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Node.js looks interesting, BUT I must miss something - isn't Node.js tuned only to run on a single process and thread?

Then how does it scale for multi-core CPUs and multi-CPU servers? After all, it is all great to make fast as possible single-thread server, but for high loads I would want to use several CPUs. And the same goes for making applications faster - seems today the way is use multiple CPUs and parallelize the tasks.

How does Node.js fit into this picture? Is its idea to somehow distribute multiple instances or what?

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It looks like Ryah is starting to get serious about including built-in multi-core support in node: github.com/joyent/node/commit/… –  broofa Oct 13 '11 at 21:37
Please change your accepted answer –  George W Bush Feb 17 '13 at 5:35
PM2 process manager use cluster module internally to spread your NodeJS apps to all cores available : github.com/Unitech/pm2 –  tknew Apr 14 '14 at 5:49

14 Answers 14

up vote 78 down vote accepted

(I can't delete this answer, but it's outdated, now. For a more detailed answer, see Dave Dopson's below.)

Node.js doesn't support multiple CPUs out of the box, yet as per the web page:

But what about multiple-processor concurrency? Threads are necessary to scale programs to multi-core computers. Processes are necessary to scale to multi-core computers, not memory-sharing threads. The fundamentals of scalable systems are fast networking and non-blocking design—the rest is message passing. In future versions, Node.js will be able to fork new processes (using the Web Workers API), but this is something that fits well into the current design.

But you can still use the other cores; you just have to write more code. It's not something that Node.js will do automatically for you. On the positive side, this gives you more control.

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That's great and all, but Node really does force a lot of overhead in to that model. The traditional model for this is "open the server socket, then fork children", which allows all the children to share the socket cleanly, without a load balancer. Kind of weird that Node doesn't support that. –  Christopher Smith Mar 9 '11 at 9:13
@Christopher: What do you mean by "standard multi-processing model"? How is it different from multi-threading? Also note that fork() is a very expensive operation (it creates a new process). So unless that process runs for a long time (= one time setup cost), it's not very useful. But the biggest drawback is that you can't easily share data with other threads. So running a load balancer is a hack but it solves the issue with very little effort. –  Aaron Digulla Apr 12 '11 at 7:15
@aaron digulla: I think you are missing the point of the model. The idea is you bind a socket to the port and then fork() off your worker processes. They'll run just as long as in the load balancing approach. Yes, they share almost nothing: basically only the socket. That's the idea though. It is a lot simpler and efficient to share a socket than to jump through all the load balancing hoops. –  Christopher Smith Jun 28 '11 at 15:39
Again, you aren't sharing any memory. All you are sharing is the socket, which actually improves performance. There is no lost performance (actually, sharing memory tends to lead to greater performance, but also greater complexity). –  Christopher Smith Jul 26 '11 at 6:30
Node DOES support the shared-socket mode in v0.6.x... See my post below... –  Dave Dopson Feb 8 '12 at 19:47

[This post is up-to-date as of 2012-09-02 (newer than above).]

Node.js absolutely does scale on multi-core machines.

Yes, Node.js is one-thread-per-process. This is a very deliberate design decision and eliminates the need to deal with locking semantics. If you don't agree with this, you probably don't yet realize just how insanely hard it is to debug multi-threaded code. For a deeper explanation of the Node.js process model and why it works this way (and why it will NEVER support multiple threads), read my other post.

So how do I take advantage of my 16 core box?

Two ways:

  • For big heavy compute tasks like image encoding, Node.js can fire up child processes or send messages to additional worker processes. In this design, you'd have one thread managing the flow of events and N processes doing heavy compute tasks and chewing up the other 15 CPUs.
  • For scaling throughput on a webservice, you should run multiple Node.js servers on one box, one per core and split request traffic between them. This provides excellent CPU-affinity and will scale throughput nearly linearly with core count.

Scaling throughput on a webservice

Since v0.6.X Node.js has included the cluster module straight out of the box, which makes it easy to set up multiple node workers that can listen on a single port. Note that this is NOT the same as the older learnboost "cluster" module available through npm.

if (cluster.isMaster) {
  // Fork workers.
  for (var i = 0; i < numCPUs; i++) {
} else {
  http.Server(function(req, res) { ... }).listen(8000);

Workers will compete to accept new connections, and the least loaded process is most likely to win. It works pretty well and can scale up throughput quite well on a multi-core box.

If you have enough load to care about multiple cores, then you are going to want to do a few more things too:

  1. Run your Node.js service behind a web-proxy like Nginx or Apache - something that can do connection throttling (unless you want overload conditions to bring the box down completely), rewrite URLs, serve static content, and proxy other sub-services.

  2. Periodically recycle your worker processes. For a long-running process, even a small memory leak will eventually add up.

  3. Setup log collection / monitoring

PS: There's a discussion between Aaron and Christopher in the comments of another post (as of this writing, its the top post). A few comments on that:

  • A shared socket model is very convenient for allowing multiple processes to listen on a single port and compete to accept new connections. Conceptually, you could think of preforked Apache doing this with the significant caveat that each process will only accept a single connection and then die. The efficiency loss for Apache is in the overhead of forking new processes and has nothing to do with the socket operations.
  • For Node.js, having N workers compete on a single socket is an extremely reasonable solution. The alternative is to set up an on-box front-end like Nginx and have that proxy traffic to the individual workers, alternating between workers for assigning new connections. The two solutions have very similar performance characteristics. And since, as I mentioned above, you will likely want to have Nginx (or an alternative) fronting your node service anyways, the choice here is really between:

Shared Ports: nginx (port 80) --> Node_workers x N (sharing port 3000 w/ Cluster)


Individual Ports: nginx (port 80) --> {Node_worker (port 3000), Node_worker (port 3001), Node_worker (port 3002), Node_worker (port 3003) ...}

There are arguably some benefits to the individual ports setup (potential to have less coupling between processes, have more sophisticated load-balancing decisions, etc.), but it is definitely more work to set up and the built-in cluster module is a low-complexity alternative that works for most people.

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can you offer any advice for running different nodejs based services on one box? E.g. Say I have 1 server, and want to run myservice1.js on CpuCore1, and myservice2.js on CpuCore2. Can I use cluster for this? or is it only useful for creating cloned services? –  UpTheCreek Sep 20 '12 at 14:36
You should post a question for that! (and I'll copy this comment over as your 1st answer). What you are wanting to do is actually really really simple. You wouldn't really need "cluster", you'd just run two different node services. Two scripts, two processes, two ports. Eg, you could have serviceA listen on 3000 and serviceB listen on 3001. Each of those services might use "cluster" to have 1+ workers and recycle them periodically, etc. Then you could configure Nginx to listen on port 80 and to forward to the correct service based on the incoming "Host" header and / or the URL path. –  Dave Dopson Sep 20 '12 at 16:56
Thanks. I've posted a related question already - you described pretty much what I had in mind, but I'm unsure about how to target CPU cores (when using something like forever). –  UpTheCreek Sep 20 '12 at 18:01
Great answer ddopson. What is the best way to have two node processes communicate with each other on the same machine? Is there a faster protocol than TCP when they're on the same machine? –  Wind Up Toy Jan 16 '13 at 7:31
@WindUpToy - first, you are probably overthinking it. TCP is really fast. 2nd, you should open a new question so I can write a longer answer. The meta-answer is to use whatever feels natural and leads to the cleanest code. You should look at Node's built-in IPC mechanism. Under the covers, it uses a UNIX pipe to communicate to the child, but wraps that in a higher-level semantic. –  Dave Dopson Jan 16 '13 at 18:17

One method would be to run multiple instances of node.js on the server and then put a load balancer (preferably a non-blocking one like nginx) in front of them.

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node.js is about as fast as nginx, you could put a node.js load balancer in front of your node.js servers if you wanted to as well :) –  mikeal Mar 13 '10 at 18:47
ryan specifically said not to do this until node was more stable. Best way is to run nginx in front of node. –  resopollution Jul 29 '10 at 9:52
as for nginx in front of node, it won't solve certain problems like if you have an in-memory queue. 2 node instances will not be able to access each other's queue. –  resopollution Jul 29 '10 at 9:54
As well, nginx doesn't support HTTP 1.1 fully, so things like WebSockets can not be proxied. –  ashchristopher Apr 13 '11 at 14:28
@resopollution this is by design –  Hortinstein Dec 29 '11 at 4:34

Ryan Dahl answers this question in the tech talk he gave at Google last summer. To paraphrase, "just run multiple node processes and use something sensible to allow them to communicate. e.g. sendmsg()-style IPC or traditional RPC".

If you want to get your hands dirty right away, check out the spark2 Forever module. It makes spawning multiple node processes trivially easy. It handles setting up port sharing, so they can each accept connections to the same port, and also auto-respawning if you want to make sure a process is restarted if/when it dies.

UPDATE - 10/11/11: Consensus in the node community seems to be that Cluster is now the preferred module for managing multiple node instances per machine. Forever is also worth a look.

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Forever and Cluster do very different things. You might even use both. Forever restarts a process when it dies. Cluster manages multiple workers. You'd use Forever to manage your master process... –  Dave Dopson Feb 7 '12 at 23:28
also, the learnboost module is largely supplanted by the version of Cluster baked into Node v0.6.x (warning: the API surface does differ) –  Dave Dopson Feb 7 '12 at 23:28

Multi-node harnesses all the cores that you may have.
Have a look at http://github.com/kriszyp/multi-node.

For simpler needs, you can start up multiple copies of node on different port numbers and put a load balancer in front of them.

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Future version of node will allow you to fork a process and pass messages to it and Ryan has stated he wants to find some way to also share file handlers, so it won't be a straight forward Web Worker implementation.

At this time there is not an easy solution for this but it's still very early and node is one of the fastest moving open source projects I've ever seen so expect something awesome in the near future.

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Spark2 is based on Spark which is now no longer maintained. Cluster is its successor, and it has some cool features, like spawning one worker process per CPU core and respawning dead workers.

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The original question and a lot of these answers are a few months old and with node moving so fast I appreciate you adding the blurb about Cluster. After looking at Cluster and its examples, it looks exactly like what I (or the OP?) want for Node, thanks! –  Riyad Kalla Sep 2 '11 at 20:39

This link could provide valuable insight on node.js with multi-code processor.

And here are some threads talking about node.js on multicore processors.

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Try not to post links without code as if those links break, the answer becomes useless. –  Guy Jul 13 at 11:36

I'm using Node worker to run processes in a simple way from my main process. Seems to be working great while we wait for the official way to come around.

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why node worker example.js can't run, my node is 0.3.3 pre version –  guilin 桂林 Dec 19 '10 at 9:00

The new kid on the block here is LearnBoost's "Up".

It provides "Zero-downtime reloads" and additionally creates multiple workers (by default the number of CPUs, but it is configurable) to provide the best of all Worlds.

It is new, but seems to be pretty stable, and I'm using it happily in one of my current projects.

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You can use cluster module. Check this.

var cluster = require('cluster');
var http = require('http');
var numCPUs = require('os').cpus().length;

if (cluster.isMaster) {
  // Fork workers.
for (var i = 0; i < numCPUs; i++) {

cluster.on('exit', function(worker, code, signal) {
    console.log('worker ' + worker.process.pid + ' died');
} else { 
// Workers can share any TCP connection
// In this case its a HTTP server
http.createServer(function(req, res) {
  res.end("hello world\n");
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As mentioned above, Cluster will scale and load-balance your app across all cores.

adding something like

cluster.on('exit', function () {

Will restart any failing workers.

These days, a lot of people also prefer PM2, which handles the clustering for you and also provides some cool monitoring features.

Then, add Nginx or HAProxy in front of several machines running with clustering and you have multiple levels of failover and a much higher load capacity.

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It's also possible to design the web-service as several stand alone servers that listen to unix sockets, so that you can push functions like data processing into seperate processes.

This is similar to most scrpting/database web server architectures where a cgi process handles business logic and then pushes and pulls the data via a unix socket to a database.

the difference being that the data processing is written as a node webserver listening on a port.

it's more complex but ultimately its where multi-core development has to go. a multiprocess architecture using multiple components for each web request.

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It's possible to scale NodeJS out to multiple boxes using a pure TCP load balancer (HAProxy) in front of multiple boxes running one NodeJS process each.

If you then have some common knowledge to share between all instances you could use a central Redis store or similar which can then be accessed from all process instances (e.g. from all boxes)

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Unless you've got single core CPUs in those servers, that's not going to utilise all your CPU capacity (unless you're doing something else too). –  UpTheCreek Sep 20 '12 at 14:33

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