synapse.ml.cyber.feature package

Submodules

synapse.ml.cyber.feature.indexers module

class synapse.ml.cyber.feature.indexers.IdIndexer(input_col: str, partition_key: str, output_col: str, reset_per_partition: bool)[source]

Bases: Estimator, HasSetInputCol, HasSetOutputCol

partitionKey = Param(parent='undefined', name='partitionKey', doc='The name of the column to partition by, i.e., make sure the indexing takes the partition into account. This is exemplified in reset_per_partition.')
resetPerPartition = Param(parent='undefined', name='resetPerPartition', doc='When set to True then indexing is consecutive from [1..n] for each value of the partition column. When set to False then indexing is consecutive for all partition and column values.')
class synapse.ml.cyber.feature.indexers.IdIndexerModel(input_col: str, partition_key: str, output_col: str, vocab_df: DataFrame)[source]

Bases: Transformer, HasSetInputCol, HasSetOutputCol

partitionKey = Param(parent='undefined', name='partitionKey', doc='The name of the column to partition by, i.e., make sure the indexing takes the partition into account. This is exemplified in reset_per_partition.')
undo_transform(df: DataFrame) DataFrame[source]
class synapse.ml.cyber.feature.indexers.MultiIndexer(indexers: List[IdIndexer])[source]

Bases: Estimator

class synapse.ml.cyber.feature.indexers.MultiIndexerModel(models: List[IdIndexerModel])[source]

Bases: Transformer

get_model_by_input_col(input_col)[source]
get_model_by_output_col(output_col)[source]
undo_transform(df: DataFrame) DataFrame[source]

synapse.ml.cyber.feature.scalers module

class synapse.ml.cyber.feature.scalers.LinearScalarScaler(input_col: str, partition_key: Optional[str], output_col: str, min_required_value: float = 0.0, max_required_value: float = 1.0, use_pandas: bool = True)[source]

Bases: PerPartitionScalarScalerEstimator

maxRequiredValue = Param(parent='undefined', name='maxRequiredValue', doc='Scale the outputCol to have a value between [minRequiredValue, maxRequiredValue].')
minRequiredValue = Param(parent='undefined', name='minRequiredValue', doc='Scale the outputCol to have a value between [minRequiredValue, maxRequiredValue].')
class synapse.ml.cyber.feature.scalers.LinearScalarScalerConfig[source]

Bases: object

max_actual_value_token = '__max_actual_value__'
min_actual_value_token = '__min_actual_value__'
class synapse.ml.cyber.feature.scalers.LinearScalarScalerModel(input_col: str, partition_key: Optional[str], output_col: str, per_group_stats: Union[DataFrame, Dict[str, float]], min_required_value: float, max_required_value: float, use_pandas: bool = True)[source]

Bases: PerPartitionScalarScalerModel

class synapse.ml.cyber.feature.scalers.PerPartitionScalarScalerEstimator(input_col: str, partition_key: Optional[str], output_col: str, use_pandas: bool = True)[source]

Bases: ABC, Estimator, HasSetInputCol, HasSetOutputCol

partitionKey = Param(parent='undefined', name='partitionKey', doc='The name of the column to partition by, i.e., scale the values of inputCol within each partition. ')
property use_pandas
class synapse.ml.cyber.feature.scalers.PerPartitionScalarScalerModel(input_col: str, partition_key: Optional[str], output_col: str, per_group_stats: Union[DataFrame, Dict[str, float]], use_pandas: bool = True)[source]

Bases: ABC, Transformer, HasSetInputCol, HasSetOutputCol

is_partitioned() bool[source]
partitionKey = Param(parent='undefined', name='partitionKey', doc='The name of the column to partition by, i.e., scale the values of inputCol within each partition. ')
property per_group_stats
property use_pandas
class synapse.ml.cyber.feature.scalers.StandardScalarScaler(input_col: str, partition_key: Optional[str], output_col: str, coefficient_factor: float = 1.0, use_pandas: bool = True)[source]

Bases: PerPartitionScalarScalerEstimator

coefficientFactor = Param(parent='undefined', name='coefficientFactor', doc='After scaling values of outputCol are multiplied by coefficient (defaults to 1.0). ')
class synapse.ml.cyber.feature.scalers.StandardScalarScalerConfig[source]

Bases: object

The tokens to use for temporary representation of mean and standard deviation

mean_token = '__mean__'
std_token = '__std__'
class synapse.ml.cyber.feature.scalers.StandardScalarScalerModel(input_col: str, partition_key: Optional[str], output_col: str, per_group_stats: Union[DataFrame, Dict[str, float]], coefficient_factor: float = 1.0, use_pandas: bool = True)[source]

Bases: PerPartitionScalarScalerModel

coefficientFactor = Param(parent='undefined', name='coefficientFactor', doc='After scaling values of outputCol are multiplied by coefficient (defaults to 1.0). ')

Module contents

SynapseML is an ecosystem of tools aimed towards expanding the distributed computing framework Apache Spark in several new directions. SynapseML adds many deep learning and data science tools to the Spark ecosystem, including seamless integration of Spark Machine Learning pipelines with Microsoft Cognitive Toolkit (CNTK), LightGBM and OpenCV. These tools enable powerful and highly-scalable predictive and analytical models for a variety of datasources.

SynapseML also brings new networking capabilities to the Spark Ecosystem. With the HTTP on Spark project, users can embed any web service into their SparkML models. In this vein, SynapseML provides easy to use SparkML transformers for a wide variety of Microsoft Cognitive Services. For production grade deployment, the Spark Serving project enables high throughput, sub-millisecond latency web services, backed by your Spark cluster.

SynapseML requires Scala 2.12, Spark 3.0+, and Python 3.6+.