2023-08-02 21:53:35 +00:00
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import argparse
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import torch
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2024-06-04 03:34:47 +00:00
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import torch.nn
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2023-08-02 21:53:35 +00:00
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from .data import get_phone_symmap
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2023-10-09 20:24:04 +00:00
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from .engines import load_engines
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2023-08-14 03:56:28 +00:00
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from .config import cfg
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2024-06-17 18:55:37 +00:00
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from .models.lora import lora_get_state_dict
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2024-08-04 04:15:20 +00:00
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from .utils.io import torch_save, torch_load
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2023-08-02 21:53:35 +00:00
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2024-08-05 01:25:06 +00:00
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# stitches embeddings into one embedding & classifier => lm_head, for use in a HF compatible weight
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2024-06-17 18:55:37 +00:00
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def convert_to_hf( state_dict, config = None, save_path = None ):
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n_tokens = 256 + (1024 * 8) + (1024 * 8) + 1
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token_dim = 1024
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embedding = torch.nn.Embedding(n_tokens, token_dim)
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embedding.weight.requires_grad = False
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def move_value(k):
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v = state_dict['module'][k]
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del state_dict['module'][k]
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return v
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separator = move_value('sep')
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out_proj = move_value('classifier.weight')
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text_emb = move_value('text_emb.weight')
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langs_emb = move_value('langs_emb.weight')
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tasks_emb = move_value('tasks_emb.weight')
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tones_emb = move_value('tones_emb.weight')
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proms_emb_weight = [ move_value(f'proms_emb.weight.{i}').item() for i in range(8) ] if "proms_emb.weight.0" in state_dict['module'] else [ [ 1 for _ in range(8) ] ]
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resps_emb_weight = [ move_value(f'resps_emb.weight.{i}').item() for i in range(8) ] if "resps_emb.weight.0" in state_dict['module'] else [ [ 1 for _ in range(8) ] ]
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proms_emb = [ move_value(f'proms_emb.embeddings.{i}.weight') for i in range(8) ]
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resps_emb = [ move_value(f'resps_emb.embeddings.{i}.weight') for i in range(8) ]
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start = 0
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for i in range(256):
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embedding.weight[start + i] = text_emb[i]
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start = 256
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for layer in range(8):
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for i in range(1024):
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offset = start + 1024 * layer
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embedding.weight[i + offset] = proms_emb[layer][i] * proms_emb_weight[layer]
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start = 256 + 1024 * 8
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for layer in range(8):
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for i in range(1024):
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offset = start + 1024 * layer
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embedding.weight[i + offset] = resps_emb[layer][i] * proms_emb_weight[layer]
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state_dict['module']['model.embed_tokens.weight'] = embedding.state_dict()
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# to-do: properly recreate the output head weights or something
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state_dict['module']['lm_head.weight'] = out_proj
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del state_dict['module']['classifier.weight']
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del state_dict['module']['classifier.bias']
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2024-06-17 18:55:37 +00:00
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return state_dict
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2024-08-05 01:25:06 +00:00
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# yanks a LoRA from the training checkpoint
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def extract_lora( state_dict, config = None, save_path = None, dtype = None ):
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if dtype is None:
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dtype = cfg.inference.dtype
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2024-08-04 04:15:20 +00:00
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format = save_path.stem[1:]
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2024-06-17 18:55:37 +00:00
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lora = state_dict["lora"] if "lora" in state_dict else None
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# should always be included, but just in case
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if lora is None and "module" in state_dict:
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lora, module = lora_get_state_dict( state_dict["module"], split = True )
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state_dict["module"] = module
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if "lora" in state_dict:
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state_dict["lora"] = None
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# should raise an exception since there's nothing to extract, or at least a warning
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if not lora:
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return state_dict
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# save lora specifically
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# should probably export other attributes, similar to what SD LoRAs do
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save_path = save_path.parent / f"lora.{format}"
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torch_save( {
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"module": lora,
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"config": cfg.lora.__dict__ if cfg.lora is not None else None,
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}, save_path )
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return state_dict
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2024-08-05 01:25:06 +00:00
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# copies a single classifier head into multiple classifier heads per RVQ level
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def split_classifier_heads( state_dict, config = cfg.model, save_path = None, dtype = None):
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levels = config.max_levels
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if "classifier.weight" not in state_dict['module']:
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return state_dict
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# copy to new AudioClassifier
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for i in range(levels):
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tokens = 1025 if i == 0 else 1024
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# trim per RVQ level (since level 0 has a stop token)
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state_dict['module'][f'classifiers.proj.{i}.weight'] = state_dict['module']['classifier.weight'][:tokens, :].clone()
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state_dict['module'][f'classifiers.proj.{i}.bias'] = state_dict['module']['classifier.bias'][:tokens].clone()
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2024-07-20 01:49:40 +00:00
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# delete old weights
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del state_dict['module']['classifier.weight']
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del state_dict['module']['classifier.bias']
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return state_dict
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2024-08-05 01:25:06 +00:00
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# converts a normal LLaMA model to a MoE model, as best as I can
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def moe_ify( state_dict, config = cfg.model, save_path = None, dtype = None ):
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# to-do: find a good way to pass in requested experts
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experts = 8
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for layer in range( config.layers ):
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#state_dict[f'model.layers.{layer}.block_sparse_moe.gate.weight'] = torch.randn((config.dim, experts))
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for expert in range( experts ):
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state_dict['module'][f'model.layers.{layer}.block_sparse_moe.experts.{expert}.w1.weight'] = state_dict['module'][f'model.layers.{layer}.mlp.up_proj.weight'].clone()
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state_dict['module'][f'model.layers.{layer}.block_sparse_moe.experts.{expert}.w2.weight'] = state_dict['module'][f'model.layers.{layer}.mlp.down_proj.weight'].clone()
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state_dict['module'][f'model.layers.{layer}.block_sparse_moe.experts.{expert}.w3.weight'] = state_dict['module'][f'model.layers.{layer}.mlp.gate_proj.weight'].clone()
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del state_dict['module'][f'model.layers.{layer}.mlp.up_proj.weight']
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del state_dict['module'][f'model.layers.{layer}.mlp.down_proj.weight']
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del state_dict['module'][f'model.layers.{layer}.mlp.gate_proj.weight']
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return state_dict
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2023-08-02 21:53:35 +00:00
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def main():
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parser = argparse.ArgumentParser("Save trained model to path.")
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parser.add_argument("--module-only", action='store_true')
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parser.add_argument("--hf", action='store_true', default=None) # convert to HF-style
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parser.add_argument("--lora", action='store_true', default=None) # exports LoRA
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parser.add_argument("--split-classifiers", action='store_true', default=None) # splits classifier heads
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parser.add_argument("--moe-ify", action='store_true', default=None) # splits classifier heads
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parser.add_argument("--experts", type=int, default=8) # set target dtype to export to
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parser.add_argument("--dtype", type=str, default="auto") # set target dtype to export to
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parser.add_argument("--format", type=str, default="pth") # set target format to export weights under
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args, unknown = parser.parse_known_args()
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if args.format.lower() not in ["sft", "safetensors", "pt", "pth"]:
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raise Exception(f"Unknown requested format: {args.format}")
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2023-08-20 18:42:18 +00:00
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if args.module_only:
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cfg.trainer.load_module_only = True
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if args.hf and args.lora:
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raise Exception("Requesting more than one callback")
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if args.dtype != "auto":
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cfg.trainer.weight_dtype = args.dtype
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2024-07-23 01:57:01 +00:00
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# necessary to ensure we are actually exporting the weights right
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cfg.inference.backend = cfg.trainer.backend
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engines = load_engines(training=False) # to ignore loading optimizer state
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callback = None
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if args.hf:
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callback = convert_to_hf
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elif args.lora:
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callback = extract_lora
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elif args.split_classifiers:
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callback = split_classifier_heads
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elif args.moe_ify:
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callback = moe_ify
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# set it here after the model loads to not influence which model loads
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cfg.model.experts = args.experts
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for name, engine in engines.items():
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engine.module.config.experts = args.experts
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engine.hyper_config.experts = args.experts
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engines.export(userdata={"symmap": get_phone_symmap()}, callback=callback, format=args.format)
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if __name__ == "__main__":
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main()
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