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527 lines
20 KiB
527 lines
20 KiB
from typing import List, Any, Dict, Tuple
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import torch
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from torch.fx import Graph, Node
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from .solver import SolverFactory
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from .training_simulator import TrainingSimulator
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from .region import Region
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from .util import NodeInfo
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class RegionManager:
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"""
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RegionManager is used to construct and manage the offload plan for the model execution.
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Args:
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graph (Graph): a Graph object used for analysis and strategy generation.
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solver_name (str): a solver name which specifies the preferences for plan searching.
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memory_budget (float): the given memory budget.
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cnode (List[str], optional): Common node List, should be the subset of input.
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"""
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def __init__(self,
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graph: Graph,
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solver_name: str = 'asyn',
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memory_budget: float = -1.0,
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cnode: List[str] = None):
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self.graph = graph
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assert graph.owning_module is not None, 'The given graph is not associated with a owning_module'
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self.root_module = self.graph.owning_module
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self.nodes = list(graph.nodes)
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self.cnode = cnode
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self.only_param_ops = []
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self.param_region_map: Dict[torch.nn.Parameter, Region] = dict()
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self.shared_region_pairs: List[Tuple[Region, Region]] = list()
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self.region_list: List[Region] = list()
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self.rid_in_pool: List[int] = list()
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self.mem_block_size: int = 0
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self.memory_budget = memory_budget
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self.solver_name = solver_name
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self.require_pool: bool = solver_name == 'asyn'
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self.reg_to_block: Dict[int, int] = dict()
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def _build_regions(self):
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"""
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1. Pre-processing, mainly contains linearized computing graph and
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merge smaller regions into larger ones.
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2. Construct a solver to search for an efficient offload strategy.
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3. Post-processing, mainly contains early region placement if using asynchronous mode,
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and initialize region data.
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"""
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self._pre_process()
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solver_cls = SolverFactory.create(self.solver_name)
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solver = solver_cls(self.region_list, self.memory_budget)
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solver._call_solver()
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self._post_process(solver.best_ts)
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def _pre_process(self):
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init_region_list = self._linearize_graph()
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if len(self.shared_region_pairs) > 1:
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raise NotImplementedError(
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'The current version only considers at most one pair of parameter sharing.')
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elif len(self.shared_region_pairs) == 1:
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shared_regs = self.shared_region_pairs[0]
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assert shared_regs[0].shared_rid == shared_regs[1].r_id \
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and shared_regs[1].shared_rid == shared_regs[0].r_id
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fst_id = shared_regs[0].r_id
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lst_id = shared_regs[1].r_id
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regs_left_out = init_region_list[:fst_id + 1]
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regs_right_out = init_region_list[lst_id:]
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hold_regs = init_region_list[fst_id + 1:lst_id]
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else:
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regs_left_out = []
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regs_right_out = []
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hold_regs = init_region_list
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self.mem_block_size = self._search_block_size(hold_regs)
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hold_regs = self._merge_small_regions(hold_regs)
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if self.require_pool:
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for reg in hold_regs:
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reg.in_mem_pool_flag = True
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self.rid_in_pool.append(reg.r_id)
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self.region_list.extend(regs_left_out)
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self.region_list.extend(hold_regs)
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for reg in regs_right_out:
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reg.r_id = self.region_list[-1].r_id + 1
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self.region_list[reg.shared_rid].shared_rid = reg.r_id
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self.region_list.append(reg)
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self._process_shared_region()
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self.max_param_num = max([reg.param_num for reg in self.region_list])
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self.memory_budget -= self.max_param_num * torch.tensor([], dtype=torch.float32).element_size()
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def _post_process(self, ts: TrainingSimulator = None):
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if self.require_pool:
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self._early_region_placement(ts)
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self._init_region_data()
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def _early_region_placement(self, ts: TrainingSimulator):
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"""
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Implemented the early region placement strategy to avoid GPU memory fragmentation.
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It maps all region data into a contiguous memory space and
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reuses the same memory space for regions that do not coexist.
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Args:
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ts (TrainingSimulator): the best training simulator, which records region execution flow.
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Raises:
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NotImplementedError: due to the naive implementation,
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it may not find a suitable region placement strategy for the given execution flow.
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"""
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reg_flow = torch.cat(
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[ts.fwd_reg_flow, ts.bwd_reg_flow], dim=0)
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mem_block_num = torch.max(
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torch.sum(reg_flow[:, self.rid_in_pool], dim=1))
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coexist_matrix = torch.logical_or(
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ts.fwd_reg_flow, ts.bwd_reg_flow)
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block_to_regs = {}
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for block_idx in range(mem_block_num):
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block_to_regs[block_idx] = []
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for reg in self.region_list:
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if reg.r_id in self.rid_in_pool:
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cur_reg_appears = coexist_matrix[:, reg.r_id]
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cur_reg_coexists = torch.sum(
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coexist_matrix[cur_reg_appears], dim=0).bool()
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for block_idx in range(mem_block_num):
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if not any(cur_reg_coexists[block_to_regs[block_idx]]):
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block_to_regs[block_idx].append(reg.r_id)
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self.reg_to_block[reg.r_id] = block_idx
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break
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if reg.r_id not in self.reg_to_block:
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raise NotImplementedError(
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f'can not find a block from the memory pool to store parameters of the region')
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self.memory_pool = torch.chunk(torch.zeros(int(
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mem_block_num * self.mem_block_size / 2), dtype=torch.half, device='cuda'), chunks=int(mem_block_num))
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def _merge_small_regions(self, orig_reg_list: List[Region]) -> List[Region]:
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"""
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Merge smaller regions into larger ones for better bandwidth utilization and easier management.
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It is inspired by Gemini.
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Args:
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orig_reg_list (List[Region]): original region list.
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Returns:
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List[Region]: region list after merging.
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"""
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r_id = orig_reg_list[0].r_id
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region = Region(r_id=r_id)
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region_list = [region]
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for orig_reg in orig_reg_list:
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if region_list[-1].param_size + orig_reg.param_size > self.mem_block_size:
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r_id += 1
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region = Region(r_id=r_id)
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region_list.append(region)
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region.param_size += orig_reg.param_size
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region.param_num += orig_reg.param_num
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region.nodes.extend(orig_reg.nodes)
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region.fp16_params.extend(orig_reg.fp16_params)
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self.__update_param_region_map(orig_reg.fp16_params, region)
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return region_list
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def _search_block_size(self,
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region_list: List[Region],
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search_interval_byte: int = 1024,
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search_range_byte: int = 128 * 1024 ** 2) -> int:
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"""
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Search for a suitable memory block size.
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Args:
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region_list (List[Region]): region list.
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search_interval_byte (int): searching interval in byte.
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search_range_byte (int): searching range in byte.
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Returns:
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int: the best memory block size.
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"""
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def _get_wasted_mem(size_list: List[int], blk_size: int):
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"""
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Get wasted byte for a certain block size.
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"""
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acc_wasted = 0
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left = 0
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for s in size_list:
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if left + s > blk_size:
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acc_wasted += blk_size - left
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left = s
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left += s
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acc_wasted += blk_size - left
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return acc_wasted
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param_size_list = [
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region.param_size for region in region_list if region.r_id == region.shared_rid]
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start_size = max(param_size_list)
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min_mem_waste = float('+inf')
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best_block_size = start_size
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for block_size in range(start_size, start_size + search_range_byte + 1, search_interval_byte):
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temp_waste = 0
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temp_waste += _get_wasted_mem(param_size_list, block_size)
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if temp_waste < min_mem_waste:
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min_mem_waste = temp_waste
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best_block_size = block_size
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return best_block_size
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def _init_region_data(self):
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"""
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Initialize region data, which maps the parameters in the region to a contiguous memory space.
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"""
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self.temp_fp32_data = torch.zeros(self.max_param_num, device='cuda', dtype=torch.float32)
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for region in self.region_list:
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pre_alloc_tensor = None
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if self.require_pool and region.r_id in self.rid_in_pool:
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block_idx = self.reg_to_block[region.r_id]
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pre_alloc_tensor = self.memory_pool[block_idx]
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if region.r_id <= region.shared_rid:
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region.init_param_data(pre_alloc_tensor)
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else:
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shared_region = self.region_list[region.shared_rid]
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region.fp16_data = shared_region.fp16_data
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region.fp32_data = shared_region.fp32_data
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region.param_to_range = shared_region.param_to_range
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region.temp_fp32_data = self.temp_fp32_data[:region.param_num].detach(
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)
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torch.cuda.empty_cache()
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def _process_shared_region(self):
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"""
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Special processing for the shared region, which uses GPT2 and Bert case as a priori knowledge.
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"""
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if len(self.shared_region_pairs):
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assert len(self.shared_region_pairs) <= 1
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former_reg, latter_reg = self.shared_region_pairs[0]
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assert latter_reg.param_num >= former_reg.param_num
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embedding_node = former_reg.nodes[-1]
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assert embedding_node.op == 'call_module' and isinstance(
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self.root_module.get_submodule(embedding_node.target), torch.nn.Embedding)
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if latter_reg.param_num > former_reg.param_num:
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for idx, n in enumerate(latter_reg.nodes):
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if (n.op == 'call_module' and isinstance(self.root_module.get_submodule(n.target),
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torch.nn.Linear)) or \
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(n.op == 'call_function' and n.target is torch.nn.functional.linear):
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cut_node_idx = idx + 1
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break
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assert len(latter_reg.fp16_params) == 2
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new_reg = latter_reg.split(cut_node_idx, 1)
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for p in new_reg.fp16_params:
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self.param_region_map[p] = new_reg
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self.region_list.insert(new_reg.r_id, new_reg)
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for reg in self.region_list[new_reg.r_id + 1:]:
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reg.r_id += 1
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latter_reg.shared_rid = former_reg.r_id
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former_reg.shared_rid = latter_reg.r_id
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def _linearize_graph(self) -> List[Region]:
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"""Linearizing the graph
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Args:
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graph (Graph): The computing graph to be optimized.
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Returns:
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List[Region]: each region contains the actual 'node' in linearized manner.
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Remarks:
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Do merge the inplace ops and shape-consistency ops into the previous node.
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"""
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# List of target name that could be seen as common node
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common_ops = ["getattr", "getitem", "size"]
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def _is_cop(target: Any) -> bool:
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"""Check if an op could be seen as common node
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Args:
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target (Any): node target
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Returns:
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bool
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"""
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if isinstance(target, str):
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return target in common_ops
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else:
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return target.__name__ in common_ops
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def _is_act(data: Any) -> bool:
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"""Check if an op could be seen as parameter computation start
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Args:
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data (Any): meta_data
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Returns:
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bool
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"""
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label = False
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if isinstance(data, torch.Tensor):
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return True
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elif isinstance(data, (tuple, list)):
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for d in data:
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label = label or _is_act(d)
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return label
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def _maybe_param_comp_start() -> bool:
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"""Check if an op could be seen as parameter computation start
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Args:
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n (Node): node
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Returns:
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bool
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"""
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label = False
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if n.op == "get_attr":
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label = True
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elif n.op == "call_module":
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target = n.target
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submod = self.root_module.get_submodule(target)
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if (
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len(list(submod.named_parameters(recurse=False))) != 0
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or len(list(submod.named_buffers(recurse=False))) != 0
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):
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label = True
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return label and not sum([v for _, v in param_op_deps.items()])
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def _is_param_comp_end() -> bool:
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"""Check if an op could be seen as parameter computation end
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Args:
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n (Node): node
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Returns:
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bool
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"""
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def _is_inplace(n: Node):
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"""Get the inplace argument from ``torch.fx.Node``
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"""
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inplace = False
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if n.op == "call_function":
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inplace = n.kwargs.get("inplace", False)
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elif n.op == "call_module":
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inplace = getattr(n.graph.owning_module.get_submodule(
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n.target), "inplace", False)
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return inplace
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label = False
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if n.op == "call_module":
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target = n.target
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submod = self.root_module.get_submodule(target)
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if (
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len(list(submod.named_parameters(recurse=False))) != 0
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or len(list(submod.named_buffers(recurse=False))) != 0
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):
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label = True
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elif n.op == "call_function":
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label = any(map(lambda x: x.name in self.only_param_ops, n.all_input_nodes)) and any(
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map(lambda x: x.name not in self.only_param_ops and not _is_cop(n.target), n.all_input_nodes))
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return label and not sum([v for _, v in param_op_deps.items()]) and not any(map(_is_inplace, n.users))
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def _exception_node_handling():
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# TODO meta info prop bug
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if n.name.__contains__("transpose") and n.meta['fwd_out'][0].dim() <= 2:
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n.meta['fwd_out'] = []
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# make sure that item in cnode is valid
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if self.cnode:
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for name in self.cnode:
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try:
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assert next(node for node in self.graph.nodes if node.name == name).op == "placeholder", \
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f"Common node {name} is not an input of the model."
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except StopIteration:
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raise ValueError(f"Common node name {name} not in graph.")
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else:
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self.cnode = []
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node_id = 0
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region_id = 0
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param_op_deps = {}
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deps = {}
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region_list = []
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region = Region(r_id=region_id)
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act_n = None
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for n in self.graph.nodes:
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if n.op != "placeholder" and n.op != "output":
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for n_par in n.all_input_nodes:
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if n_par.op != "placeholder" and n_par.name not in self.cnode:
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deps[n_par] -= 1
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if n_par.op != "placeholder" and n_par.name in self.only_param_ops:
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param_op_deps[n_par] -= 1
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if act_n in region.nodes and _maybe_param_comp_start():
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ns = []
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border_n_idx = region.nodes.index(act_n)
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if border_n_idx < len(region.nodes):
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ns = region.nodes[border_n_idx + 1:]
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region.nodes = region.nodes[:border_n_idx + 1]
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region_list.append(region)
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region_id += 1
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region = Region(r_id=region_id)
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region.nodes = ns
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_exception_node_handling()
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region.nodes.append(n)
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self._set_node_and_region_info(node_id, n, region)
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node_id += 1
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# if the node could free all dependencies in graph
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# we could begin a new region
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if _is_param_comp_end():
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region_list.append(region)
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region_id += 1
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region = Region(r_id=region_id)
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# propagate common node attr if possible
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if len(n.all_input_nodes) == len([node for node in n.all_input_nodes if node.name in self.cnode
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]) or _is_cop(n.target):
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self.cnode.append(n.name)
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else:
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deps[n] = len(
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[user for user in n.users if user.op != "output"])
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# propagate param node attr if possible
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if len(n.all_input_nodes) == len([node for node in n.all_input_nodes if node.name in self.only_param_ops
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]) or n.op == "get_attr":
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self.only_param_ops.append(n.name)
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param_op_deps[n] = len(
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[user for user in n.users if user.op != "output"])
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# record last activation node
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if _is_act(n._meta_data):
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act_n = n
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if len(region.nodes):
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region_list.append(region)
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return region_list
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def _set_node_and_region_info(self, node_id: int, cur_n: Node, cur_reg: Region):
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cur_n.node_info = NodeInfo(node_id)
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if cur_n.op == 'call_module':
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target = cur_n.target
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submod = self.root_module.get_submodule(target)
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for p in list(submod.parameters(recurse=False)):
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if p in self.param_region_map:
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cur_reg.shared_rid = self.param_region_map[p].r_id
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self.param_region_map[p].shared_rid = cur_reg.r_id
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self.shared_region_pairs.append(
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(self.param_region_map[p], cur_reg))
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else:
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self.param_region_map[p] = cur_reg
|
|
|
|
cur_reg.fp16_params.append(p)
|
|
cur_reg.param_num += p.data.numel()
|
|
cur_reg.param_size += p.data.numel() * p.data.element_size()
|
|
|
|
elif cur_n.op == "get_attr":
|
|
attr_itr = self.root_module
|
|
atoms = cur_n.target.split(".")
|
|
for atom in atoms:
|
|
attr_itr = getattr(attr_itr, atom)
|
|
|
|
if isinstance(attr_itr, torch.nn.Parameter):
|
|
|
|
if attr_itr in self.param_region_map:
|
|
cur_reg.shared_rid = self.param_region_map[attr_itr].r_id
|
|
self.param_region_map[attr_itr].shared_rid = cur_reg.r_id
|
|
self.shared_region_pairs.append(
|
|
(self.param_region_map[attr_itr], cur_reg))
|
|
else:
|
|
self.param_region_map[attr_itr] = cur_reg
|
|
|
|
cur_reg.fp16_params.append(attr_itr)
|
|
cur_reg.param_num += attr_itr.data.numel()
|
|
cur_reg.param_size += attr_itr.data.numel() * attr_itr.data.element_size()
|
|
|
|
def get_region(self, param: torch.nn.Parameter) -> Region:
|
|
"""
|
|
Return the region owning the parameter.
|
|
|
|
Args:
|
|
param (torch.nn.Parameter): a torch parameter object
|
|
"""
|
|
return self.param_region_map[param]
|
|
|
|
def __update_param_region_map(self, params: List[torch.nn.Parameter], region: Region):
|
|
for p in params:
|
|
self.param_region_map[p] = region
|