zj2cddlmZddlmZddlZddlmZddlmZddlm Z ddl m Z ddl mZdd lmZmZmZdd lmZerdd lmZmZdd lmZdd lmZddlmZmZgZGddeZdS)) annotations) TYPE_CHECKINGN)_C_ops) framework)base) LayerHelper)signature_safe_contextmanager)in_dynamic_modein_dynamic_or_pir_mode in_pir_mode) Optimizer) GeneratorSequence)Tensor)_ParameterConfig)ExecutorProgramcNeZdZUdZded<ded<ded<ded<d ed <d ed <d ed < d-d.fd ZdZdZej d/d0d!Z e j ej d1d"Z eej d2d3d)Zej d4d5d*Zd+Zd,ZxZS)6 ModelAveragea The ModelAverage optimizer accumulates specific continuous historical parameters during training. The accumulated historical range can be controlled by the passed ``average_window_rate`` argument. The averaged ``Parameter`` are used in the prediction, which usually can improve the accuracy of the prediction. Accumulate the average of the ``Parameter`` in the sliding window, the result will be saved in a temporary variable, can be applied to the current model's ``Parameter`` by calling the ``apply()`` method, and the current model ``Parameter`` can be restored by calling the ``restore()`` method. The window size for calculating the average is determined by ``average_window_rate``, ``min_average_window``, ``max_average_window`` and the current ``Parameter`` update times (num_updates). When the cumulative times (num_accumulates) is greater than the specific window threshold (average_window), the accumulated ``Parameter`` temporary variable is set to 0.0. The following example will help to understand the role of these arguments: :: if num_accumulates >= min_average_window and num_accumulates >= min(max_average_window, num_updates * average_window_rate): num_accumulates = 0 In the above conditional judgment statement, ``num_accumulates`` indicates the current accumulated number, which can be abstractly understood as the length of the cumulative window. The length of the window must be at least the length set by the ``min_average_window`` argument, and cannot exceed the length specified by the ``max_average_window`` argument or ``num_updates * average_window_rate``, where ``num_updates`` indicates the current ``Parameter`` update times, ``average_window_rate`` is a coefficient that calculates the length of the window. Args: average_window_rate (float): The calculate ratio of the window length relative to ``Parameter`` update times. parameters (list, optional): List of ``Tensor`` names to update to minimize ``loss``. \ This parameter is required in dygraph mode. \ The default value is None in static graph mode, at this time all parameters will be updated. min_average_window (int, optional): the minimum size of average window length. The default value is 10000. max_average_window (int, optional): The maximum size of average window length. The default value is 10000. name (str, optional): Normally there is no need for user to set this property. For more information, please refer to :ref:`api_guide_Name`. The default value is None. Examples: .. code-block:: python >>> # doctest: +SKIP("Cannot get source code by to_static in REPL") >>> import numpy as np >>> import paddle >>> import paddle.nn as nn >>> import paddle.optimizer as opt >>> BATCH_SIZE = 16 >>> BATCH_NUM = 4 >>> EPOCH_NUM = 4 >>> IMAGE_SIZE = 784 >>> CLASS_NUM = 10 >>> # define a random dataset >>> class RandomDataset(paddle.io.Dataset): # type: ignore[type-arg] ... def __init__(self, num_samples): ... self.num_samples = num_samples ... def __getitem__(self, idx): ... image = np.random.random([IMAGE_SIZE]).astype('float32') ... label = np.random.randint(0, CLASS_NUM - 1, (1, )).astype('int64') ... return image, label ... def __len__(self): ... return self.num_samples ... >>> class LinearNet(nn.Layer): ... def __init__(self): ... super().__init__() ... self._linear = nn.Linear(IMAGE_SIZE, CLASS_NUM) ... self.bias = self._linear.bias ... ... @paddle.jit.to_static ... def forward(self, x): ... return self._linear(x) ... >>> def train(layer, loader, loss_fn, opt, model_average): ... for epoch_id in range(EPOCH_NUM): ... for batch_id, (image, label) in enumerate(loader()): ... out = layer(image) ... loss = loss_fn(out, label) ... loss.backward() ... opt.step() ... model_average.step() ... opt.clear_grad() ... model_average.clear_grad() ... print("Train Epoch {} batch {}: loss = {}, bias = {}".format( ... epoch_id, batch_id, np.mean(loss.numpy()), layer.bias.numpy())) ... >>> def evaluate(layer, loader, loss_fn): ... for batch_id, (image, label) in enumerate(loader()): ... out = layer(image) ... loss = loss_fn(out, label) ... loss.backward() ... print("Evaluate batch {}: loss = {}, bias = {}".format( ... batch_id, np.mean(loss.numpy()), layer.bias.numpy())) ... >>> # create network >>> layer = LinearNet() >>> loss_fn = nn.CrossEntropyLoss() >>> optimizer = opt.Momentum(learning_rate=0.2, momentum=0.1, parameters=layer.parameters()) >>> model_average = paddle.incubate.ModelAverage( ... 0.15, ... parameters=layer.parameters(), ... min_average_window=2, ... max_average_window=10 ... ) ... >>> # create data loader >>> dataset = RandomDataset(BATCH_NUM * BATCH_SIZE) >>> loader = paddle.io.DataLoader(dataset, ... batch_size=BATCH_SIZE, ... shuffle=True, ... drop_last=True, ... num_workers=2) ... >>> # create data loader >>> eval_loader = paddle.io.DataLoader(dataset, ... batch_size=BATCH_SIZE, ... shuffle=True, ... drop_last=True, ... num_workers=1 ... ) ... >>> # train >>> train(layer, loader, loss_fn, optimizer, model_average) >>> print("\nEvaluate With ModelAverage") >>> with model_average.apply(need_restore=False): ... evaluate(layer, eval_loader, loss_fn) >>> print("\nEvaluate With Restored Parameters") >>> model_average.restore() >>> evaluate(layer, eval_loader, loss_fn) rhelperfloataverage_windowintmin_average_windowmax_average_windowstrtyper apply_programrestore_programN'average_window_rate parameters4Sequence[Tensor] | Sequence[_ParameterConfig] | Nonename str | NonereturnNonec6td|dd|t|jj|_||_||_||_d|_ tstj }|r|n|}||||D]}|||dgtj |_|j} tj |j5|D]}|| | dddn #1swxYwYtj |_|j} tj |j5|D]}|| | ddddS#1swxYwYdSdS)Ng) learning_rater" weight_decay grad_clipr$average_accumulates) main_program)super__init__r __class____name__rrrrrr paddlestaticdefault_main_program global_blockall_parameters_create_accumulators_append_optimize_oprr program_guard_add_average_apply_opr_add_average_restore_op) selfr!r"rrr$r5r6paramblockr0s v/lsinfo/ai/hellotax_ai/data_center/backend/venv/lib/python3.11/site-packages/paddle/incubate/optimizer/modelaverage.pyr/zModelAverage.__init__s !    "$."9:: 1"4"4)    ?!===??LLNNL(K l.I.I.K.K   % %lN C C C' F F((t}EEEE!'!6!6!8!8D &3355E,,$:L,MM = =+==E..ue<<<<= = = = = = = = = = = = = = = =$*=#8#8#:#:D (5577E,,$:N,OO ? ?+??E00>>>>? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ?! ? ?s$ E66E:=E:"H  HHct|tjtjjfsJ|D]}|d||d||d||d||d|ddg|d |ddg|d |ddgdS) Nsum_1sum_2sum_3restorenum_accumulatesint64)dtypeshapeold_num_accumulates num_updates) isinstancerBlockr2pir_add_accumulator)r<r>r"r=s r?r7z!ModelAverage._create_accumulatorss%)/6:3C!DEEEEE  E  ! !'5 1 1 1  ! !'5 1 1 1  ! !'5 1 1 1  ! !)U 3 3 3  ! !!5s "     ! !%uGA3 "     ! !uGA3 "      c &t|tjtjjfsJ|d|d}|d|d}|d|d}|d|d}|d|d}|d|d}t r;tj|d|||||||j |j |j \} } } } } } dStj }|j |j |j d} |d||||||d } ||||||d } ||j| | | d } | S) NrArrBrCrErJrK)rrr)r=in_sum_1in_sum_2in_sum_3in_num_accumulatesin_old_num_accumulatesin_num_updates) out_sum_1 out_sum_2 out_sum_3out_num_accumulatesout_old_num_accumulatesout_num_updatesT)rinputsoutputsattrs stop_gradient)rLrrMr2rN_get_accumulatorr raverage_accumulates_rrrr4r5 append_opr)r<r>param_and_gradrArBrCrErJrK_r`r^r_average_accumulates_ops r?r8z ModelAverage._append_optimize_ops%)/6:3C!DEEEEE%%g~a/@AA%%g~a/@AA%%g~a/@AA// ~a0  #33 !>!#4  ++M>!;LMM ! # # %:q!##''   Aq!Q14.00==??"1"&"9"&"9  $A&"1&9)  #2':*   "' "1" " &%rPlossrstartup_programProgram | Nonelist[Tensor] | None no_grad_setset[Tensor] | set[str] | NonecNtr|dSdS)a Add operations to minimize ``loss`` by updating ``parameters``. Args: loss (Tensor): A ``Tensor`` containing the value to minimize. startup_program (Program, optional): :ref:`api_paddle_static_Program` for initializing parameters in ``parameters``. The default value is None, at this time :ref:`api_paddle_static_default_startup_program` will be used. parameters (list, optional): List of ``Tensor`` or ``Tensor.name`` to update to minimize ``loss``. The default value is None, at this time all parameters will be updated. no_grad_set (set, optional): Set of ``Tensor`` or ``Tensor.name`` that don't need to be updated. The default value is None. Returns: tuple: tuple (optimize_ops, params_grads), A list of operators appended by minimize and a list of (param, grad) tensor pairs, param is ``Parameter``, grad is the gradient value corresponding to the parameter. In static graph mode, the returned tuple can be passed to ``fetch_list`` in ``Executor.run()`` to indicate program pruning. If so, the program will be pruned by ``feed`` and ``fetch_list`` before run, see details in ``Executor``. Examples: .. code-block:: python >>> import paddle >>> inp = paddle.rand([1, 10], dtype="float32") >>> linear = paddle.nn.Linear(10, 1) >>> out = linear(inp) >>> loss = paddle.mean(out) >>> loss.backward() >>> sgd = paddle.optimizer.SGD(learning_rate=0.1,parameters=linear.parameters()) >>> sgd.minimize(loss) >>> modelaverage = paddle.incubate.ModelAverage( ... 0.15, ... parameters=linear.parameters(), ... min_average_window=2, ... max_average_window=4 ... ) >>> modelaverage.minimize(loss) >>> sgd.clear_grad() >>> modelaverage.clear_grad() N)r step)r<rhrir"rls r?minimizezModelAverage.minimize<s.n     IIKKKKK  rPcbg}|jD]I}|js |+|}|||fJt j}|||j|D]}|||dS)a Execute the optimizer and update parameters once. Returns: None Examples: .. code-block:: python >>> import paddle >>> inp = paddle.rand([1, 10], dtype="float32") >>> linear = paddle.nn.Linear(10, 1) >>> out = linear(inp) >>> loss = paddle.mean(out) >>> sgd = paddle.optimizer.SGD(learning_rate=0.1,parameters=linear.parameters()) >>> modelaverage = paddle.incubate.ModelAverage( ... 0.15, ... parameters=linear.parameters(), ... min_average_window=2, ... max_average_window=4 ... ) >>> loss.backward() >>> sgd.step() >>> modelaverage.step() >>> sgd.clear_grad() >>> modelaverage.clear_grad() N) _parameter_list trainable _grad_ivarappendrr4r5r7r8)r< params_gradsr=grad_varr>res r?rozModelAverage.stepvs@ ) 7 7E? !!- ++--##UH$5666.00==?? !!%)=>>>* < >> import paddle >>> inp = paddle.rand([1, 10], dtype="float32") >>> linear = paddle.nn.Linear(10, 1) >>> out = linear(inp) >>> loss = paddle.mean(out) >>> loss.backward() >>> sgd = paddle.optimizer.SGD(learning_rate=0.1,parameters=linear.parameters()) >>> modelaverage = paddle.incubate.ModelAverage( ... 0.15, ... parameters=linear.parameters(), ... min_average_window=2, ... max_average_window=4 ... ) >>> sgd.step() >>> modelaverage.step() >>> with modelaverage.apply(): ... for param in linear.parameters(): ... print(param) >>> for param in linear.parameters(): ... print(param) rErJrArBrCrDfloat32)rHN1Executor should not be None in static graph mode.) r rrrbr2assigncastrD RuntimeErrorrunr) r<rxrzr=rErJrArBrC param_restore total_paramtotal_accumulates average_params r?applyzModelAverage.applysV    - 4 4"&"7"7%u##'+&;&;)5''#--gu==--gu==--gu== $ 5 5i G G  e]333#eme3 $36I$I!$k+YGGG $*K%Y%%%!!,.? ?  mU3333 ##LLNNN #LLNNNN# F  C   T'((( ' EEE ' X&&&&& ' '| ' X&&&& 's D$$D=.F F'ctr7|jD]-}|d|}tj||.dS|t d||jdS)aD Restore ``Parameter`` values of current model. Args: executor(Executor): The network executor in static-graph mode. The default value is None in dygraph mode Examples: .. code-block:: python >>> import paddle >>> inp = paddle.rand([1, 10], dtype="float32") >>> linear = paddle.nn.Linear(10, 1) >>> out = linear(inp) >>> loss = paddle.mean(out) >>> loss.backward() >>> sgd = paddle.optimizer.SGD(learning_rate=0.1,parameters=linear.parameters()) >>> modelaverage = paddle.incubate.ModelAverage( ... 0.15, ... parameters=linear.parameters(), ... min_average_window=2, ... max_average_window=4 ... ) >>> sgd.step() >>> modelaverage.step() >>> with modelaverage.apply(need_restore=False): ... for param in linear.parameters(): ... print(param) >>> for param in linear.parameters(): ... print(param) >>> modelaverage.restore() >>> for param in linear.parameters(): ... print(param) rDNr)r rrrbr2rrrr)r<rxr=rs r?rDzModelAverage.restoresT    - 4 4 $ 5 5i G G  mU3333 F  C   T)*****rPctrtj}tjj||}|d|}tjj||}|d|}tjj||}|d|}tjj||}|d|}tjj||}|d|} tjj|| } |d|} tjj|| } n | |}| |d|}| |d|}| |d|}| |d|}| |d|} | |d|} tj ||tj | | g} tj |||g} tj | |j dn|j } tj | |j dn|j } tj| | } tj | |dS) NrDrArBrCrErJoutputr~)xrH)ry)r r2r3r4rNcore_get_parameterrb_get_persistable_value_clone_variableradd_nr_dtypedivide)r<r>r=target_program restore_valuegradrArBrCrErJtmpsum divide_outs r?r:z"ModelAverage._add_average_apply_op*sF ==* #]??AANJO22>5IIE 11)UCCM:?99 D))'599EJO::E))'599EJO::E))'599EJO::E#334EuMMO$joDDO#'"7"7%u## #)*/"H"H 3##  ))%00E((%%i77D))$*?*?*O*OPPE))$*?*?*O*OPPE))$*?*?*O*OPPE#33%%&7??O#("7"7%%&;UCC##   eD))))lO-@ABBlE5%011kdk&9t{   kdk&9t{   ]SC000  j//////rPctrtj}tjj||}|d|}tjj||}n>| |}| |d|}tj ||dS)NrDr) r r2r3r4rNrrrbrrr)r<r>r=rrrs r?r;z$ModelAverage._add_average_restore_opds == #]??AANJO22>5IIE 11)UCCM:?99 DD))%00E((%%i77D  d5))))))rP)Nr r N) r!rr"r#rrrrr$r%r&r')NNN) rhrrirjr"rkrlrmr&r')r&r')NT)rxryrzr{r&r|)N)rxryr&r')r1 __module__ __qualname____doc____annotations__r/r7r8imperative_baseno_gradrpr dygraph_onlyror rrDr:r; __classcell__)r0s@r?rr*sJJX III LP"'"' (?(?(?(?(?(?(?T$?&?&?&B+/*.59 77777r)<)<)<)rsu#""""" !!!!!!777777000000GGGGGG '&&&&&033333333;;;;;;//////// G *G *G *G *G *9G *G *G *G *G *rP