Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I've been getting more into the internals of the node.js architecture, and a term I see coming up a lot is "tick" as in "next tick of the event loop" or the function nextTick().

What I haven't seen is a solid definition of what exactly a "tick" is. Based on various articles (such as this one), I've been able to piece a concept together in my head, but I'm not sure how accurate it is.

Can I get a precise and detailed description of a node.js event loop tick?

share|improve this question
since its "loop" , it means "the next time it loops", so a tick its a whole loop , it ends when no events are triggered and nodejs has looped all to check if any is triggered, "nextTick" it means the next loop after the current one. –  Phoenix Nov 6 '13 at 21:28

2 Answers 2

up vote 25 down vote accepted

Remember that while JavaScript is single-threaded, all of node's I/O and calls to native APIs are either asynchronous (using platform-specific mechanisms), or run on a separate thread. (This is all handled through libuv.)

So when there's data available on a socket or a native API function has returned, we need a synchronized way to invoke the JavaScript function that is interested in the particular event that just happened.

It's not safe to just call the JS function from the thread where the native event happened for the same reasons that you'd encounter in a regular multi-threaded application – race conditions, non-atomic memory access, and so forth.

So what we do is place the event on a queue in a thread-safe manner. In oversimplified psuedocode, something like:

lock (queue) {

Then, back on the main JavaScript thread (but on the C side of things), we do something like:

while (true) {
    // this is the beginning of a tick

    lock (queue) {
        var tickEvents = copy(queue); // copy the current queue items into thread-local memory
        queue.empty(); // ..and empty out the shared queue

    for (var i = 0; i < tickEvents.length; i++) {

    // this the end of the tick

The while (true) (which doesn't actually exist in node's source code; this is purely illustrative) represents the event loop. The inner for invokes the JS function for each event that was on the queue.

This is a tick: the synchronous invocation of zero or more callback functions associated with any external events. Once the queue is emptied out and the last function returns, the tick is over. We go back to the beginning (the next tick) and check for events that were added to the queue from other threads while our JavaScript was running.

What can add things to the queue?

  • process.nextTick
  • setTimeout/setInterval
  • I/O (stuff from fs, net, and so forth)
  • crypto's processor-intensive functions like crypto streams, pbkdf2, and the PRNG (which are actually an example of...)
  • any native modules that use the libuv work queue to make synchronous C/C++ library calls look asynchronous
share|improve this answer
+1 for a great answer! –  Brandon Tilley Nov 6 '13 at 21:54
Yeah you nailed this. The copying of the queue and running through all the events on the copy was what I was specifically wondering about. Makes a lot of sense now though. Thanks. –  user1334007 Nov 7 '13 at 23:09
Is this the famous "Asynchronous Iteration pattern" algo ? –  Stef Feb 26 at 16:59
@Stef: That is about writing regular JavaScript loops where a function call in the loop body contains an asynchronous callback. This post is about how node/V8 implements the event loop concept. –  josh3736 Feb 26 at 18:08

The event loop is the heart of JavaScript so understanding it is very important to becoming a good programmer. Here is a great article that goes over the JavaScripts event loop very clearly and quickly.

Check it out here: http://blog.carbonfive.com/2013/10/27/the-javascript-event-loop-explained/

Here is a great answer from another developer from stackoverflow that points out that there are a few exceptions to the rule when it comes to synchronous event loop invocations.

Check it out here: Is javascript guaranteed to be single-threaded?

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.