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486 lines
16 KiB
Python
486 lines
16 KiB
Python
# SPDX-License-Identifier: Apache-2.0
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# SPDX-FileCopyrightText: Copyright contributors to the vLLM project
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# Copyright 2023-2024 SGLang Team
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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# ==============================================================================
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# Adapted from
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# https://github.com/vllm-project/vllm/blob/main/vllm/model_executor/models/olmo2.py
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"""Inference-only OLMo2 model compatible with HuggingFace weights."""
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from functools import partial
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from typing import Iterable, Optional, Tuple
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import torch
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from torch import nn
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from transformers import PretrainedConfig
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from sglang.srt.distributed import (
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split_tensor_along_last_dim,
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tensor_model_parallel_all_gather,
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)
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from sglang.srt.layers.activation import SiluAndMul
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from sglang.srt.layers.layernorm import RMSNorm
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from sglang.srt.layers.linear import (
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MergedColumnParallelLinear,
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QKVParallelLinear,
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RowParallelLinear,
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)
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from sglang.srt.layers.logits_processor import LogitsProcessor
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from sglang.srt.layers.quantization.base_config import QuantizationConfig
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from sglang.srt.layers.radix_attention import RadixAttention
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from sglang.srt.layers.rotary_embedding import get_rope
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from sglang.srt.layers.vocab_parallel_embedding import (
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ParallelLMHead,
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VocabParallelEmbedding,
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)
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from sglang.srt.model_executor.forward_batch_info import ForwardBatch
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from sglang.srt.model_executor.runner import get_is_capture_mode
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from sglang.srt.model_loader.weight_utils import default_weight_loader
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from sglang.srt.runtime_context import get_parallel, get_stream
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from sglang.srt.utils import add_prefix, is_cuda, make_layers
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_is_cuda = is_cuda()
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# Aligned with HF's implementation, using sliding window inclusive with the last token
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# SGLang assumes exclusive
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def get_attention_sliding_window_size(config):
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return config.sliding_window - 1 if hasattr(config, "sliding_window") else None
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class Olmo2Attention(nn.Module):
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"""
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This is the attention block where the output is computed as
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Attention(LN(x)) in MLP(LN(x + Attention(LN(x))))
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(plus another skip connection).
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"""
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def __init__(
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self,
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config: PretrainedConfig,
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layer_id: int = 0,
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quant_config: Optional[QuantizationConfig] = None,
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prefix: str = "",
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alt_stream: Optional[torch.cuda.Stream] = None,
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):
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super().__init__()
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self.config = config
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self.hidden_size = config.hidden_size
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self.tp_size = get_parallel().tp_size
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self.total_num_heads = config.num_attention_heads
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assert self.hidden_size % self.total_num_heads == 0
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assert self.total_num_heads % self.tp_size == 0
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self.num_heads = self.total_num_heads // self.tp_size
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self.total_num_kv_heads = self.config.num_key_value_heads
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if self.total_num_kv_heads >= self.tp_size:
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# Number of KV heads is greater than TP size, so we partition
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# the KV heads across multiple tensor parallel GPUs.
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assert self.total_num_kv_heads % self.tp_size == 0
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else:
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# Number of KV heads is less than TP size, so we replicate
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# the KV heads across multiple tensor parallel GPUs.
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assert self.tp_size % self.total_num_kv_heads == 0
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self.num_kv_heads = max(1, self.total_num_kv_heads // self.tp_size)
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self.head_dim = self.hidden_size // self.total_num_heads
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self.q_size = self.num_heads * self.head_dim
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self.kv_size = self.num_kv_heads * self.head_dim
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self.max_position_embeddings = config.max_position_embeddings
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self.rope_theta = config.rope_parameters["rope_theta"]
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# Attention input projection. Projects x -> (q, k, v)
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self.qkv_proj = QKVParallelLinear(
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self.hidden_size,
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self.head_dim,
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self.total_num_heads,
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total_num_kv_heads=self.total_num_kv_heads,
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bias=config.attention_bias,
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quant_config=quant_config,
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prefix=add_prefix("qkv_proj", prefix),
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)
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self.tp_rank = get_parallel().tp_rank
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self.alt_stream = alt_stream
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self.k_norm = RMSNorm(
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self.total_num_kv_heads * self.head_dim,
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eps=self.config.rms_norm_eps,
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)
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self.q_norm = RMSNorm(self.config.hidden_size, eps=self.config.rms_norm_eps)
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sliding_window = None
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if (
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layer_types := getattr(self.config, "layer_types", None)
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) is not None and layer_types[layer_id] == "sliding_attention":
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sliding_window = get_attention_sliding_window_size(self.config)
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# Rotary embeddings. Rope scaling is only applied on full attention
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# layers.
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self.rope_scaling = (
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self.config.rope_scaling
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if sliding_window is None
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else {"rope_type": "default"}
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)
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self.rotary_emb = get_rope(
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self.head_dim,
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rotary_dim=self.head_dim,
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max_position=self.max_position_embeddings,
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base=self.rope_theta,
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rope_scaling=self.rope_scaling,
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)
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self.scaling = self.head_dim**-0.5
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self.attn = RadixAttention(
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self.num_heads,
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self.head_dim,
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self.scaling,
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num_kv_heads=self.num_kv_heads,
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layer_id=layer_id,
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sliding_window_size=sliding_window,
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quant_config=quant_config,
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prefix=add_prefix("attn", prefix),
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)
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# Attention output projection.
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self.o_proj = RowParallelLinear(
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self.head_dim * self.total_num_heads,
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self.hidden_size,
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bias=config.attention_bias,
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quant_config=quant_config,
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prefix=add_prefix("o_proj", prefix),
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)
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def _apply_qk_norm(
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self, q: torch.Tensor, k: torch.Tensor
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) -> Tuple[torch.Tensor, torch.Tensor]:
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if self.tp_size > 1:
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q = tensor_model_parallel_all_gather(q.contiguous())
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k = tensor_model_parallel_all_gather(k.contiguous())
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if self.alt_stream is not None and get_is_capture_mode():
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current_stream = torch.cuda.current_stream()
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self.alt_stream.wait_stream(current_stream)
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q_shape = q.shape
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k_shape = k.shape
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q_by_last = q.reshape(-1, q_shape[-1])
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q_by_last = self.q_norm(q_by_last)
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with torch.cuda.stream(self.alt_stream):
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k_by_last = k.reshape(-1, k_shape[-1])
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k_by_last = self.k_norm(k_by_last)
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current_stream.wait_stream(self.alt_stream)
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q = q_by_last.view(q_shape)
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k = k_by_last.view(k_shape)
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else:
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q = self.q_norm.forward_native(q)
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k = self.k_norm.forward_native(k)
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if self.tp_size > 1:
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splitter = partial(split_tensor_along_last_dim, num_partitions=self.tp_size)
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q = splitter(q)[self.tp_rank]
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k = splitter(k)[self.tp_rank]
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return q, k
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def forward(
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self,
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positions: torch.Tensor,
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hidden_states: torch.Tensor,
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forward_batch: ForwardBatch,
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) -> torch.Tensor:
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qkv, _ = self.qkv_proj(hidden_states)
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q, k, v = qkv.split([self.q_size, self.kv_size, self.kv_size], dim=-1)
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q, k = self._apply_qk_norm(q, k)
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q, k = self.rotary_emb(positions, q, k)
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attn_output = self.attn(q, k, v, forward_batch)
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output, _ = self.o_proj(attn_output)
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return output
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class Olmo2MLP(nn.Module):
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"""
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This is the MLP block where the output is computed as
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MLP(x) in LN(MLP(x + LN(Attention(x))))
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(plus another skip connection).
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"""
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def __init__(
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self,
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config: PretrainedConfig,
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quant_config: Optional[QuantizationConfig] = None,
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prefix: str = "",
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):
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super().__init__()
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self.config = config
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self.hidden_size = config.hidden_size
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self.intermediate_size = config.intermediate_size
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# Feed-forward input projection.
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self.gate_up_proj = MergedColumnParallelLinear(
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self.hidden_size,
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[self.intermediate_size] * 2,
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bias=False,
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quant_config=quant_config,
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prefix=add_prefix("gate_up_proj", prefix),
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)
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# Activation function.
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self.act_fn = SiluAndMul()
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# Feed-forward output projection.
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self.down_proj = RowParallelLinear(
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self.intermediate_size,
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self.hidden_size,
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bias=False,
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quant_config=quant_config,
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prefix=add_prefix("down_proj", prefix),
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)
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def forward(
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self,
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x: torch.Tensor,
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) -> torch.Tensor:
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gate_up, _ = self.gate_up_proj(x)
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x = self.act_fn(gate_up)
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x, _ = self.down_proj(x)
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return x
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class Olmo2DecoderLayer(nn.Module):
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"""
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This is a typical transformer block where the output is
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computed as MLP(LN(x + Attention(LN(x))))
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(plus another skip connection).
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"""
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def __init__(
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self,
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config: PretrainedConfig,
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layer_id: int = 0,
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quant_config: Optional[QuantizationConfig] = None,
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prefix: str = "",
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alt_stream: Optional[torch.cuda.Stream] = None,
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):
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super().__init__()
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self.layer_id = layer_id
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self.alt_stream = alt_stream
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# Attention block.
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self.self_attn = Olmo2Attention(
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config,
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layer_id,
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quant_config,
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prefix=add_prefix("self_attn", prefix),
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alt_stream=alt_stream,
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)
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# MLP block.
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self.mlp = Olmo2MLP(config, quant_config, prefix=add_prefix("mlp", prefix))
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# RMSNorm
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self.post_attention_layernorm = RMSNorm(
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config.hidden_size, eps=config.rms_norm_eps
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)
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self.post_feedforward_layernorm = RMSNorm(
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config.hidden_size, eps=config.rms_norm_eps
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)
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def forward(
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self,
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positions: torch.Tensor,
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hidden_states: torch.Tensor,
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forward_batch: ForwardBatch,
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) -> torch.Tensor:
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# Attention block.
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residual = hidden_states
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hidden_states = self.self_attn(positions, hidden_states, forward_batch)
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hidden_states = self.post_attention_layernorm(hidden_states)
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hidden_states = hidden_states + residual
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# MLP block.
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residual = hidden_states
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hidden_states = self.mlp(hidden_states)
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hidden_states = self.post_feedforward_layernorm(hidden_states)
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hidden_states = residual + hidden_states
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return hidden_states
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class Olmo2Model(nn.Module):
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def __init__(
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self,
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config: PretrainedConfig,
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quant_config: Optional[QuantizationConfig] = None,
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prefix: str = "",
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alt_stream: Optional[torch.cuda.Stream] = None,
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):
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super().__init__()
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self.config = config
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if alt_stream is None and _is_cuda:
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alt_stream = get_stream("alt")
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self.alt_stream = alt_stream
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self.embed_tokens = VocabParallelEmbedding(
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config.vocab_size,
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config.hidden_size,
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prefix=add_prefix("embed_tokens", prefix),
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)
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self.layers = make_layers(
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config.num_hidden_layers,
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lambda idx, prefix: Olmo2DecoderLayer(
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config=config,
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layer_id=idx,
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quant_config=quant_config,
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prefix=prefix,
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alt_stream=self.alt_stream,
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),
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prefix=add_prefix("layers", prefix),
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)
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self.norm = RMSNorm(config.hidden_size, eps=config.rms_norm_eps)
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def forward(
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self,
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input_ids: torch.Tensor,
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positions: torch.Tensor,
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forward_batch: ForwardBatch,
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input_embeds: Optional[torch.Tensor] = None,
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) -> torch.Tensor:
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"""
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:param input_ids: A tensor of shape `(batch_size, seq_len)`.
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"""
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# Get embeddings of input.
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# shape: (batch_size, seq_len, d_model)
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if input_embeds is None:
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hidden_states = self.embed_tokens(input_ids)
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else:
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hidden_states = input_embeds
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# Apply blocks one-by-one.
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for layer_id, decoder_layer in enumerate(self.layers):
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# shape: (batch_size, seq_len, d_model)
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hidden_states = decoder_layer(
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positions,
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hidden_states,
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forward_batch,
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)
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# Apply final layer norm.
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# shape: (batch_size, seq_len or 1, d_model)
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hidden_states = self.norm(hidden_states)
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return hidden_states
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class Olmo2ForCausalLM(nn.Module):
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"""
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Extremely barebones HF model wrapper.
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"""
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def __init__(
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self,
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config: PretrainedConfig,
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quant_config: Optional[QuantizationConfig] = None,
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prefix: str = "",
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alt_stream: Optional[torch.cuda.Stream] = None,
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):
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super().__init__()
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self.config = config
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self.model = Olmo2Model(
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config,
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quant_config,
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prefix=add_prefix("model", prefix),
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alt_stream=alt_stream,
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)
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if config.tie_word_embeddings:
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self.lm_head = self.model.embed_tokens
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else:
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self.unpadded_vocab_size = config.vocab_size
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self.lm_head = ParallelLMHead(
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self.unpadded_vocab_size,
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config.hidden_size,
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org_num_embeddings=config.vocab_size,
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quant_config=quant_config,
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prefix=add_prefix("lm_head", prefix),
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)
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self.logits_processor = LogitsProcessor(config)
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def get_attention_sliding_window_size(self):
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return get_attention_sliding_window_size(self.config)
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@torch.no_grad()
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def forward(
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self,
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input_ids: torch.Tensor,
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positions: torch.Tensor,
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forward_batch: ForwardBatch,
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input_embeds: torch.Tensor = None,
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) -> torch.Tensor:
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hidden_states = self.model(
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input_ids=input_ids,
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positions=positions,
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forward_batch=forward_batch,
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input_embeds=input_embeds,
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)
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return self.logits_processor(
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input_ids, hidden_states, self.lm_head, forward_batch
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)
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def load_weights(self, weights: Iterable[Tuple[str, torch.Tensor]]):
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stacked_params_mapping = [
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# (param_name, shard_name, shard_id)
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("qkv_proj", "q_proj", "q"),
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("qkv_proj", "k_proj", "k"),
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("qkv_proj", "v_proj", "v"),
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("gate_up_proj", "gate_proj", 0),
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("gate_up_proj", "up_proj", 1),
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]
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params_dict = dict(self.named_parameters(remove_duplicate=False))
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for name, loaded_weight in weights:
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if "rotary_emb.inv_freq" in name:
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continue
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if "rotary_emb.cos_cached" in name or "rotary_emb.sin_cached" in name:
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# Models trained using ColossalAI may include these tensors in
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# the checkpoint. Skip them.
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continue
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# With tie_word_embeddings, we can skip lm_head.weight
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# The weight might appear unnecessarily in the files if the model is
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# processed with quantization, LoRA, fine-tuning, etc.
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if self.config.tie_word_embeddings and "lm_head.weight" in name:
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continue
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for param_name, weight_name, shard_id in stacked_params_mapping:
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if weight_name not in name:
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continue
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name = name.replace(weight_name, param_name)
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# Skip loading extra bias for GPTQ models.
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if name.endswith(".bias") and name not in params_dict:
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continue
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param = params_dict[name]
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weight_loader = param.weight_loader
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weight_loader(param, loaded_weight, shard_id)
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break
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else:
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# Skip loading extra bias for GPTQ models.
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if name.endswith(".bias") and name not in params_dict:
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continue
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param = params_dict[name]
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weight_loader = getattr(param, "weight_loader", default_weight_loader)
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weight_loader(param, loaded_weight)
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EntryClass = Olmo2ForCausalLM
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