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I have a question: what is the difference between concurrent programming and parallel programing? I asked google but didn't find anything that helped me to understand that difference. Could you give me an example for both?

For now I found this explanation: - but "concurrency is a property of the program" vs "parallel execution is a property of the machine" isn't enough for me - still I can't say what is what.

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possible duplicate of Concurrency vs Parallelism - What is the difference? – cic May 15 '15 at 13:06

15 Answers 15

up vote 183 down vote accepted

If you program using threads (concurrent programming), it's not necessarily going to be executed as such (parallel execution), since it depends on whether the machine can handle several threads.

Here's a visual example. Threads on a non-threaded machine:

        --  --  --
     /              \
>---- --  --  --  -- ---->>

Threads on a threaded machine:

    /      \

The dashes represent executed code. As you can see, they both split up and execute separately, but the threaded machine can execute several separate pieces at once.

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Parallel execution and parallel programming are not the same thing. The answer from Jon Harrop is correct. But it seems that the question itself confuses parallel execution and parallel programming. – Blaisorblade Aug 20 '11 at 21:52
The ability to execute threads in parallel depends upon more than just the machine. For example, OCaml (and Python?) executes threads concurrently but not in parallel due to a global lock for the garbage collector. – Jon Harrop Aug 22 '11 at 8:48
Parallel programming is not a subset of concurrent programming, according to this blog; you're answer doesn't take that into account, what do you think about this statement? – Kevin Oct 12 '11 at 11:31
@Kevin - what that blog says is exactly what my answer says... – Tor Valamo Nov 12 '11 at 23:14
@Kevin: "Parallel programming is not a subset of concurrent programming, according to this blog" but the blog article you cite says " a concept more general than parallelism" – Jon Harrop Jan 7 '12 at 7:21

Concurrent programming regards operations that appear to overlap and is primarily concerned with the complexity that arises due to non-deterministic control flow. The quantitative costs associated with concurrent programs are typically both throughput and latency. Concurrent programs are often IO bound but not always, e.g. concurrent garbage collectors are entirely on-CPU. The pedagogical example of a concurrent program is a web crawler. This program initiates requests for web pages and accepts the responses concurrently as the results of the downloads become available, accumulating a set of pages that have already been visited. Control flow is non-deterministic because the responses are not necessarily received in the same order each time the program is run. This characteristic can make it very hard to debug concurrent programs. Some applications are fundamentally concurrent, e.g. web servers must handle client connections concurrently. Erlang is perhaps the most promising upcoming language for highly concurrent programming.

Parallel programming concerns operations that are overlapped for the specific goal of improving throughput. The difficulties of concurrent programming are evaded by making control flow deterministic. Typically, programs spawn sets of child tasks that run in parallel and the parent task only continues once every subtask has finished. This makes parallel programs much easier to debug. The hard part of parallel programming is performance optimization with respect to issues such as granularity and communication. The latter is still an issue in the context of multicores because there is a considerable cost associated with transferring data from one cache to another. Dense matrix-matrix multiply is a pedagogical example of parallel programming and it can be solved efficiently by using Straasen's divide-and-conquer algorithm and attacking the sub-problems in parallel. Cilk is perhaps the most promising language for high-performance parallel programming on shared-memory computers (including multicores).

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this answer is far more superior than the accepted. a little diagram for kids made it popular though.. shame – Boppity Bop Jan 2 '13 at 19:07
"The hard part of parallel programming ... such as granularity and communication." If parallel tasks need to communicate, doesn't that make them concurrent? – Justin M. Keyes Feb 3 '13 at 0:35
"If parallel tasks need to communicate, doesn't that make them concurrent?". Wow, great question! Not necessarily, no. Supercomputers are often programmed with bulk parallel operations followed by global redistribution of data and more bulk parallelism. So there is parallelism and communication but no real concurrency to speak of. In this context, I was thinking more of multicore parallelism where communication means cache complexity, e.g. communication required for cache coherency. Although that is concurrent it is also not directly visible. – Jon Harrop Feb 3 '13 at 1:25
@BoppityBop Just because I can say in a drawing what he said in a novel doesn't make my answer less correct. Just easier to read for those who actually don't know the answer. Which I guess is the point of coming here. You can write a book in the language used by this post, but that's going to be absolutely jibberish to most readers, since you probably didn't google this question if you already know half of what jon wrote. – Tor Valamo Apr 4 '14 at 21:20
The picture was very helpful for me, someone pretty new to the topic, and the description from @JonHarrop was useful to me, someone who appreciates correct, even if technical, language. Both answers contributed to my more complete understanding. We all win! (although I do appreciate the distinction made between parallel execution and parallel programming) – Sammaron Oct 9 '14 at 18:30

I believe concurrent programming refers to multithreaded programming which is about letting your program run multiple threads, abstarcted from hardware details.

Parallel programming refers to specifically designing your program algorithms to take advantage of available parallel execution. For example, you can execute in parallel two branches of some algorithms in expectation that it will hit the result sooner (on average) than it would if you first checked the first then the second branch.

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To put it another way, executing two things in parallel can get them done twice as fast. Executing two things concurrently might still take the same amount of time as doing first one and then the other if there is just one CPU time-slicing back and forth between running a bit of the first and then a bit of the second, etc. – user189169 Dec 13 '09 at 22:24

Interpreting the original question as parallel/concurrent computation instead of programming.

In concurrent computation two computations both advance independently of each other. The second computation doesn't have to wait until the first is finished for it to advance. It doesn't state however, the mechanism how this is achieved. In single-core setup, suspending and alternating between threads is required (also called pre-emptive multithreading).

In parallel computation two computations both advance simultaneously - that is literally at the same time. This is not possible with single CPU and requires multi-core setup instead.

suspending and taking turns versus parallel computing

According to: "Parallel vs Concurrent in Node.js".

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I found this content in some blog. Thought it is useful and relevant.

Concurrency and parallelism are NOT the same thing. Two tasks T1 and T2 are concurrent if the order in which the two tasks are executed in time is not predetermined,

T1 may be executed and finished before T2, T2 may be executed and finished before T1, T1 and T2 may be executed simultaneously at the same instance of time (parallelism), T1 and T2 may be executed alternatively, ... If two concurrent threads are scheduled by the OS to run on one single-core non-SMT non-CMP processor, you may get concurrency but not parallelism. Parallelism is possible on multi-core, multi-processor or distributed systems.

Concurrency is often referred to as a property of a program, and is a concept more general than parallelism.


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1. Definitions:

Classic scheduling of tasks can be SERIAL, PARALLEL or CONCURRENT

SERIAL: Analysis shows that tasks MUST BE executed one after the other in a known sequence tricked order OR it will not work.

I.e.: Easy enough, we can live with this

PARALLEL: Analysis shows that tasks MUST BE executed at the same time OR it will not work.

  • Any failure of any of the tasks -- functionally or in time -- will result in total system failure.
  • All tasks must have a common reliable sense of time.

I.e.: Try to avoid this or we will have tears by tea time.

CONCURRENT. Analysis shows that we NEED NOT CARE. We are not careless, we have analysed it and it does not matter; we can therefore execute any task using any available facility at any time.


Often the scheduling available changes at known events which I called a state change.

2. This is not a { Software | Programming } Feature but a Systems Design approach:

People often think this is about software but it is in fact a systems design concept that pre-dates computers

Software systems were a little slow in the uptake, very few software languages even attempt to address the problem.

You might try looking up the TRANSPUTER language occam if you are interested in a good try.

( occam has many principally innovative ( if not second to none ) features, incl. explicit language support for PAR and SER code-parts execution constructors that other languages principally suffer from having in the forthcomming era of Massive Parallel Processor Arrays available in recent years, re-inventing the wheel InMOS Transputers used more than 35 years ago (!!!) )

3. What a good Systems Design takes care to cover:

Succinctly, systems design addresses the following:

THE VERB - What are you doing. ( operation or algorithm )

THE NOUN - What are you doing it to. ( Data or interface )

WHEN - Initiation, schedule, state changes, SERIAL, PARALLEL, CONCURRENT

WHERE - Once you know when things happen then you can say where they can happen and not before.

WHY - Is this a way to do it? Is there any other ways? Is there a best way?

.. and last but not least .. WHAT HAPPENS IF YOU DO NOT DO IT ?

4. Visual examples of PARALLEL vs. SERIAL approaches:

Recent Parallel architectures available in 2014 in action on arrays of 16-, 64-, 1024- parallel RISC uP-s

Quarter of century back - a part of the true parallel history with Inmos Transputer CPU demo video from the early 1990s

Good luck

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I see caps everywhere – Bruno Polaco Dec 18 '14 at 19:51
This answer is more complicated than the topics of concurrency and parallelism together. – Kai Sellgren Oct 3 '15 at 11:14
@KaiSellgren And it isn't even correct either... >.> – YoYoYonnY Mar 12 at 22:38

In programming, concurrency is the composition of independently executing processes, while parallelism is the simultaneous execution of (possibly related) computations.
- Andrew Gerrand -


Concurrency is the composition of independently executing computations. Concurrency is a way to structure software, particularly as a way to write clean code that interacts well with the real world. It is not parallelism.

Concurrency is not parallelism, although it enables parallelism. If you have only one processor, your program can still be concurrent but it cannot be parallel. On the other hand, a well-written concurrent program might run efficiently in parallel on a multiprocessor. That property could be important...
- Rob Pike -

To understand the difference, I strongly recommend to see this Rob Pike(one of Golang creators)'s video. 'Concurrency Is Not Parallelism'

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Although there isn’t complete agreement on the distinction between the terms parallel and concurrent, many authors make the following distinctions:

  • In concurrent computing, a program is one in which multiple tasks can be in progress at any instant.
  • In parallel computing, a program is one in which multiple tasks cooperate closely to solve a problem.

So parallel programs are concurrent, but a program such as a multitasking operating system is also concurrent, even when it is run on a machine with only one core, since multiple tasks can be in progress at any instant.

Source: An introduction to parallel programming, Peter Pacheco

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parallel programming happens when code is being executed at the same time and each execution is independent of the other. Therefore there is usually not a preocupation about shared variables and such because that won't likelly happen.

However concurrent programming consists on code being executed by diferent processes/threads that share variables and such, therefore on concurrent programming we must establish some sort of rule to decide wich process/thread executes first, we want this so that we can be sure there will be consistency and that we can know with certainty what will happen. If there is no control and all threads compute at the same times and store things on the same variables how would we know what to expect in the end? Maybe a thread is faster than the other, maybe one of the threads even stopped in the middle of it's execution and another continued a different computation with a corrupted(not yet fully computed) variable, the possibilities are endless. It's in these situations that we usually use concurrent programming instead of parallel.

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They're two phrases that describe the same thing from (very slightly) different viewpoints. Parallel programming is describing the situation from the viewpoint of the hardware -- there are at least two processors (possibly within a single physical package) working on a problem in parallel. Concurrent programming is describing things more from the viewpoint of the software -- two or more actions may happen at exactly the same time (concurrently).

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I understood the difference to be:

1) Concurrent - running in tandem using shared resources 2) Parallel - running side by side using different resources

So you can have two things happening at the same time independent of each other, even if they come together at points (2) or two things drawing on the same reserves throughout the operations being executed (1).

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Concurrency is a property of the program and parallel execution is a property of the machine. What concurrent parts should and should not be executed in parallel can only be answered when the exact hardware is known. Which I might like to add leads to the most unhappy conclusion when dealing with explicit parallel programming, There is no guarantee of both efficiency and portability with explicit parallel programs.

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Let's assume you have two tasks,

  1. Driving a Car
  2. Talking in phone

and your brain is processor. Driving and talking can be achieved independently and could complete one before another. That is concurrency.

And parallelism is, You have one more person in your car who is talking on behalf of you.
We can say parallelism is part of concurrency.

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First off, I am searching for an answer myself. So the view that I express below is more of a question than an answer.

Could it be the case that in case of concurrent programming, the hardware details are abstracted away.

But in case of parallel programming, they are NOT. Parallel programs are explicitly designed keeping the overheads of executing concurrent parts of a program in mind, say the communication overhead enforced by the hardware, or the library API being used, or some such.


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My initial reaction is that concurrent refers to lots of users or lots of processes running at the same time, while paralllel refers to a single process split amongst many cores/threads.

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