import glob import re import shutil import sys import accelerate import torch from configuration_qwen3_shared_moe import Qwen3SharedMoeConfig from modeling_qwen3_shared_moe import Qwen3SharedMoeForCausalLM from safetensors import safe_open from transformers.models.qwen3_moe.configuration_qwen3_moe import Qwen3MoeConfig input_model = sys.argv[1] output_model_path = sys.argv[2] cfg_standard_moe = Qwen3MoeConfig.from_pretrained(input_model) cfg_shared_moe = Qwen3SharedMoeConfig( vocab_size=cfg_standard_moe.vocab_size, hidden_size=cfg_standard_moe.hidden_size, intermediate_size=cfg_standard_moe.intermediate_size, num_hidden_layers=cfg_standard_moe.num_hidden_layers, num_attention_heads=cfg_standard_moe.num_attention_heads, num_key_value_heads=cfg_standard_moe.num_key_value_heads, hidden_act=cfg_standard_moe.hidden_act, max_position_embeddings=cfg_standard_moe.max_position_embeddings, initializer_range=cfg_standard_moe.initializer_range, rms_norm_eps=cfg_standard_moe.rms_norm_eps, use_cache=cfg_standard_moe.use_cache, tie_word_embeddings=cfg_standard_moe.tie_word_embeddings, rope_theta=cfg_standard_moe.rope_theta, rope_scaling=cfg_standard_moe.rope_scaling, attention_bias=cfg_standard_moe.attention_bias, use_sliding_window=cfg_standard_moe.use_sliding_window, sliding_window=cfg_standard_moe.sliding_window, max_window_layers=cfg_standard_moe.max_window_layers, attention_dropout=cfg_standard_moe.attention_dropout, decoder_sparse_step=cfg_standard_moe.decoder_sparse_step, moe_intermediate_size=cfg_standard_moe.moe_intermediate_size, num_experts_per_tok=cfg_standard_moe.num_experts_per_tok, num_experts=cfg_standard_moe.num_experts, norm_topk_prob=cfg_standard_moe.norm_topk_prob, output_router_logits=cfg_standard_moe.output_router_logits, router_aux_loss_coef=cfg_standard_moe.router_aux_loss_coef, shared_expert_intermediate_size=None, mlp_only_layers=cfg_standard_moe.mlp_only_layers, head_dim=cfg_standard_moe.head_dim, ) num_experts = cfg_standard_moe.num_experts with accelerate.init_empty_weights(): model_shared_moe = Qwen3SharedMoeForCausalLM(cfg_shared_moe) model_shared_moe = model_shared_moe.to(torch.bfloat16) new_state_dict = {} pattern = f"{input_model}/model-*-of-*.safetensors" files = sorted(glob.glob(pattern)) if len(files) == 0: raise FileNotFoundError tensors = {} for file_path in files: print(f"processing {file_path}") with safe_open(file_path, framework="pt", device="cpu") as f: for key in f.keys(): tensor = f.get_tensor(key) tensors[key] = tensor for key in tensors: if "experts" not in key: new_state_dict[key] = tensors[key] elif "experts.0" in key: layer_num = int(re.search(r"\d+", key).group()) new_state_dict[ f"model.layers.{layer_num}.mlp.moe_mlp.output_experts.weight" ] = torch.stack( [ tensors[f"model.layers.{layer_num}.mlp.experts.{i}.down_proj.weight"] for i in range(num_experts) ] ) new_state_dict[f"model.layers.{layer_num}.mlp.moe_mlp.experts.weight"] = ( torch.stack( [ torch.cat( [ tensors[ f"model.layers.{layer_num}.mlp.experts.{i}.up_proj.weight" ], tensors[ f"model.layers.{layer_num}.mlp.experts.{i}.gate_proj.weight" ], ], dim=0, ) for i in range(num_experts) ] ) ) model_shared_moe.load_state_dict(new_state_dict, strict=True, assign=True) model_shared_moe.save_pretrained(output_model_path) cfg_shared_moe.save_pretrained(output_model_path) shutil.copy( "modeling_qwen3_shared_moe.py", output_model_path + "/" + "modeling_qwen3_shared_moe.py", ) shutil.copy( "configuration_qwen3_shared_moe.py", output_model_path + "/" + "configuration_qwen3_shared_moe.py", ) for i in ["merges.txt", "tokenizer_config.json", "tokenizer.json", "vocab.json"]: shutil.copy(input_model + "/" + i, output_model_path + "/" + i)