While node is doing the calculation, it won't be doing anything else (like serving the next request). If a more traditional server is doing the calculation, it will spin up another process to handle the next request.

If all you do is calculating Fibonacci, you can get ~(amount of CPUs) times the performance. You could use multinode for the same effect, but this is additional work.

In the end, it's a matter of the type of service you are doing. If it's a Fibonacci generator, you'd use something that's better suited than either node/JS or any other scripting language.

If you are doing something that's I/O heavy (which is probably the majority of today's web applications), node or other scripting languages might be better suited because they are easier to work with for most of us.

It's just tools. Not religion. I wouldn't use a hammer to remove a screw. And I definitely wouldn't write hateful articles (I'm referring to the original one) because somebody was using a screwdriver instead of a hammer to remove the screw.

The original Node.JS is cancer article is a silly troll.

But it's totally ridiculous how in response, people keep writing these terrible, straw-man Python servers to try to prove that Python is so horribly slow.

If you want to write Python web apps, there is a correct way to do it, and it isn't to use SimpleHTTPServer. Write a WSGI application, and serve it with any of a number of decent WSGI servers (just for starters, try uwsgi behind nginx; but if you really insist on directly serving requests out of a server written in an interpreted language, you could try gevent).

It should be noted that, with PyPy, the Python example executes in 3.924s.

    try:
        my_var
    except NameError:
        pass
    else:
        if my_var is not None:
            # Ted needs better examples
            ...

When would you EVER need to use this code? There is no situation in which you should ever need to use a variable in Python that may or may not be defined. While Ted's example may seem like a cheap shot, it does highlight an important problem with JavaScript: all the craziness with regards to types that aren't "real" types like undefined, arguments, and Array.

IMHO i think node.js sucks because it forces you to manually pass callbacks around. can't it remember my call site for me and use coroutines or call/cc or yield or something? even fork() exists on UNIX (or pthread_create()). why is passing callbacks around the answer? it's like using GOTO.

As a cancer survivor, just wanted to let you know that the poor taste exhibited here is pretty sad. When you want to make your point next time, use a title that doesn't include something that kills people. Thank you.

It's the equivalent of tying a giant boulder to the back of a Ferrari 599 and scoffing at how Ferrari can dare to call it a "high performance" car. Stop trying to drag giant boulders around.

It's not the main point of the article, but I just thought I'd point out that node already does have a WSGI/Rack-style library for folks who like that kind of thing. It's called Strata (http://stratajs.org). Disclaimer: I'm the author.

I think one thing that the article hints at is still relevant: "developers" nowadays throw around terms like "scalability" and other hype phrases and think that since they know the slightest thing about some new technology, they're a real developer. Sadly, this is incredibly naive. Any script kiddie / code monkey can some application in the latest over-hyped framework and say "HEY LOOK, IT CAN HAS NOSQL, IT CAN HAS SCALABILITY, IT DOES BIGGGGDATA", and write some inefficient code for this application. The truth is that many don't even understand basic data structures and how a computer processes information at a lower level. If you don't understand what something such as algorithmic complexity is, and can't look at your code from a more scientific and critical point of view, don't call yourself a freaking developer. Pick up a book and learn what REAL computer science is, not what the latest and greatest over-hyped framework is called.

Is it just me or is Brian Beck misunderstood Python idioms? What's with the try/except block? There's no auto-vivification in Python. So you just don't try to catch a NameError. You just let it blow up in your test and fix your code afterwards. I'm really tired of these straw man examples.

The article uses two examples to demonstrate that v8 is in fact fast. However, when using python or ruby to create a web server, the server will actually run in parallel (multiple threads), therefore, the average waiting time could be less than the node.js version.

I read your benchmarks on Ruby, but you didn't list the implementation or version of Ruby you used.

I'd guess you used MRI 1.8.X.

I decided to benchmark other versions(and implementations) of Ruby.

= jruby 1.6.4 (7.3 seconds)

      user     system      total        real
  7.388000   0.000000   7.388000 (  7.349000)

= Rubinius 1.2.4 (Little under 6 seconds)

   user     system      total        real
  5.940015   0.006878   5.946893 (  5.842485)

= CRuby 1.9.2 (38 seconds)

      user     system      total        real
 38.250000   0.090000  38.340000 ( 38.376857)

= CRuby 1.8.7 (Little under 137 seconds)

      user     system      total        real
  136.960000   0.240000 137.200000 (137.437748)

Thanks!

Node has a mantra which addresses this whole thread, right back to the beginning. "Everything in node runs in parallel, except your code". Manuel Kiessling has a written a great tutorial (http://nodebeginner.org) that shows how node noobs enter and can escape the blocking pitfall. Node is the right tool when your requests block on I/O. I'm not convinced about CPU heavy apps, yet.

I wonder if

1) node.js async i/o is any different from haskell i/o? 2) author knows something about strongly-typed languages, or he deliberately banned them those from server side? Imho, dziuba tried to drop a hint about strongly-typed languages, not python or ruby.

guys guys guys. you do realize ted is trolling us all right (go look at his twitter @dozba right now. I think he is having a great time). he is a pro at this (http://teddziuba.com/2011/07/the-craigslist-reverse-programm...)

Also if his thoughts on node.js don't annoy you enough go take a look at his archive: http://teddziuba.com/archives.html. He blogs/trolls/thinks about NoSQL, OS X, twisted/tornado, python, queues and more.

The nice thing about node (or any other event-based platform) is that memoizing the Fibonacci function is trivial, whereas in a multi-threaded implementation it would be tricky and error-prone.

This is where gcd can help. http://en.wikipedia.org/wiki/Grand_Central_Dispatch

I just hope you will never have to experience what cancer is, otherwise you will understand how important a "cure" could be.

I'm getting 0.020s tops for that fibonacci code on node (time curl http://localhost/), even going up to `1.1210238130165696e+167` (800th number). OSX Lion on a C2d 2.3ghz.

Python 2.7.1 took 1m25.259s (no server).

Am I doing something wrong? Or is there some incredibly optimized code path for OSX?

edit: even weirder, `time node fibonacci.js` without a server takes 0.090s.

I like how every rebuttal turns into "how fast can you compute a fibonacci number". I was looking for a function that burned a nontrivial amount of CPU, the choice of fibonacci was arbitrary. Let's move on from that.

What I was showing was that if your request handler does a nontrivial amount of CPU work, it will hold up the event loop and kill any "scalability" you think you're getting from Node.

If you Node guys were really that irritated by this, you're going to be super pissed when you learn how computers work.

I ain't even mad.

I would argue that heavily CPU-bound stuff shouldn't be run in a web app. It's much better to offload the task to a worker system via redis/zeromq/kestrel/etc. The majority of activity you see in every web app I've ever designed has been almost exclusively I/O bound.

But Ted, do you not understand that people use node.js because its a familiar language and a (relatively) fast runtime?

Nobody has been using for computing fib though. Nobody has been putting in things that burn non-trivial amounts of CPU though.

Its all about this: http://jlouisramblings.blogspot.com/2011/10/one-major-differ...

The problem is that fibonacci was a bad choice in your example and it proved nothing.

It is fairly easy to scale node with multiple processes. As long as you don't have a long running (such as fibonacci) operation. If you do have tasks like that, process outside node and check for completion. Like how Tasks work in Google App Engine.

Also, most other web stacks will discourage you from running a 30s fib on a thread processing web requests. This isn't specific to node.

Node and coffeescript has worked really well for us. Product coming out later this month.

[EDIT: Just noticed that several other people pointed out the same thing. Looks like most node users are aware of potential problems, but I can see such issues being confusing for new users.]

If your using node and doing work other than serving simple pages, then your probably sending that work off. Most production serious Node-ers know not to do heavy lifting within the system. I really don't know where anyone from the Node community has ever recommended stuffing their single threaded V8 backed event processor with cpu heavy tasks.

I still don't know why people are so maximist with their tools. NodeJS is a tool. It works well with your _other_ tools.

There - is - no - perfect - tool, no perfect programmer, not even perfect intent.

Node is an asynchronous programming framework bundled with a largely async library. If you have 40 cores on your system, you would presumably run 40 instances of node for a CPU intensive webserver(using multinode etc). So the event handler won't get stuck as long as there are available cores.

What about a single core system? Well I guess a threaded/multi-process solution would time slice the fibonacci requests between two threads so that both requests are served in 10 seconds, instead of one request in 5 seconds and the next one in 10 seconds like the node.js solution. Does not sound much better.

If you have done any kind of systems programming, you would know that availability of asynchronous I/O is a life saver, and can simplify your locking model greatly. 90% of the issues you face when building such systems is that some module deep inside grabbed a lock and issued a blocking I/O request and now the rest of the system is bottle necked behind it. Node.js is basically trying to eliminate the possibility of the existence of such a module. This complicates the issue of I/O calls, but simplifies locking in the sense that you don't really need all those locks in your system. In node.js of course there are no locks. The complexity moves from reasoning about locks to reasoning about correctly handling I/O calls and responses. IMO, this is the correct place to move the complexity to, because locks are simply an abstraction the programmer built. When debugging the system, we have to deal with - "How to get rid of this monolithic lock", when the real problem is - "This IO is taking too long we shouldn't be blocking on it". An async programming framework tackles this problem head on.

If you use Python/Perl you will never really know the number of instances of the process to run, Too many and you time slice requests, slow down all of them, increase your queueing buffers instead of just dropping the extra requests. Too few processes and you start dropping requests that you could have served. With a framework like node.js the number of instances you want is equal to the number of cores on the server.

Of course node.js can be an inappropriate solution for a wide variety of reasons, but I could not find anything really relevant regarding that in your post. Alex Payne discusses some issues here. You may want to read it. http://al3x.net/2010/07/27/node.html

ted you're so cool be my friend pleaseeeee