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https://github.com/NVIDIA/TensorRT-LLM.git
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4c7191af67
* Move TRT-LLM backend repo to TRT-LLM repo Signed-off-by: Iman Tabrizian <10105175+tabrizian@users.noreply.github.com> * Address review comments Signed-off-by: Iman Tabrizian <10105175+tabrizian@users.noreply.github.com> * debug ci Signed-off-by: Iman Tabrizian <10105175+tabrizian@users.noreply.github.com> * Update triton backend Signed-off-by: Iman Tabrizian <10105175+tabrizian@users.noreply.github.com> * Fixes after update Signed-off-by: Iman Tabrizian <10105175+tabrizian@users.noreply.github.com> --------- Signed-off-by: Iman Tabrizian <10105175+tabrizian@users.noreply.github.com>
197 lines
8.2 KiB
Python
197 lines
8.2 KiB
Python
# -*- coding: utf-8 -*-
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import json
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from typing import List
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import numpy as np
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import torch
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import triton_python_backend_utils as pb_utils
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from torch.nn.utils.rnn import pad_sequence
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from transformers import AutoTokenizer
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class TritonPythonModel:
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"""Your Python model must use the same class name. Every Python model
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that is created must have "TritonPythonModel" as the class name.
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"""
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def initialize(self, args):
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"""`initialize` is called only once when the model is being loaded.
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Implementing `initialize` function is optional. This function allows
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the model to initialize any state associated with this model.
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Parameters
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----------
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args : dict
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Both keys and values are strings. The dictionary keys and values are:
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* model_config: A JSON string containing the model configuration
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* model_instance_kind: A string containing model instance kind
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* model_instance_device_id: A string containing model instance device ID
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* model_repository: Model repository path
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* model_version: Model version
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* model_name: Model name
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"""
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# Parse model configs
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model_config = json.loads(args['model_config'])
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tokenizer_dir = model_config['parameters']['tokenizer_dir'][
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'string_value']
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self.tokenizer = AutoTokenizer.from_pretrained(tokenizer_dir,
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padding_side='left',
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legacy=False,
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trust_remote_code=True)
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if not self.tokenizer.pad_token:
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self.tokenizer.pad_token = self.tokenizer.eos_token
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self.pad_id = self.tokenizer.encode(self.tokenizer.pad_token,
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add_special_tokens=False)[0]
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# Parse model output configs and convert Triton types to numpy types
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input_names = [
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"INPUT_ID", "REQUEST_INPUT_LEN", "BAD_WORDS_IDS", "STOP_WORDS_IDS"
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]
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for input_name in input_names:
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setattr(
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self,
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input_name.lower() + "_dtype",
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pb_utils.triton_string_to_numpy(
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pb_utils.get_output_config_by_name(
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model_config, input_name)['data_type']))
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def execute(self, requests):
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"""`execute` must be implemented in every Python model. `execute`
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function receives a list of pb_utils.InferenceRequest as the only
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argument. This function is called when an inference is requested
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for this model. Depending on the batching configuration (e.g. Dynamic
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Batching) used, `requests` may contain multiple requests. Every
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Python model, must create one pb_utils.InferenceResponse for every
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pb_utils.InferenceRequest in `requests`. If there is an error, you can
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set the error argument when creating a pb_utils.InferenceResponse.
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Parameters
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----------
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requests : list
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A list of pb_utils.InferenceRequest
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Returns
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-------
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list
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A list of pb_utils.InferenceResponse. The length of this list must
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be the same as `requests`
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"""
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responses = []
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# Every Python backend must iterate over everyone of the requests
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# and create a pb_utils.InferenceResponse for each of them.
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for idx, request in enumerate(requests):
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# Get input tensors
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query = pb_utils.get_input_tensor_by_name(request,
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'QUERY').as_numpy()
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request_output_len = pb_utils.get_input_tensor_by_name(
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request, 'REQUEST_OUTPUT_LEN').as_numpy()
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bad_words_dict = pb_utils.get_input_tensor_by_name(
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request, 'BAD_WORDS_DICT').as_numpy()
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stop_words_dict = pb_utils.get_input_tensor_by_name(
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request, 'STOP_WORDS_DICT').as_numpy()
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# Preprocessing input data.
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input_id, request_input_len = self._create_request(query)
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bad_words = self._to_word_list_format(bad_words_dict)
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stop_words = self._to_word_list_format(stop_words_dict)
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# Create output tensors. You need pb_utils.Tensor
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# objects to create pb_utils.InferenceResponse.
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input_id_tensor = pb_utils.Tensor(
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'INPUT_ID',
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np.array(input_id).astype(self.input_id_dtype))
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request_input_len_tensor = pb_utils.Tensor(
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'REQUEST_INPUT_LEN',
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np.array(request_input_len).astype(
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self.request_input_len_dtype))
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request_output_len_tensor = pb_utils.Tensor('REQUEST_OUTPUT_LEN',
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request_output_len)
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bad_words_ids_tensor = pb_utils.Tensor('BAD_WORDS_IDS', bad_words)
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stop_words_ids_tensor = pb_utils.Tensor('STOP_WORDS_IDS',
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stop_words)
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# Create InferenceResponse. You can set an error here in case
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# there was a problem with handling this inference request.
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# Below is an example of how you can set errors in inference
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# response:
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#
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# pb_utils.InferenceResponse(
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# output_tensors=..., TritonError("An error occurred"))
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inference_response = pb_utils.InferenceResponse(output_tensors=[
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input_id_tensor, bad_words_ids_tensor, stop_words_ids_tensor,
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request_input_len_tensor, request_output_len_tensor
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])
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responses.append(inference_response)
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# You should return a list of pb_utils.InferenceResponse. Length
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# of this list must match the length of `requests` list.
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return responses
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def finalize(self):
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"""`finalize` is called only once when the model is being unloaded.
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Implementing `finalize` function is optional. This function allows
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the model to perform any necessary clean ups before exit.
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"""
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print('Cleaning up...')
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def _create_request(self, query):
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"""
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query : batch string (2D numpy array)
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"""
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start_ids = [
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torch.IntTensor(self.tokenizer.encode(s[0].decode())) for s in query
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]
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start_lengths = torch.IntTensor([[len(ids)] for ids in start_ids])
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start_ids = pad_sequence(start_ids,
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batch_first=True,
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padding_value=self.pad_id)
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# input_len = min(start_lengths)
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#attn_mask = torch.ones((batch_size, input_len, input_len)).tril()
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return start_ids, start_lengths
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def _to_word_list_format(self, word_lists: List[List[str | bytes]]):
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'''
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word_lists format:
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len(word_lists) == batch_size
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word_lists[i] means the words associated to batch item i. A "word" may actually be any string. Like "lorem" or "lorem ipsum".
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'''
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assert self.tokenizer != None, "need to set tokenizer"
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if word_lists is None:
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# Return an empty array of shape (1,2,0)
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return np.empty([1, 2, 0], dtype="int32")
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flat_ids = []
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offsets = []
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for word_list in word_lists:
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item_flat_ids = []
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item_offsets = []
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for word in word_list:
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if isinstance(word, bytes):
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word = word.decode()
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ids = self.tokenizer.encode(word, add_special_tokens=False)
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if len(ids) == 0:
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continue
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item_flat_ids += ids
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item_offsets.append(len(ids))
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flat_ids.append(np.array(item_flat_ids))
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offsets.append(np.cumsum(np.array(item_offsets)))
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pad_to = max(1, max(len(ids) for ids in flat_ids))
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for i, (ids, offs) in enumerate(zip(flat_ids, offsets)):
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flat_ids[i] = np.pad(ids, (0, pad_to - len(ids)), constant_values=0)
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offsets[i] = np.pad(offs, (0, pad_to - len(offs)),
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constant_values=-1)
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return np.array([flat_ids, offsets], dtype="int32").transpose((1, 0, 2))
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