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What is the difference between threading and parallelism?

Which one has advantage over the other?

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How do cars and driving differ? Threading is the act of using threads, parallelism is when something runs in parallel. The most common way to make things run in parallel is to use threads. –  jalf Apr 30 '09 at 12:21
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6 Answers 6

Threading is a technology, parallelism is a paradigm that may be implemented using threading (but could just as easily be done using single threads on multiple processors)

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Parallelism is a general technique of using more than one flow of instructions to complete a computation. The critical aspect of all parallel techniques is communicating between flows to collaborate a final answer.

Threading is a specific implementation of parallelism. Each flow of instructions is given it's own stack to keep a record of local variables and function calls, and communicates with the other flows implicitly by shared memory.

One example might be to have one thread simply queue up disk requests and pass it to a worker thread, effectively parallelizing disk and CPU. The traditional UNIX pipes method is to split these into two complete programs, say "cat" and grep in the command:

cat /var/log/Xorg.0.log | grep "EE"

Threading could conceivably reduce the communication costs of copying disk I/O from the cat process to the grep process.

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Threading is usually referred to having multiple processes working at the same time on a single CPU (well actually not you think they do but they switch very fast between them).

Parallelism is having multiple processes working at the same time on multiple CPU's.

Both have their pros and cons heavily depending on the scheduler used by your operating system. Usually the computation cost of creating a thread is much lower then spawning a process on another CPU, however having a 'whole' CPU for yourself increases the overall speed of that process. But then again if that process needs to communicate with another process on another CPU you need to solve the IPC (inter process communication) problem which might be such an overhead that it is effectively better to just use a thread on the same CPU.

Most operating system are aware of multiple CPU's/Cores and can use them, but this makes the scheduler usually quite complex.

If your are programming in a language that uses a VM (virtual machine), be aware that they need to implement their own scheduler (if at all). Python for example uses a GIL, which pretty much says that everything running on that VM stays on the same CPU, always. Though some OS's are capable of migrating a heavy process to another CPU that isn't so busy at the moment, which of course means that the whole process needs to be paused while it is doing that.

Some operating systems like DragonFlyBSD take a whole different approach to scheduling then what at this moment is the 'standard' approach.

I think this answer gives you enough keywords to search for more information :-)

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How do you define "parallelism"? Multithreading is a concrete implementation of the concept of parallel program execution.

The article RichardOD linked to seems to be mainly concerned with whether threads are actually executed in parallel on a concrete machine.

However, your question seems to see multithreading and parallelism as opposites. Do you perhaps mean programs that use multiple processes rather than multiple threads? If so, the differences are:

  • Threads are much cheaper to create than processes. This is why using threads rather than processes resulted in a huge speedup in web applications - this was called "FastCGI".
  • Multiple threads on the same machine have access to shared memory. This makes communication between threads much easier, but also very dangerous (it's easy to create bugs like race conditions that are very hard to diagnose and fix).
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Threading is a poor man's parallelism.

EDIT: To be more precise:

Threading has nothing to do with parallelism and wise versa. Threading is about making feel that some processes run in parallel. However, this doesn't make processes to complete their actions any faster in total.

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(-1) A. Every tool has its place. B. Do you have anything to back this up? –  DevinB Apr 30 '09 at 12:41
    
I just answered the topic question. What question is - so is the answer. –  Thevs Apr 30 '09 at 13:51
    
For those who want extended discussion - let's start with prodata.lt/EN/Programming/OPU_computing_model.pdf. –  Thevs Apr 30 '09 at 13:53
    
I've removed my minus because you clarified your response. –  DevinB Apr 30 '09 at 14:20
    
However, threading DOES in fact make your execution complete faster depending on your application A few instances: A downloading program which is downloading multiple files at once, if I multithread the application it will download all the files faster, but individual files slower. An application which is doing constant calculations and occasionally has user input. If you put this on one thread, your background calculations will stop (because they aren't actually in the background if they are on the same thread). But I agree that paralellism and threading aren't the same. –  DevinB Apr 30 '09 at 14:23
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