@hackage speculation0.3.0

A framework for safe, programmable, speculative parallelism

Categories
- Concurrency
License
BSD-3-Clause
Maintainer
Edward A. Kmett <ekmett@gmail.com>
Links
- Homepage
- Documentation
- No source repository
- Security
Versions
- 1.5.0.3 Sun, 17 Jan 2016
- 1.5.0.2 Sun, 8 Mar 2015
- 1.5.0.1 Tue, 14 Jan 2014
- 1.5 Thu, 20 Jun 2013
- 1.4.1.2 Mon, 10 Sep 2012
- 1.4.1.1 Thu, 10 May 2012

Installation
In your cabal file:
Dependencies (3)
- base >=4 && <6
- parallel >=2.2 && <2.3
- stm >=2.1 && <2.2
Dependents (3)
@hackage/acme-everything, @hackage/kan-extensions, @hackage/speculation-transformers

speculation

This package provides speculative evaluation primitives for Haskell, very loosely based on the paper "Safe Programmable Speculative Parallelism" by Prabhu, Ramalingam, and Vaswani.

http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.19.4622

Combinators

speculative function application

spec

spec :: Eq a => a -> (a -> b) -> a -> b

spec g f a evaluates f g while forcing a, if g == a then f g is returned. Otherwise f a is evaluated.

Furthermore, if the argument has already been evaluated, we avoid sparking the parallel computation at all.

If g is a good guess at the value of a, this is one way to induce parallelism in an otherwise sequential task.

However, if g isn't available more cheaply than a, then this saves no work, and if g is wrong, you risk evaluating the function twice. spec a f a = f $! a

The best-case timeline looks like: [---- f g ----] [----- a -----] [-- spec g f a --]

The worst-case timeline looks like: [---- f g ----] [----- a -----] [---- f a ----] [------- spec g f a -----------]

Compare these to the timeline of @f $! a@: [---- a -----] [---- f a ----]

specSTM

specSTM provides a similar compressed timeline for speculated STM actions, but also rolls back side-effects.

folds

A number of speculative folds are also provided.

These take an extra argument which is a function that guesses the result of of the fold up to a given point.

specFoldr

specFoldr :: (Foldable f, Eq b) => (Int -> b) -> (a -> b -> b) -> b -> f a -> b

Given a valid estimator g, 'specFoldr g f z xs yields the same answer as foldr' f z xs.

g n should supply an estimate of the value returned from folding over the /last/ n elements of the container.

As with spec, if the guess g n is accurate a reasonable percentage of the time and faster to compute than the fold, then this can provide increased opportunities for parallelism.

specFoldl

specFoldl :: (Foldable f, Eq b) => (Int -> b) -> (b -> a -> b) -> b -> f a -> b

specFoldl works similarly to foldl', except that g n should provide an estimate for the /first/ n elements.

@hackage speculation0.3.0

Categories

License

Maintainer

Links

Versions

Installation

Dependencies (3)

Dependents (3)