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Gwenaël Samain
cython
Commits
9d164d45
Commit
9d164d45
authored
Aug 12, 2011
by
Stefan Behnel
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additional benchmark
parent
c6f4b75e
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Demos/benchmarks/bpnn3.py
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#!/usr/bin/python
# Back-Propagation Neural Networks
#
# Written in Python. See http://www.python.org/
#
# Neil Schemenauer <nascheme@enme.ucalgary.ca>
import
math
import
random
as
random
import
operator
import
string
#import psyco
#psyco.full()
#from psyco.classes import *
#psyco.log()
#psyco.profile()
#__metaclass__ = type
# Local imports
import
util
random
.
seed
(
0
)
# calculate a random number where: a <= rand < b
def
rand
(
a
,
b
):
return
(
b
-
a
)
*
random
.
random
()
+
a
# Make a matrix (we could use NumPy to speed this up)
def
makeMatrix
(
I
,
J
,
fill
=
0.0
):
m
=
[]
for
i
in
range
(
I
):
m
.
append
([
fill
]
*
J
)
return
m
class
NN
(
object
):
# print 'class NN'
def
__init__
(
self
,
ni
,
nh
,
no
):
# number of input, hidden, and output nodes
self
.
ni
=
ni
+
1
# +1 for bias node
self
.
nh
=
nh
self
.
no
=
no
# activations for nodes
self
.
ai
=
[
1.0
]
*
self
.
ni
self
.
ah
=
[
1.0
]
*
self
.
nh
self
.
ao
=
[
1.0
]
*
self
.
no
# create weights
self
.
wi
=
makeMatrix
(
self
.
ni
,
self
.
nh
)
self
.
wo
=
makeMatrix
(
self
.
nh
,
self
.
no
)
# set them to random vaules
for
i
in
range
(
self
.
ni
):
for
j
in
range
(
self
.
nh
):
self
.
wi
[
i
][
j
]
=
rand
(
-
2.0
,
2.0
)
for
j
in
range
(
self
.
nh
):
for
k
in
range
(
self
.
no
):
self
.
wo
[
j
][
k
]
=
rand
(
-
2.0
,
2.0
)
# last change in weights for momentum
self
.
ci
=
makeMatrix
(
self
.
ni
,
self
.
nh
)
self
.
co
=
makeMatrix
(
self
.
nh
,
self
.
no
)
def
update
(
self
,
inputs
):
# print 'update', inputs
if
len
(
inputs
)
!=
self
.
ni
-
1
:
raise
ValueError
(
'wrong number of inputs'
)
# input activations
for
i
in
range
(
self
.
ni
-
1
):
#self.ai[i] = 1.0/(1.0+math.exp(-inputs[i]))
self
.
ai
[
i
]
=
inputs
[
i
]
# hidden activations
for
j
in
range
(
self
.
nh
):
sum
=
0.0
for
i
in
range
(
self
.
ni
):
sum
=
sum
+
self
.
ai
[
i
]
*
self
.
wi
[
i
][
j
]
self
.
ah
[
j
]
=
1.0
/
(
1.0
+
math
.
exp
(
-
sum
))
# output activations
for
k
in
range
(
self
.
no
):
sum
=
0.0
for
j
in
range
(
self
.
nh
):
sum
=
sum
+
self
.
ah
[
j
]
*
self
.
wo
[
j
][
k
]
self
.
ao
[
k
]
=
1.0
/
(
1.0
+
math
.
exp
(
-
sum
))
return
self
.
ao
[:]
def
backPropagate
(
self
,
targets
,
N
,
M
):
# print N, M
if
len
(
targets
)
!=
self
.
no
:
raise
ValueError
(
'wrong number of target values'
)
# calculate error terms for output
output_deltas
=
[
0.0
]
*
self
.
no
# print self.no
for
k
in
range
(
self
.
no
):
ao
=
self
.
ao
[
k
]
output_deltas
[
k
]
=
ao
*
(
1
-
ao
)
*
(
targets
[
k
]
-
ao
)
# calculate error terms for hidden
hidden_deltas
=
[
0.0
]
*
self
.
nh
for
j
in
range
(
self
.
nh
):
sum
=
0.0
for
k
in
range
(
self
.
no
):
sum
=
sum
+
output_deltas
[
k
]
*
self
.
wo
[
j
][
k
]
hidden_deltas
[
j
]
=
self
.
ah
[
j
]
*
(
1
-
self
.
ah
[
j
])
*
sum
# update output weights
for
j
in
range
(
self
.
nh
):
for
k
in
range
(
self
.
no
):
change
=
output_deltas
[
k
]
*
self
.
ah
[
j
]
self
.
wo
[
j
][
k
]
=
self
.
wo
[
j
][
k
]
+
N
*
change
+
M
*
self
.
co
[
j
][
k
]
self
.
co
[
j
][
k
]
=
change
# update input weights
for
i
in
range
(
self
.
ni
):
for
j
in
range
(
self
.
nh
):
change
=
hidden_deltas
[
j
]
*
self
.
ai
[
i
]
self
.
wi
[
i
][
j
]
=
self
.
wi
[
i
][
j
]
+
N
*
change
+
M
*
self
.
ci
[
i
][
j
]
self
.
ci
[
i
][
j
]
=
change
# calculate error
error
=
0.0
for
k
in
range
(
len
(
targets
)):
error
=
error
+
0.5
*
(
targets
[
k
]
-
self
.
ao
[
k
])
**
2
return
error
def
test
(
self
,
patterns
):
for
p
in
patterns
:
print
(
'%s -> %s'
%
(
p
[
0
],
self
.
update
(
p
[
0
])))
def
weights
(
self
):
print
(
'Input weights:'
)
for
i
in
range
(
self
.
ni
):
print
(
self
.
wi
[
i
])
print
(
''
)
print
(
'Output weights:'
)
for
j
in
range
(
self
.
nh
):
print
(
self
.
wo
[
j
])
def
train
(
self
,
patterns
,
iterations
=
2000
,
N
=
0.5
,
M
=
0.1
):
# N: learning rate
# M: momentum factor
for
i
in
range
(
iterations
):
error
=
0.0
for
p
in
patterns
:
inputs
=
p
[
0
]
targets
=
p
[
1
]
self
.
update
(
inputs
)
error
=
error
+
self
.
backPropagate
(
targets
,
N
,
M
)
#if i % 100 == 0:
# print i, 'error %-14f' % error
def
demo
():
# Teach network XOR function
pat
=
[
[[
0
,
0
],
[
0
]],
[[
0
,
1
],
[
1
]],
[[
1
,
0
],
[
1
]],
[[
1
,
1
],
[
0
]]
]
# create a network with two input, two hidden, and two output nodes
n
=
NN
(
2
,
3
,
1
)
# train it with some patterns
n
.
train
(
pat
,
5000
)
# test it
#n.test(pat)
def
time
(
fn
,
*
args
):
import
time
,
traceback
begin
=
time
.
time
()
result
=
fn
(
*
args
)
end
=
time
.
time
()
return
result
,
end
-
begin
def
test_bpnn
(
iterations
):
times
=
[]
for
_
in
range
(
iterations
):
times
.
append
(
time
(
demo
)
)
return
times
if
__name__
==
"__main__"
:
import
optparse
parser
=
optparse
.
OptionParser
(
usage
=
"%prog [options]"
,
description
=
(
"Test the performance of a neural network."
))
util
.
add_standard_options_to
(
parser
)
options
,
args
=
parser
.
parse_args
()
util
.
run_benchmark
(
options
,
options
.
num_runs
,
test_bpnn
)
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