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2026-07-13 13:30:03 +08:00

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Python

"""
Model registry for kt-cli.
Provides a registry of supported models with fuzzy matching capabilities.
"""
import re
from dataclasses import dataclass, field
from pathlib import Path
from typing import Callable, Optional
import yaml
from kt_kernel.cli.config.settings import get_settings
@dataclass
class ModelInfo:
"""Information about a supported model."""
name: str
hf_repo: str
aliases: list[str] = field(default_factory=list)
type: str = "moe" # moe, dense
gpu_vram_gb: float = 0
cpu_ram_gb: float = 0
default_params: dict = field(default_factory=dict)
description: str = ""
description_zh: str = ""
max_tensor_parallel_size: Optional[int] = None # Maximum tensor parallel size for this model
# Built-in model registry
BUILTIN_MODELS: list[ModelInfo] = [
ModelInfo(
name="DeepSeek-V3-0324",
hf_repo="deepseek-ai/DeepSeek-V3-0324",
aliases=["deepseek-v3-0324", "deepseek-v3", "dsv3", "deepseek3", "v3-0324"],
type="moe",
default_params={
"kt-num-gpu-experts": 1,
"attention-backend": "triton",
"disable-shared-experts-fusion": True,
"kt-method": "AMXINT4",
},
description="DeepSeek V3-0324 685B MoE model (March 2025, improved benchmarks)",
description_zh="DeepSeek V3-0324 685B MoE 模型(2025年3月,改进的基准测试)",
),
ModelInfo(
name="DeepSeek-V3.2",
hf_repo="deepseek-ai/DeepSeek-V3.2",
aliases=["deepseek-v3.2", "dsv3.2", "deepseek3.2", "v3.2"],
type="moe",
default_params={
"kt-method": "FP8",
"kt-gpu-prefill-token-threshold": 4096,
"attention-backend": "flashinfer",
"fp8-gemm-backend": "triton",
"max-total-tokens": 100000,
"max-running-requests": 16,
"chunked-prefill-size": 32768,
"mem-fraction-static": 0.80,
"watchdog-timeout": 3000,
"served-model-name": "DeepSeek-V3.2",
"disable-shared-experts-fusion": True,
},
description="DeepSeek V3.2 671B MoE model (latest)",
description_zh="DeepSeek V3.2 671B MoE 模型(最新)",
),
ModelInfo(
name="DeepSeek-R1-0528",
hf_repo="deepseek-ai/DeepSeek-R1-0528",
aliases=["deepseek-r1-0528", "deepseek-r1", "dsr1", "r1", "r1-0528"],
type="moe",
default_params={
"kt-num-gpu-experts": 1,
"attention-backend": "triton",
"disable-shared-experts-fusion": True,
"kt-method": "AMXINT4",
},
description="DeepSeek R1-0528 reasoning model (May 2025, improved reasoning depth)",
description_zh="DeepSeek R1-0528 推理模型(2025年5月,改进的推理深度)",
),
ModelInfo(
name="DeepSeek-V4-Flash",
hf_repo="deepseek-ai/DeepSeek-V4-Flash",
aliases=["deepseek-v4-flash", "deepseek-v4", "dsv4", "v4-flash", "v4"],
type="moe",
default_params={
"kt-method": "MXFP4",
"kt-gpu-prefill-token-threshold": 4096,
"attention-backend": "flashinfer",
"max-total-tokens": 100000,
"max-running-requests": 16,
"chunked-prefill-size": 32768,
"mem-fraction-static": 0.80,
"watchdog-timeout": 3000,
"served-model-name": "DeepSeek-V4-Flash",
"disable-shared-experts-fusion": True,
},
description="DeepSeek V4-Flash MoE model (native MXFP4 experts, MQA + sparse index attention)",
description_zh="DeepSeek V4-Flash MoE 模型(原生 MXFP4 专家,MQA + 稀疏索引注意力)",
),
ModelInfo(
name="Kimi-K2-Thinking",
hf_repo="moonshotai/Kimi-K2-Thinking",
aliases=["kimi-k2-thinking", "kimi-thinking", "k2-thinking", "kimi", "k2"],
type="moe",
default_params={
"kt-method": "RAWINT4",
"kt-gpu-prefill-token-threshold": 400,
"attention-backend": "flashinfer",
"max-total-tokens": 100000,
"max-running-requests": 16,
"chunked-prefill-size": 32768,
"mem-fraction-static": 0.80,
"watchdog-timeout": 3000,
"served-model-name": "Kimi-K2-Thinking",
"disable-shared-experts-fusion": True,
},
description="Moonshot Kimi K2 Thinking MoE model",
description_zh="月之暗面 Kimi K2 Thinking MoE 模型",
),
ModelInfo(
name="MiniMax-M2",
hf_repo="MiniMaxAI/MiniMax-M2",
aliases=["minimax-m2", "m2"],
type="moe",
default_params={
"kt-method": "FP8",
"kt-gpu-prefill-token-threshold": 4096,
"attention-backend": "flashinfer",
"fp8-gemm-backend": "triton",
"max-total-tokens": 100000,
"max-running-requests": 16,
"chunked-prefill-size": 32768,
"mem-fraction-static": 0.80,
"watchdog-timeout": 3000,
"served-model-name": "MiniMax-M2",
"disable-shared-experts-fusion": True,
"tool-call-parser": "minimax-m2",
"reasoning-parser": "minimax-append-think",
},
description="MiniMax M2 MoE model",
description_zh="MiniMax M2 MoE 模型",
max_tensor_parallel_size=4, # M2 only supports up to 4-way tensor parallelism
),
ModelInfo(
name="MiniMax-M2.1",
hf_repo="MiniMaxAI/MiniMax-M2.1",
aliases=["minimax-m2.1", "m2.1"],
type="moe",
default_params={
"kt-method": "FP8",
"kt-gpu-prefill-token-threshold": 4096,
"attention-backend": "flashinfer",
"fp8-gemm-backend": "triton",
"max-total-tokens": 100000,
"max-running-requests": 16,
"chunked-prefill-size": 32768,
"mem-fraction-static": 0.80,
"watchdog-timeout": 3000,
"served-model-name": "MiniMax-M2.1",
"disable-shared-experts-fusion": True,
"tool-call-parser": "minimax-m2",
"reasoning-parser": "minimax-append-think",
},
description="MiniMax M2.1 MoE model (enhanced multi-language programming)",
description_zh="MiniMax M2.1 MoE 模型(增强多语言编程能力)",
max_tensor_parallel_size=4, # M2.1 only supports up to 4-way tensor parallelism
),
]
class ModelRegistry:
"""Registry of supported models with fuzzy matching."""
def __init__(self):
"""Initialize the model registry."""
self._models: dict[str, ModelInfo] = {}
self._aliases: dict[str, str] = {}
self._load_builtin_models()
self._load_user_models()
def _load_builtin_models(self) -> None:
"""Load built-in models."""
for model in BUILTIN_MODELS:
self._register(model)
def _load_user_models(self) -> None:
"""Load user-defined models from config."""
settings = get_settings()
registry_file = settings.config_dir / "registry.yaml"
if registry_file.exists():
try:
with open(registry_file, "r", encoding="utf-8") as f:
data = yaml.safe_load(f) or {}
for name, info in data.get("models", {}).items():
model = ModelInfo(
name=name,
hf_repo=info.get("hf_repo", ""),
aliases=info.get("aliases", []),
type=info.get("type", "moe"),
gpu_vram_gb=info.get("gpu_vram_gb", 0),
cpu_ram_gb=info.get("cpu_ram_gb", 0),
default_params=info.get("default_params", {}),
description=info.get("description", ""),
description_zh=info.get("description_zh", ""),
max_tensor_parallel_size=info.get("max_tensor_parallel_size"),
)
self._register(model)
except (yaml.YAMLError, OSError):
pass
def _register(self, model: ModelInfo) -> None:
"""Register a model."""
self._models[model.name.lower()] = model
# Register aliases
for alias in model.aliases:
self._aliases[alias.lower()] = model.name.lower()
def get(self, name: str) -> Optional[ModelInfo]:
"""Get a model by exact name or alias."""
name_lower = name.lower()
# Check direct match
if name_lower in self._models:
return self._models[name_lower]
# Check aliases
if name_lower in self._aliases:
return self._models[self._aliases[name_lower]]
return None
def search(self, query: str, limit: int = 10) -> list[ModelInfo]:
"""Search for models using fuzzy matching.
Args:
query: Search query
limit: Maximum number of results
Returns:
List of matching models, sorted by relevance
"""
query_lower = query.lower()
results: list[tuple[float, ModelInfo]] = []
for model in self._models.values():
score = self._match_score(query_lower, model)
if score > 0:
results.append((score, model))
# Sort by score descending
results.sort(key=lambda x: x[0], reverse=True)
return [model for _, model in results[:limit]]
def _match_score(self, query: str, model: ModelInfo) -> float:
"""Calculate match score for a model.
Returns a score between 0 and 1, where 1 is an exact match.
"""
# Check exact match
if query == model.name.lower():
return 1.0
# Check alias exact match
for alias in model.aliases:
if query == alias.lower():
return 0.95
# Check if query is contained in name
if query in model.name.lower():
return 0.8
# Check if query is contained in aliases
for alias in model.aliases:
if query in alias.lower():
return 0.7
# Check if query is contained in hf_repo
if query in model.hf_repo.lower():
return 0.6
# Fuzzy matching - check if all query parts are present
query_parts = re.split(r"[-_.\s]", query)
name_lower = model.name.lower()
matches = sum(1 for part in query_parts if part and part in name_lower)
if matches > 0:
return 0.5 * (matches / len(query_parts))
return 0.0
def list_all(self) -> list[ModelInfo]:
"""List all registered models."""
return list(self._models.values())
def find_local_models(self, max_depth: int = 3) -> list[tuple[ModelInfo, Path]]:
"""Find models that are downloaded locally in any configured model path.
Args:
max_depth: Maximum depth to search within each model path (default: 3)
Returns:
List of (ModelInfo, path) tuples for local models
"""
settings = get_settings()
model_paths = settings.get_model_paths()
results = []
for model in self._models.values():
found = False
# Search in all configured model directories
for models_dir in model_paths:
if not models_dir.exists():
continue
# Generate possible names to search for
possible_names = [
model.name,
model.name.lower(),
model.hf_repo.split("/")[-1],
model.hf_repo.replace("/", "--"),
]
# Search recursively up to max_depth
for depth in range(max_depth):
# Build glob pattern for current depth
# depth=0: direct children, depth=1: grandchildren, etc.
glob_pattern = "*" if depth > 0 else ""
for _ in range(depth):
glob_pattern = "*/" + glob_pattern if glob_pattern else "*"
for name in possible_names:
if depth == 0:
# Direct children: models_dir / name
search_paths = [models_dir / name]
else:
# Nested: use rglob to find directories matching the name
search_paths = list(models_dir.rglob(name))
for path in search_paths:
if path.exists() and (path / "config.json").exists():
results.append((model, path))
found = True
break
if found:
break
if found:
break
if found:
break
return results
# Global registry instance
_registry: Optional[ModelRegistry] = None
def get_registry() -> ModelRegistry:
"""Get the global model registry instance."""
global _registry
if _registry is None:
_registry = ModelRegistry()
return _registry
# ============================================================================
# Model-specific parameter computation functions
# ============================================================================
def compute_deepseek_v3_gpu_experts(tensor_parallel_size: int, vram_per_gpu_gb: float) -> int:
per_gpu_gb = 16
if vram_per_gpu_gb < per_gpu_gb:
return int(0)
total_vram = int(tensor_parallel_size * (vram_per_gpu_gb - per_gpu_gb))
return total_vram // 3
def compute_deepseek_v4_gpu_experts(tensor_parallel_size: int, vram_per_gpu_gb: float) -> int:
"""Compute kt-num-gpu-experts for DeepSeek-V4-Flash.
V4 uses MXFP4 experts (~0.5 bytes/param vs V3 FP8's 1 byte/param) so each GPU
can hold ~2x more experts per VRAM unit than V3 at the same fragmentation.
"""
per_gpu_gb = 16
if vram_per_gpu_gb < per_gpu_gb:
return 0
total_vram = int(tensor_parallel_size * (vram_per_gpu_gb - per_gpu_gb))
return total_vram * 2 // 3
def compute_kimi_k2_thinking_gpu_experts(tensor_parallel_size: int, vram_per_gpu_gb: float) -> int:
"""Compute kt-num-gpu-experts for Kimi K2 Thinking."""
per_gpu_gb = 16
if vram_per_gpu_gb < per_gpu_gb:
return int(0)
total_vram = int(tensor_parallel_size * (vram_per_gpu_gb - per_gpu_gb))
return total_vram * 2 // 3
def compute_minimax_m2_gpu_experts(tensor_parallel_size: int, vram_per_gpu_gb: float) -> int:
"""Compute kt-num-gpu-experts for MiniMax M2/M2.1."""
per_gpu_gb = 16
if vram_per_gpu_gb < per_gpu_gb:
return int(0)
total_vram = int(tensor_parallel_size * (vram_per_gpu_gb - per_gpu_gb))
return total_vram // 1
# Model name to computation function mapping
MODEL_COMPUTE_FUNCTIONS: dict[str, Callable[[int, float], int]] = {
"DeepSeek-V3-0324": compute_deepseek_v3_gpu_experts,
"DeepSeek-V3.2": compute_deepseek_v3_gpu_experts, # Same as V3-0324
"DeepSeek-R1-0528": compute_deepseek_v3_gpu_experts, # Same as V3-0324
"DeepSeek-V4-Flash": compute_deepseek_v4_gpu_experts,
"Kimi-K2-Thinking": compute_kimi_k2_thinking_gpu_experts,
"MiniMax-M2": compute_minimax_m2_gpu_experts,
"MiniMax-M2.1": compute_minimax_m2_gpu_experts, # Same as M2
}