I've been doing some computationally intensive work in F#. Functions like `Array.Parallel.map`

which use the .Net Task Parallel Library have sped up my code exponentially for a really quite minimal effort.

However, due to memory concerns, I remade a section of my code so that it can be lazily evaluated inside a sequence expression (this means I have to store and pass less information). When it came time to evaluate I used:

```
// processor and memory intensive task, results are not stored
let calculations : seq<Calculation> = seq { ...yield one thing at a time... }
// extract results from calculations for summary data
PSeq.iter someFuncToExtractResults results
```

Instead of:

```
// processor and memory intensive task, storing these results is an unnecessary task
let calculations : Calculation[] = ...do all the things...
// extract results from calculations for summary data
Array.Parallel.map someFuncToExtractResults calculations
```

When using any of the Array.Parallel functions I can clearly see all the cores on my computer kick into gear (~100% CPU usage). However the extra memory required means the program never finished.

With the PSeq.iter version when I run the program, there's only about 8% CPU usage (and minimal RAM usage).

So: Is there some reason why the PSeq version runs so much slower? Is it because of the lazy evaluation? Is there some magic "be parallel" stuff I am missing?

Thanks,

Other resources, source code implementations of both (they seem to use different Parallel libraries in .NET):

https://github.com/fsharp/fsharp/blob/master/src/fsharp/FSharp.Core/array.fs

https://github.com/fsharp/powerpack/blob/master/src/FSharp.PowerPack.Parallel.Seq/pseq.fs

**EDIT: Added more detail to code examples and details**

Code:

Seq

`// processor and memory intensive task, results are not stored let calculations : seq<Calculation> = seq { for index in 0..data.length-1 do yield calculationFunc data.[index] } // extract results from calculations for summary data (different module) PSeq.iter someFuncToExtractResults results`

Array

`// processor and memory intensive task, storing these results is an unnecessary task let calculations : Calculation[] = Array.Parallel.map calculationFunc data // extract results from calculations for summary data (different module) Array.Parallel.map someFuncToExtractResults calculations`

Details:

- The storing the intermediate array version runs quick (as far as it gets before crash) in under 10 minutes but uses ~70GB RAM before it crashes (64GB physical, the rest paged)
- The seq version takes over 34mins and uses a fraction of the RAM (only around 30GB)
- There's a ~billion values I'm calculating. Hence a billion doubles (at 64bits each) = 7.4505806GB. There's more complex forms of data... and a few unnecessary copies I'm cleaning up hence the current massive RAM usage.
- Yes the architecture isn't great, the lazy evaluation is the first part of me attempting to optimize the program and/or batch up the data into smaller chunks
- With a smaller dataset, both chunks of code output the same results.
- @pad, I tried what you suggested, the PSeq.iter seemed to work properly (all cores active) when fed the Calculation[], but there is still the matter of RAM (it eventually crashed)
- both the summary part of the code and the calculation part are CPU intensive (mainly because of large data sets)
- With the Seq version I just aim to parallelize once

`Calculation[]`

to`PSeq.iter`

and`Array.Parallel.map`

. It's impossible to tell the reason without having more details of`Calculation`

and`someFuncToExtractResults`

. – pad Apr 17 '12 at 5:47