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cf146106
编写于
7月 19, 2023
作者:
J
jjyaoao
提交者:
GitHub
7月 19, 2023
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修改COPY-FROM No.14 incubate (#55234)
Signed-off-by:
N
jjyaoao
<
jjyaoao@126.com
>
上级
413efdc9
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3
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python/paddle/incubate/optimizer/functional/bfgs.py
python/paddle/incubate/optimizer/functional/bfgs.py
+39
-11
python/paddle/incubate/optimizer/functional/lbfgs.py
python/paddle/incubate/optimizer/functional/lbfgs.py
+40
-11
python/paddle/optimizer/lr.py
python/paddle/optimizer/lr.py
+13
-0
未找到文件。
python/paddle/incubate/optimizer/functional/bfgs.py
浏览文件 @
cf146106
...
...
@@ -79,20 +79,48 @@ def minimize_bfgs(
Examples:
.. code-block:: python
:name: code-example1
# Example1: 1D Grid Parameters
import paddle
# Randomly simulate a batch of input data
inputs = paddle. normal(shape=(100, 1))
labels = inputs * 2.0
# define the loss function
def loss(w):
y = w * inputs
return paddle.nn.functional.square_error_cost(y, labels).mean()
# Initialize weight parameters
w = paddle.normal(shape=(1,))
# Call the bfgs method to solve the weight that makes the loss the smallest, and update the parameters
for epoch in range(0, 10):
# Call the bfgs method to optimize the loss, note that the third parameter returned represents the weight
w_update = paddle.incubate.optimizer.functional.minimize_bfgs(loss, w)[2]
# Use paddle.assign to update parameters in place
paddle. assign(w_update, w)
def func(x):
return paddle.dot(x, x)
x0 = paddle.to_tensor([1.3, 2.7])
results = paddle.incubate.optimizer.functional.minimize_bfgs(func, x0)
print("is_converge: ", results[0])
print("the minimum of func is: ", results[2])
# is_converge: is_converge: Tensor(shape=[1], dtype=bool, place=Place(gpu:0), stop_gradient=True,
# [True])
# the minimum of func is: Tensor(shape=[2], dtype=float32, place=Place(gpu:0), stop_gradient=True,
# [0., 0.])
.. code-block:: python
:name: code-example2
# Example2: Multidimensional Grid Parameters
import paddle
def flatten(x):
return x. flatten()
def unflatten(x):
return x.reshape((2,2))
# Assume the network parameters are more than one dimension
def net(x):
assert len(x.shape) > 1
return x.square().mean()
# function to be optimized
def bfgs_f(flatten_x):
return net(unflatten(flatten_x))
x = paddle.rand([2,2])
for i in range(0, 10):
# Flatten x before using minimize_bfgs
x_update = paddle.incubate.optimizer.functional.minimize_bfgs(bfgs_f, flatten(x))[2]
# unflatten x_update, then update parameters
paddle. assign(unflatten(x_update), x)
"""
if
dtype
not
in
[
'float32'
,
'float64'
]:
...
...
python/paddle/incubate/optimizer/functional/lbfgs.py
浏览文件 @
cf146106
...
...
@@ -80,20 +80,49 @@ def minimize_lbfgs(
Examples:
.. code-block:: python
:name: code-example1
# Example1: 1D Grid Parameters
import paddle
# Randomly simulate a batch of input data
inputs = paddle. normal(shape=(100, 1))
labels = inputs * 2.0
# define the loss function
def loss(w):
y = w * inputs
return paddle.nn.functional.square_error_cost(y, labels).mean()
# Initialize weight parameters
w = paddle.normal(shape=(1,))
# Call the bfgs method to solve the weight that makes the loss the smallest, and update the parameters
for epoch in range(0, 10):
# Call the bfgs method to optimize the loss, note that the third parameter returned represents the weight
w_update = paddle.incubate.optimizer.functional.minimize_bfgs(loss, w)[2]
# Use paddle.assign to update parameters in place
paddle. assign(w_update, w)
.. code-block:: python
:name: code-example2
# Example2: Multidimensional Grid Parameters
import paddle
def flatten(x):
return x. flatten()
def unflatten(x):
return x.reshape((2,2))
# Assume the network parameters are more than one dimension
def net(x):
assert len(x.shape) > 1
return x.square().mean()
# function to be optimized
def bfgs_f(flatten_x):
return net(unflatten(flatten_x))
x = paddle.rand([2,2])
for i in range(0, 10):
# Flatten x before using minimize_bfgs
x_update = paddle.incubate.optimizer.functional.minimize_bfgs(bfgs_f, flatten(x))[2]
# unflatten x_update, then update parameters
paddle. assign(unflatten(x_update), x)
def func(x):
return paddle.dot(x, x)
x0 = paddle.to_tensor([1.3, 2.7])
results = paddle.incubate.optimizer.functional.minimize_lbfgs(func, x0)
print("is_converge: ", results[0])
print("the minimum of func is: ", results[2])
# is_converge: is_converge: Tensor(shape=[1], dtype=bool, place=Place(gpu:0), stop_gradient=True,
# [True])
# the minimum of func is: Tensor(shape=[2], dtype=float32, place=Place(gpu:0), stop_gradient=True,
# [0., 0.])
"""
if
dtype
not
in
[
'float32'
,
'float64'
]:
raise
ValueError
(
...
...
python/paddle/optimizer/lr.py
浏览文件 @
cf146106
...
...
@@ -125,6 +125,19 @@ class LRScheduler:
Returns:
None
Examples:
.. code-block:: python
import paddle
value = paddle.arange(26, dtype='float32')
a = paddle.reshape(value, [2, 13])
linear = paddle.nn.Linear(13, 5)
adadelta = paddle.optimizer.Adadelta(learning_rate=0.0003, epsilon=1e-06, rho=0.95,
parameters = linear.parameters())
out = linear(a)
out.backward()
adadelta.step()
adadelta.clear_grad()
Examples:
.. code-block:: python
...
...
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