# New Stack Overflow Servers Ready

01-25-09 by . 26 comments

After many trials and tribulations, the new Stack Overflow servers are now ready to ship.

Ladies and gentlemen, meet the newest members of the stackoverflow.com hardware family: SOWEB1, SOWEB2, and SODB1. That’s right, I even labelled them with my black and silver sharpies.

It’s been an awfully long month and a half since I originally asked whether we should rent servers or buy them. I’ve finished burn-in testing on all three servers and I am totally confident (barring any shipping disasters) they’ll arrive at our hosting provider ready to slide into a rack and “just work”. The benefit to you is that we make stackoverflow.com even speedier than it already is, and far more scalable.

I learned quite a bit in building up these servers, and I certainly paid my dues in the process. So you’ll forgive me if I took the liberty of personalizing our servers a little bit.

That’s right, I build my servers with an extra-special ingredient: love. And if loving these computers is wrong, I don’t wanna be right.

I guess I was inspired by the old Amiga A1000 I used to own, which had the signatures of the designers molded into the underside of the case.

Of course I’m just a schmuck who assembled some parts, and these guys were actual hardware design gurus far ahead of their time, but you know what I mean.

In particular, I have to emphasize two things I learned. If you’re building up servers, make sure you do these two things as soon as they arrive:

1. Update the BIOS and RAID firmware to the latest possible versions.
2. Make sure you have the latest operating system drivers.

I’m no stranger to BIOS updates and firmware flashes for my desktops and consumer hardware, but I was hesitant to mess with the firmware on a server. I figured if it ain’t broke, don’t fix it, that sort of thing. Well, I was wrong.

The RD120 server demanded a BIOS flash as soon as I installed the slightly newer CPUs I ordered for it. No problem; that’s fairly typical for newer CPUs. Done and done.

What was much more unusual, however, was the way RAID port #6 refused to operate on the server. RAID ports #1 through #5 worked like a champ, but not #6. I ordered a grand total of 12 hard drives (6 + 2 + 2 + 2 spares), and I tried three of them in that port, to no avail. It would see the drive, then reject it within a few minutes. I figured this had to be a hardware problem so I called Lenovo. They dispatched a very friendly tech the next day who came out and replaced the RAID backplane. Unfortunately, this didn’t fix the problem! After he troubleshot it for a bit, I got a lecture about using “non-Lenovo” industry standard SATA hard drives in a server. I actually have two official Lenovo 160 GB drives here, but he wouldn’t use those either as they’re not on the parts list for the RD120, somehow. I insisted, and we inserted the drive. To my amazement, this worked. I hadn’t even considered putting in a different brand of drive. I thanked the tech, and after he left I tried another random SATA drive I have here. It too worked!

(As an aside, I had a rip of a time finding the Windows app that shows you the status of / lets you control the RAID arrays, but I eventually dug it up — the IBM ServeRAID application. Thanks for nothing, Lenovo!)

At this point I belatedly realized what my problem was. As soon as I got the RAID controller updated with the latest firmware, all my problems magically went away — RAID port #6 started working perfectly with the original drives. I would have done this earlier, but Lenovo’s update download didn’t work for me, so I had to call support to get a pointer to the IBM ServeRAID 8k series bootable ISO update, which did work. (By the way, have you ever read anything scarier than RAID controller bugfix change histories? brrr. The latest patch was January 9th!) There were still some performance oddities until I updated the default (apparently very out of date) Windows Server 2008 driver to a newer version I downloaded from Lenovo’s website.

The moral of this story? See above. Update the damn firmware and OS drivers to the very latest versions as soon as you get the servers, not weeks later! You’ll save yourself (and your vendor) a lot of hassle.

I’ve done a fair bit of burn-in testing on all the servers, typical stuff like multiple instances of Prime95. but I paid special attention to the RD120 as it will be our database server. Brent Ozar, our friendly neighborhood DBA ninja, recommended I configure the six-drive array thusly:

• Two drive RAID 1 mirror — Operating System, SQL Server 2008, and Logfiles
• Four drive RAID 10 array — Database files

I made it so, and I ran some tests with SQLIO to verify that the data file array had good performance characteristics. I created a 24 GB test file on the array, and used this syntax:

sqlio -k{R/W} -t8 -s120 -d{drive} -o16 -f{random/sequential}
-b{kilobytes} -BH -LS Testfile.dat


That means 8 threads, for 120 seconds, hardware buffering only, 16 outstanding I/O operations per thread.

 1kb sequential writes 19.18 mb/sec 6ms 8kb random reads 26.90 mb/sec 36ms 8kb random writes 64.65 mb/sec 15ms 64kb sequential reads 344.77 mb/sec 22ms 64kb sequential writes 359.32 mb/sec 21ms 128kb sequential reads 395.40 mb/sec 39ms 128kb sequential writes 413.90 mb/sec 38ms 256kb sequential reads 464.85 mb/sec 68ms 1mb sequential reads 458.50 mb/sec 278ms

This compares very favorably with the extremely expensive SAN configuration Chad tested (it’s labelled Server #2 in his charts). Behold the power of inexpensive SATA drives in a directly connected RAID 10 array! It would have been even faster if had we gone with a six drive array, but we felt that the OS needed to be on a separate set of spindles.

I also did a quick run of SQLIOSim, which completed fine but produced a few warnings about long IO requests — but apparently that’s to be expected.

SQLIOSim will generate sufficient IO requests to overwhelm almost any disk subsystem. The long IO message from the simulator are normal. Although this does tell you that at some point the disks won’t keep up.

As Joel pointed out on the last podcast, me personally building up these servers makes zero business sense if you factor in the cost of my time. But I’ve also learned a ton about these servers and the server industry in general in the process. Stuff I feel like I need to know to operate these servers responsibly while they live at a remote data center. To me, that’s worth it — I feel like I’ve paid myself to learn.

So here’s to you, SOWEB1, SOWEB2, and SODB1. Long may you run, you magnificent bastards.

Filed under server

Congrats! I know you’re happy to be done with the technical issues and eager to see these things in action!

Here’s to many more!

Do we throw the bottle of champaign against them before or after they are in the rack?

Fair play Jeff, I would’ve thrown them against a wall weeks ago in despair! Love the quote as well, have you decided on a switchover strategy since the brief discussion of it on the podcast?

Can’t wait to experience these server when using SO and so I guess these server are for the community…

Thank you Jeff :)

Aren’t servers fun? We launched a new site for a major university on 3 servers running vmware with 10 virtual servers and a SAN for storage. There was redundant everything. Even though I was the lead programmer and was responsible for the code I learned more about servers and SQL server then I ever had in helping set up the servers with a person that was qualified to set up servers at the enterprise level.

This tip is probably too late to be of use to you, but maybe it will help out someone else who happens along:

Most servers with 6 drive bays will have a split backplane with each half serving 3 bays. I *highly* recommend splitting the members of each array across the two halves of the backplane. If you have half a backplane fail and you’ve got your two RAID 1 drives on it, you’re hosed. We had almost your exact configuration and this exact thing happened to our VMware ESX server. The ESX kernel miraculously continued performing in memory when its disks disappeared from under it and we were able to shut down the VMs, kernel, and replace the backplane. I assume your OS will be Server 2008 which I doubt would be as forgiving about losing the ability to read/write to/from the system de

Jeff, you really enjoyed building these :))), BUT what’s your (hardware) disaster recovery strategy?

I can’t wait to crash them!

When will they go live?

> When will they go live?

sometime in Feb, most likely

nobody Jan 25 2009

Have you determined where the servers will be colocated yet?

cowgod Jan 25 2009

those are some amazing servers you have there. thank you for pouring your heart and soul into them–the community thanks you for that.

i’m curious why you didn’t go with fun names for the servers though. i always name my servers after star wars characters. “leia didn’t back up last night. i need to go investigate.”

PhantomTypist Jan 25 2009

Just curious, but how much are you going to be paying for bandwidth with the colocation? (e.g. \$/GB)

I’d give 1000 of my StackOverflow rep points for a picture of you riding the server, Dr. Strangelove style.

What’s the monthly cost of hosting them in the rack?

>>but we felt that the OS needed to be on a separate set of spindles.

Actually, and I’m sure Brent would agree, the real perf advantage comes from having the *SQL Logs* on separate spindles.

Agree with PWills. You will get a lot of mileage having your logs on separate disks from the DB itself.

I’d suggest re-running the sqliosim with the logs on the Windows drives to see if you can get a easy perf gain.

AnonJr Jan 27 2009

> When will they go live?

6 to 8 weeks – duh. :p

That’s my new answer every time someone asks me when I’ll be done.

Aaron Jan 27 2009

Good call on running SQLIOSim, I’m glad to see the 7200 SATA drives are working so well. I’m impressed, I wasn’t expecting to see that.

> 6 to 8 weeks – duh. :p

lol

We were faced with the prospect of building af setup for a .Net site a few months ago and ended up going for EC2 and EBS. I’ve put together a few reasons as to why that may be an attractive option:

This is for my own notes, mostly..

If we enable write-back cache (it’s battery-backed) on the ServeRAID 8k controller, we get I/O blocking under heavy write activity. This is totally repeatable when restoring or taking database backups, which write gigs of data to the disk very rapidly.

Switching to write-through fixed this completely, at the cost of some performance.

However, we were still seeing some rare I/O timeouts, about two per day. They weren’t horrible, but they did block queries on the site for up to 30-60 seconds. I did some research and found this IBM service note:

As an interim solution, the “PHY Rate” can be changed from 3.0 GB to 1.5 GB within the Adaptec Configuration Utility (ACU) of the ServeRAID-8k.

I saw that our backplane firmware (backplanes have firmware??!) is 1.06. So this fix is not in effect for us. I verified in the ServeRAID manager that the drives were indeed operating at 3.0 GB/s (SATA II) rates.

Geoff went down to the data center and, via the RAID BIOS switched every drive to 1.5 GB/s (SATA I) rates. We’ve gone one full day now without a single I/O error, so I think this worked!

Any performance impact should be minimal, on the order of 1% or so, since a) RAID controllers typically disable hard drive cache, and b) there’s no way any individual drive can read or write data to its magnetic platters at 1.5 GB/sec much less 3.0 GB/sec.

Just out of curiosity… was there any particular reason that you were drawn to Lenovo servers?

I actually wasn’t aware that Lenovo was licensing IBM servers in the first place. We’re dissatisfied with our current server vendor and are getting ready to test the waters with some others.

IBM has a huge local field presence around here, since several big government agencies have standardized on xSeries hardware. I’ve found that IBM is difficult for and SMB to deal with, however… is Lenovo any better?

Still having some I/O issues under very heavy load.. smells like driver issue to me.

We just

- updated the backplane firmware to 1.07. This is theoretically exactly the same as manually changing the SATA data rate from 3.0 to 1.5 GB/sec, but we figured we might as well update to latest and greatest.

- got a new driver dated 3/3/09 from Adaptec, via the standard Windows “update driver” dialog. This is much much newer (at least 1 full year) than the driver that was on the ServeRaid 9.0 CD..

Hopefully this knocks out the intermittent I/O timeout problems, because it’s really starting to piss me off.

Roger Mar 19 2012

Why not use Azure instead of the head ache of running your own machines ?

Great info here… keep up the good work… will be back again gratisinternet