Difference between revisions of "Parallelism"
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In Haskell we provide two ways to achieve parallelism: |
In Haskell we provide two ways to achieve parallelism: |
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* Concurrency, which can be used for parallelising IO. |
* Concurrency, which can be used for parallelising IO. |
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[[Concurrency]] (Control.Concurrent): Multiple threads of control that execute "at the same time". |
[[Concurrency]] (Control.Concurrent): Multiple threads of control that execute "at the same time". |
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* Threads may execute on multiple processors simultaneously |
* Threads may execute on multiple processors simultaneously |
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* Dangers: [[race conditions]] and [[deadlocks]] |
* Dangers: [[race conditions]] and [[deadlocks]] |
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Rule of thumb: use Pure Parallelism if you can, Concurrency otherwise. |
Rule of thumb: use Pure Parallelism if you can, Concurrency otherwise. |
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== Starting points == |
== Starting points == |
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| − | * '''Control.Parallel'''. The first thing to start with parallel programming in Haskell is the use of par/pseq from the parallel library. |
+ | * '''Control.Parallel'''. The first thing to start with parallel programming in Haskell is the use of par/pseq from the parallel library. Try the Real World Haskell [http://book.realworldhaskell.org/read/concurrent-and-multicore-programming.html chapter on parallelism and concurrency]. The parallelism-specific parts are in the second half of the chapter. |
* If you need more control, try Strategies or perhaps the Par monad |
* If you need more control, try Strategies or perhaps the Par monad |
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* Nested data parallelism: a parallel programming model based on bulk data parallelism, in the form of the [http://www.haskell.org/haskellwiki/GHC/Data_Parallel_Haskell DPH] and [http://hackage.haskell.org/package/repa Repa] libraries for transparently parallel arrays. |
* Nested data parallelism: a parallel programming model based on bulk data parallelism, in the form of the [http://www.haskell.org/haskellwiki/GHC/Data_Parallel_Haskell DPH] and [http://hackage.haskell.org/package/repa Repa] libraries for transparently parallel arrays. |
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| + | * [https://hackage.haskell.org/package/monad-par monad-par] and [https://hackage.haskell.org/package/lvish LVish] provide Par monads that can structure parallel computations over "monotonic" data structures, which in turn can be used from within purely functional programs. |
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| − | * Intel [http://software.intel.com/en-us/blogs/2010/05/27/announcing-intel-concurrent-collections-for-haskell-01/ Concurrent Collections for Haskell]: a graph-oriented parallel programming model. |
+ | * [OLD] Intel [http://software.intel.com/en-us/blogs/2010/05/27/announcing-intel-concurrent-collections-for-haskell-01/ Concurrent Collections for Haskell]: a graph-oriented parallel programming model. |
| − | == |
+ | == See also == |
| − | * [[Parallel |
+ | * The [[Parallel|parallelism and concurrency portal]] |
| + | * Parallel [[Parallel/Reading|reading list]] |
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* [[Parallel/Research|Ongoing research in Parallel Haskell]] |
* [[Parallel/Research|Ongoing research in Parallel Haskell]] |
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| − | * The Sun project to improve http://ghcsparc.blogspot.com/ GHC performance on Sparc] |
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| − | * A [http://www.well-typed.com/blog/38 Microsoft project to improve industrial applications of GHC parallelism]. |
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Revision as of 08:35, 11 January 2014
Parallelism is about speeding up a program by using multiple processors.
In Haskell we provide two ways to achieve parallelism:
- Pure parallelism, which can be used to speed up non-IO parts of the program.
- Concurrency, which can be used for parallelising IO.
Pure Parallelism (Control.Parallel): Speeding up a pure computation using multiple processors. Pure parallelism has these advantages:
- Guaranteed deterministic (same result every time)
- no race conditions or deadlocks
Concurrency (Control.Concurrent): Multiple threads of control that execute "at the same time".
- Threads are in the IO monad
- IO operations from multiple threads are interleaved non-deterministically
- communication between threads must be explicitly programmed
- Threads may execute on multiple processors simultaneously
- Dangers: race conditions and deadlocks
Rule of thumb: use Pure Parallelism if you can, Concurrency otherwise.
Starting points
- Control.Parallel. The first thing to start with parallel programming in Haskell is the use of par/pseq from the parallel library. Try the Real World Haskell chapter on parallelism and concurrency. The parallelism-specific parts are in the second half of the chapter.
- If you need more control, try Strategies or perhaps the Par monad
Multicore GHC
Since 2004, GHC supports running programs in parallel on an SMP or multi-core machine. How to do it:
- Compile your program using the -threaded switch.
- Run the program with +RTS -N2 to use 2 threads, for example (RTS stands for runtime system; see the GHC users' guide). You should use a -N value equal to the number of CPU cores on your machine (not including Hyper-threading cores). As of GHC v6.12, you can leave off the number of cores and all available cores will be used (you still need to pass -N however, like so: +RTS -N).
- Concurrent threads (forkIO) will run in parallel, and you can also use the par combinator and Strategies from the Control.Parallel.Strategies module to create parallelism.
- Use +RTS -sstderr for timing stats.
- To debug parallel program performance, use ThreadScope.
Alternative approaches
- Nested data parallelism: a parallel programming model based on bulk data parallelism, in the form of the DPH and Repa libraries for transparently parallel arrays.
- monad-par and LVish provide Par monads that can structure parallel computations over "monotonic" data structures, which in turn can be used from within purely functional programs.
- [OLD] Intel Concurrent Collections for Haskell: a graph-oriented parallel programming model.