run-tiny-merge.py

#!/usr/bin/env python3

"""
Code here was refactored from gist:
https://gist.github.com/maldevide/08829eada04ad9bd78e46c1a3787d42b

CodeLlama example:
https://huggingface.co/collections/mlabonne/codellama-6509bc68c2d4c8fc379ee87f

Hugging Face Fine-Tuning example:
https://colab.research.google.com/drive/1PEQyJO1-f6j0S_XJ8DV50NkpzasXkrzd?usp=sharing

2024-02-07 - unable to get unsloth to install.
If you want to fine-tune, here's an example Unsloth fine tuning guide for:
Alpaca + TinyLlama + RoPE Scaling full example.ipynb
https://colab.research.google.com/drive/1AZghoNBQaMDgWJpi4RbffGM1h6raLUj9?usp=sharing

"""

import os
import transformers
import torch
import logging
from ddare.merge import merge_tensors
from ddare.tensor import (
    dare_ties_sparsification,
    relative_norm,
    divide_tensor_into_sets,
)
from ddare.util import get_device
import re
from typing import Dict, Tuple, List


logging.basicConfig(level=logging.INFO)
log = logging.getLogger(__name__)


def get_models(
    models: List[str],
    trust_remote_code: bool,
):
    """
    get the models

    :param models: model names to download
    :param trust_remote_code: are you sure??? True/False
    """
    config = {
        "torch_dtype": torch.float16,
        "low_cpu_mem_usage": False,
        "trust_remote_code": trust_remote_code,
    }
    loaded_models = []
    num_models = len(models)
    for midx, model_path in enumerate(models):
        log.info(
            f"loading model={midx + 1}/{num_models} "
            f"model={model_path} "
        )
        loaded_models.append(
            transformers.AutoModelForCausalLM.from_pretrained(
                model_path, **config
            )
        )
    return loaded_models


def pm(
    model,
):
    """
    pretty print model

    :param model: show me the model
    """
    keys = model.state_dict().keys()
    log.info(f"model keys={len(keys)}")
    for i, k in enumerate(keys):
        tensor = model.state_dict()[k]
        log.info(
            f"{i:3d} {k} shape={tensor.shape} "
            f"type={tensor.dtype} dev={tensor.device} "
            f"contig={tensor.is_contiguous()}"
        )


def run_text_test(
    model,
    tokenizer_path: str,
    question: str,
    device: str = "cuda",
):
    """
    run a question on the model and return the answer

    :param model: initialized model
    :param tokenizer_path: tokenizer path/name
    :param question: what are you asking?
    :param device: where do you want to run "cpu"/"gpu"?
    """
    base_model = model.to(device)
    log.info(f"loading tokenizer={tokenizer_path}")
    tokenizer = transformers.AutoTokenizer.from_pretrained(
        tokenizer_path,
        torch_dtype=torch.float16,
    )

    inputs = tokenizer(question, return_tensors="pt").to(
        device
    )
    with torch.backends.cuda.sdp_kernel(
        enable_flash=True,
        enable_math=False,
        enable_mem_efficient=True,
    ):
        outputs = base_model.generate(
            **inputs,
            max_new_tokens=256,
        )
    answer = tokenizer.decode(
        outputs[0], skip_special_tokens=True
    )
    log.info(
        "\n"
        "----------"
        "\n"
        f"tokenizer={tokenizer}\n "
        f"question:\n{question}\n"
        f"answer:\n{answer}\n"
        "----------"
    )
    base_model = base_model.to(device)
    return tokenizer


def get_layer_type(key: str) -> Tuple[int, str]:
    """
    get the layer type

    :param key: name of the layer
    :return: layer id and name
    """
    matcher = re.compile(r"model.layers.(\d+).(.+)")
    m = matcher.match(key)
    if m is None:
        if "model.norm.weight" == key:
            return -1, "norm"
        if "model.embed_tokens.weight" == key:
            return -1, "embed"
        if "lm_head.weight" == key:
            return -1, "head"
        log.info(f"Unknown key {key}")
        return -1, "unknown"
    return int(m.group(1)), m.group(2)


def merge_model_with_ties(
    models: List[str],
    model_dst: str,
    trust_remote_code: bool = True,
):
    """
    merge the list of models into one model
    called model_dst

    :param models: list of models to merge
    :param model_dst: name of the new model
    :param trust_remote_code: are you sure? True/False
    """
    models = get_models(
        models=models,
        trust_remote_code=trust_remote_code,
    )
    config = {}
    result_dict: Dict[str, torch.Tensor] = {}
    device = get_device()
    keys = models[0].state_dict().keys()
    num_keys = len(keys)
    for k in keys:
        block, layer_type = get_layer_type(k)
        m0: torch.Tensor = models[0].state_dict()[k]
        result = m0.clone()
        sets = divide_tensor_into_sets(tensor=m0, n_sets=4)

        # get the src layers to merge
        m = [
            models[1].state_dict()[k],
            models[2].state_dict()[k],
            models[3].state_dict()[k],
            models[4].state_dict()[k],
        ]

        # build a ratio
        ratio = {
            "to_q": 0.0,
            "to_k": 0.0,
            "to_v": 0.0,
        }.get(layer_type, 0.5)

        norm_ratio = 0.68
        log.info(
            f"model={k} {num_keys} shape={m0.shape} "
            f"dtype={m0.dtype} {m0.device} "
            f"ratio={ratio} "
            f"contig={m0.is_contiguous()} "
            f"norm={norm_ratio}"
        )

        # for all tensors
        for i, tensor in enumerate(m):
            if layer_type == "to_k":
                # Get to_q key
                q_base = models[0].state_dict()[
                    k.replace("to_k", "to_q")
                ]
                q_merge = models[i].state_dict()[
                    k.replace("to_k", "to_q")
                ]
                scale = relative_norm(q_merge, q_base)
                tensor = tensor.to(device) / scale
                del scale
            elif layer_type == "to_q":
                scale = relative_norm(tensor, m0)
                tensor = tensor.to(device) * scale
                del scale
            slice_mask = (sets == i).bool()
            new_tensor = dare_ties_sparsification(
                model_a_param=m0,
                model_b_param=tensor,
                drop_rate=norm_ratio,
                ties="sum",
                rescale="off",
                device=device,
                **config,
            )
            new_tensor = merge_tensors(
                "slerp", m0, tensor, ratio
            )
            result = torch.where(
                slice_mask, new_tensor, result
            )
            del new_tensor, slice_mask

        result_dict[k] = result
    # end of merge

    log.info(f"done merge saving to file: {model_dst}")
    out_model = (
        transformers.AutoModelForCausalLM.from_pretrained(
            model_dst, **config
        )
    )
    out_model.state_dict = lambda: result_dict
    out_model.save_pretrained(model_dst)


def run():
    """
    run the merge and upload the model and tokenizer

    This requires having the Hugging Face token
    set before it will work:
    ```huggingface-cli login```
    """
    question = "why is the sky blue?"
    log.info(
        f"merging models and asking the question: {question}"
    )
    model_src = "TinyLlama/TinyLlama-1.1B-intermediate-step-1431k-3T"
    model_dst = "matlok/tinyllama-cinder-openhermes-32k"
    device = "cuda"
    config = {
        "torch_dtype": torch.float16,
        "low_cpu_mem_usage": False,
        "trust_remote_code": True,
    }
    models = [
        model_src,
        "Doctor-Shotgun/TinyLlama-1.1B-32k-Instruct",
        "Doctor-Shotgun/TinyLlama-1.1B-32k",
        "Tensoic/TinyLlama-1.1B-3T-openhermes",
        "Josephgflowers/TinyLlama-3T-Cinder-v1.3",
    ]
    merge_model_with_ties(
        models=models, model_dst=model_dst
    )
    log.info(f"loading newly-created file: {model_dst}")
    model = (
        transformers.AutoModelForCausalLM.from_pretrained(
            model_dst, **config
        )
    )
    log.info(
        f"loaded new model file: {model_dst} "
        f"asking question: {question} "
    )
    run_text_test(
        model=model,
        tokenizer_path=model_src,
        question=question,
        device=device,
    )

    # clean the temp merge dir
    # remove model dir to prevent issues with the tokenizer upload
    model_org = model_dst.split("/")[0]
    if os.path.exists(model_org):
        os.system(f"rm -rf ./{model_org}")

    log.info(f"uploading model: {model_dst}")
    model.push_to_hub(model_dst)

    log.info(f"uploading src tokenizer: {model_src}")
    # reload tokenizer to save it and found on:
    # https://colab.research.google.com/drive/1PEQyJO1-f6j0S_XJ8DV50NkpzasXkrzd?usp=sharing#scrollTo=QQn30cRtAZ-P
    tokenizer = transformers.AutoTokenizer.from_pretrained(
        model_src, trust_remote_code=True
    )
    # https://huggingface.co/docs/transformers/model_sharing#use-the-pushtohub-function
    # tokenizer.push_to_hub("my-awesome-model")
    tokenizer.push_to_hub(model_dst)
    log.info(
        f"done loading new model: {model} "
        f"file: {model_dst}"
    )


if __name__ == "__main__":
    run()