import gradio as gr from transformers import AutoConfig # Required for Hugging Face integration from calc_params import calc_params # Import calc_params from the new file # ---- Helper Functions ---- # def convert_params(params): if params == 0: return "0" size_name = ("", "K", "M", "B", "T", "P", "E", "Z", "Y") i = int(math.floor(math.log(params, 1000))) p = math.pow(1000, i) s = round(params / p, 2) return "%s %s" % (s, size_name[i]) # Get Hugging Face model configuration and update the parameters def get_hf_model_args(hf_model_name_or_path): try: config = AutoConfig.from_pretrained(hf_model_name_or_path, trust_remote_code=True).to_dict() except Exception as e: return None, f"Error fetching Hugging Face model: {str(e)}" # Extract relevant values from the config num_layers = config.get("num_hidden_layers", None) hidden_size = config.get("hidden_size", None) num_attention_heads = config.get("num_attention_heads", None) vocab_size = config.get("vocab_size", None) sequence_length = config.get("max_position_embeddings", None) return { "num_layers": num_layers, "hidden_size": hidden_size, "num_attention_heads": num_attention_heads, "vocab_size": vocab_size, "sequence_length": sequence_length, }, None # ---- Memory Calculation ---- # def calc_mem(hf_model_name_or_path, num_gpus, tensor_parallel_size, pipeline_parallel_size, batch_size_per_gpu, sequence_length, vocab_size, hidden_size, num_attention_heads, num_layers, ffn_expansion_factor, is_mixed_precision, misc_mem_gib): model_params, hf_error = get_hf_model_args(hf_model_name_or_path) if hf_model_name_or_path else (None, None) if hf_error: return hf_error if model_params: num_layers = model_params["num_layers"] or num_layers hidden_size = model_params["hidden_size"] or hidden_size num_attention_heads = model_params["num_attention_heads"] or num_attention_heads vocab_size = model_params["vocab_size"] or vocab_size sequence_length = model_params["sequence_length"] or sequence_length dp_degree = num_gpus / (tensor_parallel_size * pipeline_parallel_size) embed_params = 2 * vocab_size * hidden_size positional_params = hidden_size * sequence_length ln_params = 8 * hidden_size * num_layers + (2 * hidden_size) attention_params = int(2 * (1 + ffn_expansion_factor) * num_layers * hidden_size * hidden_size) mlp_params = ffn_expansion_factor * num_layers * hidden_size * hidden_size total_params = embed_params + positional_params + ln_params + attention_params + mlp_params bytes_per_param = 2 if is_mixed_precision else 4 model_mem = total_params * bytes_per_param per_gpu_mem_gib = (model_mem / (tensor_parallel_size * pipeline_parallel_size)) / 1024**3 + misc_mem_gib return f"Per-GPU Memory Required for Training: {per_gpu_mem_gib:.2f} GiB" # ---- Update Gradio inputs with Hugging Face model config ---- # def update_from_hf_model(hf_model_name_or_path): model_params, hf_error = get_hf_model_args(hf_model_name_or_path) if hf_error: return gr.update(), gr.update(), gr.update(), gr.update(), gr.update(), hf_error return (gr.update(value=model_params["num_layers"]), gr.update(value=model_params["hidden_size"]), gr.update(value=model_params["num_attention_heads"]), gr.update(value=model_params["vocab_size"]), gr.update(value=model_params["sequence_length"]), "") # ---- Gradio Interface ---- # with gr.Blocks() as demo: with gr.Tabs(): # Memory Calculation Tab with gr.TabItem("Memory Calculation"): hf_model_name_or_path = gr.Textbox(label="HuggingFace Model Name or Path (optional)", value="") num_gpus = gr.Number(label="Number of GPUs", value=1) tensor_parallel_size = gr.Number(label="Tensor Parallel Size", value=1) pipeline_parallel_size = gr.Number(label="Pipeline Parallel Size", value=1) batch_size_per_gpu = gr.Number(label="Batch Size per GPU", value=8) sequence_length = gr.Number(label="Sequence Length", value=2048) vocab_size = gr.Number(label="Vocab Size", value=51200) hidden_size = gr.Number(label="Hidden Size", value=6144) num_attention_heads = gr.Number(label="Number of Attention Heads", value=64) num_layers = gr.Number(label="Number of Layers", value=44) ffn_expansion_factor = gr.Number(label="FFN Expansion Factor", value=4) is_mixed_precision = gr.Checkbox(label="Mixed Precision", value=True) misc_mem_gib = gr.Number(label="Misc Memory Overhead (GiB)", value=5) memory_result = gr.Textbox(label="Memory Calculation Result", interactive=False) calc_memory_button = gr.Button("Calculate Memory") calc_memory_button.click(calc_mem, inputs=[hf_model_name_or_path, num_gpus, tensor_parallel_size, pipeline_parallel_size, batch_size_per_gpu, sequence_length, vocab_size, hidden_size, num_attention_heads, num_layers, ffn_expansion_factor, is_mixed_precision, misc_mem_gib], outputs=memory_result) hf_model_name_or_path.change(fn=update_from_hf_model, inputs=[hf_model_name_or_path], outputs=[num_layers, hidden_size, num_attention_heads, vocab_size, sequence_length, memory_result]) # Parameter Calculation Tab with gr.TabItem("Parameter Calculation"): vocab_size = gr.Number(label="Vocab Size", value=51200) tied_embeddings = gr.Checkbox(label="Tied Embeddings", value=False) hidden_size = gr.Number(label="Hidden Size", value=6144) sequence_length = gr.Number(label="Sequence Length", value=2048) num_layers = gr.Number(label="Number of Layers", value=44) ffn_expansion_factor = gr.Number(label="FFN Expansion Factor", value=4) num_mlp_linears = gr.Number(label="Number of Linear Layers per MLP Block", value=2) kv_size_ratio = gr.Number(label="KV Size Ratio", value=1.0) with gr.Accordion("MoE Parameters", open=False): moe = gr.Checkbox(label="MoE", value=False) num_experts = gr.Number(label="Number of Experts", value=8) expert_interval = gr.Number(label="Expert Interval", value=1) topk = gr.Number(label="Top k Routing", value=1) param_result = gr.Textbox(label="Parameter Calculation Result", interactive=False) calc_param_button = gr.Button("Calculate Parameters") calc_param_button.click(calc_params, inputs=[vocab_size, tied_embeddings, hidden_size, sequence_length, num_layers, moe, num_experts, expert_interval, topk, ffn_expansion_factor, num_mlp_linears, kv_size_ratio], outputs=param_result) demo.launch()