def __init__( self, output_boundary: List[tf.Operation], gamma_threshold, hardware, batch_size=1, regularizer_decorator: Type[generic_regularizers.OpRegularizer] = None, decorator_parameters=None, input_boundary: List[tf.Operation] = None, force_group=None, regularizer_blacklist=None) -> None: """Creates a GammaLatencyRegularizer object. Latency cost and regularization loss is calculated for a specified hardware platform. Args: output_boundary: An OpRegularizer will be created for all these operations, and recursively for all ops they depend on via data dependency that does not involve ops from input_boundary. gamma_threshold: A float scalar, will be used as a 'gamma_threshold' for all instances GammaL1Regularizer created by this class. hardware: String name of hardware platform to target. Must be a key from resource_function.PEAK_COMPUTE. batch_size: Integer batch size to calculate cost/loss for. regularizer_decorator: A string, the name of the regularizer decorators to use. Supported decorators are listed in op_regularizer_decorator.SUPPORTED_DECORATORS. decorator_parameters: A dictionary of parameters to pass to the decorator factory. To be used only with decorators that requires parameters, otherwise use None. input_boundary: A list of ops that represent the input boundary of the subgraph being regularized (input boundary is not regularized). force_group: List of regex for ops that should be force-grouped. Each regex corresponds to a separate group. Use '|' operator to specify multiple patterns in a single regex. See op_regularizer_manager for more detail. regularizer_blacklist: List of regex for ops that should not be regularized. See op_regularizer_manager for more detail. """ source_op_handler = batch_norm_source_op_handler.BatchNormSourceOpHandler( gamma_threshold) if regularizer_decorator: source_op_handler = op_handler_decorator.OpHandlerDecorator( source_op_handler, regularizer_decorator, decorator_parameters) op_handler_dict = op_handlers.get_gamma_op_handler_dict() op_handler_dict.update({ 'FusedBatchNorm': source_op_handler, 'FusedBatchNormV2': source_op_handler, 'FusedBatchNormV3': source_op_handler, }) self._manager = orm.OpRegularizerManager( output_boundary, op_handler_dict, input_boundary=input_boundary, force_group=force_group, regularizer_blacklist=regularizer_blacklist) self._calculator = cost_calculator.CostCalculator( self._manager, resource_function.latency_function_factory(hardware, batch_size)) self._hardware = hardware
def __init__(self, output_boundary, threshold, hardware, batch_size=1, l1_fraction=0, regularizer_decorator=None, decorator_parameters=None, input_boundary=None, force_group=None, regularizer_blacklist=None, convert_to_variable=True): """Creates a GroupLassoFlopsRegularizer object. Args: output_boundary: An OpRegularizer will be created for all these operations, and recursively for all ops they depend on via data dependency that does not involve ops from input_boundary. threshold: A float scalar, will be used as a 'threshold' for all regularizer instances created by this class. hardware: String name of hardware platform to target. Must be a key from resource_function.PEAK_COMPUTE. batch_size: Integer batch size to calculate cost/loss for. l1_fraction: Relative weight of L1 in L1 + L2 regularization. regularizer_decorator: A class of OpRegularizer decorator to use. decorator_parameters: A dictionary of parameters to pass to the decorator factory. To be used only with decorators that requires parameters, otherwise use None. input_boundary: A list of ops that represent the input boundary of the subgraph being regularized (input boundary is not regularized). force_group: List of regex for ops that should be force-grouped. Each regex corresponds to a separate group. Use '|' operator to specify multiple patterns in a single regex. See op_regularizer_manager for more detail. regularizer_blacklist: List of regex for ops that should not be regularized. See op_regularizer_manager for more detail. convert_to_variable: If `True` convert to variable in the `GroupLassoBaseOpHandler`. If your graph creates variables outside of `tf.get_variable`, set to `False`. """ conv2d_handler = conv2d_source_op_handler.Conv2DSourceOpHandler( threshold, l1_fraction, convert_to_variable) conv2d_transpose_handler = ( conv2d_transpose_source_op_handler.Conv2DTransposeSourceOpHandler( threshold, l1_fraction, convert_to_variable)) matmul_handler = matmul_source_op_handler.MatMulSourceOpHandler( threshold, l1_fraction, convert_to_variable) if regularizer_decorator: conv2d_handler = op_handler_decorator.OpHandlerDecorator( conv2d_handler, regularizer_decorator, decorator_parameters) conv2d_transpose_handler = op_handler_decorator.OpHandlerDecorator( conv2d_transpose_handler, regularizer_decorator, decorator_parameters) matmul_handler = op_handler_decorator.OpHandlerDecorator( matmul_handler, regularizer_decorator, decorator_parameters) op_handler_dict = op_handlers.get_group_lasso_op_handler_dict() op_handler_dict.update({ 'Conv2D': conv2d_handler, 'Conv2DBackpropInput': conv2d_transpose_handler, 'MatMul': matmul_handler, }) self._manager = orm.OpRegularizerManager( output_boundary, op_handler_dict, input_boundary=input_boundary, force_group=force_group, regularizer_blacklist=regularizer_blacklist) self._calculator = cost_calculator.CostCalculator( self._manager, resource_function.latency_function_factory(hardware, batch_size)) self._hardware = hardware
def get_calculator(self): return cost_calculator.CostCalculator( self._manager, resource_function.latency_function_factory(self._hardware, self._batch_size))
def __init__(self, ops, gamma_threshold, hardware, batch_size=1, regularizer_decorator: Type[ generic_regularizers.OpRegularizer] = None, decorator_parameters=None, force_group=None, regularizer_blacklist=None) -> None: """Creates a GammaLatencyRegularizer object. Latency cost and regularization loss is calculated for a specified hardware platform. Args: ops: A list of tf.Operation. An OpRegularizer will be created for all the ops in `ops`, and recursively for all ops they depend on via data dependency. Typically `ops` would contain a single tf.Operation, which is the output of the network. gamma_threshold: A float scalar, will be used as a 'gamma_threshold' for all instances GammaL1Regularizer created by this class. hardware: String name of hardware platform to target. Must be a key from resource_function.PEAK_COMPUTE. batch_size: Integer batch size to calculate cost/loss for. regularizer_decorator: A string, the name of the regularizer decorators to use. Supported decorators are listed in op_regularizer_decorator.SUPPORTED_DECORATORS. decorator_parameters: A dictionary of parameters to pass to the decorator factory. To be used only with decorators that requires parameters, otherwise use None. force_group: List of regex for ops that should be force-grouped. Each regex corresponds to a separate group. Use '|' operator to specify multiple patterns in a single regex. See op_regularizer_manager for more detail. regularizer_blacklist: List of regex for ops that should not be regularized. See op_regularizer_manager for more detail. """ source_op_handler = batch_norm_source_op_handler.BatchNormSourceOpHandler( gamma_threshold) if regularizer_decorator: source_op_handler = op_handler_decorator.OpHandlerDecorator( source_op_handler, regularizer_decorator, decorator_parameters) op_handler_dict = collections.defaultdict( grouping_op_handler.GroupingOpHandler) op_handler_dict.update({ 'FusedBatchNorm': source_op_handler, 'FusedBatchNormV2': source_op_handler, 'Conv2D': output_non_passthrough_op_handler.OutputNonPassthroughOpHandler(), 'ConcatV2': concat_op_handler.ConcatOpHandler(), 'DepthToSpace': output_non_passthrough_op_handler.OutputNonPassthroughOpHandler(), 'DepthwiseConv2dNative': depthwise_convolution_op_handler.DepthwiseConvolutionOpHandler(), 'MatMul': output_non_passthrough_op_handler.OutputNonPassthroughOpHandler(), 'TensorArrayGatherV3': leaf_op_handler.LeafOpHandler(), 'Transpose': output_non_passthrough_op_handler.OutputNonPassthroughOpHandler(), }) self._manager = orm.OpRegularizerManager( ops, op_handler_dict, force_group=force_group, regularizer_blacklist=regularizer_blacklist) self._calculator = cost_calculator.CostCalculator( self._manager, resource_function.latency_function_factory(hardware, batch_size)) self._hardware = hardware