import copy from typing import Any, Callable, Dict, Iterable, List, Tuple import torch from torch.fx.node import Node from colossalai.fx.profiler import activation_size, parameter_size from .utils import NodeMgr, get_node_shape, is_non_memory_node class EstimateMemory(object): """ Estimate memory with chunk """ def __init__(self) -> None: pass def _get_node_size(self, x: Node) -> float: """ return node size in MB """ x = x.meta["tensor_meta"] if not hasattr(x, "numel"): out = sum([i.numel * torch.tensor([], dtype=i.dtype).element_size() for i in x]) else: out = x.numel * torch.tensor([], dtype=x.dtype).element_size() out = float(out) / 1024**2 return out def _add_active_node(self, n: Node, active_nodes: Dict, chunk_ratio: float) -> None: """ add an active node and its shape to active node dict """ if get_node_shape(n) is None: return if n.op == "placeholder": return if n not in active_nodes: node_size = self._get_node_size(n) * chunk_ratio active_nodes[n] = node_size def _build_delete_node_dict(self, node_mgr: NodeMgr) -> Dict: """ build delete node dict, means node should be deleted at what time """ delete_node_dict = {} for idx, node in enumerate(node_mgr.get_node_list()): # skip non shape node if get_node_shape(node) is None: continue # dont remove free nodes elif node.op == "placeholder": delete_node_dict[node] = len(node_mgr.get_node_list()) # node no user elif len(node.users) == 0: delete_node_dict[node] = idx # log max use else: node_user_idx = [node_mgr.find_node_idx(i) for i in node.users.keys()] delete_node_dict[node] = max(node_user_idx) return delete_node_dict def _remove_deactive_node(self, user_idx: int, user: Node, active_nodes: List, delete_node_dict: List, kept_nodes: List = None) -> None: """ remove deactivate nodes from active nodes """ if kept_nodes is None: kept_nodes = [] if user.op in ("output",): return for node in list(active_nodes.keys()): # dont delete kept nodes if node in kept_nodes: continue # should be deleted if delete_node_dict[node] <= user_idx: active_nodes.pop(node) def _get_tmp_memory(self, node, not_contiguous_list, delete=False): mem = 0 not_contiguous_ops = ["permute"] if node.op == "call_function" and any(n in node.name for n in ["matmul", "reshape"]): for n in node.args: if n in not_contiguous_list: # matmul won't change origin tensor, but create a tmp copy mem += self._get_node_size(n) elif node.op == "call_module": for n in node.args: if n in not_contiguous_list: # module will just make origin tensor to contiguous if delete: not_contiguous_list.remove(n) elif node.op == "call_method" and any(i in node.name for i in not_contiguous_ops): if node not in not_contiguous_list: not_contiguous_list.append(node) return mem def _get_chunk_ratio(self, node, chunk_node_dim, chunk_size): if node not in chunk_node_dim: return 1.0 node_shape = get_node_shape(node) chunk_dim = chunk_node_dim[node]["chunk_dim"] if chunk_dim is None: return 1.0 else: return chunk_size / float(node_shape[chunk_dim]) def _print_compute_op_mem_log(self, log, nodes, title=None): if title: print(title) for idx, (l, n) in enumerate(zip(log, nodes)): if n.op in ["placeholder", "get_attr", "output"]: continue if any(i in n.name for i in ["getitem", "getattr"]): continue print("%s:%.2f \t" % (n.name, l), end="") if (idx + 1) % 3 == 0: print("") print("\n") def _add_active_nodes_from_list(self, active_nodes: List, nodes: List) -> List: """ add active nodes from nodes """ for n in nodes: self._add_active_node(n, active_nodes, 1) def _get_memory_from_active_nodes(self, active_nodes: Dict) -> float: """ sum all memory of active nodes """ out = [i for i in active_nodes.values()] out = sum(out) return out def estimate_chunk_inference_mem(self, node_list: List, chunk_infos: Dict = None, print_mem: bool = False): """ Estimate inference memory with chunk Args: node_list (List): _description_ chunk_infos (Dict): Chunk information. Defaults to None. print_mem (bool): Wether to print peak memory of every node. Defaults to False. Returns: act_memory_peak_log (List): peak memory of every node act_memory_after_node_log (List): memory after executing every node active_node_list_log (List): active nodes of every node. active nodes refer to nodes generated but not deleted. """ act_memory = 0.0 act_memory_peak_log = [] act_memory_after_node_log = [] active_nodes = {} active_nodes_log = [] not_contiguous_list = [] node_mgr = NodeMgr(node_list) delete_node_dict = self._build_delete_node_dict(node_mgr) use_chunk = True if chunk_infos is not None else False chunk_within = False chunk_region_idx = None chunk_ratio = 1 # use it to estimate chunk mem chunk_inputs_all = [] if use_chunk: chunk_regions = [i["region"] for i in chunk_infos] chunk_starts = [i[0] for i in chunk_regions] chunk_ends = [i[1] for i in chunk_regions] chunk_inputs = [i["inputs"] for i in chunk_infos] chunk_inputs_non_chunk = [i["inputs_non_chunk"] for i in chunk_infos] chunk_inputs_all = [j for i in chunk_inputs for j in i] + [j for i in chunk_inputs_non_chunk for j in i] chunk_outputs = [i["outputs"] for i in chunk_infos] chunk_node_dim = [i["node_chunk_dim"] for i in chunk_infos] chunk_sizes = [i["chunk_size"] if "chunk_size" in i else 1 for i in chunk_infos] for idx, node in enumerate(node_mgr.get_node_list()): # if node in chunk start nodes, change chunk ratio and add chunk_tensor if use_chunk and idx in chunk_starts: chunk_within = True chunk_region_idx = chunk_starts.index(idx) self._add_active_nodes_from_list(active_nodes, chunk_outputs[chunk_region_idx]) # determine chunk ratio for current node if chunk_within: chunk_ratio = self._get_chunk_ratio(node, chunk_node_dim[chunk_region_idx], chunk_sizes[chunk_region_idx]) # add current node as active node self._add_active_node(node, active_nodes, chunk_ratio) act_memory = self._get_memory_from_active_nodes(active_nodes) # if node is placeholder, just add the size of the node if node.op == "placeholder": act_memory_peak_log.append(act_memory) # skip output elif node.op == "output": continue # no change for non compute node elif is_non_memory_node(node): act_memory_peak_log.append(act_memory) # node is a compute op, calculate tmp else: # forward memory # TODO: contiguous_memory still not accurate for matmul, view, reshape and transpose tmp_memory = self._get_tmp_memory(node, not_contiguous_list, delete=True) * chunk_ratio # record max act memory act_memory_peak_log.append(act_memory + tmp_memory) # remove_deactive_node self._remove_deactive_node(idx, node, active_nodes, delete_node_dict, kept_nodes=chunk_inputs_all) # if node in chunk end nodes, restore chunk settings if use_chunk and idx in chunk_ends: self._remove_deactive_node(idx, node, active_nodes, delete_node_dict) # dont provide kept nodes now chunk_within = False chunk_ratio = 1 chunk_region_idx = None act_memory = self._get_memory_from_active_nodes(active_nodes) act_memory_after_node_log.append(act_memory) active_nodes_log.append(active_nodes.copy()) if print_mem: print("with chunk" if use_chunk else "without chunk") self._print_compute_op_mem_log(act_memory_peak_log, node_mgr.get_node_list(), "peak") # param_memory = parameter_size(gm) # all_memory = act_memory + param_memory return act_memory_peak_log, act_memory_after_node_log, active_nodes_log