oops- i mean to say that julia is 4x - 5x slower, not faster...

On Friday, February 21, 2014 6:18:42 PM UTC-8, Michael Schnall-Levin wrote:
>
> I've been doing some benchmarking of Julia vs Scipy for sparse matrix 
> multiplication and I'm finding that julia is significantly (~4X - 5X) 
> faster in some instances.
>
> I'm wondering if I'm doing something wrong, or if this is really true. 
>  Below are some code snippets for Julia and python.  Any help would be very 
> appreciated!
>
> ----- Julia:          
> Elapsed Time on my laptop: 24.9 seconds -----
> x_inds = Int[]
> y_inds = Int[]
> vals = Int[]
>
> for n = 1:10000
>     inds = rand(1:2000,10,1)
>     for ind in inds
>         push!(x_inds, ind)
>         push!(y_inds, n)
>         push!(vals,1)
>     end
> end
>
> x = sparse(x_inds, y_inds, vals, 2000, 10000)    
>
> t = time()
> for j = 1:250
>     y = x*transpose(x)
> end
> print(string(time() - t, "\n"))
> ----- 
>
> ---- Python       Elapsed Time on my laptop: 5.8 seconds -----
> import numpy
> import scipy.sparse
> import time
>
> x_inds = []
> y_inds = []
> vals = []
> for n in xrange(10000):
>     inds = numpy.random.randint(0, 2000,10)
>
>     for ind in inds:
>         x_inds.append(ind)
>         y_inds.append(n)
>         vals.append(1)
>
> x_inds = numpy.array(x_inds)
> y_inds = numpy.array(y_inds)
> vals = numpy.array(vals)
>
> x = scipy.sparse.csc_matrix((vals, (x_inds, y_inds)), shape=(2000, 10000)) 
>        
>
> t = time.time()
> for j in xrange(250):
>     y = x*x.transpose()
> print time.time() - t
>
>

Reply via email to