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Server Speed Tests

02-06-09 by . 30 comments

We now have the new servers set up in the data center, and configured with copies of the Stack Overflow website and database. We excitedly ran a few quick speed comparisons with the live site and found.. the new site was two times slower than the old one.

(insert sound of analog record needle being ripped off a record, here.)

Er.. what?

That was our reaction too. These servers have 2 – 4x the memory, 1.5x the processing power, and faster drive arrays. How could they possibly be slower?

Through a process of elimination, we deduced the following:

  1. Lightweight pages on the new site indeed load faster. This means the web tier is probably OK.
  2. A long-ish running SQL query extracted from the old database server, runs faster when executed manually against the new database server. This means the database tier is probably OK.
  3. The more heavyweight the page, the more pronounced the slowdown. This led us to believe the network was the culprit.

We double and triple checked all our network settings, and verified our little NetGear GS108T managed switch was configured properly and had the latest firmware. We couldn’t find a single thing wrong or misconfigured. This was turning into a real mystery. We were pondering whether we’d have to eliminate the switch and try a direct crossover ethernet connection between the web tier and database tier.

While we were discussing it, I figured I’d update the network drivers from the default provided with Windows to the latest versions from Broadcom’s website. It’s a little risky when done remotely, but it worked.

To my utter amazement, once the network drivers were updated on both tiers, our performance magically went from 2x slower to 2x faster! Here’s a firebug network trace of me retrieving my user page on both servers.

Existing site:


New site:


For context, prior to the network driver update, this page was taking over 900 milliseconds to load on the new servers. Just the page itself, mind you, everything else was on top of that. The overall time was around 1.35 seconds average. Ouch!

Going from 715ms to 560ms user page load time is the kind of performance increase we expected from the new hardware. Note that I cherry-picked the best page load time from the old server here, versus an average page load time from the new server. In the typical case it’d be even faster. We expect a lot of the heavier pages on Stack Overflow will load anywhere from 50% to 100% faster. We’re planning to switch over to the new servers on Sunday, if everything goes as planned.

I guess the lesson here is the same one I learned last time: always update your drivers to the absolute latest versions, or you’ll be sorry. Really sorry! I had no idea out-of-date network drivers could cause such catastrophically bad performance. I guess I do now.

Filed under server


Another data point; the Alan Kay “Significant new inventions in computing since 1980″, loaded repeatedly in Firebug, on both servers.

GET 432922 — 201 ms
DomContentLoaded — 562 ms

GET 432922 — 320 ms
DomContentLoaded — 628 ms

Ahh, the joys of building and managing your own hardware are many and varied… :-).

I had a similar experience with SCSI drivers on a tape backup unit setup by the tech support at my last job. Out of date drivers meant backing up one tape worth of data would have taken about a week.

I knew tape drives were slow but that shocked me so I did some googling and found out the windows drivers were pooh. Not that anybody other than me cared.

You got lucky. The horrors of software written by hardware manufacturers can get pretty bad.

Marko Feb 6 2009

So, Jeff, I guess that low level coding is important after all.

Somebody’s C/assembler/other low level coding skills just boosted the performance more than the hardware you threw at it.

BobbyShaftoe Feb 6 2009

It’s a good thing someone at Broadcom knew C and didn’t think optimization was bogus. :)

Sean Ennis Feb 6 2009

Of course, then there are the times that the latest update is actually broken or slower than the old one. Then you have to hope you can revert to version n-1 or wait for n+1 – *chough* Oracle *cough*.

I’d be curious as to what the release notes say were fixed between the old and new versions.

Well, I would blame Microsoft anyway ;) if their default network divers wouldn’t work at all with your NIC, then you would just install the new drivers a long time ago and the problem would never existed :)

here’s hoping all your perf gains come so easily.

Here’s another question. Will you run into this again? Are there any more drivers that you potentially forgot to/didn’t yet upgrade? You did RAID, NIC. What about BIOS, any other firmware?

Or will we be having another blog post soon with another “Doh!”.

Latest drivers or firmware does not always mean better or faster. There are many cases of newer drivers exihibiting slower performance due to fixes to issues (unavoidable or not, depends).

Sometimes, newer versions are plain unstable and unusable – I had a motherboard BIOS version completely stall video refresh and thus make the computer “blind” and unusable; had to downgrade a version in order to get a stable working motherboard.

Anthony DeRobertis Feb 6 2009

With NIC drivers there is a balance between latency and CPU load. In particular, if you interrupt the host CPU each packet, that’s great for latency. If you wait for N packets (or N ms), that’s great for CPU load.

SO probably isn’t pushing that much data between the SQL Server and web server. In which case, you probably want the better latency.

Usually, this trade-off is tunable. I’d guess the vendor re-tuned the default. You may get performance gains by fiddling with the tuning.

(Or, at least, this is tunable on Linux; I assume it is on Windows too.)

Jeff – great call on the NIC driver. I am always surprised at how little things like that can make such a difference.

Some things that you may want to examine if you run into this down the line:

* Did you split put your database server and web servers on different network segments (one a DMZ segment the other just for DB servers)? If so, your router’s throughput may end up getting in the way.

* Either way, consider using IPerf ( between your boxes to measure throughput. There are versions for every platform out there. We use it back here at Fog Creek, and have discovered some surprising bottlenecks in our topology. In fact, I wish I had started using it years ago, as I’m sure I would’ve made better decisions if I had the data. Well, maybe.

If you do use this tool, please do both unidirectional and bidirectional tests. The bidirectional tests can help uncover interesting gaps that you’ll miss when only sending data one way. In a good environment, the results shouldn’t differ much at all from the unidirectional tests. If they do, then you have found a bottleneck in one of your devices.

Anyway, best of luck!

Guys, just to be clear — we’re talking about a litte over an hour of work to figure this out, from beginning to end.

Obviously, I think it is valuable to be able to diagnose and fix problems like this. Even for programmers.

> Either way, consider using IPerf ( between your boxes to measure throughput

from db to web:

iperf -c
[ ID] Interval Transfer Bandwidth
[156] 0.0-10.0 sec 485 MBytes 407 Mbits/sec

iperf -c -w 2m
[ ID] Interval Transfer Bandwidth
[156] 0.0-10.0 sec 938 MBytes 785 Mbits/sec

from web to db:

iperf -c
[ ID] Interval Transfer Bandwidth
[156] 0.0-10.0 sec 343 MBytes 287 Mbits/sec

iperf -c -w 2m
[ ID] Interval Transfer Bandwidth
[156] 0.0-10.0 sec 588 MBytes 491 Mbits/sec

And now you know, and knowing is half the battle….

I have actually blown my feet more than once by blindly installing the latest drivers of something. The lesson I learned: google them up first. Somebody will have already tried them and suffered the pain for you.

Murali Suriar Feb 7 2009

Very interesting – good catch and excellent fault finding. How on earth, in this day and age, are people designing server hardware without good Windows support out of the box?

On a professional note: I’ve not worked with Netgear managed switches before. What kind of instrumentation does it provide? Are you able to get input/output discards, CRC errors, overruns etc? Does it support remote interrogation via SNMP? If so, is it worth you setting up a Nagios instance or something similar to monitor it (and potentially your servers), given that you’re managing everything yourself? Good network/server monitoring can often give early warning of impending doom…

Also, is there any way for you to get interface statistics on Windows? (The equivalent of ‘netstat -i’ on Linux?)

> How on earth, in this day and age, are people designing server hardware without good Windows support out of the box?

Well, the real question is why the default in-the-box network drivers for the Broadcom hardware can cause such carnage.

Network cards are my lowest priority when updating drivers, usually. I don’t think I’ve ever seen problems with default OS network card drivers before.

> Network cards are my lowest priority when updating drivers, usually. I don’t think I’ve ever seen problems with default OS network card drivers before.

You’re in luck then, I’ve had instances of computers crashing out of the blue due to faulty handling of certain packets with vanilla drivers.

I’ve had problems with network drivers causing corrupted packets. On my old NForce4 motherboard, using the checksum offloading feature caused packets to come in corrupt. So I had to turn off that feature to be able to download stuff. To this day, I don’t think they ever fixed the problem.

Shame that the sites aren’t on much ;), just registered up yesterday (finally) and had two ‘offline’ periods..

Ah I’m just teasing!

PWills Feb 8 2009

Jeff, sorry if this has already been mentioned and I missed it, but…

Do you have a device/appliance “in front of” the web server(s)? If not, you might want to try adding one (email me for low-cost suggestions). If so, you should play with your forward cache or other settings. You might be sitting on ANOTHER 2x in unrealized network perf gains.

Daniel Feb 8 2009

If I had to guess, I’d say the checksum offloading wasn’t working with the default drivers, or that it was working but causing excessive latency. Ie, it made CPU load lighter, but at the cost of latency on the tcp stack.

I’d look into gamer NICs, as latency is their foremost concern (when it comes to NICs, of course).

Roger Pence Feb 11 2009

Jeff asks: “Well, the real question is why the default in-the-box network drivers for the Broadcom hardware can cause such carnage.”

The answer is obvious: the authors of the default drivers clearly didn’t think that quality really matters in the big scheme of things!

Have you looked at using F5 servers ( to optimise network traffic, perform HTML data compression, XML validation, handle 404/500 page errors, load balancing, etc.?

This would also reduce load on the back-end web server(s).

I came across this post trying to figure out why ‘DOMContentLoaded’ in FireBug was showing 6+ seconds to load a web page. After using Fiddler, I finally figured it out. I had the path to a .JS file set like this:


in the HTML. This caused the page to load extremely slow. When I changed it to /JS/SomeFile.js it took 6 seconds less! Maybe someone else will stumble across this post with the same problem and this will help them…

Ha, I pinged it as being Broadcom the second you said “network.” Almost every network problem I ever encounter ends up being due to their crappy drivers.

Steve Mar 2 2009

This is a perfect example of why I rate hardware companies based on my experiences with their drivers. I used to hang out with a lot of hardware guys and they all considered software to be an afterthought. Some employee’s college-aged kid usually wrote their drivers. Not because they didn’t care about quality, just that they thought the quality of their hardware utterly overwhelmed any deficiencies in the software.

Andrew Mar 3 2009

This is a bit annoying as for me, I believe in ‘if it aint broke, don’t fix it’. This is true with graphics drivers especially if you have an old card.

New graphics drivers support newer features in whatever version of DirectX is out at the time. But if you have an older card which doesn’t support those features in hardware, the new drivers force the card (CPU?) to emulate those new features in software, drastically reducing performance.