def gendos( comm, amp, sig, inp_grid, inp_comp_grid, python = False ):
if not python:
import kernel.vsueig_mpi as kernel
inp_grid_cont = c_cont( inp_grid )
inp_comp_grid_cont = c_cont( inp_comp_grid )
kernel.gendos( comm, amp, sig, inp_grid_cont, inp_comp_grid_cont )
return
# end if
print "Python Kernel"
rank = comm.Get_rank()
size = comm.Get_size()
from pypak.Math import gauss,dgauss
# from cython.math import gauss,dgauss
from time import clock
i_range=len(inp_grid)
j_range=len(inp_comp_grid[0])
start = clock()
# inp_grid 2d float
# inp_comp_grid 2 float
for i in range(0,i_range):
mu = inp_grid[i,0]
A = inp_grid[i,1] * amp
# print mu,A
for j in range(0,j_range):
x = inp_comp_grid[0,j]
if abs(x-mu) > 3*sig:
continue
# print x
# fx
if( size == 1 ):
inp_comp_grid[1,j] += gauss( x, A , mu, sig )
inp_comp_grid[2,j] += dgauss( x, A, mu, sig )
else:
if( rank == 0 ):
inp_comp_grid[1,j] += gauss( x, A , mu, sig )
# d/dx fx
if( rank == 1 ):
inp_comp_grid[2,j] += dgauss( x, A, mu, sig )
# end if
# end for
# end for
elapsed = (clock() - start)
print "%d Elapsed time: %9.6lf s" % ( rank, elapsed )
def gendos( amp, sig, inp_grid, inp_comp_grid, python = False ):
if not python:
import kernel.vsueig_omp as kernel
inp_grid_cont = c_cont( inp_grid )
inp_comp_grid_cont = c_cont( inp_comp_grid )
kernel.gendos( amp, sig, inp_grid_cont, inp_comp_grid_cont )
return
# end if
print "Python Kernel"
from pypak.Math import gauss,dgauss
# from cython.math import gauss,dgauss
from time import clock
i_range=len(inp_grid)
j_range=len(inp_comp_grid[0])
print i_range, j_range
start = clock()
# inp_grid 2d float
# inp_comp_grid 2 float
for i in range(0,i_range):
mu = inp_grid[i,0]
A = inp_grid[i,1] * amp
# print mu,A
for j in range(0,j_range):
x = inp_comp_grid[0,j]
if abs(x-mu) > 3*sig:
continue
# print x
# fx
inp_comp_grid[1,j] += gauss( x, A , mu, sig )
# d/dx fx
inp_comp_grid[2,j] += dgauss( x, A, mu, sig )
# end for
# end for
elapsed = (clock() - start)
print "Elapsed time: %9.6lf s" % elapsed
