# SPDX-License-Identifier: Apache-2.0 # SPDX-FileCopyrightText: Copyright contributors to the vLLM project """ vLLM Helion kernel registration with pre-tuned config selection. This module leverages Helion's internal config selection infrastructure to use pre-tuned configs instead of runtime autotuning. How Helion Normally Works ------------------------- For each kernel invocation, Helion: 1. Computes a cache key from input arguments 2. Looks up the key in its internal compilation cache 3. On cache miss, runs autotuning to find the best config 4. Compiles and caches the kernel with that config How We Override It ------------------ We override two Helion hooks to use pre-tuned configs: 1. **key**: We provide a key function (derived from config_picker) that computes cache keys matching our pre-tuned config keys. This ensures Helion's internal cache uses keys that correspond to configs we've prepared. 2. **autotuner_fn**: We provide PresetConfigSearch which, instead of autotuning, simply returns the pre-tuned config for the computed key. On cache miss, Helion calls our autotuner which returns the author-prepared config. Both hooks use the same config_picker logic to ensure the cache key computed by key matches the config returned by the autotuner. Key Classes ----------- - HelionKernelWrapper: Wraps raw kernel + config_picker, creates configured ops - ConfiguredHelionKernel: Platform-specific kernel registered as PyTorch custom op - PresetConfigSearch: Custom autotuner that returns pre-tuned configs """ from collections.abc import Callable from typing import Any, cast, overload import torch from torch.library import Library from vllm.logger import init_logger from vllm.utils.import_utils import has_helion from vllm.utils.torch_utils import direct_register_custom_op if not has_helion(): raise ImportError( "register module requires helion to be installed. " "Install it with: pip install helion" ) import helion from helion.autotuner.base_search import BaseAutotuner from helion.runtime.config import Config from helion.runtime.settings import default_autotuner_fn logger = init_logger(__name__) vllm_helion_lib = Library("vllm_helion", "FRAGMENT") # noqa def validate_helion_settings( helion_settings: "helion.Settings | None", op_name: str ) -> None: if helion_settings is None: return settings_dict = helion_settings.to_dict() if ( "autotuner_fn" in settings_dict and settings_dict["autotuner_fn"] is not None and settings_dict["autotuner_fn"] is not default_autotuner_fn ): raise ValueError( f"HelionKernelWrapper for '{op_name}' uses a custom autotuner via " f"config picker. Remove 'autotuner_fn' from helion_settings and use " f"@{op_name}.register_config_picker instead." ) # Warn if static_shapes is explicitly set to True since most vLLM ops need # dynamic shapes for variable batch sizes and sequence lengths if settings_dict.get("static_shapes") is True: logger.warning( "Kernel '%s' has static_shapes=True in helion_settings. " "Most vLLM ops require dynamic shapes for variable batch sizes " "and sequence lengths. Consider removing this setting.", op_name, ) def create_helion_decorated_kernel( raw_kernel_func: Callable, helion_settings: "helion.Settings | None" = None, extra_kwargs: dict[str, Any] | None = None, ) -> Any: kernel_kwargs: dict[str, Any] = {} if helion_settings: kernel_kwargs.update(helion_settings.to_dict()) # Set static_shapes=False by default if user didn't explicitly set it # This is needed for dynamic batch sizes and sequence lengths in vLLM if kernel_kwargs.get("static_shapes") is not True: kernel_kwargs["static_shapes"] = False if extra_kwargs: kernel_kwargs.update(extra_kwargs) return helion.kernel(**kernel_kwargs)(raw_kernel_func) class PresetConfigSearch(BaseAutotuner): """Custom autotuner that uses a preset config selector instead of autotuning.""" def __init__( self, args: tuple[Any, ...], config_selector: Callable[[tuple[Any, ...]], Config], ): self.args = args self.config_selector = config_selector def autotune(self, *, skip_cache: bool = False) -> Config: return self.config_selector(self.args) class ConfiguredHelionKernel: """A configured Helion kernel bound to a specific platform.""" def __init__( self, op_name: str, config_picker: Callable[[tuple[Any, ...], list[str]], str | None] | None, raw_kernel_func: Callable, helion_settings: "helion.Settings | None" = None, ): self.op_name = op_name self.config_picker = config_picker self.raw_kernel_func = raw_kernel_func self.helion_settings = helion_settings self._decorated_kernel = self._create_decorated_kernel() def __call__(self, *args, **kwargs): return self._decorated_kernel(*args, **kwargs) def _create_key_computer(self): """ Create a key computer function derived from the config picker. The returned function receives kernel arguments unpacked (*args) to match Helion's key signature (called as self._key_fn(*args)). """ if self.config_picker is None: raise RuntimeError( f"No config picker registered for kernel '{self.op_name}'. " f"Use @{self.op_name}.register_config_picker to register one." ) # After None check, config_picker is guaranteed to be non-None assert self.config_picker is not None def key_computer(*args): config_keys = list(self.configs.keys()) # Cast is safe because we checked for None above config_picker = cast( Callable[[tuple[Any, ...], list[str]], str | None], self.config_picker ) selected_key = config_picker(args, config_keys) if selected_key: return selected_key return "default" if "default" in self.configs else None return key_computer def _create_config_selector(self, key_computer): def config_selector(args): # args is a tuple; key_computer expects unpacked args selected_config_key = key_computer(*args) if selected_config_key is None: raise ValueError( f"Config picker returned None for kernel '{self.op_name}' " f"with available config keys: {list(self.configs.keys())}" ) if selected_config_key not in self.configs: raise ValueError( f"Config picker returned invalid config key " f"'{selected_config_key}' for kernel '{self.op_name}'. " f"Available keys: {list(self.configs.keys())}" ) return self.configs[selected_config_key] return config_selector def _load_platform_configs(self) -> None: from vllm.kernels.helion.config_manager import ConfigManager from vllm.kernels.helion.utils import get_canonical_gpu_name self.platform = get_canonical_gpu_name() config_manager = ConfigManager.get_instance() self.configs = config_manager.get_platform_configs(self.op_name, self.platform) if not self.configs: raise ValueError( f"No configs available for kernel '{self.op_name}' " f"on platform '{self.platform}'" ) def _create_decorated_kernel(self) -> Callable[..., Any]: self._load_platform_configs() key_computer = self._create_key_computer() config_selector = self._create_config_selector(key_computer) extra_kwargs = { "autotuner_fn": lambda _, args: PresetConfigSearch(args, config_selector), "key": key_computer, } logger.debug( "Creating decorated kernel %s with custom autotuner on platform %s", self.op_name, self.platform, ) return create_helion_decorated_kernel( self.raw_kernel_func, self.helion_settings, extra_kwargs ) class HelionKernelWrapper: """Wrapper for Helion kernels that creates config-specific PyTorch custom ops.""" def __init__( self, raw_kernel_func: Callable, op_name: str, fake_impl: Callable, helion_settings: "helion.Settings | None" = None, ): # Validate helion_settings doesn't conflict with our custom autotuner validate_helion_settings(helion_settings, op_name) self.raw_kernel_func = raw_kernel_func self.op_name = op_name self._fake_impl = fake_impl self.helion_settings = helion_settings self._config_picker: ( Callable[[tuple[Any, ...], list[str]], str | None] | None ) = None self._input_generator: Callable[[], dict[str, tuple[Any, ...]]] | None = None def __call__(self, *args, **kwargs): configured_op = self.get_configured_op() return configured_op(*args, **kwargs) def register_config_picker( self, picker_func: Callable[[tuple[Any, ...], list[str]], str | None] ) -> Callable[[tuple[Any, ...], list[str]], str | None]: self._config_picker = picker_func return picker_func def register_input_generator( self, generator_func: Callable[[], dict[str, tuple[Any, ...]]] ) -> Callable[[], dict[str, tuple[Any, ...]]]: """ Register a function to generate inputs for autotuning and benchmarking. Args: generator_func: Function that returns dict[str, tuple] where: - key: Configuration identifier (e.g., "4096", "hidden_4096") - value: Tuple of arguments to pass to the kernel Returns: The registered function (for decorator usage) Example: @kernel_wrapper.register_input_generator def generate_inputs(): return { "4096": (torch.randn(4096, device="cuda"), 0.5), "8192": (torch.randn(8192, device="cuda"), 0.5), } """ self._input_generator = generator_func return generator_func def get_inputs(self) -> dict[str, tuple[Any, ...]]: if self._input_generator is None: raise NotImplementedError( f"No input generator registered for kernel '{self.op_name}'. " f"Use @{self.op_name}.register_input_generator to register one." ) return self._input_generator() def run_autotune( self, inputs: tuple[Any, ...], autotune_effort: str = "quick", ) -> Config: """Run autotuning for a single input configuration.""" extra_kwargs = {"autotune_effort": autotune_effort} autotune_kernel = create_helion_decorated_kernel( self.raw_kernel_func, self.helion_settings, extra_kwargs ) return autotune_kernel.autotune(inputs) def get_configured_op(self) -> Any: assert self._config_picker is not None, ( f"No config picker registered for kernel '{self.op_name}'. " f"Use @{self.op_name}.register_config_picker to register one." ) if hasattr(torch.ops.vllm_helion, self.op_name): logger.debug("Op vllm_helion::%s already registered", self.op_name) return getattr(torch.ops.vllm_helion, self.op_name) configured_kernel = ConfiguredHelionKernel( op_name=self.op_name, config_picker=self._config_picker, raw_kernel_func=self.raw_kernel_func, helion_settings=self.helion_settings, ) logger.info("Registering op: vllm_helion::%s", self.op_name) direct_register_custom_op( op_name=self.op_name, op_func=configured_kernel._decorated_kernel, # Register decorated kernel # TODO(gmagogsfm): Implement automatic mutation/aliasing detection # for Helion kernels. mutates_args=None, fake_impl=self._fake_impl, target_lib=vllm_helion_lib, ) return getattr(torch.ops.vllm_helion, self.op_name) # Global registry for tracking all registered HelionKernelWrapper instances _REGISTERED_KERNELS: dict[str, HelionKernelWrapper] = {} def get_registered_kernels() -> dict[str, HelionKernelWrapper]: return _REGISTERED_KERNELS.copy() def get_kernel_by_name(kernel_name: str) -> HelionKernelWrapper | None: return _REGISTERED_KERNELS.get(kernel_name) def infer_fake_impl( kernel_func: Callable, helion_settings: "helion.Settings | None" = None, ) -> Callable: def helion_fake_kernel(*args, **kwargs): kernel_kwargs = {} if helion_settings: kernel_kwargs.update(helion_settings.to_dict()) temp_decorated_kernel = helion.kernel(**kernel_kwargs)(kernel_func) # Bind with args to get config_spec, then get a valid default config bound = temp_decorated_kernel.bind(args) default_config = bound.config_spec.default_config() compiled_runner = bound.compile_config(default_config) return compiled_runner(*args, **kwargs, _launcher=lambda *a, **kw: None) return helion_fake_kernel # Overloads are necessary for proper mypy type inference. # Without overloads, the union return type HelionKernelWrapper | Callable[...] # causes mypy to complain about missing attributes when tests do: # wrapper = register_kernel(func) # Should return HelionKernelWrapper # wrapper._fake_impl # mypy error: "Callable has no attribute _fake_impl" # The overloads tell mypy the exact return type based on the argument pattern. @overload def register_kernel( op_name_or_func: Callable, *, fake_impl: Callable | None = None, helion_settings: "helion.Settings | None" = None, ) -> HelionKernelWrapper: ... @overload def register_kernel( op_name_or_func: str | None = None, *, fake_impl: Callable | None = None, helion_settings: "helion.Settings | None" = None, ) -> Callable[[Callable], HelionKernelWrapper]: ... def register_kernel( op_name_or_func: str | Callable | None = None, *, fake_impl: Callable | None = None, helion_settings: "helion.Settings | None" = None, ) -> HelionKernelWrapper | Callable[[Callable], HelionKernelWrapper]: """ Decorator to register a Helion kernel function as a HelionKernelWrapper. Wraps the raw kernel function in a HelionKernelWrapper and registers it in the global kernel registry. Auto-generates fake_impl if not provided. """ def decorator(kernel_func: Callable) -> HelionKernelWrapper: op_name = op_name_or_func if isinstance(op_name_or_func, str) else None final_op_name = op_name if op_name else kernel_func.__name__ if final_op_name in _REGISTERED_KERNELS: raise ValueError( f"Helion kernel '{final_op_name}' is already registered. " f"Use a different op_name or check for duplicate registrations." ) final_fake_impl = fake_impl if final_fake_impl is None: final_fake_impl = infer_fake_impl(kernel_func, helion_settings) logger.debug( "Auto-generated fake_impl for Helion kernel '%s'", kernel_func.__name__, ) kernel_wrapper = HelionKernelWrapper( raw_kernel_func=kernel_func, op_name=final_op_name, fake_impl=final_fake_impl, helion_settings=helion_settings, ) _REGISTERED_KERNELS[final_op_name] = kernel_wrapper logger.info( "Registered Helion kernel '%s' as HelionKernelWrapper", kernel_func.__name__, ) return kernel_wrapper if callable(op_name_or_func) and not isinstance(op_name_or_func, str): # Bare decorator usage: @register_kernel return decorator(op_name_or_func) else: # Decorator with arguments: @register_kernel(...) return decorator