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aa9441c0
编写于
7月 04, 2020
作者:
Y
yaoxuefeng
浏览文件
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电子邮件补丁
差异文件
add rank AutoInt model
上级
591b005e
变更
6
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6 changed file
with
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+319
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README.md
README.md
+1
-0
README_CN.md
README_CN.md
+1
-0
models/rank/AutoInt/__init__.py
models/rank/AutoInt/__init__.py
+13
-0
models/rank/AutoInt/config.yaml
models/rank/AutoInt/config.yaml
+78
-0
models/rank/AutoInt/model.py
models/rank/AutoInt/model.py
+225
-0
models/rank/readme.md
models/rank/readme.md
+1
-0
未找到文件。
README.md
浏览文件 @
aa9441c0
...
...
@@ -56,6 +56,7 @@
| Rank | [xDeepFM](models/rank/xdeepfm/model.py) | ✓ | x | ✓ | x | [KDD 2018][xDeepFM: Combining Explicit and Implicit Feature Interactions for Recommender Systems](https://dl.acm.org/doi/pdf/10.1145/3219819.3220023) |
| Rank | [DIN](models/rank/din/model.py) | ✓ | x | ✓ | x | [KDD 2018][Deep Interest Network for Click-Through Rate Prediction](https://dl.acm.org/doi/pdf/10.1145/3219819.3219823) |
| Rank | [DIEN](models/rank/dien/model.py) | ✓ | x | ✓ | x | [AAAI 2019][Deep Interest Evolution Network for Click-Through Rate Prediction](https://www.aaai.org/ojs/index.php/AAAI/article/view/4545/4423) |
| Rank | [AutoInt](models/rank/AutoInt/model.py) | ✓ | x | ✓ | x | [CIKM 2019][AutoInt: Automatic Feature Interaction Learning via Self-Attentive Neural Networks](https://arxiv.org/pdf/1810.11921.pdf) |
| Rank | [Wide&Deep](models/rank/wide_deep/model.py) | ✓ | x | ✓ | x | [DLRS 2016][Wide & Deep Learning for Recommender Systems](https://dl.acm.org/doi/pdf/10.1145/2988450.2988454) |
| Rank | [FGCNN](models/rank/fgcnn/model.py) | ✓ | ✓ | ✓ | ✓ | [WWW 2019][Feature Generation by Convolutional Neural Network for Click-Through Rate Prediction](https://arxiv.org/pdf/1904.04447.pdf) |
| Rank | [Fibinet](models/rank/fibinet/model.py) | ✓ | ✓ | ✓ | ✓ | [RecSys19][FiBiNET: Combining Feature Importance and Bilinear feature Interaction for Click-Through Rate Prediction]( https://arxiv.org/pdf/1905.09433.pdf) |
...
...
README_CN.md
浏览文件 @
aa9441c0
...
...
@@ -61,6 +61,7 @@
| 排序 | [xDeepFM](models/rank/xdeepfm/model.py) | ✓ | x | ✓ | x | [KDD 2018][xDeepFM: Combining Explicit and Implicit Feature Interactions for Recommender Systems](https://dl.acm.org/doi/pdf/10.1145/3219819.3220023) |
| 排序 | [DIN](models/rank/din/model.py) | ✓ | x | ✓ | x | [KDD 2018][Deep Interest Network for Click-Through Rate Prediction](https://dl.acm.org/doi/pdf/10.1145/3219819.3219823) |
| 排序 | [DIEN](models/rank/dien/model.py) | ✓ | x | ✓ | x | [AAAI 2019][Deep Interest Evolution Network for Click-Through Rate Prediction](https://www.aaai.org/ojs/index.php/AAAI/article/view/4545/4423) |
| 排序 | [AutoInt](models/rank/AutoInt/model.py) | ✓ | x | ✓ | x | [CIKM 2019][AutoInt: Automatic Feature Interaction Learning via Self-Attentive Neural Networks](https://arxiv.org/pdf/1810.11921.pdf) |
| 排序 | [Wide&Deep](models/rank/wide_deep/model.py) | ✓ | x | ✓ | x | [DLRS 2016][Wide & Deep Learning for Recommender Systems](https://dl.acm.org/doi/pdf/10.1145/2988450.2988454) |
| 排序 | [FGCNN](models/rank/fgcnn/model.py) | ✓ | ✓ | ✓ | ✓ | [WWW 2019][Feature Generation by Convolutional Neural Network for Click-Through Rate Prediction](https://arxiv.org/pdf/1904.04447.pdf) |
| 排序 | [Fibinet](models/rank/fibinet/model.py) | ✓ | ✓ | ✓ | ✓ | [RecSys19][FiBiNET: Combining Feature Importance and Bilinear feature Interaction for Click-Through Rate Prediction]( https://arxiv.org/pdf/1905.09433.pdf) |
...
...
models/rank/AutoInt/__init__.py
0 → 100755
浏览文件 @
aa9441c0
# Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
models/rank/AutoInt/config.yaml
0 → 100755
浏览文件 @
aa9441c0
# Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
# global settings
debug
:
false
workspace
:
"
paddlerec.models.rank.AutoInt"
dataset
:
-
name
:
train_sample
type
:
QueueDataset
batch_size
:
5
data_path
:
"
{workspace}/../dataset/Criteo_data/sample_data/train"
sparse_slots
:
"
label
feat_idx"
dense_slots
:
"
feat_value:39"
-
name
:
infer_sample
type
:
QueueDataset
batch_size
:
5
data_path
:
"
{workspace}/../dataset/Criteo_data/sample_data/train"
sparse_slots
:
"
label
feat_idx"
dense_slots
:
"
feat_value:39"
hyper_parameters
:
optimizer
:
class
:
SGD
learning_rate
:
0.0001
sparse_feature_number
:
1086460
sparse_feature_dim
:
9
num_field
:
39
d_key
:
16
d_value
:
16
n_head
:
6
dropout_rate
:
0
n_interacting_layers
:
1
mode
:
train_runner
# if infer, change mode to "infer_runner" and change phase to "infer_phase"
runner
:
-
name
:
train_runner
class
:
train
epochs
:
2
device
:
cpu
init_model_path
:
"
"
save_checkpoint_interval
:
1
save_inference_interval
:
1
save_checkpoint_path
:
"
increment"
save_inference_path
:
"
inference"
print_interval
:
1
-
name
:
infer_runner
class
:
infer
device
:
cpu
init_model_path
:
"
increment/0"
print_interval
:
1
phase
:
-
name
:
phase1
model
:
"
{workspace}/model.py"
dataset_name
:
train_sample
thread_num
:
1
#- name: infer_phase
# model: "{workspace}/model.py"
# dataset_name: infer_sample
# thread_num: 1
models/rank/AutoInt/model.py
0 → 100755
浏览文件 @
aa9441c0
# Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import
math
import
paddle.fluid
as
fluid
from
paddlerec.core.utils
import
envs
from
paddlerec.core.model
import
ModelBase
class
Model
(
ModelBase
):
def
__init__
(
self
,
config
):
ModelBase
.
__init__
(
self
,
config
)
def
_init_hyper_parameters
(
self
):
self
.
sparse_feature_number
=
envs
.
get_global_env
(
"hyper_parameters.sparse_feature_number"
,
None
)
self
.
sparse_feature_dim
=
envs
.
get_global_env
(
"hyper_parameters.sparse_feature_dim"
,
None
)
self
.
num_field
=
envs
.
get_global_env
(
"hyper_parameters.num_field"
,
None
)
self
.
d_key
=
envs
.
get_global_env
(
"hyper_parameters.d_key"
,
None
)
self
.
d_value
=
envs
.
get_global_env
(
"hyper_parameters.d_value"
,
None
)
self
.
n_head
=
envs
.
get_global_env
(
"hyper_parameters.n_head"
,
None
)
self
.
dropout_rate
=
envs
.
get_global_env
(
"hyper_parameters.dropout_rate"
,
0
)
self
.
n_interacting_layers
=
envs
.
get_global_env
(
"hyper_parameters.n_interacting_layers"
,
1
)
def
multi_head_attention
(
self
,
queries
,
keys
,
values
,
d_key
,
d_value
,
n_head
,
dropout_rate
):
keys
=
queries
if
keys
is
None
else
keys
values
=
keys
if
values
is
None
else
values
if
not
(
len
(
queries
.
shape
)
==
len
(
keys
.
shape
)
==
len
(
values
.
shape
)
==
3
):
raise
ValueError
(
"Inputs: quries, keys and values should all be 3-D tensors."
)
def
__compute_qkv
(
queries
,
keys
,
values
,
n_head
,
d_key
,
d_value
):
"""
Add linear projection to queries, keys, and values.
"""
q
=
fluid
.
layers
.
fc
(
input
=
queries
,
size
=
d_key
*
n_head
,
bias_attr
=
False
,
num_flatten_dims
=
2
)
k
=
fluid
.
layers
.
fc
(
input
=
keys
,
size
=
d_key
*
n_head
,
bias_attr
=
False
,
num_flatten_dims
=
2
)
v
=
fluid
.
layers
.
fc
(
input
=
values
,
size
=
d_value
*
n_head
,
bias_attr
=
False
,
num_flatten_dims
=
2
)
return
q
,
k
,
v
def
__split_heads_qkv
(
queries
,
keys
,
values
,
n_head
,
d_key
,
d_value
):
"""
Reshape input tensors at the last dimension to split multi-heads
and then transpose. Specifically, transform the input tensor with shape
[bs, max_sequence_length, n_head * hidden_dim] to the output tensor
with shape [bs, n_head, max_sequence_length, hidden_dim].
"""
# The value 0 in shape attr means copying the corresponding dimension
# size of the input as the output dimension size.
reshaped_q
=
fluid
.
layers
.
reshape
(
x
=
queries
,
shape
=
[
0
,
0
,
n_head
,
d_key
],
inplace
=
True
)
# permuate the dimensions into:
# [batch_size, n_head, max_sequence_len, hidden_size_per_head]
q
=
fluid
.
layers
.
transpose
(
x
=
reshaped_q
,
perm
=
[
0
,
2
,
1
,
3
])
# For encoder-decoder attention in inference, insert the ops and vars
# into global block to use as cache among beam search.
reshaped_k
=
fluid
.
layers
.
reshape
(
x
=
keys
,
shape
=
[
0
,
0
,
n_head
,
d_key
],
inplace
=
True
)
k
=
fluid
.
layers
.
transpose
(
x
=
reshaped_k
,
perm
=
[
0
,
2
,
1
,
3
])
reshaped_v
=
fluid
.
layers
.
reshape
(
x
=
values
,
shape
=
[
0
,
0
,
n_head
,
d_value
],
inplace
=
True
)
v
=
fluid
.
layers
.
transpose
(
x
=
reshaped_v
,
perm
=
[
0
,
2
,
1
,
3
])
return
q
,
k
,
v
def
scaled_dot_product_attention
(
q
,
k
,
v
,
d_key
,
dropout_rate
):
"""
Scaled Dot-Product Attention
"""
product
=
fluid
.
layers
.
matmul
(
x
=
q
,
y
=
k
,
transpose_y
=
True
,
alpha
=
d_key
**-
0.5
)
weights
=
fluid
.
layers
.
softmax
(
product
)
if
dropout_rate
:
weights
=
fluid
.
layers
.
dropout
(
weights
,
dropout_prob
=
dropout_rate
,
seed
=
None
,
is_test
=
False
)
out
=
fluid
.
layers
.
matmul
(
weights
,
v
)
return
out
def
__combine_heads
(
x
):
"""
Transpose and then reshape the last two dimensions of inpunt tensor x
so that it becomes one dimension, which is reverse to __split_heads.
"""
if
len
(
x
.
shape
)
!=
4
:
raise
ValueError
(
"Input(x) should be a 4-D Tensor."
)
trans_x
=
fluid
.
layers
.
transpose
(
x
,
perm
=
[
0
,
2
,
1
,
3
])
# The value 0 in shape attr means copying the corresponding dimension
# size of the input as the output dimension size.
return
fluid
.
layers
.
reshape
(
x
=
trans_x
,
shape
=
[
0
,
0
,
trans_x
.
shape
[
2
]
*
trans_x
.
shape
[
3
]],
inplace
=
True
)
q
,
k
,
v
=
__compute_qkv
(
queries
,
keys
,
values
,
n_head
,
d_key
,
d_value
)
q
,
k
,
v
=
__split_heads_qkv
(
q
,
k
,
v
,
n_head
,
d_key
,
d_value
)
d_model
=
d_key
*
n_head
ctx_multiheads
=
scaled_dot_product_attention
(
q
,
k
,
v
,
d_model
,
dropout_rate
)
out
=
__combine_heads
(
ctx_multiheads
)
return
out
def
interacting_layer
(
self
,
x
):
attention_out
=
self
.
multi_head_attention
(
x
,
None
,
None
,
self
.
d_key
,
self
.
d_value
,
self
.
n_head
,
self
.
dropout_rate
)
W_0_x
=
fluid
.
layers
.
fc
(
input
=
x
,
size
=
self
.
d_key
*
self
.
n_head
,
bias_attr
=
False
,
num_flatten_dims
=
2
)
res_out
=
fluid
.
layers
.
relu
(
attention_out
+
W_0_x
)
self
.
d_key
=
self
.
d_key
*
self
.
n_head
self
.
d_value
=
self
.
d_value
*
self
.
n_head
return
res_out
def
net
(
self
,
inputs
,
is_infer
=
False
):
init_value_
=
0.1
is_distributed
=
True
if
envs
.
get_trainer
()
==
"CtrTrainer"
else
False
# ------------------------- network input --------------------------
raw_feat_idx
=
self
.
_sparse_data_var
[
1
]
raw_feat_value
=
self
.
_dense_data_var
[
0
]
self
.
label
=
self
.
_sparse_data_var
[
0
]
feat_idx
=
raw_feat_idx
feat_value
=
fluid
.
layers
.
reshape
(
raw_feat_value
,
[
-
1
,
self
.
num_field
,
1
])
# None * num_field * 1
# ------------------------- Embedding --------------------------
feat_embeddings_re
=
fluid
.
embedding
(
input
=
feat_idx
,
is_sparse
=
True
,
is_distributed
=
is_distributed
,
dtype
=
'float32'
,
size
=
[
self
.
sparse_feature_number
+
1
,
self
.
sparse_feature_dim
],
padding_idx
=
0
,
param_attr
=
fluid
.
ParamAttr
(
initializer
=
fluid
.
initializer
.
TruncatedNormalInitializer
(
loc
=
0.0
,
scale
=
init_value_
/
math
.
sqrt
(
float
(
self
.
sparse_feature_dim
)))))
feat_embeddings
=
fluid
.
layers
.
reshape
(
feat_embeddings_re
,
shape
=
[
-
1
,
self
.
num_field
,
self
.
sparse_feature_dim
])
# None * num_field * embedding_size
# None * num_field * embedding_size
feat_embeddings
=
feat_embeddings
*
feat_value
inter_input
=
feat_embeddings
# ------------------------- interacting layer --------------------------
for
_
in
range
(
self
.
n_interacting_layers
):
interacting_layer_out
=
self
.
interacting_layer
(
inter_input
)
inter_input
=
interacting_layer_out
# ------------------------- DNN --------------------------
dnn_input
=
fluid
.
layers
.
flatten
(
interacting_layer_out
,
axis
=
1
)
y_dnn
=
fluid
.
layers
.
fc
(
input
=
dnn_input
,
size
=
1
,
act
=
None
,
param_attr
=
fluid
.
ParamAttr
(
initializer
=
fluid
.
initializer
.
TruncatedNormalInitializer
(
loc
=
0.0
,
scale
=
init_value_
)),
bias_attr
=
fluid
.
ParamAttr
(
initializer
=
fluid
.
initializer
.
TruncatedNormalInitializer
(
loc
=
0.0
,
scale
=
init_value_
)))
self
.
predict
=
fluid
.
layers
.
sigmoid
(
y_dnn
)
cost
=
fluid
.
layers
.
log_loss
(
input
=
self
.
predict
,
label
=
fluid
.
layers
.
cast
(
self
.
label
,
"float32"
))
avg_cost
=
fluid
.
layers
.
reduce_sum
(
cost
)
self
.
_cost
=
avg_cost
predict_2d
=
fluid
.
layers
.
concat
([
1
-
self
.
predict
,
self
.
predict
],
1
)
label_int
=
fluid
.
layers
.
cast
(
self
.
label
,
'int64'
)
auc_var
,
batch_auc_var
,
_
=
fluid
.
layers
.
auc
(
input
=
predict_2d
,
label
=
label_int
,
slide_steps
=
0
)
self
.
_metrics
[
"AUC"
]
=
auc_var
self
.
_metrics
[
"BATCH_AUC"
]
=
batch_auc_var
if
is_infer
:
self
.
_infer_results
[
"AUC"
]
=
auc_var
models/rank/readme.md
浏览文件 @
aa9441c0
...
...
@@ -37,6 +37,7 @@
| xDeepFM | xDeepFM |
[
xDeepFM: Combining Explicit and Implicit Feature Interactions for Recommender Systems
](
https://dl.acm.org/doi/pdf/10.1145/3219819.3220023
)(
2018
)
|
| DIN | Deep Interest Network |
[
Deep Interest Network for Click-Through Rate Prediction
](
https://dl.acm.org/doi/pdf/10.1145/3219819.3219823
)(
2018
)
|
| DIEN | Deep Interest Evolution Network |
[
Deep Interest Evolution Network for Click-Through Rate Prediction
](
https://www.aaai.org/ojs/index.php/AAAI/article/view/4545/4423
)(
2019
)
|
| AutoInt | Automatic Feature Interaction Learning via Self-Attentive Neural Networks |
[
AutoInt: Automatic Feature Interaction Learning via Self-Attentive Neural Networks
](
https://arxiv.org/pdf/1810.11921.pdf
)(
2019
)
|
| FGCNN | Feature Generation by CNN |
[
Feature Generation by Convolutional Neural Network for Click-Through Rate Prediction
](
https://arxiv.org/pdf/1904.04447.pdf
)(
2019
)
|
| FIBINET | Combining Feature Importance and Bilinear feature Interaction |
[
《FiBiNET: Combining Feature Importance and Bilinear feature Interaction for Click-Through Rate Prediction》
](
https://arxiv.org/pdf/1905.09433.pdf
)(
2019
)
|
...
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