Module: tfm.nlp.layers

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Layers are the fundamental building blocks for NLP models.

They can be used to assemble new tf.keras layers or models.

Classes

class BertPackInputs: Packs tokens into model inputs for BERT.

class BertTokenizer: Wraps TF.Text's BertTokenizer with pre-defined vocab as a Keras Layer.

class BigBirdAttention: BigBird, a sparse attention mechanism.

class BigBirdMasks: Creates bigbird attention masks.

class BlockDiagFeedforward: Block diagonal feedforward layer.

class CachedAttention: Attention layer with cache used for autoregressive decoding.

class ClassificationHead: Pooling head for sentence-level classification tasks.

class CompiledTransformer: Transformer layer.

class FastWordpieceBertTokenizer: A bert tokenizer keras layer using text.FastWordpieceTokenizer.

class GatedFeedforward: Gated linear feedforward layer.

class GaussianProcessClassificationHead: Gaussian process-based pooling head for sentence classification.

class KernelAttention: A variant of efficient transformers which replaces softmax with kernels.

class KernelMask: Creates kernel attention mask.

class MaskedLM: Masked language model network head for BERT modeling.

class MaskedSoftmax: Performs a softmax with optional masking on a tensor.

class MatMulWithMargin: This layer computs a dot product matrix given two encoded inputs.

class MobileBertEmbedding: Performs an embedding lookup for MobileBERT.

class MobileBertMaskedLM: Masked language model network head for BERT modeling.

class MobileBertTransformer: Transformer block for MobileBERT.

class MultiChannelAttention: Multi-channel Attention layer.

class MultiClsHeads: Pooling heads sharing the same pooling stem.

class MultiHeadRelativeAttention: A multi-head attention layer with relative attention + position encoding.

class OnDeviceEmbedding: Performs an embedding lookup suitable for accelerator devices.

class PackBertEmbeddings: Performs packing tricks for BERT inputs to improve TPU utilization.

class PerDimScaleAttention: Learn scales for individual dims.

class PerQueryDenseHead: Pooling head used for EncT5 style models.

class PositionEmbedding: Creates a positional embedding.

class RandomFeatureGaussianProcess: Gaussian process layer with random feature approximation [1].

class ReZeroTransformer: Transformer layer with ReZero.

class RelativePositionBias: Relative position embedding via per-head bias in T5 style.

class RelativePositionEmbedding: Creates a positional embedding.

class ReuseMultiHeadAttention: MultiHeadAttention layer.

class ReuseTransformer: Transformer layer.

class SelectTopK: Select top-k + random-k tokens according to importance.

class SelfAttentionMask: Create 3D attention mask from a 2D tensor mask.

class SentencepieceTokenizer: Wraps tf_text.SentencepieceTokenizer as a Keras Layer.

class SpectralNormalization: Implements spectral normalization for Dense layer.

class SpectralNormalizationConv2D: Implements spectral normalization for Conv2D layer based on [3].

class StridedTransformerEncoderBlock: Transformer layer for packing optimization to stride over inputs.

class StridedTransformerScaffold: TransformerScaffold for packing optimization to stride over inputs.

class TNTransformerExpandCondense: Transformer layer using tensor network Expand-Condense layer.

class TalkingHeadsAttention: Implements Talking-Heads Attention.

class TokenImportanceWithMovingAvg: Routing based on per-token importance value.

class Transformer: Transformer layer.

class TransformerDecoderBlock: Single transformer layer for decoder.

class TransformerEncoderBlock: TransformerEncoderBlock layer.

class TransformerScaffold: Transformer scaffold layer.

class TransformerXL: Transformer XL.

class TransformerXLBlock: Transformer XL block.

class TwoStreamRelativeAttention: Two-stream relative self-attention for XLNet.

class VotingAttention: Voting Attention layer.

Functions

extract_gp_layer_kwargs(...): Extracts Gaussian process layer configs from a given kwarg.

extract_spec_norm_kwargs(...): Extracts spectral normalization configs from a given kwarg.

tf_function_if_eager(...): Applies the @tf.function decorator only if running in eager mode.