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Podcast #75

11-24-09 by . 17 comments

Joel and Jeff sit down with sysadmin extraordinaire Tom Limoncelli of Everything Sysadmin to discuss IPV6, dumb things for System Administrators to check, and the sysadmin community as reflected in Server Fault.

  • Tom has written some classic sysadmin books such as Time Management for System Administrators, The Practice of System and Network Administration.
  • A brief discussion of the April Fool’s RFCs, which go back every year to 1989 per wikipedia. There are even some outliers in the seventies, starting with ARPAWOCKY. These aren’t just humor, but artifacts of computing history.
  • Tom shares his thoughts on the IPV6 transition — where we are, how much progress we’ve made, and some of the practical rationales for going to IPV6. What problem does IPV6 solve for us today?
  • I’ve often wondered: is the last address space transition we’ll see in our lifetime the one from 32-bit to 64-bit? Are 128-bit address spaces necessary for system memory? I press Tom on this topic. He notes that the IPV6 committee was originally going to pick a 64-bit address space, but doubled it to 128-bit.
  • We examine Tom’s hilarious and excellent list of dumb things to check. I guarantee that parts of this list will seem eerily familiar to you.
  • We attempt to enlist Tom’s help in measuring the boundaries of Server Fault. This is challenging, because the sysadmin world encompasses security, networking, databases, websites, hardware, and general operations and support.
  • We had great difficulty pinning down the sysadmin community, in contrast with the programming community. Tom is as close as we’ve ever come to the “Joel Spolsky” of the sysadmin world. Tom points out that there is some natural overlap between programmers and system administrators, mostly in the area of release management. Beyond that, there are groups like LOPSA, NPANET, and SAGE.
  • Tom notes that if you have a small site that can be served by one box, any stack will do. If you have a medium site that needs hundreds of requests per second, go with what your team knows best. But beyond that, once you get the hundreds of thousands of queries per second, everyone builds a custom solution. You do want to think seriously about optimizing for the decreasing price of commodity hardware, however.
  • Somehow I hadn’t seen the classic sysadmin comedy routine The Website is Down yet until Tom mentioned it. There’s a series of videos at the eponymously named website.
  • If you fancy yourself a Google-scale computing endeavor, or if you are simply interested in the ultimate sysadmin fantasy, definitely read Google’s Guide to Warehouse-Scale Computing.

We answered the following listener question:

  • Thomas Arnold: “How feasible is it to host a new web application using the Microsoft stack, considering scalability, performance, and cost versus the open source alternatives.”

Our favorite questions this week — from Server Fault naturally!

If you’d like to submit a question to be answered in our next episode, record an audio file (90 seconds or less) and mail it to podcast@stackoverflow.com. You can record a question using nothing but a telephone and a web browser. We also have a dedicated phone number you can call to leave audio questions at 646-826-3879.

The transcript wiki for this episode is available for public editing.

 

 

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17 Comments

Jeff talks about PHP so much, I’m convinced he’s a closet LAMP developer.

So, I’m not a big programmer, but my office mate subjects me to your podcasts weekly. I have to say today’s was one of the best ever. Tom was an awesome guest; he was really normal sounding, and he had a nice sense of humor and really knew his subject well. Also, his knowledge didn’t overlap too much with what y’all know well. Sometimes I think Joel bullies the guest into talking about something in his wheelhouse, but this week that didn’t happen.

I was fascinated by that whole NASA internet thing and its applications to terrestrial life. Not sure I have high hopes for next week, but I guess I’ll be listening ;).

hellonearthis Nov 24 2009

I thought the speed with 128 bit cpu would be it can move data 128 bits at a time instead of 64 or 32 bits.

From Wikipedia:

“The emergence of the 64-bit architecture effectively increases the memory ceiling to 264 addresses, equivalent to approximately 17.2 billion gigabytes, 16.8 million terabytes, or 16 exabytes of RAM. To put this in perspective, in the days when 4 MB of main memory was commonplace, the maximum memory ceiling of 232 addresses was about 1,000 times larger than typical memory configurations. Today, when over 2 GB of main memory is common, the ceiling of 264 addresses is about ten trillion times larger, i.e., ten billion times more headroom than the 232 case.”

Skizz Nov 25 2009

@hellonearthis: the amount of data moved between RAM and the CPU is already greater than the ‘bits’ of the CPU. The Intel chips move 32bytes at a time, specifically, the number of bytes in an L1 cache line. You can then load 128bits into a SIMD register.

Will we ever need more than 2^64 bytes of RAM? Imagine searching 2^64 bytes for a sequence of bytes (a string search). You need to increment a register to count from 0 to 2^64. Incrementing a register takes a small amount of energy, lets say, a pico watt (0.000000000001 watts) then doing it 2^64 times requires over 18 mega watts! Unless there’s significant power reduction or a change in the way computers work, 64 bit address should be enough for a while.

@Zack
Simple solution to filling 128bit address space.
Just add a 64bit GUID to each value for security reasons.

Joel Coehoorn Nov 25 2009

Just a note: if you want to *double* a 64bit address space, you only need *65* bits, not 128. I know you meant double the bits, but that’s not how it came out.

Some additional podcast URLs from Tom:

The Usenix LISA 2009 conference:
http://www.usenix.org/events/lisa09/

Delay Tolerant Networking http://en.wikipedia.org/wiki/Delay-tolerant_networking is how to send big files around the solar system.

Full video of talk from LISA 2009:
http://www.usenix.org/events/lisa09/tech/tech.html#scott

Keyloggers using DNS to signal back to their master is from “The Advanced Persistent Threat” by Michael K. Daly slides and video:
http://www.usenix.org/events/lisa09/tech/tech.html#daly

(This was based on info that was declassified only last month. Very good stuff)

IPv6 over Social Networks (april fools joke)
http://tools.ietf.org/html/rfc5514
and the first implementation:
http://apps.facebook.com/ipoverfb/

TED.com: Talks Nicholas Negroponte, in 1984, makes 5 predictions (4 came true)
http://www.ted.com/talks/lang/eng/nicholas_negroponte_in_1984_makes_5_predictions.html

When I said “Sysadmins have the responsibility but not the authority” I was referring to “System Administrators as Broker Technicians”, Nicole F. Velasquez, The University of Arizona, Suzanne P. Weisband, The University of Arizona. She presented this paper at CHIMIT 2009:
http://www.chimit09.org/programInDetail.html

Nokia talking about how IPv6 saves battery power on their phones:
http://www.youtube.com/watch?v=o5RbyK0m5OY

hbunny Nov 26 2009

Infinity Ward are the developers of Call of Duty: Modern Warfare 2, not id/John Carmack.

This isn’t the first game to use P2P technology for online gaming as both Company of Heroes and Supreme Commander used it. I wouldn’t be surprised to find other games pre-dating these.

In episode #75 Joel says that people having trouble installing Fog Creak software on Unix means Unix is bad, and Jeff claims that the Microsoft stack he’s using is 10x faster than LAMP because he read something somewhere about Facebook.

You’re both lucky you’re still funny :)

Pies, that’s a quote from Facebook. Take it up with them if you don’t believe that PHP is 10x slower than compiled Java or C#..

http://www.25hoursaday.com/weblog/2009/10/29/FacebookSeattleEngineeringRoadShowMikeShroepferOnEngineeringAtScaleAtFacebook.aspx

There are PHP web servers which then aggregate data from dedicated web services, in-memory caches and their relational database. They use PHP on the front-end because it is easy to learn, easy to develop in and it is very productive. However there are downsides such as the fact that their benchmarks have shown that [PHP] is ten times slower than if they used more traditional web programming technologies like C# or Java. They have done a lot of work to optimize PHP and will continue to invest in optimizations instead of switching the language they use on their front ends.

> Infinity Ward are the developers of Call of Duty: Modern Warfare 2, not id/John Carmack.

hBunny I am perfectly aware of that. I was referring to this:

http://www.escapistmagazine.com/news/view/95955-John-Carmack-Says-No-Dedicated-Servers-for-Rage

argherna Nov 29 2009

I don’t administer servers but after listening to this, I find myself wanting to. :) Great show guys.

@Skizz: a watt (or picowatt) is a unit for rate of power, not total energy used. You want to use watt-second (or kilowatt-hour, like on your electric bill). So the question is: how may picowatt-nanoseconds would it take to run the 64 bit register through its cycle?

But, cheap unit-of-measurement shots aside, I think having a wide bus would be a good thing, but not having to 0-pad a bunch of data or machine instructions.

@Jeff Keep in mind that the quote comes from someone who considers C# a more traditional web programming technology than PHP.

What can I say. There is no reason I know of for PHP being slower than Java. Both are compiled to bytecode and executed. Maybe the Java runtime environment is quicker, or the bytecode is better, but that hasn’t been my experience so far.

I don’t know C#, but since it also compiles to bytecode, I don’t see why it should be significantly slower/faster than PHP.

The IPv6 is 105 times every atom on the planet, so per your discussion, we shouldn’t have to worry about it until we colonize 105 planets.

JTSandvik Jan 17 2010

You guys are certainly confusing address space and width of the data bus. There are many 32-bit OS’es that support more than 4 GiB of RAM. Just look at Windows XP before SP1.
Another example: Most 8 bit OS’es are not limited to 256 Bytes of RAM, and 16-bit Windows did indeed support more than 65536 bytes of RAM.

The current limit of 4 GiB RAM on XP is partially a business decision.

Jeff has even blogged about different licenses of Windows server supporting differents amounts of RAM.