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Source code for torch.nn.quantized.modules.embedding_ops

import torch
import torch.nn as nn
from torch import Tensor  # noqa: F401
from torch._jit_internal import Optional, List  # noqa: F401
from torch.nn.quantized.modules.utils import hide_packed_params_repr
from torch.nn.quantized.modules.utils import _quantize_weight

class EmbeddingPackedParams(torch.nn.Module):
    _version = 1

    def __init__(self, num_embeddings, embedding_dim, dtype=torch.quint8):
        super(EmbeddingPackedParams, self).__init__()
        self.dtype = dtype
        if self.dtype in [torch.quint8, torch.quint4x2]:
            scales = torch.ones(num_embeddings, dtype=torch.float)
            zero_points = torch.zeros(num_embeddings, dtype=torch.float)
            wq = torch._empty_per_channel_affine_quantized([num_embeddings, embedding_dim], scales=scales,
                                                           zero_points=zero_points,
                                                           axis=0, dtype=self.dtype)
            self.set_weight(wq)
        else:
            raise NotImplementedError('Unsupported dtype on quantized embedding! Supports quint8 and quint4x2.')

    @torch.jit.export
    def set_weight(self, weight: torch.Tensor) -> None:
        if self.dtype in [torch.quint8, torch.quint4x2]:
            self._packed_weight = torch.ops.quantized.embedding_bag_prepack(weight)
        else:
            raise NotImplementedError('Unsupported dtype for quantized embedding prepack! Supports quint8 and quint4x2.')


    @torch.jit.export
    def _weight(self):
        if self.dtype in [torch.quint8, torch.quint4x2]:
            return torch.ops.quantized.embedding_bag_unpack(self._packed_weight)
        else:
            raise NotImplementedError('Unsupported dtype for quantized embedding unpack! Supports quint8 and quint4x2.')

    def forward(self, x):
        return x

    # Version 1
    #   self
    #   |--- _packed_weight : Tensor representing weight of EmbeddingPackedParamsBase
    #   |--- dtype : torch.dtype

    def _save_to_state_dict(self, destination, prefix, keep_vars):
        super(EmbeddingPackedParams, self)._save_to_state_dict(destination, prefix, keep_vars)
        destination[prefix + 'dtype'] = self.dtype
        destination[prefix + '_packed_weight'] = self._weight()

    def _load_from_state_dict(self, state_dict, prefix, local_metadata, strict,
                              missing_keys, unexpected_keys, error_msgs):
        self.dtype = state_dict[prefix + 'dtype']
        state_dict.pop(prefix + 'dtype')

        weight = state_dict[prefix + '_packed_weight']
        state_dict.pop(prefix + '_packed_weight')
        self.set_weight(weight)

        super(EmbeddingPackedParams, self)._load_from_state_dict(state_dict, prefix, local_metadata, False,
                                                                 missing_keys, unexpected_keys, error_msgs)

    def __repr__(self):
        return self._weight().__repr__()

[docs]class Embedding(torch.nn.Module): r""" A quantized Embedding module with quantized packed weights as inputs. We adopt the same interface as `torch.nn.Embedding`, please see https://pytorch.org/docs/stable/nn.html#torch.nn.Embedding for documentation. Similar to :class:`~torch.nn.Embedding`, attributes will be randomly initialized at module creation time and will be overwritten later Attributes: weight (Tensor): the non-learnable quantized weights of the module of shape :math:`(\text{num\_embeddings}, \text{embedding\_dim})`. Examples:: >>> m = nn.quantized.Embedding(num_embeddings=10, embedding_dim=12) >>> indices = torch.tensor([9, 6, 5, 7, 8, 8, 9, 2, 8]) >>> output = m(indices) >>> print(output.size()) torch.Size([9, 12] """ _version = 1 def __init__(self, num_embeddings: int, embedding_dim: int, padding_idx: Optional[int] = None, max_norm: Optional[float] = None, norm_type: float = 2., scale_grad_by_freq: bool = False, sparse: bool = False, _weight: Optional[Tensor] = None, dtype=torch.quint8) -> None: super(Embedding, self).__init__() self.num_embeddings = num_embeddings self.embedding_dim = embedding_dim if _weight is None: scales = torch.ones(num_embeddings, dtype=torch.float) zero_points = torch.zeros(num_embeddings, dtype=torch.float) qweight = torch._empty_per_channel_affine_quantized([num_embeddings, embedding_dim], scales=scales, zero_points=zero_points, axis=0, dtype=torch.quint8) else: assert list(_weight.shape) == [num_embeddings, embedding_dim], \ 'Shape of weight does not match num_embeddings and embedding_dim' qweight = _weight self._packed_params = EmbeddingPackedParams(num_embeddings, embedding_dim, dtype) self._packed_params.set_weight(qweight) def forward(self, indices: Tensor) -> Tensor: return torch.ops.quantized.embedding_byte(self._packed_params._packed_weight, indices) def _get_name(self): return 'QuantizedEmbedding' def __repr__(self): return hide_packed_params_repr(self, EmbeddingPackedParams) def extra_repr(self): extra_repr_str = 'num_embeddings={}, embedding_dim={}, dtype={}, qscheme={}'.format( self.num_embeddings, self.embedding_dim, self._packed_params.dtype, self.weight().qscheme() ) return extra_repr_str def set_weight(self, w: torch.Tensor) -> None: self._packed_params.set_weight(w) def weight(self): return self._packed_params._weight()
[docs] @classmethod def from_float(cls, mod): r"""Create a quantized embedding module from a float module Args: mod (Module): a float module, either produced by torch.quantization utilities or provided by user """ assert type(mod) == nn.Embedding, 'nnq.' + cls.__name__ + '.from_float only works for ' + \ nn.Embedding.__name__ assert hasattr(mod, 'qconfig'), 'Embedding input float module must have qconfig defined' from torch.quantization import float_qparams_weight_only_qconfig if mod.qconfig is not None and mod.qconfig.weight is not None: weight_observer = mod.qconfig.weight() else: weight_observer = float_qparams_weight_only_qconfig.weight() dtype = weight_observer.dtype assert dtype == torch.quint8, 'The only supported dtype for nnq.Embedding is torch.quint8' # Run the observer to calculate qparams. weight_observer(mod.weight) qweight = _quantize_weight(mod.weight.float(), weight_observer) # Create quantized Embedding module and pass in the quantized weight qembedding = Embedding(mod.num_embeddings, mod.embedding_dim) qembedding.set_weight(qweight) return qembedding
[docs]class EmbeddingBag(Embedding): r""" A quantized EmbeddingBag module with quantized packed weights as inputs. We adopt the same interface as `torch.nn.EmbeddingBag`, please see https://pytorch.org/docs/stable/nn.html#torch.nn.EmbeddingBag for documentation. Similar to :class:`~torch.nn.EmbeddingBag`, attributes will be randomly initialized at module creation time and will be overwritten later Attributes: weight (Tensor): the non-learnable quantized weights of the module of shape :math:`(\text{num\_embeddings}, \text{embedding\_dim})`. Examples:: >>> m = nn.quantized.EmbeddingBag(num_embeddings=10, embedding_dim=12, include_last_offset=True, mode='sum') >>> indices = torch.tensor([9, 6, 5, 7, 8, 8, 9, 2, 8, 6, 6, 9, 1, 6, 8, 8, 3, 2, 3, 6, 3, 6, 5, 7, 0, 8, 4, 6, 5, 8, 2, 3]) >>> offsets = torch.tensor([0, 19, 20, 28, 28, 32]) >>> output = m(indices, offsets) >>> print(output.size()) torch.Size([5, 12] """ _version = 1 def __init__(self, num_embeddings: int, embedding_dim: int, max_norm: Optional[float] = None, norm_type: float = 2., scale_grad_by_freq: bool = False, mode: str = 'sum', sparse: bool = False, _weight: Optional[Tensor] = None, include_last_offset: bool = False, dtype=torch.quint8) -> None: super(EmbeddingBag, self).__init__(num_embeddings, embedding_dim, _weight=_weight, dtype=dtype) self.mode = mode self.pruned_weights = False self.include_last_offset = include_last_offset self.dtype = dtype def forward(self, indices: Tensor, offsets: Optional[Tensor] = None, per_sample_weights: Optional[Tensor] = None, compressed_indices_mapping: Optional[Tensor] = None) -> Tensor: if self.dtype == torch.quint4x2: return torch.ops.quantized.embedding_bag_4bit(self._packed_params._packed_weight, indices, offsets, False, 0, self.pruned_weights, per_sample_weights, compressed_indices_mapping, self.include_last_offset) else: return torch.ops.quantized.embedding_bag_byte(self._packed_params._packed_weight, indices, offsets, False, 0, self.pruned_weights, per_sample_weights, compressed_indices_mapping, self.include_last_offset) def _get_name(self): return 'QuantizedEmbeddingBag'
[docs] @classmethod def from_float(cls, mod): r"""Create a quantized embedding_bag module from a float module Args: mod (Module): a float module, either produced by torch.quantization utilities or provided by user """ assert type(mod) == nn.EmbeddingBag, 'nnq.' + cls.__name__ + '.from_float only works for ' + \ nn.EmbeddingBag.__name__ assert hasattr(mod, 'qconfig'), 'EmbeddingBag input float module must have qconfig defined' from torch.quantization.qconfig import float_qparams_weight_only_qconfig if mod.qconfig is not None and mod.qconfig.weight is not None: weight_observer = mod.qconfig.weight() else: weight_observer = float_qparams_weight_only_qconfig.weight() dtype = weight_observer.dtype assert dtype == torch.quint8 or dtype == torch.quint4x2, \ 'The only supported dtype for nnq.EmbeddingBag is torch.quint8 and torch.quint4x2' # Run the observer to calculate qparams. weight_observer(mod.weight) qweight = _quantize_weight(mod.weight.float(), weight_observer) # Create quantized EmbeddingBag module and pass in the quantized weight qembedding_bag = EmbeddingBag(mod.num_embeddings, mod.embedding_dim, dtype=dtype) qembedding_bag.set_weight(qweight) return qembedding_bag

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