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I have a misunderstanding of the difference between single-threading and multi-threading programming, so I want an answer to the following question to make everything clear.

Suppose that there are 9 independent tasks and I want to accomplish them with a single-threaded program and a multi-threaded program. Basically it will be something like this:

Single-thread:

- Execute task 1
- Execute task 2
- Execute task 3
- Execute task 4
- Execute task 5
- Execute task 6
- Execute task 7
- Execute task 8
- Execute task 9

Multi-threaded:

Thread1:

- Execute task 1
- Execute task 2
- Execute task 3

Thread2:

- Execute task 4
- Execute task 5
- Execute task 6

Thread3:

- Execute task 7
- Execute task 8
- Execute task 9

As I understand, only ONE thread will be executed at a time (get the CPU), and once the quantum is finished, the thread scheduler will give the CPU time to another thread.

So, which program will be finished earlier? Is it the multi-threaded program (logically)? or is it the single-thread program (since the multi-threading has a lot of context-switching which takes some time)? and why? I need a good explanation please :)

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Which program will finish earlier? Answer: it depends –  Hovercraft Full Of Eels Apr 11 '12 at 17:10
    
Lots of things happen asynchronously, even on a single CPU: memory fetching, disk I/O, network I/O... context switches often happen with preference during those "forced timeouts". Anyway, who really has only one CPU nowadays? –  Kerrek SB Apr 11 '12 at 17:10
    
The question is unanswerable in its current form. Are the tasks independent of one another, or do they rely on results from earlier tasks? How many CPUs/cores are available? Are the tasks processor bound or I/O bound? Under ideal circumstances for parallelism (multiple CPUs/cores, processor bound, independent tasks) the multithreaded version would probably be faster. But maybe not. –  dlev Apr 11 '12 at 17:12
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4 Answers

up vote 6 down vote accepted

It depends.

How many cpus do you have? How much I/O is involved in your tasks?

If you have only 1 cpu, and the tasks have no blocking I/O, then the single threaded will finish equal to or faster than multi-threaded, as there is overhead to switching threads.

If you have 1 cpu, but the tasks involve a lot of blocking I/O, you might see a speedup by using threading, assuming work can be done when I/O is in progress.

If you have multiple cpus, then you should see a speedup with the multi-threaded implementation over the single threaded, since more than 1 thread can execute in parallel. Unless of course the tasks are I/O dominated, in which case the limiting factor is your device speed, not cpu power.

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If you have 1 cpu, but the tasks involve a lot of blocking I/O, there will be a large speedup since all nine tasks are likely to get some CPU when they ae signaled by completed IO. –  Martin James Apr 11 '12 at 17:51
    
And by cpus you really mean cores? Most computers have a single CPU, but the CPU has multiple cores. –  Guffa Apr 11 '12 at 17:54
    
yes [ 15 chars ] –  hvgotcodes Apr 11 '12 at 17:55
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As I understand, only ONE thread will be executed at a time

That would be the case if the CPU only had one core. Modern CPUs have multiple cores, and can run multiple threads in parallel.

The program running three threads would run almost three times faster. Even if the tasks are independent, there are still some resources in the computer that has to be shared between the threads, like memory access.

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Well, this isn't entirely language agnostic. Some interpreted programming languages don't support real Threads. That is, threads of execution can be defined by the program, but the interpreter is single threaded so all execution is on one core of the CPU.

For compiled languages and languages that support true multi-threading, a single CPU can have many cores. Actually, most desktop computers now have 2 or 4 cores. So a multi-threaded program executing truely independent tasks can finish 2-4 times faster based on the number of available cores in the CPU.

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Tasks are rarely truly independent. In my experience, what ends up happening commonly is that your code is no longer CPU bound as it was with a single thread and/or core, but is now likely to be I/O bound instead. The efforts you put into utilizing the four cores are then often mostly wasted. This lesson is learned the hard way. –  A-B-B Apr 15 at 18:30
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@A-B-B, you are correct. It is also important to be sure that the concurrent computation is significantly complex enough to justify the overhead. However, in terms of IO, imagine that there is an IO intensive task. That task would still benefit from multi-threading since one thread could be computing while another is utilizing the communication bus. Finally, there are specialize architecture designs which can perform efficient parallel IO. –  Tim Bender Apr 16 at 3:28
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Assumption Set: Single core with no hyperthreading; tasks are CPU bound; Each task take 3 quanta of time; Each scheduler allocation is limited to 1 quanta of time; FIFO scheduler Nonpreemptive; All threads hit the scheduler at the same time; All context switches require the same amount of time;

Processes are delineated as follows:

  • Test 1: Single Process, single thread (contains all 9 tasks)
  • Test 2: Single Process, three threads (contain 3 tasks each)
  • Test 3: Three Processes, each single threaded (contain 3 tasks each)
  • Test 4: Three Processes, each with three threads (contain one task each)

With the above assumptions, they all finish at the same time. This is because there is an identicle amount of time scheduled for the CPU, context switches are identicle, there is no interrupt handling, and nothing is waiting for IO.

For more depth into the nature of this, please find this book.

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