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wenyuanbo
tic
Commits
d5d19449
Commit
d5d19449
authored
Oct 17, 2018
by
Siju
Committed by
Tianqi Chen
Oct 16, 2018
Browse files
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Plain Diff
[RELAY]Ops Dense, leaky_relu (#1828)
parent
8b01540d
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6 changed files
with
233 additions
and
0 deletions
+233
-0
docs/langref/relay_op.rst
+4
-0
include/tvm/relay/attrs/nn.h
+25
-0
python/tvm/relay/op/nn/nn.py
+52
-0
src/relay/op/nn/nn.cc
+98
-0
tests/python/relay/test_op_level2.py
+42
-0
tests/python/relay/test_op_level3.py
+12
-0
No files found.
docs/langref/relay_op.rst
View file @
d5d19449
...
@@ -51,6 +51,7 @@ This level enables typical convnet models.
...
@@ -51,6 +51,7 @@ This level enables typical convnet models.
tvm.relay.nn.conv2d
tvm.relay.nn.conv2d
tvm.relay.nn.conv2d_transpose
tvm.relay.nn.conv2d_transpose
tvm.relay.nn.dense
tvm.relay.nn.max_pool2d
tvm.relay.nn.max_pool2d
tvm.relay.nn.avg_pool2d
tvm.relay.nn.avg_pool2d
tvm.relay.nn.global_max_pool2d
tvm.relay.nn.global_max_pool2d
...
@@ -70,6 +71,7 @@ This level enables additional math and transform operators.
...
@@ -70,6 +71,7 @@ This level enables additional math and transform operators.
:nosignatures:
:nosignatures:
tvm.relay.zeros
tvm.relay.zeros
tvm.relay.nn.leaky_relu
tvm.relay.zeros_like
tvm.relay.zeros_like
tvm.relay.ones
tvm.relay.ones
tvm.relay.ones_like
tvm.relay.ones_like
...
@@ -137,6 +139,7 @@ Level 2 Definitions
...
@@ -137,6 +139,7 @@ Level 2 Definitions
-------------------
-------------------
.. autofunction:: tvm.relay.nn.conv2d
.. autofunction:: tvm.relay.nn.conv2d
.. autofunction:: tvm.relay.nn.conv2d_transpose
.. autofunction:: tvm.relay.nn.conv2d_transpose
.. autofunction:: tvm.relay.nn.dense
.. autofunction:: tvm.relay.nn.max_pool2d
.. autofunction:: tvm.relay.nn.max_pool2d
.. autofunction:: tvm.relay.nn.avg_pool2d
.. autofunction:: tvm.relay.nn.avg_pool2d
.. autofunction:: tvm.relay.nn.global_max_pool2d
.. autofunction:: tvm.relay.nn.global_max_pool2d
...
@@ -149,6 +152,7 @@ Level 2 Definitions
...
@@ -149,6 +152,7 @@ Level 2 Definitions
Level 3 Definitions
Level 3 Definitions
-------------------
-------------------
.. autofunction:: tvm.relay.nn.leaky_relu
.. autofunction:: tvm.relay.floor
.. autofunction:: tvm.relay.floor
.. autofunction:: tvm.relay.ceil
.. autofunction:: tvm.relay.ceil
.. autofunction:: tvm.relay.trunc
.. autofunction:: tvm.relay.trunc
...
...
include/tvm/relay/attrs/nn.h
View file @
d5d19449
...
@@ -202,6 +202,18 @@ struct GlobalPool2DAttrs : public tvm::AttrsNode<GlobalPool2DAttrs> {
...
@@ -202,6 +202,18 @@ struct GlobalPool2DAttrs : public tvm::AttrsNode<GlobalPool2DAttrs> {
}
}
};
};
/*! \brief Attributes for dense operator */
struct
DenseAttrs
:
public
tvm
::
AttrsNode
<
DenseAttrs
>
{
IndexExpr
units
;
TVM_DECLARE_ATTRS
(
DenseAttrs
,
"relay.attrs.DenseAttrs"
)
{
TVM_ATTR_FIELD
(
units
)
.
describe
(
"Number of hidden units of the dense transformation."
);
}
};
/*! \brief Attributes for upsampling operator */
/*! \brief Attributes for upsampling operator */
struct
UpSamplingAttrs
:
public
tvm
::
AttrsNode
<
UpSamplingAttrs
>
{
struct
UpSamplingAttrs
:
public
tvm
::
AttrsNode
<
UpSamplingAttrs
>
{
int
scale
;
int
scale
;
...
@@ -237,6 +249,18 @@ struct PadAttrs : public tvm::AttrsNode<PadAttrs> {
...
@@ -237,6 +249,18 @@ struct PadAttrs : public tvm::AttrsNode<PadAttrs> {
}
}
};
};
/*! \brief Attributes for leaky relu operator */
struct
LeakyReluAttrs
:
public
tvm
::
AttrsNode
<
LeakyReluAttrs
>
{
double
alpha
;
TVM_DECLARE_ATTRS
(
DenseAttrs
,
"relay.attrs.LeakyReluAttrs"
)
{
TVM_ATTR_FIELD
(
alpha
).
set_lower_bound
(
0
.
0
).
set_default
(
0
.
25
)
.
describe
(
"Slope coefficient for the negative half axis."
);
}
};
/*! \brief Attributes used in dropout operator */
/*! \brief Attributes used in dropout operator */
struct
DropoutAttrs
:
public
tvm
::
AttrsNode
<
DropoutAttrs
>
{
struct
DropoutAttrs
:
public
tvm
::
AttrsNode
<
DropoutAttrs
>
{
double
rate
;
double
rate
;
...
@@ -272,6 +296,7 @@ struct BatchNormAttrs : public tvm::AttrsNode<BatchNormAttrs> {
...
@@ -272,6 +296,7 @@ struct BatchNormAttrs : public tvm::AttrsNode<BatchNormAttrs> {
}
}
};
// struct BatchNormAttrs
};
// struct BatchNormAttrs
/*! \brief Attributes for LRN operator */
/*! \brief Attributes for LRN operator */
struct
LRNAttrs
:
public
tvm
::
AttrsNode
<
LRNAttrs
>
{
struct
LRNAttrs
:
public
tvm
::
AttrsNode
<
LRNAttrs
>
{
IndexExpr
size
;
IndexExpr
size
;
...
...
python/tvm/relay/op/nn/nn.py
View file @
d5d19449
...
@@ -430,6 +430,34 @@ def batch_flatten(data):
...
@@ -430,6 +430,34 @@ def batch_flatten(data):
"""
"""
return
_make
.
batch_flatten
(
data
)
return
_make
.
batch_flatten
(
data
)
def
dense
(
data
,
weight
,
units
=
None
):
"""Dense operator.
Applies a linear transformation
.. math::
`Y = X * W`
Parameters
----------
data : relay.Expr
The input data to the operator.
weight : relay.Expr
The weight expressions.
units : int, optional
Number of hidden units of the dense transformation.
Returns
-------
result : relay.Expr
The computed result.
"""
return
_make
.
dense
(
data
,
weight
,
units
)
def
relu
(
data
):
def
relu
(
data
):
"""Rectified linear unit.
"""Rectified linear unit.
...
@@ -449,6 +477,30 @@ def relu(data):
...
@@ -449,6 +477,30 @@ def relu(data):
return
_make
.
relu
(
data
)
return
_make
.
relu
(
data
)
def
leaky_relu
(
data
,
alpha
):
"""This operator takes data as input and does Leaky version
of a Rectified Linear Unit.
.. math::
`y = x > 0 ? x : alpha * x`
Parameters
----------
data : relay.Expr
The input data to the operator.
alpha : float
Slope coefficient for the negative half axis.
Returns
-------
result : relay.Expr
The computed result.
"""
return
_make
.
leaky_relu
(
data
,
alpha
)
def
pad
(
data
,
def
pad
(
data
,
pad_width
,
pad_width
,
pad_value
=
0.0
):
pad_value
=
0.0
):
...
...
src/relay/op/nn/nn.cc
View file @
d5d19449
...
@@ -15,6 +15,104 @@
...
@@ -15,6 +15,104 @@
namespace
tvm
{
namespace
tvm
{
namespace
relay
{
namespace
relay
{
TVM_REGISTER_NODE_TYPE
(
DenseAttrs
);
bool
DenseRel
(
const
Array
<
Type
>&
types
,
int
num_inputs
,
const
Attrs
&
attrs
,
const
TypeReporter
&
reporter
)
{
CHECK_EQ
(
types
.
size
(),
3
);
const
auto
*
data
=
types
[
0
].
as
<
TensorTypeNode
>
();
const
auto
*
weight
=
types
[
1
].
as
<
TensorTypeNode
>
();
if
(
data
==
nullptr
)
return
false
;
const
DenseAttrs
*
param
=
attrs
.
as
<
DenseAttrs
>
();
CHECK
(
param
!=
nullptr
);
CHECK
(
static_cast
<
int
>
(
data
->
shape
.
size
())
!=
0
);
Array
<
tvm
::
Expr
>
oshape
=
data
->
shape
;
if
(
param
->
units
.
defined
())
{
Array
<
tvm
::
Expr
>
dshape
=
data
->
shape
;
// validate the weight shape is proper if defined
// Assign weight type
Array
<
IndexExpr
>
wshape
({
dshape
[
dshape
.
size
()
-
1
],
param
->
units
});
reporter
->
Assign
(
types
[
1
],
TensorTypeNode
::
make
(
wshape
,
data
->
dtype
));
oshape
.
Set
((
oshape
.
size
()
-
1
),
param
->
units
);
}
else
{
if
(
weight
==
nullptr
)
return
false
;
Array
<
tvm
::
Expr
>
wshape
=
weight
->
shape
;
oshape
.
Set
((
oshape
.
size
()
-
1
),
wshape
[
wshape
.
size
()
-
1
]);
}
// assign output type
reporter
->
Assign
(
types
[
2
],
TensorTypeNode
::
make
(
oshape
,
data
->
dtype
));
return
true
;
}
// Positional relay function to create dense operator used by frontend FFI.
Expr
MakeDense
(
Expr
data
,
Expr
weight
,
IndexExpr
units
)
{
auto
attrs
=
make_node
<
DenseAttrs
>
();
attrs
->
units
=
units
;
static
const
Op
&
op
=
Op
::
Get
(
"nn.dense"
);
return
CallNode
::
make
(
op
,
{
data
,
weight
},
Attrs
(
attrs
),
{});
}
TVM_REGISTER_API
(
"relay.op.nn._make.dense"
)
.
set_body
([](
const
TVMArgs
&
args
,
TVMRetValue
*
rv
)
{
runtime
::
detail
::
unpack_call
<
Expr
,
3
>
(
MakeDense
,
args
,
rv
);
});
RELAY_REGISTER_OP
(
"nn.dense"
)
.
describe
(
R"code(Applies a linear transformation: :math:`Y = XW^T`.
- **data**: `(x1, x2, ..., xn, input_dim)`
- **weight**: `(units, input_dim)`
- **out**: `(x1, x2, ..., xn, units)`.
)code"
TVM_ADD_FILELINE
)
.
set_num_inputs
(
2
)
.
add_argument
(
"data"
,
"nD Tensor"
,
"Input data."
)
.
add_argument
(
"weight"
,
"2D Tensor"
,
"Weight matrix."
)
.
set_support_level
(
2
)
.
add_type_rel
(
"Dense"
,
DenseRel
);
// Positional relay function to create leaky relu operator used by frontend FFI.
Expr
MakeLeakyRelu
(
Expr
data
,
double
alpha
)
{
auto
attrs
=
make_node
<
LeakyReluAttrs
>
();
attrs
->
alpha
=
alpha
;
static
const
Op
&
op
=
Op
::
Get
(
"nn.leaky_relu"
);
return
CallNode
::
make
(
op
,
{
data
},
Attrs
(
attrs
),
{});
}
TVM_REGISTER_API
(
"relay.op.nn._make.leaky_relu"
)
.
set_body
([](
const
TVMArgs
&
args
,
TVMRetValue
*
rv
)
{
runtime
::
detail
::
unpack_call
<
Expr
,
2
>
(
MakeLeakyRelu
,
args
,
rv
);
});
RELAY_REGISTER_OP
(
"nn.leaky_relu"
)
.
describe
(
R"code(Leaky version of a Rectified Linear Unit.
`y = x > 0 ? x : alpha * x`
)code"
TVM_ADD_FILELINE
)
.
set_num_inputs
(
1
)
.
add_argument
(
"data"
,
"Tensor"
,
"Input data."
)
.
set_support_level
(
3
)
.
add_type_rel
(
"Identity"
,
IdentityRel
);
TVM_REGISTER_API
(
"relay.op.nn._make.softmax"
)
TVM_REGISTER_API
(
"relay.op.nn._make.softmax"
)
.
set_body
([](
const
TVMArgs
&
args
,
TVMRetValue
*
rv
)
{
.
set_body
([](
const
TVMArgs
&
args
,
TVMRetValue
*
rv
)
{
auto
make_func
=
[](
Expr
data
,
int
axis
)
{
auto
make_func
=
[](
Expr
data
,
int
axis
)
{
...
...
tests/python/relay/test_op_level2.py
View file @
d5d19449
...
@@ -219,6 +219,47 @@ def test_pad_infer_type():
...
@@ -219,6 +219,47 @@ def test_pad_infer_type():
ftype
=
func
.
checked_type
ftype
=
func
.
checked_type
assert
ftype
.
ret_type
==
relay
.
TensorType
((
n
+
2
,
6
,
9
,
w
+
8
),
"float32"
)
assert
ftype
.
ret_type
==
relay
.
TensorType
((
n
+
2
,
6
,
9
,
w
+
8
),
"float32"
)
def
test_dense_infer_type
():
ib
=
relay
.
ir_builder
.
IRBuilder
()
n
,
c
,
h
,
w
=
tvm
.
var
(
"n"
),
tvm
.
var
(
"c"
),
tvm
.
var
(
"h"
),
tvm
.
var
(
"w"
)
x
=
ib
.
param
(
"x"
,
relay
.
ty
.
TensorType
((
n
,
c
,
h
,
w
),
"float32"
))
w
=
ib
.
param
(
"w"
,
relay
.
ty
.
TensorType
((
w
,
2
),
"float32"
))
with
ib
.
function
(
x
,
w
)
as
func
:
ib
.
ret
(
relay
.
nn
.
dense
(
x
,
w
,
units
=
2
))
ib
.
ret
(
func
)
func
=
relay
.
ir_pass
.
infer_type
(
ib
.
env
,
func
.
to_func
())
ftype
=
func
.
checked_type
assert
ftype
.
ret_type
==
relay
.
ty
.
TensorType
((
n
,
c
,
h
,
2
),
"float32"
)
ib
=
relay
.
ir_builder
.
IRBuilder
()
n
,
c
,
h
,
w
=
tvm
.
var
(
"n"
),
tvm
.
var
(
"c"
),
tvm
.
var
(
"h"
),
2
x
=
ib
.
param
(
"x"
,
relay
.
ty
.
TensorType
((
n
,
c
,
h
,
w
),
"float32"
))
wh
,
ww
=
tvm
.
var
(
"wh"
),
tvm
.
var
(
"ww"
)
w
=
ib
.
param
(
"w"
,
relay
.
ty
.
TensorType
((
wh
,
ww
),
"float32"
))
with
ib
.
function
(
x
,
w
)
as
func
:
ib
.
ret
(
relay
.
nn
.
dense
(
x
,
w
))
ib
.
ret
(
func
)
func
=
relay
.
ir_pass
.
infer_type
(
ib
.
env
,
func
.
to_func
())
ftype
=
func
.
checked_type
assert
ftype
.
ret_type
==
relay
.
ty
.
TensorType
((
n
,
c
,
h
,
ww
),
"float32"
)
ib
=
relay
.
ir_builder
.
IRBuilder
()
n
,
c
,
h
,
w
=
tvm
.
var
(
"n"
),
tvm
.
var
(
"c"
),
tvm
.
var
(
"h"
),
2
x
=
ib
.
param
(
"x"
,
relay
.
ty
.
TensorType
((
n
,
c
,
h
,
w
),
"float32"
))
w
=
ib
.
param
(
"w"
,
relay
.
ty
.
IncompleteType
())
with
ib
.
function
(
x
,
w
)
as
func
:
ib
.
ret
(
relay
.
nn
.
dense
(
x
,
w
,
units
=
2
))
ib
.
ret
(
func
)
func
=
relay
.
ir_pass
.
infer_type
(
ib
.
env
,
func
.
to_func
())
ftype
=
func
.
checked_type
assert
ftype
.
ret_type
==
relay
.
ty
.
TensorType
((
n
,
c
,
h
,
2
),
"float32"
)
if
__name__
==
"__main__"
:
if
__name__
==
"__main__"
:
test_conv2d_infer_type
()
test_conv2d_infer_type
()
...
@@ -227,3 +268,4 @@ if __name__ == "__main__":
...
@@ -227,3 +268,4 @@ if __name__ == "__main__":
test_flatten_infer_type
()
test_flatten_infer_type
()
test_pad_infer_type
()
test_pad_infer_type
()
test_conv2d_transpose_infer_type
()
test_conv2d_transpose_infer_type
()
test_dense_infer_type
()
tests/python/relay/test_op_level3.py
View file @
d5d19449
...
@@ -208,6 +208,17 @@ def test_full_like():
...
@@ -208,6 +208,17 @@ def test_full_like():
ftype
=
func
.
checked_type
ftype
=
func
.
checked_type
assert
ftype
.
ret_type
==
relay
.
TensorType
((
n
,
c
,
h
,
w
),
"float32"
)
assert
ftype
.
ret_type
==
relay
.
TensorType
((
n
,
c
,
h
,
w
),
"float32"
)
def
test_infer_type_leaky_relu
():
ib
=
relay
.
ir_builder
.
IRBuilder
()
n
,
c
,
h
,
w
=
tvm
.
var
(
"n"
),
tvm
.
var
(
"c"
),
tvm
.
var
(
"h"
),
tvm
.
var
(
"w"
)
x
=
ib
.
param
(
"x"
,
relay
.
ty
.
TensorType
((
n
,
c
,
h
,
w
),
"float32"
))
with
ib
.
function
(
x
)
as
func
:
ib
.
ret
(
relay
.
nn
.
leaky_relu
(
x
,
alpha
=
0.1
))
ib
.
ret
(
func
)
func
=
relay
.
ir_pass
.
infer_type
(
ib
.
env
,
func
.
to_func
())
ftype
=
func
.
checked_type
assert
ftype
.
ret_type
==
relay
.
ty
.
TensorType
((
n
,
c
,
h
,
w
),
"float32"
)
if
__name__
==
"__main__"
:
if
__name__
==
"__main__"
:
test_single_op
()
test_single_op
()
...
@@ -220,5 +231,6 @@ if __name__ == "__main__":
...
@@ -220,5 +231,6 @@ if __name__ == "__main__":
test_take_infer_type
()
test_take_infer_type
()
test_full
()
test_full
()
test_full_like
()
test_full_like
()
test_infer_type_leaky_relu
()
test_squeeze_axes_infer_type
()
test_squeeze_axes_infer_type
()
test_squeeze_default_axes_infer_type
()
test_squeeze_default_axes_infer_type
()
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