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  • Python
    • EmbeddingModels
      • BGEM3EmbeddingFunction

__call__()

This operation in BGEM3EmbeddingFunction takes a list of text strings and directly encodes them into vector embeddings.

The __call__() method of BGEM3EmbeddingFunction shares the same functionality as encode_documents() and encode_queries().

Request syntax

# Instance created
bge_m3_ef = BGEM3EmbeddingFunction()

# __call__ method will be called
bge_m3_ef(
    texts: List[str]
) -> Dict

PARAMETERS:

  • texts (List[str])

    A list of string values, where each string represents text that will be passed to the embedding model for encoding. The model will generate an embedding vector for each string in the list.

RETURN TYPE:

Dict

RETURNS:

A dictionary containing the document embeddings.

When initializing BGEM3EmbeddingFunction, if return_dense, return_sparse, and return_colbert_vecs are set to True, the returned dictionary will contain the keys dense, sparse, and colbert_vecs, with the corresponding dense embeddings, sparse word embeddings, and ColBERT vectors.

Exceptions:

  • ImportError

    This exception will be raised when the FlagEmbedding module is not installed.

Examples

from pymilvus import model

# Create a BGEM3EmbeddingFunction instance
bge_m3_ef = model.hybrid.BGEM3EmbeddingFunction(
    model_name='BAAI/bge-m3', # Specify t`he model name
    device='cpu', # Specify the device to use, e.g., 'cpu' or 'cuda:0'
    use_fp16=False # Whether to use fp16. `False` for `device='cpu'`.
)

docs = [
    "Artificial intelligence was founded as an academic discipline in 1956.",
    "Alan Turing was the first person to conduct substantial research in AI.",
    "Born in Maida Vale, London, Turing was raised in southern England.",
]

# bge_m3_ef.__call__ will be called
bge_m3_ef(docs)

# {'dense': [array([-0.02505937, -0.00142193,  0.04015467, ..., -0.02094924,
#           0.02623661,  0.00324098], dtype=float32),
#   array([ 0.00118463,  0.00649292, -0.00735763, ..., -0.01446293,
#           0.04243685, -0.01794822], dtype=float32),
#   array([ 0.00415287, -0.0101492 ,  0.0009811 , ..., -0.02559666,
#           0.08084674,  0.00141647], dtype=float32)],
#  'sparse': <3x250002 sparse array of type '<class 'numpy.float32'>'
#   with 43 stored elements in Compressed Sparse Row format>}

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