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  1. What's the difference between:

    • Asynchronous,
    • Non-Blocking, and
    • Event-base architectures?
  2. Can something be both asynchronous and non-blocking (and event-based)?

  3. What's most important in programming, to have something: asynchronous, non-blocking and/or event-base (or all 3)?

If you could provide examples, that would be great.

This question is being asked because I was reading this great StackOverflow article on a similar topic but it doesn't answer my questions above.

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4 Answers 4

up vote 29 down vote accepted

Asynchronous Asynchronous literally means not synchronous. Email is asynchronous. You send a mail, you don't expect to get a response NOW. But it is not non-blocking. Essentially what it means is an architecture where "components" send messages to each other without expecting a response immediately. HTTP requests are synchronous. Send a request and get a response.

Non-Blocking This term is mostly used with IO. What this means is that when you make a system call, it will return immediately with whatever result it has without putting your thread to sleep (with high probability). For example non-blocking read/write calls return with whatever they can do and expect caller to execute the call again. try_lock for example is non-blocking call. It will lock only if lock can be acquired. Usual semantics for systems calls is blocking. read will wait until it has some data and put calling thread to sleep.

Event-base This term comes from libevent. non-blocking read/write calls in themselves are useless because they don't tell you "when" should you call them back (retry). select/epoll/IOCompletionPort etc are different mechanisms for finding out from OS "when" these calls are expected to return "interesting" data. libevent and other such libraries provide wrappers over these event monitoring facilities provided by various OSes and give a consistent API to work with which runs across operating systems. Non-blocking IO goes hand in hand with Event-base.

I think these terms overlap. For example HTTP protocol is synchronous but HTTP implementation using non-blocking IO can be asynchronous. Again a non-blocking API call like read/write/try_lock is synchronous (it immediately gives a response) but "data handling" is asynchronous.

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In an asynchronous hardware, code asks some entity to do something and is free to do other things while the action gets done; once the action is complete, the entity will typically signal the code in some fashion. A non-blocking architecture will make note of spontaneously-occurring actions which code might be interested in, and allow code to ask what such actions have occurred, but code will only come aware of such actions when it explicitly asks about them. An event-based architecture will affirmatively notify code when events spontaneously occur.

Consider a serial port, from which code will want to receive 1,000 bytes.

In a blocking-read architecture, the code will wait until either 1,000 bytes have arrived or it decides to give up.

In an asynchronous-read architecture, the code will tell the driver it wants 1,000 bytes, and will be notified when 1,000 bytes have arrived.

In a non-blocking architecture, the code may ask at any time how many bytes have arrived, and can read any or all such data when it sees fit, but the only way it can know when all the data has arrived is to ask; if the code wants to find out within a quarter second when the 1000th byte has arrived, it must check every quarter-second or so.

In an event-based architecture, the serial port driver will notify the application any time any data arrives. The driver won't know how many bytes the application wants, so the application must be able to deal with notifications for amounts that are smaller or larger than what the application wants.

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Generally, a non-blocking architecture is based on method calls that, while they may execute for a long time on the worker thread, do not block the calling thread. If the calling thread needs to acquire information about or from the task the worker thread is executing, it is up to the calling thread to do that.

An event-based architecture is based on the concept of code being executed in response to events that are fired. The timing of code execution is generally not deterministic, but events may invoke blocking methods; just because a system is event-based does not mean everything it does is not blocking.

Generally, an asynchronous architecture is an event-based, non-blocking architecture.

When an asynchronous call is made, event handlers are registered with the API providing synchronization services, in order to notify the caller that the something the caller is interested in has happened. The call then immediately returns (non-blocking behavior), and the caller is free to continue execution. When events are fired back to the calling process, they will be handled on some thread in that process.

It is important to understand whether events will be handled on the same thread or not, as this will affect the non-blocking nature of the execution, but I'm not personally aware of any libraries that do asynchronous execution management on a single thread.

I removed the above paragraph because it's not strictly correct as stated. My intent was to say that even though the operations in the system are non-blocking, such as making calls out to an OS facility and continuing execution, the nature of single-threaded execution means that when events are fired, they will be competing with other processing tasks for compute time on the thread.

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Isn't your last paragraph contradicting your statement that "asynchronous architecture is ... non-blocking" –  nickb Oct 28 '11 at 17:36
    
I guess I didn't do a very good job of addressing the "definitions" part of your question; I'll post an update. But no, the nature of single-threaded execution is that every operation is inherently blocking while it is running, which makes asynchrony even more useful. –  arootbeer Oct 28 '11 at 22:37

To me, non-blocking means that the exectuion of an action in a thread does not depend on the execution of other threads, it does in particular not require critial section.

Asynchronous means that the exectuion happens outside of the flow of the caller, and is potentially deffered. The execution typically occurs in another thread.

Reading concurrent data is non-blocking (no need to lock), yet synchronous. Inversily, writting data concurrently in a synchronous manner is blocking (requires an exclusive lock). A way to make it non-blocking from the perspective on the main flow is to make the writes asynchronous and defer their execution.

The concept of event is something else, which roughly speaking means that you are informed when something occurs. If writes have been executed asynchronously, an event can be raised to inform other parts of the system once the write have been executed. The other parts will respond to the event. System can be built solely on events as the only way to communicate between components (think of the actor model), but it must not necessary be the case.

The three terms are related, but are different concepts to me. It can be that people use them in a somewhat interchangeable way though.

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