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208 lines
6.6 KiB
Python
208 lines
6.6 KiB
Python
#!/usr/bin/env python3
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"""
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KV Cache Size Calculator for SGLang
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This script calculates the KV cache size in GB for a given model and number of tokens.
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It follows the same logic as in sglang/srt/model_executor/model_runner.py
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"""
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import os
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import sys
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import torch
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from transformers import AutoConfig
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# Add sglang to path
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sys.path.insert(0, os.path.join(os.path.dirname(__file__), "python"))
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from sglang.srt.configs.model_config import ModelConfig, is_deepseek_nsa, get_nsa_index_head_dim
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from sglang.srt.mem_cache.memory_pool import NSATokenToKVPool
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def get_dtype_bytes(dtype_str: str) -> int:
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"""Get the number of bytes for a given dtype string."""
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dtype_map = {
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"float32": 4,
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"float16": 2,
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"bfloat16": 2,
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"float8_e4m3fn": 1,
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"float8_e5m2": 1,
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"auto": 2, # Usually defaults to bfloat16
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}
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return dtype_map.get(dtype_str, 2)
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def get_kv_size_gb(
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model_path: str,
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max_total_tokens: int,
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tp: int = 1,
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dtype: str = "auto",
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verbose: bool = True,
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) -> dict:
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"""
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Calculate the KV cache size in GB for a given model and number of tokens.
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Args:
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model_path: Path to the model
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max_total_tokens: Maximum number of tokens to cache
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tp: Tensor parallelism size
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dtype: Data type for KV cache (auto, float16, bfloat16, float8_e4m3fn, etc.)
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verbose: Whether to print detailed information
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Returns:
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dict: Dictionary containing calculation details
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"""
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# Load model config
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model_config = ModelConfig(model_path, dtype=dtype)
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hf_config = model_config.hf_config
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# Determine dtype bytes
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dtype_bytes = get_dtype_bytes(dtype)
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if dtype == "auto":
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# Auto dtype usually becomes bfloat16
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dtype_bytes = 2
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# Number of layers
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num_layers = model_config.num_attention_layers
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# Check if it's MLA (Multi-head Latent Attention) model
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is_mla = hasattr(model_config, "attention_arch") and model_config.attention_arch.name == "MLA"
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result = {
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"model_path": model_path,
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"max_total_tokens": max_total_tokens,
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"tp": tp,
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"dtype": dtype,
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"dtype_bytes": dtype_bytes,
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"num_layers": num_layers,
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"is_mla": is_mla,
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}
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if is_mla:
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# MLA models (DeepSeek-V2/V3, MiniCPM3, etc.)
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kv_lora_rank = model_config.kv_lora_rank
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qk_rope_head_dim = model_config.qk_rope_head_dim
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# Calculate cell size (per token)
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cell_size = (kv_lora_rank + qk_rope_head_dim) * num_layers * dtype_bytes
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result.update(
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{
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"kv_lora_rank": kv_lora_rank,
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"qk_rope_head_dim": qk_rope_head_dim,
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"cell_size_bytes": cell_size,
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}
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)
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# Check if it's NSA (Native Sparse Attention) model
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if is_deepseek_nsa(hf_config):
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index_head_dim = get_nsa_index_head_dim(hf_config)
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indexer_size_per_token = index_head_dim + index_head_dim // NSATokenToKVPool.quant_block_size * 4
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indexer_dtype_bytes = torch._utils._element_size(NSATokenToKVPool.index_k_with_scale_buffer_dtype)
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indexer_cell_size = indexer_size_per_token * num_layers * indexer_dtype_bytes
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cell_size += indexer_cell_size
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result.update(
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{
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"is_nsa": True,
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"index_head_dim": index_head_dim,
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"indexer_cell_size_bytes": indexer_cell_size,
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"total_cell_size_bytes": cell_size,
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}
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)
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else:
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result["is_nsa"] = False
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else:
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# Standard MHA models
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num_kv_heads = model_config.get_num_kv_heads(tp)
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head_dim = model_config.head_dim
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v_head_dim = model_config.v_head_dim
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# Calculate cell size (per token)
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cell_size = num_kv_heads * (head_dim + v_head_dim) * num_layers * dtype_bytes
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result.update(
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{
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"num_kv_heads": num_kv_heads,
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"head_dim": head_dim,
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"v_head_dim": v_head_dim,
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"cell_size_bytes": cell_size,
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}
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)
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# Calculate total KV cache size
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total_size_bytes = max_total_tokens * cell_size
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total_size_gb = total_size_bytes / (1024**3)
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# For MHA models with separate K and V buffers
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if not is_mla:
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k_size_bytes = max_total_tokens * num_kv_heads * head_dim * num_layers * dtype_bytes
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v_size_bytes = max_total_tokens * num_kv_heads * v_head_dim * num_layers * dtype_bytes
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k_size_gb = k_size_bytes / (1024**3)
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v_size_gb = v_size_bytes / (1024**3)
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result.update(
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{
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"k_size_gb": k_size_gb,
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"v_size_gb": v_size_gb,
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}
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)
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result.update(
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{
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"total_size_bytes": total_size_bytes,
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"total_size_gb": total_size_gb,
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}
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)
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if verbose:
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print(f"Model: {model_path}")
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print(f"Tokens: {max_total_tokens}, TP: {tp}, Dtype: {dtype}")
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print(f"Architecture: {'MLA' if is_mla else 'MHA'}")
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print(f"Layers: {num_layers}")
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if is_mla:
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print(f"KV LoRA Rank: {kv_lora_rank}, QK RoPE Head Dim: {qk_rope_head_dim}")
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if result.get("is_nsa"):
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print(f"NSA Index Head Dim: {index_head_dim}")
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print(
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f"Cell size: {cell_size} bytes (Main: {result['cell_size_bytes']}, Indexer: {result['indexer_cell_size_bytes']})"
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)
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else:
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print(f"Cell size: {cell_size} bytes")
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else:
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print(f"KV Heads: {num_kv_heads}, Head Dim: {head_dim}, V Head Dim: {v_head_dim}")
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print(f"Cell size: {cell_size} bytes")
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print(f"K size: {k_size_gb:.2f} GB, V size: {v_size_gb:.2f} GB")
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print(f"Total KV Cache Size: {total_size_gb:.2f} GB")
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return result
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def main():
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import argparse
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parser = argparse.ArgumentParser(description="Calculate KV cache size for a model")
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parser.add_argument("model_path", help="Path to the model")
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parser.add_argument("max_total_tokens", type=int, help="Maximum number of tokens")
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parser.add_argument("--tp", type=int, default=1, help="Tensor parallelism size")
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parser.add_argument("--dtype", type=str, default="auto", help="Data type (auto, float16, bfloat16, etc.)")
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parser.add_argument("--quiet", action="store_true", help="Suppress verbose output")
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args = parser.parse_args()
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result = get_kv_size_gb(
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args.model_path,
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args.max_total_tokens,
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tp=args.tp,
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dtype=args.dtype,
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verbose=not args.quiet,
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)
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if args.quiet:
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print(f"{result['total_size_gb']:.2f}")
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if __name__ == "__main__":
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main()
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