building would go out and everyone would start opening windows and turning on their desk fans, while I would retreat to the server room and put on my fleece.
- The raised floor: We never had a single cable on the floor to trip someone, and we could put a power outlet anywhere in the room we wanted. The floor was about a foot and a half off the real floor and covered the entire room. I loved that raised floor.
- Security: Sure, someone could break the glass walls (although the building's security system included glass break detectors in the server room), but the doors were very heavy and very thick. Access was controlled by individual keycodes which we had to change regularly. Out of the 50 plus people working in the same area of the building the server room was located, three of us had passcodes to the server room. So we always knew when someone was in there because one of us would have to escort them in and out of the room.
- Shelving: We had tons of shelving. We devoted one side of the room to just aisles of shelves, all clearly marked with their contents. The actual types of items were kept in alphabetized order. So, we had our boxes of cables near the first aisle, memory was near the middle and "Wyse" terminals near the end (a brand of basic vt102 dumb serial terminals).
- Deskspace: My desk actually was located in our server room, though I was usually on call in another building. But we also had an "island" in the middle of the room for general use. It was large enough to have four people simultaneously working on hardware with all their components spread out around them. We also had a couple workstations on the island that could be used to log in to the various servers and other equipment. These were convenient because they could remain logged in with privileged access to certain servers and we didn't have to worry about someone using them when we went to chat with mother nature since access to the room was stricly controlled.
The only complaint I ever had about the room was that when we would get shipments of 100 new workstations, they would cramp the room up a little until we got them all set up and shipped out to the various other buildings.
The suggestions I would make for things to consider when setting up a new server room:
- AC (obviously) and UPS (obviously)
- Raised floor (you can get by without one, but when you have one you never want to get rid of it)
- Entranceway security and if possible video monitoring
- Strict, enforceable access policy (there's no need for the the new graphics temp to be wandering around in the server room, but sometimes you'll want to be able to escort the VP through the room so he/she can see all the pretty blinking lights)
- 1.5 times the rackspace for your initial machine count at minimum, with twice the space initially needed reserved for cabinets
- Tons and tons of shelving, plastic ties, rubber bands, electrical tape and sticky labels. You never have enough of any of these things. Get plenty of bins of various sizes, too, to use on the shelves for things like screws, jumpers, adapters, etc.
- It's really helpful to have a common area for all the tools. We actually didn't do this at first and we'd lose a crimper or a screwdriver or something once or twice a week (more often than not we'd find them under the raised floor).
- If you find you're running a lot of cables in the to ceiling to distribute to the rest of the building, get some regular PVC plumbing pipes and a hacksaw to create basic conduits in to the ceiling and then above the ceiling to outside the walls of the server room. One of the easiest ways to feed cables through these is to get a string and tie it in to a loop where it will run one length inside the PVC pipe and another length outside. Create a few loopholes in the string and then whenever you want to feed a cable through it, hook the cable's connector in to a loop and then pull the string.
Re:Fond memories (Score:1)
Our one mistake... (Score:3, Insightful)
My recommendations would be:
1. NEVER EVER EVER EVER let lusers into your server room. Put decapitated heads on bamboo sticks all around your server room. I almost killed someone when I came in one morning, and realized someone had manualy ctrl+alt+del'ed our timeclock server because their PC couldn't access it and they assumed it was a server problem.
2. Replace the door handle on the door with a deadbolt. Nothing says go away more than no handle, and its fairly easy to just turn the key and push.
3. Use racks. If your room is already going to be temp controled, and its locked up tight, cabinets aren't needed. Plus if venting fans on one of your cabniets dies, it turns it into a big thick metal blanket for your servers.
2 Things (Score:1)
2. Fans for when 1 of the A/C units die. The cheap ones do a good job.
(there are 3 things)
3. Sound dampening material on the walls and ceiling near the server's or it will be loud in the room.
-- Tim
three things are important in this case (Score:3, Insightful)
well really more than just those, those are just my big pet peeves.
Good things to have include
a work bench
a tool cart
a phone
a seperate test subnet (firewalled from the real net)
a good lock
cooling
UPS
generator
all internal walls
static floor panals
and make sure there is room to work today and a few years down the line...
-Booyah
Re:three things are important in this case (Score:2)
Amen. I am getting so tired of working on the floor. But if you get a workbench, try and ensure that it is ONLY a workbench. We have a good table in our smaller server room, and guess what happened when a couple more machines needed to be added? You guessed it, right on the table.
a tool cart
Ditto. Carry your own Leatherman, but it's not a replacement for everything. A good toolkit, with adjustable wrenches, crescent wrenches, socket wrenches, screwdrivers of every imaginable size and shape, is worth its weight in gold.
a phone
A high-quality, cordless phone. Having to say "hold on", put down the phone, run over to check something, then come back is a pain and a half.
a seperate test subnet (firewalled from the real net) :-(
Nice idea...but try getting my management to pay for "unnecessary" equipment.
a good lock
Yup - but make sure you know how to pick it, because you will lock yourself out some day, and because lockpicking should be in every sysadmin's repertoire of skills.
Other ideas:
To complement some of the posted info... (Score:1)
...do not forget to consider (in no particular order):
Fire extinguisher mechanisms
Easily accessible power circuit breakers
Room accessibility that allows you to easily put another cabinet in there (or out of there !) - tall enough doors, ramps if you'll have a raised floor, etc.
Tipically systems pull cold air from the front and blow hot air from the back (check yours, though); consider this when laying out the overall air flow, as you don't want to waste expensive cold air on the wrong "side" of the systems.
Remember that the door on your cabinets will need to be opened. Depending on the cabinet models, the orientation can (or cannot) be reversed. Another point to remember when laying out the cabinets through the room...
Did I mention raised floor and structured cabling ?... Maybe I'm asking for too much....
Buy the sizes that are available (Score:1)
You'll end up with a 3 ton or 5 ton air conditioner. Liebert air conditioners [liebert.com] can also humidify/dehumidify and heat/cool. There is a market for used Lieberts if you want to save some money. Call your local A/C contractor.
A 3Kva UPS would be a good size unless you want more standby time in which case you could go for a 5 Kva or maybe two 3's for redundancy.
Liebert makes great UPSs [liebert.com], too. The APC Matrix [apc.com] line is a pretty good design because you can hot-swap the batteries yourself.
Cable Management -- central patch panel (Score:2)
Make sure everything is to CAT-5E specs!
Install a 24-port patch panel in each rack. Consider punching down at least 12 ports in each, if not all 24.
Run all of these connections back to a 'patch rack' or 'patch wall' and make all of your inter-rack and rack-to-desktop connections at this central location. Document all changes, and you are golden.
Re:Cable Management -- central patch panel (Score:1)
Cable Color Coding (Score:2)
I do agree that one hard-and-fast rule is that crossover cables should be a unique color, not used for any other cable -- I also prefer yellow, but at a previous job the color was pink (because that was one of the few colors the colorblind CIO could differentiate).
One advantage to the 'yellow is crossover' rule is that IT employees get a legal, free supply of brand new cables, as you have to dispose of all of the brand new non-crossover yellow-jacketed cables vendors tend to include with new hardware.
Accessibility (Score:4, Interesting)
Make sure that you can walk -- and stand up -- BEHIND your servers. Make sure you can open cabinet doors fully. Make sure you can pull a server out of the rack without moving stuff around. Be able to have two people in the room: one in front and one behind the rack at the same time. Make sure you don't have to move the rack to work on it.
You want a server ROOM, not a server CLOSET. I've seen far too many situations where work on a server involved crawling under desks, moving stuff, craning necks. Hey, moving computer while they are running is A BAD THING: you don't want heads crashing into a hard disk platter. Besides, you risk knocking the (power) cords loose, something I've done on several occasions. I've got one customer whose server closet is so small I have to move the rack forward to access the back and then push it back to access the front again.
I would say that you want at least 3 feet in front of and behind the rack. Typical racks are nearly 3 feet deep, so you want your server room to be at least 9 feet in one of the dimensions.
Now placing your rack in the middle of the room means you have to get your cabling and power to the middle of the room. Having your patch panel or power outlets on the wall just won't cut it. Use either overhead cable trays (NOT conduit) or a subfloor with removable tiles. Don't run cables above a drop ceiling from point to point in the server room (cables headed out of the room are OK to be in the ceiling). NEVER run cables across the floor.
Bolt your rack to the floor so you (or an earthquake) don't knock it over.
DO NOT allow non-network junk to clutter up the server room. That old dot matrix machine gun that nobody will ever use again but you can't bear to throw away can go in a storage closet somewhere else.
Again, give yourself elbow room. It may be hard to convince the person with the purse strings to pay for space ("but the server will fit in a 3' x 3' closet, why do you need a 10' x 12' room?") that will be mostly empty, but it will make your life easier and will -- practice saying this -- REDUCE UNPRODUCTIVE DOWNTIME. Make sure you get the "unproductive" in there.
And if you are stuck with a closet... (Score:2)
These are more limited in what you can mount, though with the right shelves they can fit some pretty big PCs.
Re:Accessibility (Score:1)
can't you figure this out yourself? (Score:1)
Using my Jedi mind powers, I see that you require 240V/20A twist lock outlets, and that your machines each put out 1200 BTU/hour. Therefore, your power and cooling solution is...
Ummm... hate to break it to you, but
Re:can't you figure this out yourself? (Score:1)
A few suggestions (Score:2, Interesting)
Power strips with ammeters (Score:1)
They're pricey (something like $300 apiece) but the sysadmins all thought they had paid form themselves easily in the first couple of months.
- Leo
Racks (Score:2, Interesting)
http://www.chatsworth.com/
UPS the AC too! (Score:2)
Here we recently designed a new server room where the UPS includes 6 tons of battery - this is enough to run all our servers & all their AC for 5 hours - which is long enough for us to organise an alternate power feed from another village (we're a bit out in the sticks here!).
Matt
Re:UPS the AC too! (Score:1)
Re:UPS the AC too! (Score:1)
The AC units have a high surge when the compressor is turned on.
Robert
Audit trails and cameras (Score:3, Insightful)
Make sure you control all access, including the potential for intrusion from above and below -- dropped ceilings and raised floors often make an easy path for a skinny crook to get from a public area to a controlled location.
For around $1K in equipment you can set up four cameras, a quad combiner, and a time-lapse VCR system to provide a video record of everybody entering and leaving the room.
We've examined many different options to handle the camera monitoring and recording with a digital system, but there is no PC solution that comes close to the good old $200 surveillance VCR. Plus, videotape is going to be more acceptable when you need to involve law enforcement.
One last note -- make sure the VCR itself is in a seperate controlled access location. Not much point in a videotape record when the thief can simply eject your tape and walk off with the evidence.
Lessons Learned (Score:1)
2) A/C. To save money we decided the space didn't need a seperate airco. Oh, yes it does - all those boxes make a lot of heat.
Some pictures of our server room (Score:1)
Some of our considerations included:
- LOTS of conduit dropping into the server room
- separate A/C
- plenty of 110 & 220 circuits
- separate electrical panel tied to a generator by-pass switch
- workbench
- plywood on all the walls (for mounting equipment, stapling, etc.)
It is by far my favorite room in the building!
Re:Some pictures of our server room (Score:2)
Re:Some pictures of our server room (Score:1)
The real pain was lifting the stupid things up there!
Alternate Link (Score:1)
Organize them Cables! (Score:2)
The system that has worked for me in our midsize machine room (3 Unix, 3 NT, 1 2K, Phone Switch, and UPSes) is a compination of color and labeling:
on each cable, put a tag attached to each end saying what that end plugs into and where the other end goes - you can also use numbers and a lookup sheet, but that was too tedious for me. Another good idea someone showed me is used specific cable colours for specific connections (i.e. Blue for Workstations to hubs/switched, Green for Servers, yellow for hubs/switch/router to hub/switch/router, etc) -- it make visualization of your setup a bit easier to contemplate.
Of you're using human-sized UPSes, UPS everything. Each machine should have it's own 20-25 minute (exluding monitor) UPS, and put maybe 1-2 (maybe three, if they're small) pices of networking equipmnt (hubs, DSL routers, etc) to a UPS.
If you have the interesting chance to also work with the electrical wiring and want the extra piece of mind, have a power receptical every 4 feet (I've found that works well in my experince in the case of unpowered racks) -- and if you want to REALLY overplan, have a serpeate curcuit breaker for every wall/group of plugs.
But trust me on the wiring
Make stuff non-controllable (Score:2)
We has a server room (that used to be a radio broadcasting room), with a nice AC unit. We have 2 compaq big servers, and 4 hubs, 3 switches, and 4 ciscos. Atleast once a week I come in in the morning to find that my partner has turned off the AC because he was cold, and the room goes to over a 100degrees. Make it a rule, or just lose the control, so that employees can't mess with the AC.
Um... (Score:1)
Get an Electrical Engineer! (Score:1)