From dfd85caa1b1f4d8237aaf622043a9ad015d3627b Mon Sep 17 00:00:00 2001 From: yoonlee666 Date: Thu, 3 Sep 2020 11:40:38 +0800 Subject: [PATCH] delete enable_fused_layernorm --- model_zoo/official/nlp/bert/README.md | 1 - model_zoo/official/nlp/bert/src/bert_model.py | 38 ++---- .../official/nlp/bert/src/fused_layer_norm.py | 122 ------------------ model_zoo/official/nlp/tinybert/README.md | 2 - .../nlp/tinybert/src/fused_layer_norm.py | 122 ------------------ .../official/nlp/tinybert/src/gd_config.py | 6 +- .../official/nlp/tinybert/src/td_config.py | 6 +- .../nlp/tinybert/src/tinybert_model.py | 41 ++---- .../test_bert_tdt_lossscale.py | 3 +- .../bert_precision/test_bert_tdt_lossscale.py | 3 +- 10 files changed, 29 insertions(+), 315 deletions(-) delete mode 100644 model_zoo/official/nlp/bert/src/fused_layer_norm.py delete mode 100644 model_zoo/official/nlp/tinybert/src/fused_layer_norm.py diff --git a/model_zoo/official/nlp/bert/README.md b/model_zoo/official/nlp/bert/README.md index 311678f9bcd..922a1f8054a 100644 --- a/model_zoo/official/nlp/bert/README.md +++ b/model_zoo/official/nlp/bert/README.md @@ -161,7 +161,6 @@ For example, the schema file of cn-wiki-128 dataset for pretraining shows as fol ├─dataset.py # data preprocessing ├─finetune_eval_config.py # parameter configuration for finetuning ├─finetune_eval_model.py # backbone code of network - ├─fused_layer_norm.py # Layernormal is optimized for Ascend ├─sample_process.py # sample processing ├─utils.py # util function ├─pretrain_eval.py # train and eval net diff --git a/model_zoo/official/nlp/bert/src/bert_model.py b/model_zoo/official/nlp/bert/src/bert_model.py index 4199c13b5a1..c305ddc1a2c 100644 --- a/model_zoo/official/nlp/bert/src/bert_model.py +++ b/model_zoo/official/nlp/bert/src/bert_model.py @@ -25,7 +25,6 @@ from mindspore.ops import operations as P from mindspore.ops import composite as C from mindspore.common.tensor import Tensor from mindspore.common.parameter import Parameter -from .fused_layer_norm import FusedLayerNorm class BertConfig: @@ -78,8 +77,7 @@ class BertConfig: input_mask_from_dataset=True, token_type_ids_from_dataset=True, dtype=mstype.float32, - compute_type=mstype.float32, - enable_fused_layernorm=False): + compute_type=mstype.float32): self.batch_size = batch_size self.seq_length = seq_length self.vocab_size = vocab_size @@ -98,7 +96,6 @@ class BertConfig: self.use_relative_positions = use_relative_positions self.dtype = dtype self.compute_type = compute_type - self.enable_fused_layernorm = enable_fused_layernorm class EmbeddingLookup(nn.Cell): @@ -245,19 +242,14 @@ class BertOutput(nn.Cell): out_channels, initializer_range=0.02, dropout_prob=0.1, - compute_type=mstype.float32, - enable_fused_layernorm=False): + compute_type=mstype.float32): super(BertOutput, self).__init__() self.dense = nn.Dense(in_channels, out_channels, weight_init=TruncatedNormal(initializer_range)).to_float(compute_type) self.dropout = nn.Dropout(1 - dropout_prob) self.dropout_prob = dropout_prob self.add = P.TensorAdd() - if compute_type == mstype.float16: - self.layernorm = FusedLayerNorm((out_channels,), - use_batch_norm=enable_fused_layernorm).to_float(compute_type) - else: - self.layernorm = nn.LayerNorm((out_channels,)).to_float(compute_type) + self.layernorm = nn.LayerNorm((out_channels,)).to_float(compute_type) self.cast = P.Cast() def construct(self, hidden_status, input_tensor): @@ -615,8 +607,7 @@ class BertSelfAttention(nn.Cell): initializer_range=0.02, hidden_dropout_prob=0.1, use_relative_positions=False, - compute_type=mstype.float32, - enable_fused_layernorm=False): + compute_type=mstype.float32): super(BertSelfAttention, self).__init__() if hidden_size % num_attention_heads != 0: raise ValueError("The hidden size (%d) is not a multiple of the number " @@ -644,8 +635,7 @@ class BertSelfAttention(nn.Cell): out_channels=hidden_size, initializer_range=initializer_range, dropout_prob=hidden_dropout_prob, - compute_type=compute_type, - enable_fused_layernorm=enable_fused_layernorm) + compute_type=compute_type) self.reshape = P.Reshape() self.shape = (-1, hidden_size) @@ -687,8 +677,7 @@ class BertEncoderCell(nn.Cell): hidden_dropout_prob=0.1, use_relative_positions=False, hidden_act="gelu", - compute_type=mstype.float32, - enable_fused_layernorm=False): + compute_type=mstype.float32): super(BertEncoderCell, self).__init__() self.attention = BertSelfAttention( batch_size=batch_size, @@ -700,8 +689,7 @@ class BertEncoderCell(nn.Cell): initializer_range=initializer_range, hidden_dropout_prob=hidden_dropout_prob, use_relative_positions=use_relative_positions, - compute_type=compute_type, - enable_fused_layernorm=enable_fused_layernorm) + compute_type=compute_type) self.intermediate = nn.Dense(in_channels=hidden_size, out_channels=intermediate_size, activation=hidden_act, @@ -710,8 +698,7 @@ class BertEncoderCell(nn.Cell): out_channels=hidden_size, initializer_range=initializer_range, dropout_prob=hidden_dropout_prob, - compute_type=compute_type, - enable_fused_layernorm=enable_fused_layernorm) + compute_type=compute_type) def construct(self, hidden_states, attention_mask): # self-attention @@ -758,8 +745,7 @@ class BertTransformer(nn.Cell): use_relative_positions=False, hidden_act="gelu", compute_type=mstype.float32, - return_all_encoders=False, - enable_fused_layernorm=False): + return_all_encoders=False): super(BertTransformer, self).__init__() self.return_all_encoders = return_all_encoders @@ -776,8 +762,7 @@ class BertTransformer(nn.Cell): hidden_dropout_prob=hidden_dropout_prob, use_relative_positions=use_relative_positions, hidden_act=hidden_act, - compute_type=compute_type, - enable_fused_layernorm=enable_fused_layernorm) + compute_type=compute_type) layers.append(layer) self.layers = nn.CellList(layers) @@ -904,8 +889,7 @@ class BertModel(nn.Cell): use_relative_positions=config.use_relative_positions, hidden_act=config.hidden_act, compute_type=config.compute_type, - return_all_encoders=True, - enable_fused_layernorm=config.enable_fused_layernorm) + return_all_encoders=True) self.cast = P.Cast() self.dtype = config.dtype diff --git a/model_zoo/official/nlp/bert/src/fused_layer_norm.py b/model_zoo/official/nlp/bert/src/fused_layer_norm.py deleted file mode 100644 index 2736fdbd577..00000000000 --- a/model_zoo/official/nlp/bert/src/fused_layer_norm.py +++ /dev/null @@ -1,122 +0,0 @@ -# Copyright 2020 Huawei Technologies Co., Ltd -# -# 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. -# ============================================================================ -"""fused layernorm""" -import numpy as np -from mindspore.ops import operations as P -from mindspore.ops import functional as F -from mindspore.common.parameter import Parameter -from mindspore.common.initializer import initializer -from mindspore.ops.primitive import constexpr -import mindspore.common.dtype as mstype -from mindspore.nn.cell import Cell - - - -__all__ = ['FusedLayerNorm'] - -@constexpr -def get_shape_for_norm(x_shape, begin_norm_axis): - print("input_shape: ", x_shape) - norm_shape = x_shape[begin_norm_axis:] - output_shape = (1, -1, 1, int(np.prod(norm_shape))) - print("output_shape: ", output_shape) - return output_shape - -class FusedLayerNorm(Cell): - r""" - Applies Layer Normalization over a mini-batch of inputs. - - Layer normalization is widely used in recurrent neural networks. It applies - normalization over a mini-batch of inputs for each single training case as described - in the paper `Layer Normalization `_. Unlike batch - normalization, layer normalization performs exactly the same computation at training and - testing times. It can be described using the following formula. It is applied across all channels - and pixel but only one batch size. - - .. math:: - y = \frac{x - \mathrm{E}[x]}{\sqrt{\mathrm{Var}[x] + \epsilon}} * \gamma + \beta - - Args: - normalized_shape (Union(tuple[int], list[int]): The normalization is performed over axis - `begin_norm_axis ... R - 1`. - begin_norm_axis (int): It first normalization dimension: normalization will be performed along dimensions - `begin_norm_axis: rank(inputs)`, the value should be in [-1, rank(input)). Default: -1. - begin_params_axis (int): The first parameter(beta, gamma)dimension: scale and centering parameters - will have dimensions `begin_params_axis: rank(inputs)` and will be broadcast with - the normalized inputs accordingly, the value should be in [-1, rank(input)). Default: -1. - gamma_init (Union[Tensor, str, Initializer, numbers.Number]): Initializer for the gamma weight. - The values of str refer to the function `initializer` including 'zeros', 'ones', 'xavier_uniform', - 'he_uniform', etc. Default: 'ones'. - beta_init (Union[Tensor, str, Initializer, numbers.Number]): Initializer for the beta weight. - The values of str refer to the function `initializer` including 'zeros', 'ones', 'xavier_uniform', - 'he_uniform', etc. Default: 'zeros'. - use_batch_nrom (bool): Whether use batchnorm to preocess. - - Inputs: - - **input_x** (Tensor) - The shape of 'input_x' is :math:`(x_1, x_2, ..., x_R)`, - and `input_shape[begin_norm_axis:]` is equal to `normalized_shape`. - - Outputs: - Tensor, the normalized and scaled offset tensor, has the same shape and data type as the `input_x`. - - Examples: - >>> x = Tensor(np.ones([20, 5, 10, 10]), mindspore.float32) - >>> shape1 = x.shape[1:] - >>> m = nn.LayerNorm(shape1, begin_norm_axis=1, begin_params_axis=1) - >>> m(x) - """ - def __init__(self, - normalized_shape, - begin_norm_axis=-1, - begin_params_axis=-1, - gamma_init='ones', - beta_init='zeros', - use_batch_norm=False): - super(FusedLayerNorm, self).__init__() - if not isinstance(normalized_shape, (tuple, list)): - raise TypeError("The type of 'normalized_shape' should be tuple[int] or list[int], but '{}' type is {}." - .format(normalized_shape, type(normalized_shape))) - self.normalized_shape = normalized_shape - self.begin_norm_axis = begin_norm_axis - self.begin_params_axis = begin_params_axis - self.gamma = Parameter(initializer( - gamma_init, normalized_shape), name="gamma") - self.beta = Parameter(initializer( - beta_init, normalized_shape), name="beta") - self.layer_norm = P.LayerNorm(begin_norm_axis=self.begin_norm_axis, begin_params_axis=self.begin_params_axis) - - self.batch_norm = P.BatchNorm(is_training=True, epsilon=1e-5) - self.use_batch_norm = use_batch_norm - - def construct(self, input_x): - """Applies Layer Normalization over a mini-batch of inputs""" - if self.use_batch_norm and self.training: - ones = P.Fill()(mstype.float32, F.shape(input_x)[:self.begin_norm_axis], 1.0) - zeros = P.Fill()(mstype.float32, F.shape(input_x)[:self.begin_norm_axis], 0.0) - shape_x = F.shape(input_x) - norm_shape = get_shape_for_norm(shape_x, self.begin_norm_axis) - input_x = F.reshape(input_x, norm_shape) - output, _, _, _, _, _ = self.batch_norm(input_x, ones, zeros, None, None) - output = F.reshape(output, shape_x) - y = output * self.gamma + self.beta - else: - y, _, _ = self.layer_norm(input_x, self.gamma, self.beta) - return y - - def extend_repr(self): - """Display instance object as string.""" - s = 'normalized_shape={}, begin_norm_axis={}, begin_params_axis={}, gamma{}, beta={}'.format( - self.normalized_shape, self.begin_norm_axis, self.begin_params_axis, self.gamma, self.beta) - return s diff --git a/model_zoo/official/nlp/tinybert/README.md b/model_zoo/official/nlp/tinybert/README.md index b5220711224..3309fd773de 100644 --- a/model_zoo/official/nlp/tinybert/README.md +++ b/model_zoo/official/nlp/tinybert/README.md @@ -113,7 +113,6 @@ For example, the dataset is cn-wiki-128, the schema file for general distill pha ├─__init__.py ├─assessment_method.py # assessment method for evaluation ├─dataset.py # data processing - ├─fused_layer_norm.py # Layernormal is optimized for Ascend ├─gd_config.py # parameter configuration for general distill phase ├─td_config.py # parameter configuration for task distill phase ├─tinybert_for_gd_td.py # backbone code of network @@ -229,7 +228,6 @@ Parameters for bert network: token_type_ids_from_dataset use the token type ids loaded from dataset or not: True | False, default is True dtype data type of input: mstype.float16 | mstype.float32, default is mstype.float32 compute_type compute type in BertTransformer: mstype.float16 | mstype.float32, default is mstype.float16 - enable_fused_layernorm use batchnorm instead of layernorm to improve performance, default is False ``` ## [Training Process](#contents) ### Training diff --git a/model_zoo/official/nlp/tinybert/src/fused_layer_norm.py b/model_zoo/official/nlp/tinybert/src/fused_layer_norm.py deleted file mode 100644 index 7b9fb56227c..00000000000 --- a/model_zoo/official/nlp/tinybert/src/fused_layer_norm.py +++ /dev/null @@ -1,122 +0,0 @@ -# Copyright 2020 Huawei Technologies Co., Ltd -# -# 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. -# ============================================================================ -"""fused layernorm""" -import numpy as np -from mindspore.ops import operations as P -from mindspore.ops import functional as F -from mindspore.common.parameter import Parameter -from mindspore.common.initializer import initializer -from mindspore.ops.primitive import constexpr -import mindspore.common.dtype as mstype -from mindspore.nn.cell import Cell - - - -__all__ = ['FusedLayerNorm'] - -@constexpr -def get_shape_for_norm(x_shape, begin_norm_axis): - print("input_shape: ", x_shape) - norm_shape = x_shape[begin_norm_axis:] - output_shape = (1, -1, 1, int(np.prod(norm_shape))) - print("output_shape: ", output_shape) - return output_shape - -class FusedLayerNorm(Cell): - r""" - Applies Layer Normalization over a mini-batch of inputs. - - Layer normalization is widely used in recurrent neural networks. It applies - normalization over a mini-batch of inputs for each single training case as described - in the paper `Layer Normalization `_. Unlike batch - normalization, layer normalization performs exactly the same computation at training and - testing times. It can be described using the following formula. It is applied across all channels - and pixel but only one batch size. - - .. math:: - y = \frac{x - \mathrm{E}[x]}{\sqrt{\mathrm{Var}[x] + \epsilon}} * \gamma + \beta - - Args: - normalized_shape (Union(tuple[int], list[int]): The normalization is performed over axis - `begin_norm_axis ... R - 1`. - begin_norm_axis (int): It first normalization dimension: normalization will be performed along dimensions - `begin_norm_axis: rank(inputs)`, the value should be in [-1, rank(input)). Default: -1. - begin_params_axis (int): The first parameter(beta, gamma)dimension: scale and centering parameters - will have dimensions `begin_params_axis: rank(inputs)` and will be broadcast with - the normalized inputs accordingly, the value should be in [-1, rank(input)). Default: -1. - gamma_init (Union[Tensor, str, Initializer, numbers.Number]): Initializer for the gamma weight. - The values of str refer to the function `initializer` including 'zeros', 'ones', 'xavier_uniform', - 'he_uniform', etc. Default: 'ones'. - beta_init (Union[Tensor, str, Initializer, numbers.Number]): Initializer for the beta weight. - The values of str refer to the function `initializer` including 'zeros', 'ones', 'xavier_uniform', - 'he_uniform', etc. Default: 'zeros'. - use_batch_nrom (bool): Whether use batchnorm to preocess. - - Inputs: - - **input_x** (Tensor) - The shape of 'input_x' is :math:`(x_1, x_2, ..., x_R)`, - and `input_shape[begin_norm_axis:]` is equal to `normalized_shape`. - - Outputs: - Tensor, the normalized and scaled offset tensor, has the same shape and data type as the `input_x`. - - Examples: - >>> x = Tensor(np.ones([20, 5, 10, 10]), mindspore.float32) - >>> shape1 = x.shape[1:] - >>> m = nn.LayerNorm(shape1, begin_norm_axis=1, begin_params_axis=1) - >>> m(x) - """ - def __init__(self, - normalized_shape, - begin_norm_axis=-1, - begin_params_axis=-1, - gamma_init='ones', - beta_init='zeros', - use_batch_norm=False): - super(FusedLayerNorm, self).__init__() - if not isinstance(normalized_shape, (tuple, list)): - raise TypeError("The type of 'normalized_shape' should be tuple[int] or list[int], but '{}' type is {}." - .format(normalized_shape, type(normalized_shape))) - self.normalized_shape = normalized_shape - self.begin_norm_axis = begin_norm_axis - self.begin_params_axis = begin_params_axis - self.gamma = Parameter(initializer( - gamma_init, normalized_shape), name="gamma") - self.beta = Parameter(initializer( - beta_init, normalized_shape), name="beta") - self.layer_norm = P.LayerNorm(begin_norm_axis=self.begin_norm_axis, begin_params_axis=self.begin_params_axis) - - self.batch_norm = P.BatchNorm(is_training=True, epsilon=1e-5) - self.use_batch_norm = use_batch_norm - - def construct(self, input_x): - """fusedlayernorm""" - if self.use_batch_norm and self.training: - ones = P.Fill()(mstype.float32, F.shape(input_x)[:self.begin_norm_axis], 1.0) - zeros = P.Fill()(mstype.float32, F.shape(input_x)[:self.begin_norm_axis], 0.0) - shape_x = F.shape(input_x) - norm_shape = get_shape_for_norm(shape_x, self.begin_norm_axis) - input_x = F.reshape(input_x, norm_shape) - output, _, _, _, _, _ = self.batch_norm(input_x, ones, zeros, None, None) - output = F.reshape(output, shape_x) - y = output * self.gamma + self.beta - else: - y, _, _ = self.layer_norm(input_x, self.gamma, self.beta) - return y - - def extend_repr(self): - """Display instance object as string.""" - s = 'normalized_shape={}, begin_norm_axis={}, begin_params_axis={}, gamma{}, beta={}'.format( - self.normalized_shape, self.begin_norm_axis, self.begin_params_axis, self.gamma, self.beta) - return s diff --git a/model_zoo/official/nlp/tinybert/src/gd_config.py b/model_zoo/official/nlp/tinybert/src/gd_config.py index d2dc09d8fa0..57a35af69bb 100644 --- a/model_zoo/official/nlp/tinybert/src/gd_config.py +++ b/model_zoo/official/nlp/tinybert/src/gd_config.py @@ -55,8 +55,7 @@ bert_teacher_net_cfg = BertConfig( input_mask_from_dataset=True, token_type_ids_from_dataset=True, dtype=mstype.float32, - compute_type=mstype.float16, - enable_fused_layernorm=False + compute_type=mstype.float16 ) bert_student_net_cfg = BertConfig( batch_size=32, @@ -76,6 +75,5 @@ bert_student_net_cfg = BertConfig( input_mask_from_dataset=True, token_type_ids_from_dataset=True, dtype=mstype.float32, - compute_type=mstype.float16, - enable_fused_layernorm=False + compute_type=mstype.float16 ) diff --git a/model_zoo/official/nlp/tinybert/src/td_config.py b/model_zoo/official/nlp/tinybert/src/td_config.py index 2a9046587e9..54234b543e3 100644 --- a/model_zoo/official/nlp/tinybert/src/td_config.py +++ b/model_zoo/official/nlp/tinybert/src/td_config.py @@ -74,8 +74,7 @@ td_teacher_net_cfg = BertConfig( input_mask_from_dataset=True, token_type_ids_from_dataset=True, dtype=mstype.float32, - compute_type=mstype.float16, - enable_fused_layernorm=False + compute_type=mstype.float16 ) td_student_net_cfg = BertConfig( batch_size=32, @@ -95,6 +94,5 @@ td_student_net_cfg = BertConfig( input_mask_from_dataset=True, token_type_ids_from_dataset=True, dtype=mstype.float32, - compute_type=mstype.float16, - enable_fused_layernorm=False + compute_type=mstype.float16 ) diff --git a/model_zoo/official/nlp/tinybert/src/tinybert_model.py b/model_zoo/official/nlp/tinybert/src/tinybert_model.py index b2499e8c53d..c4520852203 100644 --- a/model_zoo/official/nlp/tinybert/src/tinybert_model.py +++ b/model_zoo/official/nlp/tinybert/src/tinybert_model.py @@ -25,7 +25,6 @@ from mindspore.ops import composite as C from mindspore.common.tensor import Tensor from mindspore.common.parameter import Parameter from mindspore import context -from .fused_layer_norm import FusedLayerNorm class BertConfig: @@ -78,8 +77,7 @@ class BertConfig: input_mask_from_dataset=True, token_type_ids_from_dataset=True, dtype=mstype.float32, - compute_type=mstype.float32, - enable_fused_layernorm=False): + compute_type=mstype.float32): self.batch_size = batch_size self.seq_length = seq_length self.vocab_size = vocab_size @@ -98,7 +96,6 @@ class BertConfig: self.use_relative_positions = use_relative_positions self.dtype = dtype self.compute_type = compute_type - self.enable_fused_layernorm = enable_fused_layernorm class EmbeddingLookup(nn.Cell): @@ -244,8 +241,7 @@ class BertOutput(nn.Cell): out_channels, initializer_range=0.02, dropout_prob=0.1, - compute_type=mstype.float32, - enable_fused_layernorm=False): + compute_type=mstype.float32): super(BertOutput, self).__init__() self.dense = nn.Dense(in_channels, out_channels, weight_init=TruncatedNormal(initializer_range)).to_float(compute_type) @@ -256,11 +252,7 @@ class BertOutput(nn.Cell): self.layernorm = nn.LayerNorm((out_channels,)).to_float(mstype.float32) self.compute_type = compute_type else: - if compute_type == mstype.float16: - self.layernorm = FusedLayerNorm((out_channels,), - use_batch_norm=enable_fused_layernorm).to_float(compute_type) - else: - self.layernorm = nn.LayerNorm((out_channels,)).to_float(compute_type) + self.layernorm = nn.LayerNorm((out_channels,)).to_float(compute_type) self.cast = P.Cast() @@ -602,8 +594,7 @@ class BertSelfAttention(nn.Cell): initializer_range=0.02, hidden_dropout_prob=0.1, use_relative_positions=False, - compute_type=mstype.float32, - enable_fused_layernorm=False): + compute_type=mstype.float32): super(BertSelfAttention, self).__init__() if hidden_size % num_attention_heads != 0: raise ValueError("The hidden size (%d) is not a multiple of the number " @@ -628,8 +619,7 @@ class BertSelfAttention(nn.Cell): out_channels=hidden_size, initializer_range=initializer_range, dropout_prob=hidden_dropout_prob, - compute_type=compute_type, - enable_fused_layernorm=enable_fused_layernorm) + compute_type=compute_type) self.reshape = P.Reshape() self.shape = (-1, hidden_size) @@ -672,8 +662,7 @@ class BertEncoderCell(nn.Cell): hidden_dropout_prob=0.1, use_relative_positions=False, hidden_act="gelu", - compute_type=mstype.float32, - enable_fused_layernorm=False): + compute_type=mstype.float32): super(BertEncoderCell, self).__init__() self.attention = BertSelfAttention( batch_size=batch_size, @@ -685,8 +674,7 @@ class BertEncoderCell(nn.Cell): initializer_range=initializer_range, hidden_dropout_prob=hidden_dropout_prob, use_relative_positions=use_relative_positions, - compute_type=compute_type, - enable_fused_layernorm=enable_fused_layernorm) + compute_type=compute_type) self.intermediate = nn.Dense(in_channels=hidden_size, out_channels=intermediate_size, activation=hidden_act, @@ -695,8 +683,7 @@ class BertEncoderCell(nn.Cell): out_channels=hidden_size, initializer_range=initializer_range, dropout_prob=hidden_dropout_prob, - compute_type=compute_type, - enable_fused_layernorm=enable_fused_layernorm) + compute_type=compute_type) def construct(self, hidden_states, attention_mask): """bert encoder cell""" # self-attention @@ -743,8 +730,7 @@ class BertTransformer(nn.Cell): use_relative_positions=False, hidden_act="gelu", compute_type=mstype.float32, - return_all_encoders=False, - enable_fused_layernorm=False): + return_all_encoders=False): super(BertTransformer, self).__init__() self.return_all_encoders = return_all_encoders layers = [] @@ -760,8 +746,7 @@ class BertTransformer(nn.Cell): hidden_dropout_prob=hidden_dropout_prob, use_relative_positions=use_relative_positions, hidden_act=hidden_act, - compute_type=compute_type, - enable_fused_layernorm=enable_fused_layernorm) + compute_type=compute_type) layers.append(layer) self.layers = nn.CellList(layers) self.reshape = P.Reshape() @@ -877,8 +862,7 @@ class BertModel(nn.Cell): use_relative_positions=config.use_relative_positions, hidden_act=config.hidden_act, compute_type=config.compute_type, - return_all_encoders=True, - enable_fused_layernorm=config.enable_fused_layernorm) + return_all_encoders=True) self.cast = P.Cast() self.dtype = config.dtype self.cast_compute_type = SaturateCast(dst_type=config.compute_type) @@ -981,8 +965,7 @@ class TinyBertModel(nn.Cell): use_relative_positions=config.use_relative_positions, hidden_act=config.hidden_act, compute_type=config.compute_type, - return_all_encoders=True, - enable_fused_layernorm=config.enable_fused_layernorm) + return_all_encoders=True) self.cast = P.Cast() self.dtype = config.dtype self.cast_compute_type = SaturateCast(dst_type=config.compute_type) diff --git a/tests/st/networks/models/bert/bert_performance/test_bert_tdt_lossscale.py b/tests/st/networks/models/bert/bert_performance/test_bert_tdt_lossscale.py index 2b84daed517..f44fd64074b 100644 --- a/tests/st/networks/models/bert/bert_performance/test_bert_tdt_lossscale.py +++ b/tests/st/networks/models/bert/bert_performance/test_bert_tdt_lossscale.py @@ -82,8 +82,7 @@ def get_config(version='base', batch_size=1): input_mask_from_dataset=True, token_type_ids_from_dataset=True, dtype=mstype.float32, - compute_type=mstype.float16, - enable_fused_layernorm=False) + compute_type=mstype.float16) else: bert_config = BertConfig(batch_size=batch_size) return bert_config diff --git a/tests/st/networks/models/bert/bert_precision/test_bert_tdt_lossscale.py b/tests/st/networks/models/bert/bert_precision/test_bert_tdt_lossscale.py index 8511b5b3a5e..3501b9a5341 100644 --- a/tests/st/networks/models/bert/bert_precision/test_bert_tdt_lossscale.py +++ b/tests/st/networks/models/bert/bert_precision/test_bert_tdt_lossscale.py @@ -82,8 +82,7 @@ def get_config(version='base', batch_size=1): input_mask_from_dataset=True, token_type_ids_from_dataset=True, dtype=mstype.float32, - compute_type=mstype.float16, - enable_fused_layernorm=False) + compute_type=mstype.float16) else: bert_config = BertConfig(batch_size=batch_size) return bert_config