mirror of
https://github.com/ml-explore/mlx-examples.git
synced 2025-06-24 01:17:28 +08:00
fca087be49
* fix rotating kv cache for chat use case * reorg + fixes to caching, unify prompt caching across types and use cases for e.g. caching during a chat * nit in chat * fix tests * fix tests * fix tests * docs * chat command * comments + docs * Define meta_state on all Cache implementations * fixes + trim_prompt_cache api * fix default model --------- Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
334 lines
10 KiB
Python
334 lines
10 KiB
Python
# Copyright © 2023-2024 Apple Inc.
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from typing import Any, Dict, List, Optional
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import mlx.core as mx
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import mlx.nn as nn
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from mlx.utils import tree_flatten, tree_unflatten
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def make_prompt_cache(model: nn.Module, max_kv_size: Optional[int] = None) -> List[Any]:
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"""
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Construct the model's cache for use when cgeneration.
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This function will defer the cache construction to the model if it has a
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``make_cache`` method, otherwise it will make a default KV cache.
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Args:
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model (nn.Module): The language model.
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max_kv_size (Optional[int]): If provided and the model does not have a
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``make_cache`` method, a ``RotatingKVCache`` is used with a maximum
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size of ``max_kv_size``
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"""
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if hasattr(model, "make_cache"):
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return model.make_cache()
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num_layers = len(model.layers)
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if max_kv_size is not None:
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return [
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RotatingKVCache(max_size=max_kv_size, keep=4) for _ in range(num_layers)
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]
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else:
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return [KVCache() for _ in range(num_layers)]
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def save_prompt_cache(file_name: str, cache: List[Any], metadata: Dict[str, str] = {}):
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"""
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Save a pre-computed prompt cache to a file.
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Args:
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file_name (str): The ``.safetensors`` file name.
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cache (List[Any]): The model state.
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metadata (Dict[str, str]): Optional metadata to save along with model
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state.
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"""
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cache_data = [c.state for c in cache]
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cache_info = [c.meta_state for c in cache]
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cache_data = dict(tree_flatten(cache_data))
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cache_classes = [type(c).__name__ for c in cache]
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cache_metadata = [cache_info, metadata, cache_classes]
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cache_metadata = dict(tree_flatten(cache_metadata))
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mx.save_safetensors(file_name, cache_data, cache_metadata)
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def load_prompt_cache(file_name, return_metadata=False):
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"""
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Load a prompt cache from a file.
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Args:
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file_name (str): The ``.safetensors`` file name.
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return_metadata (bool): Whether or not to return metadata.
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Default: ``False``.
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Returns:
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List[Any] or Tuple[List[Any], Dict[str, str]]: The prompt cache and
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the metadata if requested.
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"""
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arrays, cache_metadata = mx.load(file_name, return_metadata=True)
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arrays = tree_unflatten(list(arrays.items()))
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cache_metadata = tree_unflatten(list(cache_metadata.items()))
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info, metadata, classes = cache_metadata
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cache = [globals()[c]() for c in classes]
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for c, state, meta_state in zip(cache, arrays, info):
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c.state = state
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c.meta_state = meta_state
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if return_metadata:
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return cache, metadata
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return cache
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def trim_prompt_cache(cache: List[Any], num_tokens: int) -> List[Any]:
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"""
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Trim the model's cache by the given number of tokens.
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This function will trim the cache if possible (in-place) and return the
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number of tokens that were trimmed.
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Args:
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cache (List[Any]): The model's cache.
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num_tokens (int): The number of tokens to trim.
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Returns:
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(int): The number of tokens that were trimmed.
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"""
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if not all(c.is_trimmable() for c in cache) or len(cache) == 0:
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return 0
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return [c.trim(num_tokens) for c in cache][0]
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class _BaseCache:
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@property
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def state(self):
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return []
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@state.setter
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def state(self, v):
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if v is not None and v:
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raise ValueError("This cache has no state but a state was set.")
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@property
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def meta_state(self):
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return ""
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@meta_state.setter
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def meta_state(self, v):
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if v is not None and v:
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raise ValueError("This cache has no meta_state but a meta_state was set.")
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def is_trimmable(self):
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return False
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class KVCache(_BaseCache):
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def __init__(self):
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self.keys = None
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self.values = None
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self.offset = 0
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self.step = 256
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def update_and_fetch(self, keys, values):
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prev = self.offset
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if self.keys is None or (prev + keys.shape[2]) > self.keys.shape[2]:
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B, n_kv_heads, _, k_head_dim = keys.shape
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v_head_dim = values.shape[3]
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n_steps = (self.step + keys.shape[2] - 1) // self.step
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k_shape = (B, n_kv_heads, n_steps * self.step, k_head_dim)
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v_shape = (B, n_kv_heads, n_steps * self.step, v_head_dim)
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new_k = mx.zeros(k_shape, keys.dtype)
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new_v = mx.zeros(v_shape, values.dtype)
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if self.keys is not None:
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if prev % self.step != 0:
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self.keys = self.keys[..., :prev, :]
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self.values = self.values[..., :prev, :]
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self.keys = mx.concatenate([self.keys, new_k], axis=2)
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self.values = mx.concatenate([self.values, new_v], axis=2)
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else:
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self.keys, self.values = new_k, new_v
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self.offset += keys.shape[2]
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self.keys[..., prev : self.offset, :] = keys
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self.values[..., prev : self.offset, :] = values
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return self.keys[..., : self.offset, :], self.values[..., : self.offset, :]
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@property
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def state(self):
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if self.offset == self.keys.shape[2]:
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return self.keys, self.values
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else:
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return (
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self.keys[..., : self.offset, :],
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self.values[..., : self.offset, :],
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)
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@state.setter
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def state(self, v):
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self.keys, self.values = v
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self.offset = self.keys.shape[2]
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def is_trimmable(self):
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return True
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def trim(self, n):
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n = min(self.offset, n)
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self.offset -= n
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return n
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class RotatingKVCache(_BaseCache):
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def __init__(self, max_size=None, keep=0, step=256):
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self.keep = keep
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self.keys = None
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self.values = None
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self.offset = 0
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self.max_size = max_size
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self.step = step
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self._idx = 0
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def _trim(self, trim_size, v, append=None):
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to_cat = []
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if trim_size > 0:
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to_cat = [v[..., : self.keep, :], v[..., trim_size + self.keep :, :]]
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else:
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to_cat = [v]
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if append is not None:
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to_cat.append(append)
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return mx.concatenate(to_cat, axis=2)
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def _temporal_order(self, v):
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"""
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Rearrange the cache into temporal order, slicing off the end if unused.
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"""
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if self._idx == v.shape[2]:
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return v
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elif self._idx < self.offset:
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return mx.concatenate(
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[
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v[..., : self.keep, :],
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v[..., self._idx :, :],
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v[..., self.keep : self._idx, :],
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],
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axis=2,
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)
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else:
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return v[..., : self._idx, :]
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def _update_concat(self, keys, values):
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if self.keys is None:
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self.keys = keys
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self.values = values
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else:
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# Put the keys/values in temporal order to
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# preserve context
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self.keys = self._temporal_order(self.keys)
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self.values = self._temporal_order(self.values)
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# The largest size is self.max_size + S - 1 to ensure
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# every token gets at least self.max_size context
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trim_size = self._idx - self.max_size + 1
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self.keys = self._trim(trim_size, self.keys, keys)
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self.values = self._trim(trim_size, self.values, values)
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self.offset += keys.shape[2]
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self._idx = self.keys.shape[2]
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return self.keys, self.values
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def _update_in_place(self, keys, values):
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# May not have hit the max size yet, so potentially
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# keep growing the cache
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B, n_kv_heads, S, k_head_dim = keys.shape
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prev = self.offset
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if self.keys is None or (
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prev >= self.keys.shape[2] and self.keys.shape[2] < self.max_size
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):
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v_head_dim = values.shape[3]
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new_size = min(self.step, self.max_size - prev)
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k_shape = (B, n_kv_heads, new_size, k_head_dim)
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v_shape = (B, n_kv_heads, new_size, v_head_dim)
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new_k = mx.zeros(k_shape, keys.dtype)
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new_v = mx.zeros(v_shape, values.dtype)
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if self.keys is not None:
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self.keys = mx.concatenate([self.keys, new_k], axis=2)
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self.values = mx.concatenate([self.values, new_v], axis=2)
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else:
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self.keys, self.values = new_k, new_v
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self._idx = prev
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# Trim if needed
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trim_size = self.keys.shape[2] - self.max_size
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if trim_size > 0:
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self.keys = self._trim(trim_size, self.keys)
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self.values = self._trim(trim_size, self.values)
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self._idx = self.max_size
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# Rotate
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if self._idx == self.max_size:
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self._idx = self.keep
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# Assign
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self.keys[..., self._idx : self._idx + S, :] = keys
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self.values[..., self._idx : self._idx + S, :] = values
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self.offset += S
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self._idx += S
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# If the buffer is not full, slice off the end
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if self.offset < self.max_size:
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return self.keys[..., : self.offset, :], self.values[..., : self.offset, :]
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return self.keys, self.values
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def update_and_fetch(self, keys, values):
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if keys.shape[2] == 1:
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return self._update_in_place(keys, values)
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return self._update_concat(keys, values)
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@property
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def state(self):
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if self.offset < self.keys.shape[2]:
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return self.keys[..., : self.offset, :], self.values[..., : self.offset, :]
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else:
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return self.keys, self.values
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@state.setter
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def state(self, v):
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self.keys, self.values = v
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@property
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def meta_state(self):
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return tuple(
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map(str, (self.keep, self.max_size, self.step, self.offset, self._idx))
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)
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@meta_state.setter
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def meta_state(self, v):
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self.keep, self.max_size, self.step, self.offset, self._idx = map(
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int,
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v,
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)
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def is_trimmable(self):
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return self.offset < self.max_size
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def trim(self, n):
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n = min(self.offset, n)
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self.offset -= n
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self._idx -= n
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return n
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class MambaCache(_BaseCache):
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def __init__(self):
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self.cache = [None, None]
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def __setitem__(self, idx, value):
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self.cache[idx] = value
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def __getitem__(self, idx):
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return self.cache[idx]
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@property
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def state(self):
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return self.cache
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@state.setter
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def state(self, v):
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self.cache = v
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