Source code for aimet_tensorflow.keras.compress

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""" Top-level API for aimet compression library """

from typing import Union, Tuple, Callable
import tensorflow as tf

from aimet_common.defs import CostMetric, CompressionScheme, EvalFunction, CompressionStats
from aimet_common.bokeh_plots import BokehServerSession

from aimet_tensorflow.keras.utils.graph_saver import keras_wrapper_func, keras_save_and_load_graph, keras_remove_hanging_nodes
from aimet_tensorflow.keras.defs import SpatialSvdParameters
from aimet_tensorflow.keras.compression_factory import CompressionFactory


[docs]class ModelCompressor: """ aimet model compressor: Enables model compression using various schemes """ # pylint: disable=too-many-arguments
[docs] @staticmethod def compress_model(model: tf.keras.Model, eval_callback: EvalFunction, eval_iterations, compress_scheme: CompressionScheme, cost_metric: CostMetric, parameters: Union[SpatialSvdParameters], trainer: Callable = None, visualization_url: str = None) -> Tuple[tf.keras.Model, CompressionStats]: """ Compress a given model using the specified parameters :param model: Model, represented by a tf.keras.Model, to compress :param eval_callback: Evaluation callback. Expected signature is evaluate(model, iterations, use_cuda). Expected to return an accuracy metric. :param eval_iterations: Iterations to run evaluation for. :param compress_scheme: Compression scheme. See the enum for allowed values :param cost_metric: Cost metric to use for the compression-ratio (either mac or memory) :param parameters: Compression parameters specific to given compression scheme :param trainer: Training function None: If per layer fine-tuning is not required while creating the final compressed model :param visualization_url: url the user will need to input where visualizations will appear :return: A tuple of the compressed model session, and compression statistics """ # If no url is passed in, then do not create a bokeh server session if not visualization_url: bokeh_session = None else: # create a bokeh session to publish visualizations to the server document for compression bokeh_session = BokehServerSession(url=visualization_url, session_id="compression") if parameters.multiplicity < 1: raise ValueError('Rounding Multiplicity should be greater than 1') # wrapper_func saves and reloads the graph before evaluation # In Keras after making changes to the graph you must save and reload, then evaluate eval_callback = keras_wrapper_func(eval_callback) if compress_scheme == CompressionScheme.spatial_svd: algo = CompressionFactory.create_spatial_svd_algo(model, eval_callback, eval_iterations, cost_metric, parameters, bokeh_session) elif compress_scheme == CompressionScheme.weight_svd: raise NotImplementedError("Not yet implemented for: {}".format(compress_scheme)) elif compress_scheme == CompressionScheme.channel_pruning: raise NotImplementedError("Not yet implemented for: {}".format(compress_scheme)) else: raise ValueError("Compression scheme not supported: {}".format(compress_scheme)) compressed_layer_db, stats = algo.compress_model(cost_metric, trainer) # In keras after making changes to the model you must save and reload, then evaluate tmp_dir = './data/saved_model' updated_model = keras_save_and_load_graph(tmp_dir, compressed_layer_db.model) # Remove the hanging nodes updated_model = keras_remove_hanging_nodes(updated_model) return updated_model, stats