# Output path for training runs. Each training run makes a new directory in here.
output_dir = '/disk1/zhonghaofeng.zhf/exps/HunyuanVideo'

# Dataset config file.
dataset = 'examples/dataset.toml'
# You can have separate eval datasets. Give them a name for Tensorboard metrics.
# eval_datasets = [
#     {name = 'something', config = 'path/to/eval_dataset.toml'},
# ]

# training settings

# I usually set this to a really high value because I don't know how long I want to train.
epochs = 1000
# Batch size of a single forward/backward pass for one GPU.
micro_batch_size_per_gpu = 1
# Pipeline parallelism degree. A single instance of the model is divided across this many GPUs.
pipeline_stages = 1
# Number of micro-batches sent through the pipeline for each training step.
# If pipeline_stages > 1, a higher GAS means better GPU utilization due to smaller pipeline bubbles (where GPUs aren't overlapping computation).
gradient_accumulation_steps = 4
# Grad norm clipping.
gradient_clipping = 1.0
# Learning rate warmup.
warmup_steps = 100

# eval settings

eval_every_n_epochs = 1
eval_before_first_step = true
# Might want to set these lower for eval so that less images get dropped (eval dataset size is usually much smaller than training set).
# Each size bucket of images/videos is rounded down to the nearest multiple of the global batch size, so higher global batch size means
# more dropped images. Usually doesn't matter for training but the eval set is much smaller so it can matter.
eval_micro_batch_size_per_gpu = 1
eval_gradient_accumulation_steps = 1

# misc settings

# Probably want to set this a bit higher if you have a smaller dataset so you don't end up with a million saved models.
save_every_n_epochs = 2
# Can checkpoint the training state every n number of epochs or minutes. Set only one of these. You can resume from checkpoints using the --resume_from_checkpoint flag.
#checkpoint_every_n_epochs = 1
checkpoint_every_n_minutes = 120
# Always set to true unless you have a huge amount of VRAM.
activation_checkpointing = true
# Controls how Deepspeed decides how to divide layers across GPUs. Probably don't change this.
partition_method = 'parameters'
# dtype for saving the LoRA or model, if different from training dtype
# save_dtype = 'bfloat16'
save_dtype = 'float32'
# Batch size for caching latents and text embeddings. Increasing can lead to higher GPU utilization during caching phase but uses more memory.
caching_batch_size = 1
# How often deepspeed logs to console.
steps_per_print = 1
# How to extract video clips for training from a single input video file.
# The video file is first assigned to one of the configured frame buckets, but then we must extract one or more clips of exactly the right
# number of frames for that bucket.
# single_beginning: one clip starting at the beginning of the video
# single_middle: one clip from the middle of the video (cutting off the start and end equally)
# multiple_overlapping: extract the minimum number of clips to cover the full range of the video. They might overlap some.
# default is single_middle
video_clip_mode = 'single_middle'

[model]
# flux, ltx-video, or hunyuan-video
type = 'hunyuan-video'
# Can load Hunyuan Video entirely from the ckpt path set up for the official inference scripts.
ckpt_path = '/disk1/zhonghaofeng.zhf/models/tencent/HunyuanVideo'
# Or you can load it by pointing to all the ComfyUI files.
# transformer_path = '/data2/imagegen_models/hunyuan_video_comfyui/hunyuan_video_720_cfgdistill_fp8_e4m3fn.safetensors'
# vae_path = '/data2/imagegen_models/hunyuan_video_comfyui/hunyuan_video_vae_bf16.safetensors'
# llm_path = '/data2/imagegen_models/hunyuan_video_comfyui/llava-llama-3-8b-text-encoder-tokenizer'
# clip_path = '/data2/imagegen_models/hunyuan_video_comfyui/clip-vit-large-patch14'
# Base dtype used for all models.
# dtype = 'bfloat16'
dtype = 'float32'
# Hunyuan Video supports fp8 for the transformer when training LoRA.
transformer_dtype = 'float8'
# How to sample timesteps to train on. Can be logit_normal or uniform.
timestep_sample_method = 'logit_normal'

# flux example
# [model]
# type = 'flux'
# # Path to Huggingface Diffusers directory for Flux
# diffusers_path = '/data2/imagegen_models/FLUX.1-dev'
# # You can override the transformer from a BFL format checkpoint.
# transformer_path = '/data2/imagegen_models/flux-dev-single-files/consolidated_s6700-schnell.safetensors'
# dtype = 'bfloat16'
# flux_shift = true

# LTV-Video example
# [model]
# type = 'ltx-video'
# diffusers_path = '/data2/imagegen_models/LTX-Video'
# dtype = 'bfloat16'
# timestep_sample_method = 'logit_normal'

[adapter]
type = 'lora'
rank = 32
# Dtype for the LoRA weights you are training.
# dtype = 'bfloat16'
dtype = 'float32'
# You can initialize the lora weights from a previously trained lora.
#init_from_existing = '/data/diffusion_pipe_training_runs/something/epoch50'

[optimizer]
# AdamW from the optimi library is a good default since it automatically uses Kahan summation when training bfloat16 weights.
# Look at train.py for other options. You could also easily edit the file and add your own.
type = 'adamw_optimi'
lr = 2e-5
betas = [0.9, 0.99]
weight_decay = 0.01
eps = 1e-8