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aab4cfeb
编写于
1月 16, 2018
作者:
Y
Yibing Liu
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电子邮件补丁
差异文件
Add doc for dynamic_lstm python api
上级
1511a049
变更
2
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2 changed file
with
101 addition
and
1 deletion
+101
-1
paddle/operators/lstm_op.cc
paddle/operators/lstm_op.cc
+1
-1
python/paddle/v2/fluid/layers/nn.py
python/paddle/v2/fluid/layers/nn.py
+100
-0
未找到文件。
paddle/operators/lstm_op.cc
浏览文件 @
aab4cfeb
...
@@ -117,7 +117,7 @@ class LSTMOpMaker : public framework::OpProtoAndCheckerMaker {
...
@@ -117,7 +117,7 @@ class LSTMOpMaker : public framework::OpProtoAndCheckerMaker {
AddInput
(
"C0"
,
AddInput
(
"C0"
,
"(Tensor, optional) the initial cell state is an optional "
"(Tensor, optional) the initial cell state is an optional "
"input. This is a tensor with shape (N x D), where N is the "
"input. This is a tensor with shape (N x D), where N is the "
"batch size. `H0` and `C0` can be NULL but only at the same time"
)
"batch size. `H0` and `C0` can be NULL but only at the same time
.
"
)
.
AsDispensable
();
.
AsDispensable
();
AddInput
(
"Weight"
,
AddInput
(
"Weight"
,
"(Tensor) the learnable hidden-hidden weights."
"(Tensor) the learnable hidden-hidden weights."
...
...
python/paddle/v2/fluid/layers/nn.py
浏览文件 @
aab4cfeb
...
@@ -227,6 +227,106 @@ def dynamic_lstm(input,
...
@@ -227,6 +227,106 @@ def dynamic_lstm(input,
cell_activation
=
'tanh'
,
cell_activation
=
'tanh'
,
candidate_activation
=
'tanh'
,
candidate_activation
=
'tanh'
,
dtype
=
'float32'
):
dtype
=
'float32'
):
"""
**Dynamic LSTM Layer**
The defalut implementation is diagonal/peephole connection
(https://arxiv.org/pdf/1402.1128.pdf), the formula is as follows:
.. math:
i_t = \sigma(W_{ix}x_{t} + W_{ih}h_{t-1} + W_{ic}c_{t-1} + b_i)
\\
f_t = \sigma(W_{fx}x_{t} + W_{fh}h_{t-1} + W_{fc}c_{t-1} + b_f)
\\
\t
ilde{c_t} = act_g(W_{cx}x_t + W_{ch}h_{t-1} + b_c)
\\
o_t = \sigma(W_{ox}x_{t} + W_{oh}h_{t-1} + W_{oc}c_t + b_o)
\\
c_t = f_t \odot c_{t-1} + i_t \odot
\t
ilde{c_t}
\\
h_t = o_t \odot act_h(c_t)
where the W terms denote weight matrices (e.g. $W_{xi}$ is the matrix
of weights from the input gate to the input), $W_{ic}, W_{fc}, W_{oc}$
are diagonal weight matrices for peephole connections. In our implementation,
we use vectors to reprenset these diagonal weight matrices. The b terms
denote bias vectors ($b_i$ is the input gate bias vector), $\sigma$
is the non-line activations, such as logistic sigmoid function, and
$i, f, o$ and $c$ are the input gate, forget gate, output gate,
and cell activation vectors, respectively, all of which have the same size as
the cell output activation vector $h$.
The $\odot$ is the element-wise product of the vectors. $act_g$ and $act_h$
are the cell input and cell output activation functions and `tanh` is usually
used for them. $
\t
ilde{c_t}$ is also called candidate hidden state,
which is computed based on the current input and the previous hidden state.
Set `use_peepholes` False to disable peephole connection. The formula
is omitted here, please refer to the paper
http://www.bioinf.jku.at/publications/older/2604.pdf for details.
Note that these $W_{xi}x_{t}, W_{xf}x_{t}, W_{xc}x_{t}, W_{xo}x_{t}$
operations on the input $x_{t}$ are NOT included in this operator.
Users can choose to use fully-connect operator before LSTM operator.
Args:
def dynamic_lstm(input,
size,
param_attr=None,
bias_attr=None,
use_peepholes=True,
is_reverse=False,
gate_activation='sigmoid',
cell_activation='tanh',
candidate_activation='tanh',
dtype='float32'):
input(Variable): The input of dynamic_lstm layer, which support
variable-time length input sequence. The underlying tensor in
this Variable is a matrix with shape (T X 4D), where T is the
total time steps in this mini-batch, D is the hidden size.
size(int): The size of input.
param_attr(ParamAttr): The parameter attribute for the learnable
hidden-hidden weights.
- The shape is (D x 4D), where D is the hidden size.
- param_attr = {W_ch, W_ih, W_fh, W_oh}
bias_attr(ParamAttr): The bias attribute for the learnable bias
weights, which contains two parts: input-hidden bias weight
and peephole connections weight if setting `use_peepholes` to True.
1. `use_peepholes = False`
- The shape is (1 x 4D).
- Bias = {b_c, b_i, b_f, b_o}.
2. `use_peepholes = True`
- The shape is (1 x 7D).
- Bias = {b_c, b_i, b_f, b_o, W_ic, W_fc, W_oc}.
use_peepholes(bool, defalut: True): whether to enable diagonal/peephole
connections.
is_reverse(bool, defalut: False): whether to compute reversed LSTM.
gate_activation(string, choices: "sigmoid", "tanh", "relu", "identity",
default: "sigmoid"): The activation for input gate, forget gate and
output gate.
cell_activation(string, choices: "sigmoid", "tanh", "relu", "identity",
default: "tanh"): The activation for cell output.
candidate_activation(string, choices: "sigmoid", "tanh", "relu",
"identity", default: "tanh"): The activation for candidate hidden
state.
dtype(string, )
Returns:
hidden(Variable): the hidden state of LSTM layer. The shape is (T x D),
and lod is the same with the `input`.
cell(Variable): the cell state of LSTM layer. The shape is (T x D), and
lod is the same with the `input`.
Example:
.. code-block:: python
hidden_dim = 512
forward_proj = fluid.layers.fc(input=input_seq, size=hidden_dim * 4,
act='tanh', bias_attr=True)
forward, _ = fluid.layers.dynamic_lstm(
input=forward_proj, size=hidden_dim * 4, use_peepholes=False)
"""
helper
=
LayerHelper
(
'lstm'
,
**
locals
())
helper
=
LayerHelper
(
'lstm'
,
**
locals
())
size
=
size
/
4
size
=
size
/
4
weight
=
helper
.
create_parameter
(
weight
=
helper
.
create_parameter
(
...
...
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