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As I can use the "Reduce" function to add 4 matrices copies (diff_table), which were declared using the "zeros" function?. Here my code in SAGE

from mpi4py import MPI
from numpy import*
comm = MPI.COMM_WORLD
rank = comm.rank

rol = lambda val, r_bits, max_bits: \
    (val << r_bits%max_bits) & (2**max_bits-1) | \
    ((val & (2**max_bits-1)) >> (max_bits-(r_bits%max_bits)))

ror = lambda val, r_bits, max_bits: \
    ((val & (2**max_bits-1)) >> r_bits%max_bits) | \
    (val << (max_bits-(r_bits%max_bits)) & (2**max_bits-1))
max_bits = 4  # For fun, try 2, 17 or other arbitrary (positive!) values
def functionF(x):
    return (rol(x, 8, max_bits) & rol(x, 1, max_bits))^(rol(x, 2, max_bits))
diff_table = zeros((2**max_bits,2**max_bits),dtype ='int16')
comm.Bcast([diff_table, MPI.DOUBLE], root=0)
np = 4
for x1 in range(np*rank,np*rank+4):
    for dx in range(2**(max_bits)):
        x2 = x1 ^ dx;
        dy = functionF(x1) ^ functionF(x2);
        diff_table[dx,dy] = diff_table[dx,dy]+1;
print diff_table
#comm.Reduce([diff_table, MPI.DOUBLE], None, op=MPI.SUM, root=0)
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1  
Yes; yes you can. But you'll need to provide a receive buffer, as specified in the documentation. –  Jonathan Dursi Jun 4 '14 at 20:53
    
@JonathanDursi thanks I get now –  user46060 Jun 13 '14 at 12:50

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