I am having a hard time optimizing a program that is relying on
conjugateGradientDescent function for most of it's work.
Basically my code is a translation of an old papers code that is written in Matlab and C. I have not measured it, but that code is running at several iterations per second. Mine is in the order of minutes per iteration ...
The code is available in this repositories:
The code in question can be run by following these commands:
$ cd aer-utils $ cabal sandbox init $ cabal sandbox add-source ../aer $ cabal run learngabors
Using GHCs profiling facilities I have confirmed that the descent is in fact the part that is taking most of the time:
(interactive version here: https://dl.dropboxusercontent.com/u/2359191/learngabors.svg)
-s is telling me that productivity is quite low:
Productivity 33.6% of total user, 33.6% of total elapsed
From what I have gathered there are two things that might lead to higher performance:
Unboxing: currently I use a custom matrix implementation (in
src/Data/SimpleMat.hs). This was the only way I could get
adto work with matrices (see: How to do automatic differentiation on hmatrix?). My guess is that by using a matrix type like
newtype Mat w h a = Mat (Unboxed.Vector a)would achieve better performance due to unboxing and fusion. I found some code that has
adinstances for unboxed vectors, but up to now I haven't been able to use these with the
Matrix derivatives: In an email I just can't find at the moment Edward mentions that it would be better to use
Forwardinstances for matrix types instead of having matrices filled with
Forwardinstances. I have a faint idea how to achieve that, but have yet to figure out how I'd implement it in terms of
ads type classes.
This is probably a question that is too wide to be answered on SO, so if you are willing to help me out here, feel free to contact me on Github.