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* signing commit Signed-off-by: Josh Bennett <562773+joshbtn@users.noreply.github.com> * Update transformers backend to check for existing model directory Signed-off-by: Josh Bennett <562773+joshbtn@users.noreply.github.com> --------- Signed-off-by: Josh Bennett <562773+joshbtn@users.noreply.github.com>
412 lines
17 KiB
Python
412 lines
17 KiB
Python
#!/usr/bin/env python3
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"""
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Extra gRPC server for HuggingFace AutoModel models.
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"""
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from concurrent import futures
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import argparse
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import signal
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import sys
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import os
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from threading import Thread
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import asyncio
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import time
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import backend_pb2
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import backend_pb2_grpc
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import grpc
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import torch
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import torch.cuda
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XPU=os.environ.get("XPU", "0") == "1"
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from transformers import AutoTokenizer, AutoModel, set_seed, TextIteratorStreamer, StoppingCriteriaList, StopStringCriteria
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_ONE_DAY_IN_SECONDS = 60 * 60 * 24
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# If MAX_WORKERS are specified in the environment use it, otherwise default to 1
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MAX_WORKERS = int(os.environ.get('PYTHON_GRPC_MAX_WORKERS', '1'))
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def mean_pooling(model_output, attention_mask):
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"""
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Mean pooling to get sentence embeddings. See:
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https://huggingface.co/sentence-transformers/paraphrase-distilroberta-base-v1
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"""
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token_embeddings = model_output[0]
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input_mask_expanded = attention_mask.unsqueeze(-1).expand(token_embeddings.size()).float()
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sum_embeddings = torch.sum(token_embeddings * input_mask_expanded, 1) # Sum columns
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sum_mask = torch.clamp(input_mask_expanded.sum(1), min=1e-9)
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return sum_embeddings / sum_mask
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# Implement the BackendServicer class with the service methods
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class BackendServicer(backend_pb2_grpc.BackendServicer):
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"""
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A gRPC servicer for the backend service.
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This class implements the gRPC methods for the backend service, including Health, LoadModel, and Embedding.
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"""
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def Health(self, request, context):
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"""
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A gRPC method that returns the health status of the backend service.
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Args:
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request: A HealthRequest object that contains the request parameters.
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context: A grpc.ServicerContext object that provides information about the RPC.
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Returns:
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A Reply object that contains the health status of the backend service.
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"""
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return backend_pb2.Reply(message=bytes("OK", 'utf-8'))
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def LoadModel(self, request, context):
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"""
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A gRPC method that loads a model into memory.
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Args:
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request: A LoadModelRequest object that contains the request parameters.
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context: A grpc.ServicerContext object that provides information about the RPC.
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Returns:
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A Result object that contains the result of the LoadModel operation.
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"""
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model_name = request.Model
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# Check to see if the Model exists in the filesystem already.
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if os.path.exists(request.ModelFile):
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model_name = request.ModelFile
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compute = torch.float16
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if request.F16Memory == True:
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compute=torch.bfloat16
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self.CUDA = torch.cuda.is_available()
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self.OV=False
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device_map="cpu"
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quantization = None
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if self.CUDA:
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from transformers import BitsAndBytesConfig, AutoModelForCausalLM
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if request.MainGPU:
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device_map=request.MainGPU
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else:
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device_map="cuda:0"
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if request.Quantization == "bnb_4bit":
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quantization = BitsAndBytesConfig(
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load_in_4bit = True,
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bnb_4bit_compute_dtype = compute,
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bnb_4bit_quant_type = "nf4",
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bnb_4bit_use_double_quant = True,
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load_in_8bit = False,
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)
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elif request.Quantization == "bnb_8bit":
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quantization = BitsAndBytesConfig(
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load_in_4bit=False,
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bnb_4bit_compute_dtype = None,
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load_in_8bit=True,
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)
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try:
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if request.Type == "AutoModelForCausalLM":
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if XPU:
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import intel_extension_for_pytorch as ipex
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from intel_extension_for_transformers.transformers.modeling import AutoModelForCausalLM
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device_map="xpu"
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compute=torch.float16
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if request.Quantization == "xpu_4bit":
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xpu_4bit = True
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xpu_8bit = False
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elif request.Quantization == "xpu_8bit":
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xpu_4bit = False
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xpu_8bit = True
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else:
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xpu_4bit = False
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xpu_8bit = False
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self.model = AutoModelForCausalLM.from_pretrained(model_name,
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trust_remote_code=request.TrustRemoteCode,
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use_safetensors=True,
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device_map=device_map,
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load_in_4bit=xpu_4bit,
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load_in_8bit=xpu_8bit,
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torch_dtype=compute)
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else:
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self.model = AutoModelForCausalLM.from_pretrained(model_name,
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trust_remote_code=request.TrustRemoteCode,
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use_safetensors=True,
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quantization_config=quantization,
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device_map=device_map,
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torch_dtype=compute)
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elif request.Type == "OVModelForCausalLM":
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from optimum.intel.openvino import OVModelForCausalLM
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from openvino.runtime import Core
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if request.MainGPU:
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device_map=request.MainGPU
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else:
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device_map="AUTO"
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devices = Core().available_devices
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if "GPU" in " ".join(devices):
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device_map="AUTO:GPU"
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# While working on a fine tuned model, inference may give an inaccuracy and performance drop on GPU if winograd convolutions are selected.
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# https://docs.openvino.ai/2024/openvino-workflow/running-inference/inference-devices-and-modes/gpu-device.html
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if "CPU" or "NPU" in device_map:
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if "-CPU" or "-NPU" not in device_map:
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ovconfig={"PERFORMANCE_HINT": "CUMULATIVE_THROUGHPUT"}
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else:
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ovconfig={"PERFORMANCE_HINT": "CUMULATIVE_THROUGHPUT","GPU_DISABLE_WINOGRAD_CONVOLUTION": "YES"}
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self.model = OVModelForCausalLM.from_pretrained(model_name,
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compile=True,
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trust_remote_code=request.TrustRemoteCode,
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ov_config=ovconfig,
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device=device_map)
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self.OV = True
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elif request.Type == "OVModelForFeatureExtraction":
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from optimum.intel.openvino import OVModelForFeatureExtraction
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from openvino.runtime import Core
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if request.MainGPU:
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device_map=request.MainGPU
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else:
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device_map="AUTO"
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devices = Core().available_devices
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if "GPU" in " ".join(devices):
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device_map="AUTO:GPU"
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# While working on a fine tuned model, inference may give an inaccuracy and performance drop on GPU if winograd convolutions are selected.
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# https://docs.openvino.ai/2024/openvino-workflow/running-inference/inference-devices-and-modes/gpu-device.html
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if "CPU" or "NPU" in device_map:
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if "-CPU" or "-NPU" not in device_map:
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ovconfig={"PERFORMANCE_HINT": "CUMULATIVE_THROUGHPUT"}
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else:
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ovconfig={"PERFORMANCE_HINT": "CUMULATIVE_THROUGHPUT","GPU_DISABLE_WINOGRAD_CONVOLUTION": "YES"}
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self.model = OVModelForFeatureExtraction.from_pretrained(model_name,
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compile=True,
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trust_remote_code=request.TrustRemoteCode,
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ov_config=ovconfig,
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export=True,
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device=device_map)
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self.OV = True
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else:
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print("Automodel", file=sys.stderr)
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self.model = AutoModel.from_pretrained(model_name,
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trust_remote_code=request.TrustRemoteCode,
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use_safetensors=True,
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quantization_config=quantization,
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device_map=device_map,
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torch_dtype=compute)
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if request.ContextSize > 0:
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self.max_tokens = request.ContextSize
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else:
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self.max_tokens = self.model.config.max_position_embeddings
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self.tokenizer = AutoTokenizer.from_pretrained(model_name, use_safetensors=True)
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self.XPU = False
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if XPU and self.OV == False:
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self.XPU = True
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try:
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print("Optimizing model", model_name, "to XPU.", file=sys.stderr)
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self.model = ipex.optimize_transformers(self.model, inplace=True, dtype=torch.float16, device="xpu")
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except Exception as err:
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print("Not using XPU:", err, file=sys.stderr)
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except Exception as err:
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print("Error:", err, file=sys.stderr)
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return backend_pb2.Result(success=False, message=f"Unexpected {err=}, {type(err)=}")
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# Implement your logic here for the LoadModel service
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# Replace this with your desired response
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return backend_pb2.Result(message="Model loaded successfully", success=True)
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def Embedding(self, request, context):
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"""
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A gRPC method that calculates embeddings for a given sentence.
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Args:
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request: An EmbeddingRequest object that contains the request parameters.
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context: A grpc.ServicerContext object that provides information about the RPC.
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Returns:
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An EmbeddingResult object that contains the calculated embeddings.
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"""
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set_seed(request.Seed)
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# Tokenize input
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max_length = 512
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if request.Tokens != 0:
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max_length = request.Tokens
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encoded_input = self.tokenizer(request.Embeddings, padding=True, truncation=True, max_length=max_length, return_tensors="pt")
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# Create word embeddings
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if self.CUDA:
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encoded_input = encoded_input.to("cuda")
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with torch.no_grad():
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model_output = self.model(**encoded_input)
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# Pool to get sentence embeddings; i.e. generate one 1024 vector for the entire sentence
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sentence_embeddings = mean_pooling(model_output, encoded_input['attention_mask'])
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return backend_pb2.EmbeddingResult(embeddings=sentence_embeddings[0])
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async def _predict(self, request, context, streaming=False):
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set_seed(request.Seed)
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if request.TopP < 0 or request.TopP > 1:
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request.TopP = 1
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if request.TopK <= 0:
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request.TopK = 50
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if request.Temperature > 0 :
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sample=True
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else:
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sample=False
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request.TopP == None
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request.TopK == None
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request.Temperature == None
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prompt = request.Prompt
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if not request.Prompt and request.UseTokenizerTemplate and request.Messages:
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prompt = self.tokenizer.apply_chat_template(request.Messages, tokenize=False, add_generation_prompt=True)
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inputs = self.tokenizer(prompt, return_tensors="pt")
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if request.Tokens > 0:
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max_tokens = request.Tokens
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else:
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max_tokens = self.max_tokens - inputs["input_ids"].size()[inputs["input_ids"].dim()-1]
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if self.CUDA:
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inputs = inputs.to("cuda")
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if XPU and self.OV == False:
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inputs = inputs.to("xpu")
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streaming = False
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criteria=[]
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if request.StopPrompts:
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criteria = StoppingCriteriaList(
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[
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StopStringCriteria(tokenizer=self.tokenizer, stop_strings=request.StopPrompts),
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]
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)
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if streaming:
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streamer=TextIteratorStreamer(self.tokenizer,
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skip_prompt=True,
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skip_special_tokens=True)
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config=dict(inputs,
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max_new_tokens=max_tokens,
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temperature=request.Temperature,
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top_p=request.TopP,
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top_k=request.TopK,
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do_sample=sample,
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attention_mask=inputs["attention_mask"],
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eos_token_id=self.tokenizer.eos_token_id,
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pad_token_id=self.tokenizer.eos_token_id,
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streamer=streamer,
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stopping_criteria=criteria,
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use_cache=True,
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)
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thread=Thread(target=self.model.generate, kwargs=config)
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thread.start()
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generated_text = ""
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try:
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for new_text in streamer:
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generated_text += new_text
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yield backend_pb2.Reply(message=bytes(new_text, encoding='utf-8'))
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finally:
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thread.join()
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else:
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if XPU and self.OV == False:
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outputs = self.model.generate(inputs["input_ids"],
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max_new_tokens=max_tokens,
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temperature=request.Temperature,
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top_p=request.TopP,
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top_k=request.TopK,
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do_sample=sample,
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pad_token=self.tokenizer.eos_token_id)
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else:
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outputs = self.model.generate(**inputs,
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max_new_tokens=max_tokens,
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temperature=request.Temperature,
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top_p=request.TopP,
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top_k=request.TopK,
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do_sample=sample,
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eos_token_id=self.tokenizer.eos_token_id,
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pad_token_id=self.tokenizer.eos_token_id,
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stopping_criteria=criteria,
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use_cache=True,
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)
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generated_text = self.tokenizer.batch_decode(outputs[:, inputs["input_ids"].shape[1]:], skip_special_tokens=True)[0]
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if streaming:
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return
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yield backend_pb2.Reply(message=bytes(generated_text, encoding='utf-8'))
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async def Predict(self, request, context):
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"""
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Generates text based on the given prompt and sampling parameters.
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Args:
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request: The predict request.
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context: The gRPC context.
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Returns:
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backend_pb2.Reply: The predict result.
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"""
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gen = self._predict(request, context, streaming=False)
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res = await gen.__anext__()
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return res
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async def PredictStream(self, request, context):
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"""
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Generates text based on the given prompt and sampling parameters, and streams the results.
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Args:
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request: The predict stream request.
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context: The gRPC context.
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Returns:
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backend_pb2.Result: The predict stream result.
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"""
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iterations = self._predict(request, context, streaming=True)
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try:
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async for iteration in iterations:
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yield iteration
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finally:
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await iterations.aclose()
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async def serve(address):
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# Start asyncio gRPC server
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server = grpc.aio.server(migration_thread_pool=futures.ThreadPoolExecutor(max_workers=MAX_WORKERS))
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# Add the servicer to the server
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backend_pb2_grpc.add_BackendServicer_to_server(BackendServicer(), server)
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# Bind the server to the address
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server.add_insecure_port(address)
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# Gracefully shutdown the server on SIGTERM or SIGINT
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loop = asyncio.get_event_loop()
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for sig in (signal.SIGINT, signal.SIGTERM):
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loop.add_signal_handler(
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sig, lambda: asyncio.ensure_future(server.stop(5))
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)
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# Start the server
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await server.start()
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print("Server started. Listening on: " + address, file=sys.stderr)
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# Wait for the server to be terminated
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await server.wait_for_termination()
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if __name__ == "__main__":
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parser = argparse.ArgumentParser(description="Run the gRPC server.")
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parser.add_argument(
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"--addr", default="localhost:50051", help="The address to bind the server to."
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)
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args = parser.parse_args()
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asyncio.run(serve(args.addr))
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