未验证 提交 fa9d3fa5 编写于 作者: G Guo Sheng 提交者: GitHub

Incorporate cudnn_lstm into LSTM api (#27217)

* Incorporate cudnn_lstm into LSTM api.
test=develop

* Make coalesce_tensor support alignment optionally.
test=develop

* Reorganize RNN apis. test=develop

* Fix cudnn rnn layout conversion.
test=develop

* Add sequence_length support for RNN cudnn implement.
Add optional init_h and init_c gradient for cudnn_lstm_op.
test=develop

* Use create_parameter for rnn cudnn impl.
test=develop

* Move `self._flat_weight = self.create_parameter()` in RNNBase to main_program.
test=develop

* Update RNN api unittest to use set_device.
test=develop

* Fix set_place for unit tests of RNN apis.
test=develop

* Fix use_align in coalesce_tensor_op.
test=develop

* Adjust RNN apis arguments according to comments.
test=develop

* Polish documents for SimpleRNN apis.
test=develop

* Refine random seed in cudnn_lstm_op.
Expose rnn params from sublayers to RNN.
test=develop

* Fix RNN saving for jit.save.
Refine cudnn_lstm dropout behavior.
test=develop

* Fix doc of GRU. test=develop

* Use ShareDataWith to avoid copying for cudnn_lstm_op test.
test=develop

* Remove updates on cudnn_lstm temporarily.
test=develop

* Use ShareDataWith to avoid copying for cudnn_lstm_op test.
test=develop

* Refine random seed in cudnn_lstm_op.
test=develop

* Fix test_lstm by adjust ConcreteProgram buffer getter.
test=develop

* Use create_parameter instead of create_var for rnn._flat_weight for static graph usage.
test=develop

* Remove W input for cudnn_lstm to pass unused_var_check.
test=develop

* Add test_predict for RNN unit tests coverage.
test=develop

* Fix code style of rnn.
test=develop

* Fix F.rnn usage in rnn.py.
test=develop
上级 78b1026f
......@@ -67,6 +67,7 @@ class CoalesceTensorOpKernel : public framework::OpKernel<T> {
}
auto in_tensors = context.MultiInput<framework::LoDTensor>("Input");
bool use_align = context.Attr<bool>("use_align");
if (context.Attr<bool>("check_name")) {
for (size_t i = 0; i < in_var_names.size(); ++i) {
......@@ -93,7 +94,7 @@ class CoalesceTensorOpKernel : public framework::OpKernel<T> {
context.Attr<int>("dtype"));
size_t size_of_dtype = framework::SizeOfType(dtype);
GetMemSizeAndDtype(in_tensors, in_var_names, &numel, size_of_dtype,
context.GetPlace());
context.GetPlace(), use_align);
// Alloc the continuous space
auto fused_tensor = context.Output<framework::LoDTensor>("FusedOutput");
......@@ -111,8 +112,11 @@ class CoalesceTensorOpKernel : public framework::OpKernel<T> {
framework::TensorCopy(*in_tensors[i], context.GetPlace(), dev_ctx,
&sub_tensor);
offset += platform::Alignment(len * size_of_dtype, context.GetPlace()) /
size_of_dtype;
offset +=
use_align
? platform::Alignment(len * size_of_dtype, context.GetPlace()) /
size_of_dtype
: len;
}
} else if (context.Attr<bool>("set_constant")) {
math::SetConstant<DeviceContext, T> set_constant;
......@@ -131,8 +135,10 @@ class CoalesceTensorOpKernel : public framework::OpKernel<T> {
->ShareDataWith(fused_tensor->Slice(
static_cast<int64_t>(offset), static_cast<int64_t>(offset + len)))
.Resize(dim);
len = platform::Alignment(len * size_of_dtype, context.GetPlace()) /
size_of_dtype;
len = use_align
? platform::Alignment(len * size_of_dtype, context.GetPlace()) /
size_of_dtype
: len;
offset += len;
ss << "output(" << out_var_names[i] << ") dim:(" << dim << ")"
<< " address: " << out_tensors[i]->data<void>() << ", ";
......@@ -144,7 +150,8 @@ class CoalesceTensorOpKernel : public framework::OpKernel<T> {
void GetMemSizeAndDtype(
const std::vector<const framework::LoDTensor *> &lod_tensors,
const std::vector<std::string> var_names, size_t *numel,
const size_t &size_of_dtype, const platform::Place &place) const {
const size_t &size_of_dtype, const platform::Place &place,
const bool use_align = true) const {
PADDLE_ENFORCE_EQ(
lod_tensors.size(), var_names.size(),
platform::errors::InvalidArgument(
......@@ -167,9 +174,11 @@ class CoalesceTensorOpKernel : public framework::OpKernel<T> {
ss << "input(" << var_names[i] << ") dim:(" << lod_tensors[i]->dims()
<< ") "
<< " addres:" << lod_tensors[i]->data<void>() << ", ";
*numel += platform::Alignment(static_cast<size_t>(size) * size_of_dtype,
place) /
size_of_dtype;
*numel += use_align
? platform::Alignment(
static_cast<size_t>(size) * size_of_dtype, place) /
size_of_dtype
: static_cast<size_t>(size);
}
VLOG(10) << ss.str();
......@@ -223,6 +232,10 @@ class CoalesceTensorOpMaker : public framework::OpProtoAndCheckerMaker {
"Whether to check the name of Input and Output to ensure "
"they are the same separately.")
.SetDefault(false);
AddAttr<bool>("use_align",
"Whether to consider memory chunk and take alignment into "
"account for inputs and outputs.")
.SetDefault(true);
AddComment(R"DOC(
CoalesceTensor Operator.
......
......@@ -12,6 +12,7 @@ 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. */
#include "paddle/fluid/framework/generator.h"
#include "paddle/fluid/framework/op_registry.h"
#include "paddle/fluid/operators/cudnn_lstm_cache.h"
#include "paddle/fluid/operators/math/math_function.h"
......@@ -156,6 +157,21 @@ class CudnnLSTMGPUKernel : public framework::OpKernel<T> {
bool is_test = ctx.Attr<bool>("is_test");
int seed = ctx.Attr<int>("seed");
if (!is_test) {
int device_id =
BOOST_GET_CONST(platform::CUDAPlace, ctx.GetPlace()).GetDeviceId();
auto gen_cuda = framework::GetDefaultCUDAGenerator(device_id);
if (gen_cuda->GetIsInitPy() && seed == 0) {
// If perform `manual_seed` in python and inner seed is not specified
// (equals 0), use global generator generated seed.
seed = static_cast<int>(gen_cuda->Random64());
} else if (seed == 0) {
// use random generated seed
std::random_device rd;
seed = rd();
} // else use `ctx.Attr<int>("seed")` specified seed
}
bool has_seq_length = ctx.HasInput("SequenceLength");
std::vector<int> SequenceLength;
if (has_seq_length) {
......@@ -194,13 +210,25 @@ class CudnnLSTMGPUKernel : public framework::OpKernel<T> {
if (!continuous) {
LOG_FIRST_N(WARNING, 2)
<< "If the memory space of the Input WeightList is not "
"continuous, less efficient calculation will be "
"called. Please call coalesce_tensor op to make the "
"input memory continuous.";
<< "If the memory space of the Input WeightList is not continuous, "
"less efficient calculation will be called. Please call "
"flatten_parameters() to make the input memory continuous.";
weight_whole.mutable_data<T>({weight_numel}, place);
weight_to_tensor<T>(place, stream, weight_list, &weight_whole);
w_data = weight_whole.data<T>();
if (is_test) { // maybe also reset small weights' ptr for training
int offset = 0;
for (size_t i = 0; i < weight_list.size(); ++i) {
size_t len = weight_list[i]->numel();
auto dim = weight_list[i]->dims();
const_cast<Tensor *>(weight_list[i])
->ShareDataWith(
weight_whole.Slice(static_cast<int64_t>(offset),
static_cast<int64_t>(offset + len)))
.Resize(dim);
offset += len;
}
}
} else {
w_data = const_cast<T *>(weight_list[0]->data<T>());
}
......@@ -226,12 +254,6 @@ class CudnnLSTMGPUKernel : public framework::OpKernel<T> {
LSTMInferece<T>(has_seq_length, handle, seq_length, &rnn, x_data,
init_h_data, init_c_data, w_data, out_data, last_h_data,
last_c_data, &workspace_data_, workspace_size);
if (!w_initialized && ctx.HasInput("W") && ctx.HasInput("WeightList")) {
auto *W = const_cast<Tensor *>(ctx.Input<Tensor>("W"));
auto weight_list = ctx.MultiInput<framework::Tensor>("WeightList");
W->mutable_data<T>({weight_numel}, place);
weight_to_tensor<T>(place, stream, weight_list, W);
}
} else {
if (!has_seq_length) {
// for train
......
......@@ -89,6 +89,7 @@ REGISTER_OP_CPU_KERNEL(
save, ops::SaveOpKernel<paddle::platform::CPUDeviceContext, float>,
ops::SaveOpKernel<paddle::platform::CPUDeviceContext, double>,
ops::SaveOpKernel<paddle::platform::CPUDeviceContext, int>,
ops::SaveOpKernel<paddle::platform::CPUDeviceContext, uint8_t>,
ops::SaveOpKernel<paddle::platform::CPUDeviceContext, int8_t>,
ops::SaveOpKernel<paddle::platform::CPUDeviceContext, int16_t>,
ops::SaveOpKernel<paddle::platform::CPUDeviceContext, int64_t>);
......@@ -21,6 +21,7 @@ REGISTER_OP_CUDA_KERNEL(
save, ops::SaveOpKernel<paddle::platform::CUDADeviceContext, float>,
ops::SaveOpKernel<paddle::platform::CUDADeviceContext, double>,
ops::SaveOpKernel<paddle::platform::CUDADeviceContext, int>,
ops::SaveOpKernel<paddle::platform::CUDADeviceContext, uint8_t>,
ops::SaveOpKernel<paddle::platform::CUDADeviceContext, int8_t>,
ops::SaveOpKernel<paddle::platform::CUDADeviceContext, int64_t>,
ops::SaveOpKernel<paddle::platform::CUDADeviceContext,
......
......@@ -592,9 +592,8 @@ class ConcreteProgram(object):
inputs = tuple([class_instance] + list(inputs))
# 2. Gets all ParamBases and buffered VarBases in the function
all_parameters_and_buffers = list(
get_parameters(class_instance).values()) + list(
get_buffers(class_instance).values())
all_parameters_and_buffers = _extract_indeed_params_buffers(
class_instance)
# 3. Builds program only once and returns the output Variables.
with param_guard(get_parameters(
......@@ -622,6 +621,17 @@ class ConcreteProgram(object):
startup_program=startup_program)
def _extract_indeed_params_buffers(class_instance):
"""
To filter not initialzed buffers.
"""
params = list(get_parameters(class_instance).values())
buffers = list(get_buffers(class_instance).values())
buffers = [buffer for buffer in buffers if buffer.shape != []]
return params + buffers
class ProgramCache(object):
"""
Wrapper class for the program functions defined by dygraph function.
......
......@@ -29,11 +29,13 @@ class TestSimpleRNN(unittest.TestCase):
self.time_major = time_major
self.direction = direction
self.num_directions = 2 if direction == "bidirectional" else 1
self.place = paddle.CPUPlace() if place == "cpu" \
else paddle.CUDAPlace(0)
self.place = place
def setUp(self):
paddle.disable_static(self.place)
# Since `set_device` is global, set `set_device` in `setUp` rather than
# `__init__` to avoid using an error device set by another test case.
place = paddle.set_device(self.place)
paddle.disable_static(place)
rnn1 = SimpleRNN(
16, 32, 2, time_major=self.time_major, direction=self.direction)
rnn2 = paddle.nn.SimpleRNN(
......@@ -103,11 +105,13 @@ class TestGRU(unittest.TestCase):
self.time_major = time_major
self.direction = direction
self.num_directions = 2 if direction == "bidirectional" else 1
self.place = paddle.CPUPlace() if place == "cpu" \
else paddle.CUDAPlace(0)
self.place = place
def setUp(self):
paddle.disable_static(self.place)
# Since `set_device` is global, set `set_device` in `setUp` rather than
# `__init__` to avoid using an error device set by another test case.
place = paddle.set_device(self.place)
paddle.disable_static(place)
rnn1 = GRU(16,
32,
2,
......@@ -183,11 +187,13 @@ class TestLSTM(unittest.TestCase):
self.time_major = time_major
self.direction = direction
self.num_directions = 2 if direction == "bidirectional" else 1
self.place = paddle.CPUPlace() if place == "cpu" \
else paddle.CUDAPlace(0)
self.place = place
def setUp(self):
paddle.disable_static(self.place)
# Since `set_device` is global, set `set_device` in `setUp` rather than
# `__init__` to avoid using an error device set by another test case.
place = paddle.set_device(self.place)
paddle.disable_static(place)
rnn1 = LSTM(
16, 32, 2, time_major=self.time_major, direction=self.direction)
rnn2 = paddle.nn.LSTM(
......@@ -251,10 +257,68 @@ class TestLSTM(unittest.TestCase):
np.testing.assert_allclose(h1, h2.numpy(), atol=1e-8, rtol=1e-5)
np.testing.assert_allclose(c1, c2.numpy(), atol=1e-8, rtol=1e-5)
def test_predict(self):
place = paddle.set_device(self.place)
paddle.manual_seed(123)
np.random.seed(123)
class Net(paddle.nn.Layer):
def __init__(self):
super(Net, self).__init__()
self.rnn1 = paddle.nn.LSTM(
16, 32, 2, direction="bidirectional", dropout=0.1)
def forward(self, input):
return self.rnn1(input)
x = paddle.randn((4, 10, 16))
x.stop_gradient = False
seq_len = paddle.to_tensor(np.array([10, 6, 8, 5]))
mask = sequence_mask(seq_len, maxlen=10, dtype=x.dtype)
mask = paddle.unsqueeze(mask, [2])
rnn = Net()
y, (h, c) = rnn(x)
y = y * mask
loss = paddle.mean(y)
loss.backward()
optimizer = paddle.optimizer.Adam(
learning_rate=0.1, parameters=rnn.parameters())
optimizer.step()
rnn.eval()
y, (h, c) = rnn(x)
# `jit.to_static` would include a train_program, eval mode might cause
# some errors currently, such as dropout grad op gets `is_test == True`.
rnn.train()
rnn = paddle.jit.to_static(
rnn,
[paddle.static.InputSpec(
shape=[None, None, 16], dtype=x.dtype)])
paddle.jit.save(rnn, "./inference/lstm_infer")
paddle.enable_static()
new_scope = paddle.static.Scope()
with paddle.static.scope_guard(new_scope):
exe = paddle.static.Executor(place)
[inference_program, feed_target_names,
fetch_targets] = paddle.static.load_inference_model(
dirname="./inference",
executor=exe,
model_filename="lstm_infer.pdmodel",
params_filename="lstm_infer.pdiparams")
results = exe.run(inference_program,
feed={feed_target_names[0]: x.numpy()},
fetch_list=fetch_targets)
np.testing.assert_equal(
y.numpy(), results[0]) # eval results equal predict results
paddle.disable_static()
def runTest(self):
self.test_with_initial_state()
self.test_with_zero_state()
self.test_with_input_lengths()
self.test_predict()
def load_tests(loader, tests, pattern):
......
......@@ -30,10 +30,12 @@ class TestSimpleRNN(unittest.TestCase):
self.time_major = time_major
self.direction = direction
self.num_directions = 2 if direction == "bidirectional" else 1
self.place = paddle.CPUPlace() if place == "cpu" \
else paddle.CUDAPlace(0)
self.place = place
def setUp(self):
# Since `set_device` is global, set `set_device` in `setUp` rather than
# `__init__` to avoid using an error device set by another test case.
place = paddle.set_device(self.place)
rnn1 = SimpleRNN(
16, 32, 2, time_major=self.time_major, direction=self.direction)
......@@ -48,7 +50,6 @@ class TestSimpleRNN(unittest.TestCase):
time_major=self.time_major,
direction=self.direction)
place = self.place
exe = paddle.static.Executor(place)
scope = paddle.fluid.Scope()
with paddle.static.scope_guard(scope):
......@@ -172,10 +173,12 @@ class TestGRU(unittest.TestCase):
self.time_major = time_major
self.direction = direction
self.num_directions = 2 if direction == "bidirectional" else 1
self.place = paddle.CPUPlace() if place == "cpu" \
else paddle.CUDAPlace(0)
self.place = place
def setUp(self):
# Since `set_device` is global, set `set_device` in `setUp` rather than
# `__init__` to avoid using an error device set by another test case.
place = paddle.set_device(self.place)
rnn1 = GRU(16,
32,
2,
......@@ -192,7 +195,6 @@ class TestGRU(unittest.TestCase):
time_major=self.time_major,
direction=self.direction)
place = self.place
exe = paddle.static.Executor(place)
scope = paddle.fluid.Scope()
with paddle.static.scope_guard(scope):
......@@ -316,10 +318,12 @@ class TestLSTM(unittest.TestCase):
self.time_major = time_major
self.direction = direction
self.num_directions = 2 if direction == "bidirectional" else 1
self.place = paddle.CPUPlace() if place == "cpu" \
else paddle.CUDAPlace(0)
self.place = place
def setUp(self):
# Since `set_device` is global, set `set_device` in `setUp` rather than
# `__init__` to avoid using an error device set by another test case.
place = paddle.set_device(self.place)
rnn1 = LSTM(
16, 32, 2, time_major=self.time_major, direction=self.direction)
......@@ -334,7 +338,6 @@ class TestLSTM(unittest.TestCase):
time_major=self.time_major,
direction=self.direction)
place = self.place
exe = paddle.static.Executor(place)
scope = paddle.fluid.Scope()
with paddle.static.scope_guard(scope):
......
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