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from .estimate_memory import EstimateMemory
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from .reorder_graph import ReorderGraph
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from .trace_indice import TraceIndice
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from .utils import is_non_compute_node
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class SelectChunk(object):
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def __init__(
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self,
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trace_indice: TraceIndice,
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estimate_memory: EstimateMemory,
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reorder_graph: ReorderGraph,
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max_memory=None,
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):
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self.trace_indice = trace_indice
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self.estimate_memory = estimate_memory
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self.reorder_graph = reorder_graph
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if max_memory is not None:
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self.stratge = "fit_memory"
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self.max_memory = max_memory # MB
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else:
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self.stratge = "min_memory"
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def _select_best_chunk_region(self, possible_chunk_regions, chunk_infos, peak_node, max_chunk_region, mem_peak):
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if self.stratge == "min_memory":
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best_region = self._select_min_memory_chunk_region(
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possible_chunk_regions,
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chunk_infos,
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peak_node,
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max_chunk_region,
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mem_peak,
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)
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elif self.stratge == "fit_memory":
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best_region = self._select_fit_memory_chunk_region(
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possible_chunk_regions,
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chunk_infos,
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peak_node,
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max_chunk_region,
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mem_peak,
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)
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else:
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raise RuntimeError()
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return best_region
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def _select_fit_memory_chunk_region(self, possible_chunk_regions, chunk_infos, peak_node, max_chunk_region,
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mem_peak):
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# stop chunk if max memory satisfy memory limit
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if max(mem_peak) < self.max_memory:
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return None
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# remove illegal regions
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illegal_regions = []
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for i in possible_chunk_regions:
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if not self._is_legal_region(i, chunk_infos):
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illegal_regions.append(i)
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for i in illegal_regions:
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if i in possible_chunk_regions:
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possible_chunk_regions.remove(i)
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if len(possible_chunk_regions) == 0:
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return None
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max_possible_chunk_region = (min([i["region"][0] for i in possible_chunk_regions]),
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max([i["region"][1] for i in possible_chunk_regions]))
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# get mem for chunk region
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regions_dict = []
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for region in possible_chunk_regions:
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cur_region = region.copy()
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cur_node_list, cur_region = self.reorder_graph.tmp_reorder(self.trace_indice.node_list, cur_region)
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cur_chunk_infos = chunk_infos + [cur_region]
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cur_mem_peak = self.estimate_memory.estimate_chunk_inference_mem(cur_node_list, cur_chunk_infos)[0]
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cur_chunk_region_peak = cur_mem_peak[max_possible_chunk_region[0]:max_possible_chunk_region[1] + 1]
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cur_chunk_region_max_peak = max(cur_chunk_region_peak)
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if cur_chunk_region_max_peak < self.max_memory:
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regions_dict.append({
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"chunk_info": region,
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"chunk_max_mem": cur_chunk_region_max_peak,
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"chunk_len": self._get_compute_node_num(region["region"][0], region["region"][1]),
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"reorder_chunk_info": cur_region,
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"reorder_node_list": cur_node_list,
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})
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# no region found
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if len(regions_dict) == 0:
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raise RuntimeError("Search failed. Try a larger memory threshold.")
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# select the min chunk len
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chunk_len = [i["chunk_len"] for i in regions_dict]
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best_region_idx = chunk_len.index(min(chunk_len))
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best_region = regions_dict[best_region_idx]
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# get max chunk size
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best_region = self._get_fit_chunk_size(best_region, chunk_infos)
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return best_region
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def _get_fit_chunk_size(self, chunk_region_dict, chunk_infos):
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chunk_size = 1
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reorder_chunk_info = chunk_region_dict["reorder_chunk_info"]
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reorder_chunk_info["chunk_size"] = chunk_size
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cur_chunk_max_mem = 0
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# search a region
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while cur_chunk_max_mem < self.max_memory:
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chunk_size *= 2
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reorder_chunk_info["chunk_size"] = chunk_size
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cur_chunk_infos = chunk_infos + [reorder_chunk_info]
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cur_mem_peak = self.estimate_memory.estimate_chunk_inference_mem(chunk_region_dict["reorder_node_list"],
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cur_chunk_infos)[0]
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cur_chunk_max_mem = max(cur_mem_peak[reorder_chunk_info["region"][0]:reorder_chunk_info["region"][1] + 1])
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# search exact size
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chunk_info = chunk_region_dict["chunk_info"]
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chunk_info["chunk_size"] = self._chunk_size_binary_search(chunk_size // 2, chunk_size, chunk_region_dict,
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chunk_infos)
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return chunk_info
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def _chunk_size_binary_search(self, left, right, chunk_region_dict, chunk_infos):
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if left >= 16:
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gap = 4
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else:
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gap = 1
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chunk_info = chunk_region_dict["reorder_chunk_info"]
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while right >= left + gap:
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mid = int((left + right) / 2 + 0.5)
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chunk_info["chunk_size"] = mid
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cur_chunk_infos = chunk_infos + [chunk_info]
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cur_mem_peak = self.estimate_memory.estimate_chunk_inference_mem(chunk_region_dict["reorder_node_list"],
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cur_chunk_infos)[0]
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cur_chunk_max_mem = max(cur_mem_peak[chunk_info["region"][0]:chunk_info["region"][1] + 1])
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if cur_chunk_max_mem >= self.max_memory:
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right = mid - gap
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else:
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left = mid + gap
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return left
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def _get_compute_node_num(self, start, end):
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count = 0
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for i in self.trace_indice.node_list[start:end + 1]:
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if not is_non_compute_node(i):
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count += 1
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return count
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def _select_min_memory_chunk_region(self, possible_chunk_regions, chunk_infos, peak_node, max_chunk_region,
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mem_peak):
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# remove illegal regions
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illegal_regions = []
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for i in possible_chunk_regions:
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if not self._is_legal_region(i, chunk_infos):
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illegal_regions.append(i)
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for i in illegal_regions:
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if i in possible_chunk_regions:
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possible_chunk_regions.remove(i)
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if len(possible_chunk_regions) == 0:
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return None
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# get max possible chunk region
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max_possible_chunk_region = (min([i["region"][0] for i in possible_chunk_regions]),
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max([i["region"][1] for i in possible_chunk_regions]))
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# get mem for chunk region
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regions_dict_list = []
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for region in possible_chunk_regions:
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cur_region = region.copy()
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cur_node_list, cur_region = self.reorder_graph.tmp_reorder(self.trace_indice.node_list, cur_region)
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cur_chunk_infos = chunk_infos + [cur_region]
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cur_mem_peak = self.estimate_memory.estimate_chunk_inference_mem(cur_node_list, cur_chunk_infos)[0]
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cur_chunk_region_peak = cur_mem_peak[max_possible_chunk_region[0]:max_possible_chunk_region[1] + 1]
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cur_chunk_region_max_peak = max(cur_chunk_region_peak)
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regions_dict_list.append({
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"chunk_info": region,
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"chunk_max_mem": cur_chunk_region_max_peak,
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"chunk_len": self._get_compute_node_num(region["region"][0], region["region"][1]),
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"reorder_chunk_info": cur_region,
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"reorder_node_list": cur_node_list,
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})
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# select the min mem
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chunk_max_mem = [i["chunk_max_mem"] for i in regions_dict_list]
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best_region_idx = chunk_max_mem.index(min(chunk_max_mem))
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best_region = regions_dict_list[best_region_idx]["chunk_info"]
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if best_region is not None:
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best_region["chunk_size"] = 1
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return best_region
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def _is_legal_region(self, cur_chunk_info, chunk_infos):
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(chunk_region_start, chunk_region_end) = cur_chunk_info["region"]
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if cur_chunk_info in chunk_infos:
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return False
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if chunk_region_end < chunk_region_start:
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return False
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for i in chunk_infos:
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region = i["region"]
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if not ((chunk_region_start > region[1] and chunk_region_end > region[1]) or
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(chunk_region_start < region[0] and chunk_region_end < region[0])):
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return False
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return True
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