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237 lines
9.2 KiB
Python
237 lines
9.2 KiB
Python
import os
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from pathlib import Path
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from typing import List, Dict, Optional, Tuple
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from safetensors import safe_open, SafetensorError
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import torch
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from loguru import logger
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from huggingface_hub import hf_hub_download
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import json
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class Weights:
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def __init__(
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self,
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filenames: List[Path],
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device,
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dtype,
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process_group,
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aliases: Optional[Dict[str, List[str]]] = None,
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):
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routing = {}
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for filename in filenames:
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with safe_open(filename, framework="pytorch") as f:
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for k in f.keys():
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if k in routing:
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raise RuntimeError(
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f"Key {k} was found in multiple files: {filename} and {routing[k]}"
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)
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routing[k] = filename
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if aliases is None:
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aliases = {}
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self.aliases = aliases
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self.routing = routing
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self.device = device
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self.dtype = dtype
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self.process_group = process_group
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self._handles = {}
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def _get_handle(self, filename):
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if filename not in self._handles:
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f = safe_open(filename, framework="pytorch")
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self._handles[filename] = f
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return self._handles[filename]
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def get_filename(self, tensor_name: str) -> (str, str):
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filename = self.routing.get(tensor_name, None)
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if filename is None:
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aliases = self.aliases.get(tensor_name, [])
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for alias in aliases:
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filename = self.routing.get(alias, None)
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if filename is not None:
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return str(filename), alias
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raise RuntimeError(f"weight {tensor_name} does not exist")
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return str(filename), tensor_name
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def _get_slice(self, tensor_name: str):
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filename, tensor_name = self.get_filename(tensor_name)
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f = self._get_handle(filename)
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slice_ = f.get_slice(tensor_name)
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return slice_
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def get_shape(self, tensor_name: str):
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return self._get_slice(tensor_name).get_shape()
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def get_tensor(self, tensor_name: str):
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filename, tensor_name = self.get_filename(tensor_name)
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f = self._get_handle(filename)
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tensor = f.get_tensor(tensor_name)
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# Special case for gptq which shouldn't convert
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# u4 which are disguised as int32
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if tensor.dtype not in [torch.int32, torch.int64]:
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tensor = tensor.to(dtype=self.dtype)
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tensor = tensor.to(device=self.device)
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return tensor
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def get_partial_sharded(self, tensor_name: str, dim: int):
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filename, tensor_name = self.get_filename(tensor_name)
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world_size = self.process_group.size()
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rank = self.process_group.rank()
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f = self._get_handle(filename)
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slice_ = f.get_slice(tensor_name)
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size = slice_.get_shape()[dim]
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block_size = size // world_size
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start = rank * block_size
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stop = (rank + 1) * block_size
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if dim == 0:
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tensor = slice_[start:stop]
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elif dim == 1:
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tensor = slice_[:, start:stop]
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else:
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raise NotImplementedError("Let's make that generic when needed")
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# Special case for gptq which shouldn't convert
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# u4 which are disguised as int32
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if tensor.dtype != torch.int32:
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tensor = tensor.to(dtype=self.dtype)
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tensor = tensor.to(device=self.device)
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return tensor
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def get_sharded(self, tensor_name: str, dim: int):
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filename, tensor_name = self.get_filename(tensor_name)
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f = self._get_handle(filename)
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slice_ = f.get_slice(tensor_name)
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world_size = self.process_group.size()
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size = slice_.get_shape()[dim]
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assert (
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size % world_size == 0
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), f"The choosen size {size} is not compatible with sharding on {world_size} shards"
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return self.get_partial_sharded(tensor_name, dim)
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def get_multi_weights_col(self, prefixes: List[str], quantize: str, dim: int):
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if quantize == "gptq":
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try:
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qweight = torch.cat(
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[self.get_sharded(f"{p}.qweight", dim=1) for p in prefixes], dim=1
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)
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except RuntimeError:
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raise RuntimeError(
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"Cannot load `gptq` weight, make sure the model is already quantized, or quantize it with `text-generation-server quantize ORIGINAL_MODEL_ID NEW_MODEL_ID`"
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)
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qzeros = torch.cat(
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[self.get_sharded(f"{p}.qzeros", dim=1) for p in prefixes], dim=1
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)
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scales = torch.cat(
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[self.get_sharded(f"{p}.scales", dim=1) for p in prefixes], dim=1
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)
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w = [self.get_tensor(f"{p}.g_idx") for p in prefixes]
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for w2 in w[1:]:
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torch.testing.assert_close(w2, w[0])
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g_idx = w[0]
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bits, groupsize = self._get_gptq_params()
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weight = (qweight, qzeros, scales, g_idx, bits, groupsize, False)
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else:
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w = [self.get_sharded(f"{p}.weight", dim=0) for p in prefixes]
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weight = torch.cat(w, dim=dim)
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return weight
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def get_multi_weights_row(self, prefix: str, quantize: str):
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if quantize == "gptq":
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use_exllama = True
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bits, groupsize = self._get_gptq_params()
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if bits != 4:
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use_exllama = False
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if self.process_group.size() > 1:
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g_idx = self.get_tensor(f"{prefix}.g_idx")
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if g_idx is not None:
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if (
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not torch.equal(
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g_idx.cpu(),
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torch.tensor(
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[i // groupsize for i in range(g_idx.shape[0])],
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dtype=torch.int32,
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),
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)
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and not (g_idx == 0).all()
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):
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# Exllama implementation does not support row tensor parallelism with act-order, as
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# it would require to reorder input activations that are split unto several GPUs
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use_exllama = False
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try:
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qweight = self.get_sharded(f"{prefix}.qweight", dim=0)
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except RuntimeError:
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raise RuntimeError(
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"Cannot load `gptq` weight, make sure the model is already quantized, or quantize it with `text-generation-server quantize ORIGINAL_MODEL_ID NEW_MODEL_ID`"
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)
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from text_generation_server.utils.layers import HAS_EXLLAMA
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if use_exllama:
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if not HAS_EXLLAMA:
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logger.warning(
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"Exllama GPTQ cuda kernels (which are faster) could have been used, but are not currently installed, try using BUILD_EXTENSIONS=True"
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)
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use_exllama = False
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else:
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logger.info("Using exllama kernels")
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if use_exllama:
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if groupsize >= 0:
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# Exllama reorders the weights in advance and the activations on the fly, thus
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# the scales and zero-points do not need to be reordered.
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qzeros = self.get_sharded(f"{prefix}.qzeros", dim=0)
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scales = self.get_sharded(f"{prefix}.scales", dim=0)
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else:
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qzeros = self.get_tensor(f"{prefix}.qzeros")
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scales = self.get_tensor(f"{prefix}.scales")
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# For tp > 1, at this point we know we do not use act-order
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if self.process_group.size() == 1:
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g_idx = self.get_tensor(f"{prefix}.g_idx")
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else:
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g_idx = None
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else:
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# The triton kernel reorders the scales/zero points instead of the weight/activation.
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# Thus, each rank needs the full qzeros/scales.
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qzeros = self.get_tensor(f"{prefix}.qzeros")
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scales = self.get_tensor(f"{prefix}.scales")
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g_idx = self.get_sharded(f"{prefix}.g_idx", dim=0)
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weight = (qweight, qzeros, scales, g_idx, bits, groupsize, use_exllama)
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else:
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weight = self.get_sharded(f"{prefix}.weight", dim=1)
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return weight
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def _get_gptq_params(self) -> Tuple[int, int]:
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try:
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bits = self.get_tensor("gptq_bits").item()
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groupsize = self.get_tensor("gptq_groupsize").item()
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except (SafetensorError, RuntimeError) as e:
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try:
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bits = self.gptq_bits
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groupsize = self.gptq_groupsize
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except Exception:
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raise e
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return bits, groupsize
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def _set_gptq_params(self, model_id):
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filename = "quantize_config.json"
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try:
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if os.path.exists(os.path.join(model_id, filename)):
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filename = os.path.join(model_id, filename)
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else:
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filename = hf_hub_download(model_id, filename=filename)
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with open(filename, "r") as f:
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data = json.load(f)
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self.gptq_bits = data["bits"]
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self.gptq_groupsize = data["group_size"]
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except Exception:
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pass
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