planner.py 40.9 KB
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# Copyright (c) 2021 PaddlePaddle Authors. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

import copy
import time
import random
from functools import reduce
from itertools import chain, product
from collections import OrderedDict

import numpy as np

import paddle
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from paddle.distributed.fleet import auto
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from .cost_model import estimate_cost
from .dist_op import DistributedOperator
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from .process_group import get_process_group
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from .operators.common import is_elementwise_op
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from .operators.common import get_distributed_operator_impl_container
from .utils import update_op_dims_mapping_by_default_dist_impl
from .utils import update_op_dims_mapping_by_elementwise_like_dist_impl
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from .utils import get_all_distributed_main_program
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from .dist_context import DistributedContext, DistributedOperatorContext
from .dist_attribute import OperatorDistributedAttribute, TensorDistributedAttribute

paddle.seed(123)
random.seed(123)
np.random.seed(123)


class PlanFilter:
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    @staticmethod
    def check_dims_mapping_for_tensor(process_mesh_topology, tensor_shape,
                                      dims_mapping):
        valid = True
        assert len(tensor_shape) == len(dims_mapping)

        for idx, dim_mapping in enumerate(dims_mapping):
            if dim_mapping != -1:
                if tensor_shape[idx] % process_mesh_topology[
                        dim_mapping] != 0 or dims_mapping.count(
                            dim_mapping) > 1:
                    valid = False
            if dim_mapping != -1 and process_mesh_topology[0] == 1:
                valid = False

        return valid

    @staticmethod
    def check_dims_mapping_for_op(op, op_dist_attr, vars):
        process_mesh = op_dist_attr.process_mesh
        assert process_mesh is not None, "The process mesh should not be None."
        for var_name in op.input_arg_names:
            dims_mapping = op_dist_attr.get_input_dims_mapping(var_name)
            if not PlanFilter.check_dims_mapping_for_tensor(
                    process_mesh.topology, vars[var_name].shape, dims_mapping):
                return False
            if vars[var_name].is_data and len(dims_mapping) > 1:
                for dim in dims_mapping[1:]:
                    if dim != -1:
                        return False

        for var_name in op.output_arg_names:
            dims_mapping = op_dist_attr.get_output_dims_mapping(var_name)
            if not PlanFilter.check_dims_mapping_for_tensor(
                    process_mesh.topology, vars[var_name].shape, dims_mapping):
                return False

        return True

    @staticmethod
    def check_dims_mapping_for_special_op(op, op_dist_attr, vars):
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        # NOTE: Those ops has some partition limits, and will be solved when corresponding dist op implemented in the future.
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        if op.type == "elementwise_add" or op.type == 'layer_norm' or op.type == "softmax_with_cross_entropy":
            for name in op.input_arg_names:
                for item in op_dist_attr.get_input_dims_mapping(name):
                    if item != -1:
                        return False
            for name in op.output_arg_names:
                for item in op_dist_attr.get_output_dims_mapping(name):
                    if item != -1:
                        return False
        if op.type == "lookup_table_v2":
            for name in op.input_arg_names:
                if name == 'pos_embeddings':
                    for item in op_dist_attr.get_input_dims_mapping(name):
                        if item != -1:
                            return False
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        return True


class PlanSpace:
    not_enum_ops = ["create_py_reader", "create_double_buffer_reader", "read"]
    special_vars = [
        "lod_tensor_blocking_queue_0", "create_py_reader_0", "double_buffer_0"
    ]

    @staticmethod
    def _enum_dims_mapping(process_mesh_topology, visited, path, depth, res,
                           tensor_shape):
        """Enumerate dims mapping of tensor by the given process_mesh_topology"""
        nums = list(range(-1, len(process_mesh_topology)))
        if depth == len(tensor_shape):
            valid = True
            for idx, item in enumerate(path):
                if item != -1:
                    if tensor_shape[idx] % process_mesh_topology[
                            item] != 0 or path.count(item) > 1:
                        valid = False
            if valid:
                res.append(copy.deepcopy(path))
            return

        for i in range(len(nums)):
            if not visited[i]:
                if i != 0:
                    visited[i] = True
                path.append(nums[i])
                PlanSpace._enum_dims_mapping(process_mesh_topology, visited,
                                             path, depth + 1, res, tensor_shape)
                visited[i] = False
                path.pop()

    @staticmethod
    def enum_process_mesh_topology(processes):
        """Enumerate all process meshes with the given processes."""
        assert processes >= 1, "The processes must be number and greater than 0."
        # compute divisors
        divisors = []
        for i in range(1, processes + 1):
            if processes % i == 0:
                divisors.append(i)

        # compute valid process mesh
        results = []
        for i in range(len(divisors) - 1, 0, -1):
            result = []
            result.append(divisors[i])
            if i == len(divisors) - 1:
                results.append(copy.deepcopy(result))
                continue

            j = 1
            while j < len(divisors):
                if len(result) == 1:
                    result.append(divisors[j])
                elif len(result) == 2:
                    if processes % (result[0] * result[1]) == 0:
                        if processes // (result[0] * result[1]) == 1:
                            results.append(copy.deepcopy(result))
                            break
                        else:
                            result.append(processes // (result[0] * result[1]))
                            results.append(copy.deepcopy(result))
                            result.pop(-1)
                            result.pop(-1)
                            j += 1
                    else:
                        if result[0] * result[1] < processes:
                            result.pop(-1)
                            j += 1
                        else:
                            break
        return results

    @staticmethod
    def _enum_valid_dist_attr_for_op(program, op, process_mesh):
        """Enumerate the valid distributed attribute for op based on the given process mesh."""
        vars = program.global_block().vars
        dims_mapping_dict = OrderedDict()
        op_valid_dist_attrs = []
        dist_op_impl_container = get_distributed_operator_impl_container(
            op.type)

        # enumerate all valid dims mapping of tensor when process mesh given
        for var_name in chain(op.input_arg_names, op.output_arg_names):
            visited = [
                False
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                for _ in range(len(list(range(-1, len(process_mesh.topology)))))
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            ]
            depth = 0
            path = []
            dims_mapping_list = []
            PlanSpace._enum_dims_mapping(process_mesh.topology, visited, path,
                                         depth, dims_mapping_list,
                                         vars[var_name].shape)
            dims_mapping_dict[var_name] = copy.deepcopy(dims_mapping_list)

        # compose dims mapping
        composed_dims_mapping_list = list(
            product(
                *[dims_mapping_dict[key] for key in dims_mapping_dict.keys()]))
        for composed_dims_mapping in composed_dims_mapping_list:
            op_dist_attr = OperatorDistributedAttribute()
            op_dist_attr.process_mesh = process_mesh
            var_names = list(dims_mapping_dict.keys())

            for idx, dims_mapping in enumerate(composed_dims_mapping):
                if var_names[idx] in op.input_arg_names:
                    op_dist_attr.set_input_dims_mapping(var_names[idx],
                                                        dims_mapping)
                elif var_names[idx] in op.output_arg_names:
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                    op_dist_attr.set_output_dims_mapping(
                        var_names[idx], dims_mapping)
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                else:
                    raise ValueError(
                        "The {varname} is not input or output of op {op}.".
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                        format(varname='var_names[idx]', op='op'))
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            dist_op = DistributedOperator(op, op_dist_attr)
            if dist_op_impl_container is None:
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                if is_elementwise_op(op.type):
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                    changed = True
                    valid = True
                    try:
                        changed = update_op_dims_mapping_by_elementwise_like_dist_impl(
                            dist_op)
                    except Exception as e:
                        valid = False
                    if valid and not changed:
                        if PlanFilter.check_dims_mapping_for_op(
                                op, dist_op.dist_attr, vars
                        ) and PlanFilter.check_dims_mapping_for_special_op(
                                op, dist_op.dist_attr, vars):
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                            dist_op.dist_attr.impl_type = "elementwise"
                            dist_op.dist_attr.impl_idx = 0
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                            op_valid_dist_attrs.append(dist_op.dist_attr)
                    continue
                else:
                    changed = True
                    valid = True
                    try:
                        changed = update_op_dims_mapping_by_default_dist_impl(
                            dist_op)
                    except Exception as e:
                        valid = False
                    if valid and not changed:
                        if PlanFilter.check_dims_mapping_for_op(
                                op, dist_op.dist_attr, vars
                        ) and PlanFilter.check_dims_mapping_for_special_op(
                                op, dist_op.dist_attr, vars):
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                            dist_op.dist_attr.impl_type = "default"
                            dist_op.dist_attr.impl_idx = 0
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                            op_valid_dist_attrs.append(dist_op.dist_attr)
                    continue

            # if op has distributed implements, find all valid dist attr of this op
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            impls = dist_op_impl_container.impls
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            for idx, impl in enumerate(impls):
                if impl.is_auto_compatible(dist_op):
                    if PlanFilter.check_dims_mapping_for_op(
                            op, dist_op.dist_attr, vars):
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                        dist_op.dist_attr.impl_type = dist_op.serial_op.type
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                        dist_op.dist_attr.impl_idx = idx
                        op_valid_dist_attrs.append(dist_op.dist_attr)

        # set default dist attr for some special ops whose distributed attributes can not be enumerated
        if not op_valid_dist_attrs:
            op_dist_attr = OperatorDistributedAttribute()
            op_dist_attr.process_mesh = process_mesh
            dist_op = DistributedOperator(op, op_dist_attr)
            for var_name in op.input_arg_names:
                op_dist_attr.set_input_dims_mapping(
                    vars[var_name], [-1 for i in vars[var_name].shape])
            for var_name in op.output_arg_names:
                op_dist_attr.set_output_dims_mapping(
                    vars[var_name], [-1 for i in vars[var_name].shape])
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            dist_op.dist_attr.impl_type = "default"
            dist_op.dist_attr.impl_idx = 0
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            op_valid_dist_attrs.append(dist_op.dist_attr)

        return op_valid_dist_attrs

    @staticmethod
    def enum_valid_dist_attr_for_program(program,
                                         process_mesh_topology,
                                         is_pipeline=False):
        """Enumerate valid distributed attributes for all ops in program."""
        valid_dist_attr_dict = OrderedDict()
        ops = program.global_block().ops
        vars = program.global_block().vars

        processes = reduce(lambda x, y: x * y, process_mesh_topology)
        global_group = [i for i in range(processes)]
        global_process_mesh = None
        pipeline_process_meshes = None

        # in the pipeline mode, there are some process meshes
        if is_pipeline:
            pipeline_stages = process_mesh_topology[-1]
            op_count_per_stage = len(ops) // pipeline_stages
            if len(process_mesh_topology) > 1:
                process_mesh_shape = process_mesh_topology[:-1]
                per_process_mesh_group = processes // pipeline_stages
                pipeline_process_meshes = [auto.ProcessMesh(mesh=np.array(global_group[i*per_process_mesh_group: \
                (i+1)*per_process_mesh_group]).reshape(process_mesh_shape).tolist()) for i in range(pipeline_stages)]
            elif len(process_mesh_topology) == 1:
                pipeline_process_meshes = [
                    auto.ProcessMesh(mesh=[i]) for i in range(pipeline_stages)
                ]
        else:
            if len(process_mesh_topology) > 1:
                global_process_mesh = auto.ProcessMesh(mesh=np.array(
                    global_group).reshape(process_mesh_topology).tolist())
            else:
                global_process_mesh = auto.ProcessMesh(mesh=global_group)

        # enumerate valid distributed attribute for each op in the program
        for idx, op in enumerate(ops):
            op_valid_dist_attrs = None
            op_process_mesh = global_process_mesh
            pipeline_stage = -1
            if pipeline_process_meshes is not None:
                pipeline_stage = idx // op_count_per_stage if idx // op_count_per_stage < len(
                    pipeline_process_meshes) else idx // op_count_per_stage - 1
                if pipeline_stage >= len(pipeline_process_meshes):
                    pipeline_stage = len(pipeline_process_meshes) - 1
                op_process_mesh = pipeline_process_meshes[pipeline_stage]

            if op.type in PlanSpace.not_enum_ops:
                op_dist_attr = OperatorDistributedAttribute()
                op_dist_attr.process_mesh = op_process_mesh
                for var_name in op.input_arg_names:
                    if var_name in PlanSpace.special_vars:
                        op_dist_attr.set_input_dims_mapping(var_name, [])
                    else:
                        dims_mapping = [-1 for i in vars[var_name].shape]
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                        op_dist_attr.set_input_dims_mapping(
                            var_name, dims_mapping)
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                for var_name in op.output_arg_names:
                    if var_name in PlanSpace.special_vars:
                        op_dist_attr.set_output_dims_mapping(var_name, [])
                    else:
                        dims_mapping = [-1 for i in vars[var_name].shape]
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                        op_dist_attr.set_output_dims_mapping(
                            var_name, dims_mapping)
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                op_valid_dist_attrs = [op_dist_attr]
                pipeline_stage = 0 if pipeline_stage != -1 else pipeline_stage
            else:
                op_valid_dist_attrs = PlanSpace._enum_valid_dist_attr_for_op(
                    program, op, op_process_mesh)

            assert op_valid_dist_attrs is not None, "Enumerate {} valid distributed attribute failed.".format(
                op)
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            valid_dist_attr_dict[op.desc.id()] = [
                op_valid_dist_attrs, pipeline_stage
            ]
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        return valid_dist_attr_dict, pipeline_process_meshes, global_process_mesh
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class SearchAlgorithm:
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    def __init__(self, name):
        self._name = name

    @property
    def name(self):
        self.name = name

    def search(self):
        raise NotImplementedError("Please Implement this method in subclass.")


class MCMC(SearchAlgorithm):
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    def __init__(self, serial_program_info, parallelizer, max_search_times=5):
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        super(MCMC, self).__init__("mcmc")
        self._serial_program_info = serial_program_info
        self._max_search_times = max_search_times
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        self._parallelizer = parallelizer
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    @property
    def serial_program_info(self):
        return self._serial_program_info

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    @property
    def parallelizer(self):
        return self._parallelizer

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    @property
    def max_search_times(self):
        return self._max_search_times

    def make_special_op_unshard(self, op, ops, vars, dist_context,
                                valid_dist_attr_dict):
        if op.type == "softmax_with_cross_entropy":
            for var_name in op.input_arg_names:
                dims_mapping = dist_context.get_op_dist_attr_for_program(
                    op).get_input_dims_mapping(var_name)
                if dims_mapping != dist_context.get_tensor_dist_attr_for_program(
                        vars[var_name]).dims_mapping:
                    has_changed = False
                    for search_op in ops:
                        if var_name in search_op.output_arg_names:
                            op_dist_attr_list = valid_dist_attr_dict[
                                search_op.desc.id()][0]
                            for op_dist_attr in op_dist_attr_list:
                                if op_dist_attr.get_output_dims_mapping(
                                        var_name) == dims_mapping:
                                    dist_context.set_op_dist_attr_for_program(
                                        search_op, op_dist_attr)
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                                    for name in search_op.output_arg_names:
                                        tensor_dist_attr = TensorDistributedAttribute(
                                        )
                                        tensor_dist_attr.process_mesh = op_dist_attr.process_mesh
                                        tensor_dist_attr.dims_mapping = op_dist_attr.get_output_dims_mapping(
                                            name)
                                        dist_context.set_tensor_dist_attr_for_program(
                                            vars[name], tensor_dist_attr)
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                                    has_changed = True
                                    break
                        if has_changed:
                            break
                    if not has_changed:
                        raise ValueError(
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                            "Change softmax_with_cross_entropy dist attr failed"
                        )
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    def init_program(self, valid_dist_attr_dict, program,
                     pipeline_process_meshes, global_process_mesh):
        ops = program.global_block().ops
        vars = program.global_block().vars
        new_dist_context = DistributedContext()

        for op in ops:
            op_valid_dist_attr_list = valid_dist_attr_dict[op.desc.id()][0]
            random_op_dist_attr = np.random.randint(
                len(op_valid_dist_attr_list))
            init_op_dist_attr = op_valid_dist_attr_list[random_op_dist_attr]
            new_dist_context.set_op_dist_attr_for_program(op, init_op_dist_attr)
            for var_name in op.input_arg_names:
                if var_name == "lod_tensor_blocking_queue_0":
                    continue
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                if new_dist_context.get_tensor_dist_attr_for_program(
                        vars[var_name]) is None:
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                    tensor_dist_attr = TensorDistributedAttribute()
                    tensor_dist_attr.process_mesh = init_op_dist_attr.process_mesh
                    tensor_dist_attr.dims_mapping = init_op_dist_attr.get_input_dims_mapping(
                        var_name)
                    new_dist_context.set_tensor_dist_attr_for_program(
                        vars[var_name], tensor_dist_attr)

            for var_name in op.output_arg_names:
                tensor_dist_attr = TensorDistributedAttribute()
                tensor_dist_attr.process_mesh = init_op_dist_attr.process_mesh
                tensor_dist_attr.dims_mapping = init_op_dist_attr.get_output_dims_mapping(
                    var_name)
                new_dist_context.set_tensor_dist_attr_for_program(
                    vars[var_name], tensor_dist_attr)

            # NOTE: this is a temporary solution to make softmax_with_cross_entropy unshard
            self.make_special_op_unshard(op, ops, vars, new_dist_context,
                                         valid_dist_attr_dict)

        # add process meshes to distributed context
        if global_process_mesh is not None:
            new_dist_context.add_process_mesh(global_process_mesh)
        elif pipeline_process_meshes is not None:
            for process_mesh in pipeline_process_meshes:
                new_dist_context.add_process_mesh(process_mesh)

        return new_dist_context

    def estimate_searched_strategy_cost(self,
                                        dist_context,
                                        pipeline_process_meshes=None):
        cost = None
        # get all distributed programs
        all_dist_main_program = get_all_distributed_main_program(
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            self.serial_program_info, dist_context, self.parallelizer)
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        pipeline_config = [
            process_mesh.processes for process_mesh in pipeline_process_meshes
        ] if pipeline_process_meshes is not None else None
        microbatch_size = 1
        for program in all_dist_main_program:
            searched_batch_size = False
            for var in program.list_vars():
                if var.is_data and "@RESHARD" in var.name:
                    microbatch_size = var.shape[0]
                    searched_batch_size = True
                    break
            if searched_batch_size:
                break

        from .utils import get_standalone_cost_data
        standalone_cost_data = get_standalone_cost_data(all_dist_main_program)

        # cost model does not support cluster argument
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        cost = estimate_cost(all_dist_main_program,
                             cluster=None,
                             pipeline_config=pipeline_config,
                             standalone_cost_data=standalone_cost_data,
                             batch_size=microbatch_size)
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        return cost

    def set_tensor_dist_attr(self, op, op_dist_attr, vars, dist_context):
        # set output tensor distributed attribute
        for var_name in op.output_arg_names:
            process_mesh = op_dist_attr.process_mesh
            tensor_dist_attr = TensorDistributedAttribute()
            tensor_dist_attr.process_mesh = process_mesh
            tensor_dist_attr.dims_mapping = op_dist_attr.get_output_dims_mapping(
                var_name)
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            dist_context.set_tensor_dist_attr_for_program(
                vars[var_name], tensor_dist_attr)
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        # set input tensor distributed attribute if input is data or parameter
        for var_name in op.input_arg_names:
            if vars[var_name].is_parameter or vars[var_name].is_data:
                process_mesh = op_dist_attr.process_mesh
                tensor_dist_attr = TensorDistributedAttribute()
                tensor_dist_attr.process_mesh = process_mesh
                tensor_dist_attr.dims_mapping = op_dist_attr.get_input_dims_mapping(
                    var_name)
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                dist_context.set_tensor_dist_attr_for_program(
                    vars[var_name], tensor_dist_attr)
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    def change_process_mesh(self, op, changed_process_mesh, vars, dist_context):
        dist_context.get_op_dist_attr_for_program(
            op).process_mesh = changed_process_mesh
        for var_name in op.output_arg_names:
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            dist_context.get_tensor_dist_attr_for_program(
                vars[var_name]).process_mesh = changed_process_mesh
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        for var_name in op.input_arg_names:
            if vars[var_name].is_parameter or vars[var_name].is_data:
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                dist_context.get_tensor_dist_attr_for_program(
                    vars[var_name]).process_mesh = changed_process_mesh
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    def search_once(self,
                    program,
                    valid_dist_attr_dict,
                    dist_context,
                    pipeline_process_meshes=None):
        raw_ops = program.global_block().ops
        ops = []
        for op in raw_ops:
            if op.type not in PlanSpace.not_enum_ops:
                ops.append(op)
        assert ops, "The ops of program have no distributed attributes."
        vars = program.global_block().vars
        new_dist_context = copy.deepcopy(dist_context)
        new_dist_context._dist_op_context = DistributedOperatorContext()
        new_valid_dist_attr_dict = None
        random_selected_op_idx = np.random.randint(len(ops))
        selected_op = ops[random_selected_op_idx]
        op_valid_dist_attr_list = valid_dist_attr_dict[selected_op.desc.id()][0]
        pipeline_stage = valid_dist_attr_dict[selected_op.desc.id()][1]
        random_selected_dist_attr_idx = np.random.randint(
            len(op_valid_dist_attr_list))
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        selected_op_dist_attr = copy.deepcopy(
            op_valid_dist_attr_list[random_selected_dist_attr_idx])
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        start_idx = ops[0].desc.id()
        if pipeline_stage > -1:
            # in pipeline mode, the above phase just select a dims mapping
            # 0 represents not changed, 1 represents to be the same with before stage, 2 represents to be the same with the latter stage
            new_valid_dist_attr_dict = copy.deepcopy(valid_dist_attr_dict)
            changed_mode = np.random.randint(3)
            if changed_mode == 0:
                # not change the process mesh, just change dims mapping
                new_dist_context.set_op_dist_attr_for_program(
                    selected_op, selected_op_dist_attr)
                self.set_tensor_dist_attr(selected_op, selected_op_dist_attr,
                                          vars, new_dist_context)

            elif changed_mode == 1:
                changed_stage = pipeline_stage - 1
                if changed_stage == -1 or random_selected_op_idx == len(ops) - 1 or \
                (random_selected_op_idx + 1 == len(ops) - 1 and new_valid_dist_attr_dict[ops[random_selected_op_idx + 1].desc.id()][1] == pipeline_stage + 1 ):
                    new_dist_context.set_op_dist_attr_for_program(
                        selected_op, selected_op_dist_attr)
                    self.set_tensor_dist_attr(selected_op,
                                              selected_op_dist_attr, vars,
                                              new_dist_context)

                else:
                    selected_op_process_mesh = pipeline_process_meshes[
                        pipeline_stage]
                    next_op_id = ops[random_selected_op_idx + 1].desc.id()
                    if new_valid_dist_attr_dict[next_op_id][
                            1] == pipeline_stage + 1 and random_selected_op_idx + 1 != len(
                                ops) - 1:
                        new_valid_dist_attr_dict[next_op_id][1] = pipeline_stage
                        for op_dist_attr in new_valid_dist_attr_dict[
                                next_op_id][0]:
                            op_dist_attr.process_mesh = selected_op_process_mesh
                        # set next op dist attr in the discontext and output/input tensor process mesh
                        self.change_process_mesh(
                            ops[random_selected_op_idx + 1],
                            selected_op_process_mesh, vars, new_dist_context)

                    # change the selected op stage and output dist attr
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                    new_valid_dist_attr_dict[
                        selected_op.desc.id()][1] = changed_stage
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                    new_process_mesh = pipeline_process_meshes[changed_stage]
                    selected_op_dist_attr.process_mesh = new_process_mesh
                    for op_dist_attr in new_valid_dist_attr_dict[
                            selected_op.desc.id()][0]:
                        op_dist_attr.process_mesh = new_process_mesh
                    new_dist_context.set_op_dist_attr_for_program(
                        selected_op, selected_op_dist_attr)

                    self.set_tensor_dist_attr(selected_op,
                                              selected_op_dist_attr, vars,
                                              new_dist_context)

                    # change the pre op stage
                    for idx in range(random_selected_op_idx - 1, -1, -1):
                        stage = new_valid_dist_attr_dict[ops[idx].desc.id()][1]
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                        valid_dist_attr_list = new_valid_dist_attr_dict[
                            ops[idx].desc.id()][0]
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                        new_process_mesh = pipeline_process_meshes[
                            changed_stage]
                        if stage == changed_stage + 1:
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                            new_valid_dist_attr_dict[
                                ops[idx].desc.id()][1] = changed_stage
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                            for op_dist_attr in valid_dist_attr_list:
                                op_dist_attr.process_mesh = new_process_mesh
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                            new_dist_context.get_op_dist_attr_for_program(
                                ops[idx]).process_mesh = new_process_mesh
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                            # change process mesh of the output and input tensor
                            self.change_process_mesh(ops[idx], new_process_mesh,
                                                     vars, new_dist_context)
                        else:
                            break

            else:
                changed_stage = pipeline_stage + 1
                if changed_stage == len(
                        pipeline_process_meshes) or random_selected_op_idx == 0 or \
                        (new_valid_dist_attr_dict[ops[random_selected_op_idx - 1].desc.id()][1] == pipeline_stage - 1 and (random_selected_op_idx == 1)):
                    new_dist_context.set_op_dist_attr_for_program(
                        selected_op, selected_op_dist_attr)
                    self.set_tensor_dist_attr(selected_op,
                                              selected_op_dist_attr, vars,
                                              new_dist_context)

                else:
                    selected_op_process_mesh = pipeline_process_meshes[
                        pipeline_stage]
                    pre_op_id = ops[random_selected_op_idx - 1].desc.id()
                    if new_valid_dist_attr_dict[pre_op_id][
                            1] == pipeline_stage - 1 and random_selected_op_idx != 1:
                        new_valid_dist_attr_dict[pre_op_id][1] = pipeline_stage
                        for op_dist_attr in new_valid_dist_attr_dict[pre_op_id][
                                0]:
                            op_dist_attr.process_mesh = selected_op_process_mesh
                        # set pre op dist attr in the discontext and output tensor process mesh
                        self.change_process_mesh(
                            ops[random_selected_op_idx - 1],
                            selected_op_process_mesh, vars, new_dist_context)

                    # change the selected op stage and output tensor dist attr
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                    new_valid_dist_attr_dict[
                        selected_op.desc.id()][1] = changed_stage
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                    new_process_mesh = pipeline_process_meshes[changed_stage]
                    selected_op_dist_attr.process_mesh = new_process_mesh
                    for op_dist_attr in new_valid_dist_attr_dict[
                            selected_op.desc.id()][0]:
                        op_dist_attr.process_mesh = new_process_mesh
                    new_dist_context.set_op_dist_attr_for_program(
                        selected_op, selected_op_dist_attr)
                    self.set_tensor_dist_attr(selected_op,
                                              selected_op_dist_attr, vars,
                                              new_dist_context)

                    # change the next op stage
                    for idx in range(random_selected_op_idx + 1, len(ops)):
                        stage = new_valid_dist_attr_dict[ops[idx].desc.id()][1]
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                        valid_dist_attr_list = new_valid_dist_attr_dict[
                            ops[idx].desc.id()][0]
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                        new_process_mesh = pipeline_process_meshes[
                            changed_stage]
                        if stage == changed_stage - 1:
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                            new_valid_dist_attr_dict[
                                ops[idx].desc.id()][1] = changed_stage
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                            for op_dist_attr in valid_dist_attr_list:
                                op_dist_attr.process_mesh = new_process_mesh

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                            new_dist_context.get_op_dist_attr_for_program(
                                ops[idx]).process_mesh = new_process_mesh
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                            # change the output tensor dist attr
                            self.change_process_mesh(ops[idx], new_process_mesh,
                                                     vars, new_dist_context)
                        else:
                            break
        else:
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            new_dist_context.set_op_dist_attr_for_program(
                selected_op, selected_op_dist_attr)
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            self.set_tensor_dist_attr(selected_op, selected_op_dist_attr, vars,
                                      new_dist_context)

        for op in ops:
            # make softmax_with_cross_entropy unshard
            if op.type == "softmax_with_cross_entropy":
                self.make_special_op_unshard(op, ops, vars, new_dist_context,
                                             valid_dist_attr_dict)
                break

        if new_valid_dist_attr_dict is None:
            return valid_dist_attr_dict, new_dist_context
        else:
            return new_valid_dist_attr_dict, new_dist_context

    def _search_core(self,
                     valid_dist_attr_dict,
                     init_dist_context,
                     pipeline_process_meshes=None):
        times = 0
        best_dist_context = init_dist_context
        cost = self.estimate_searched_strategy_cost(
            init_dist_context, pipeline_process_meshes).runtime
        min_cost = cost
        while times < self.max_search_times:
            times += 1
            new_dist_context = self.search_once(
                self.serial_program_info.train_program, valid_dist_attr_dict,
                best_dist_context, pipeline_process_meshes)[1]
            cur_cost = self.estimate_searched_strategy_cost(
                new_dist_context, pipeline_process_meshes).runtime
            if (min_cost - cur_cost) > 0:
                best_dist_context = copy.deepcopy(new_dist_context)
                min_cost = cur_cost
                times = 0
        return best_dist_context, min_cost

    def search(self):
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        print("Start MCMC searching.")
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        start_time = time.time()
        train_program = self.serial_program_info.train_program
        cluster = self.serial_program_info.cluster
        processes = paddle.distributed.get_world_size(
        ) if cluster is None else len(cluster.get_all_devices("GPU"))
        assert processes > 0, "Get process failed."

        process_mesh_topology_list = PlanSpace.enum_process_mesh_topology(
            processes)
        searched_dist_context = None
        min_cost = None

        searched_pipeline_dist_context = None
        pipeline_min_cost = None
        for process_mesh_topology in process_mesh_topology_list:
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            print("MCMC search: search process mesh {} with pipeline mode.".
                  format(process_mesh_topology))
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            valid_dist_attr_dict, pipeline_process_meshes, global_process_mesh = PlanSpace.enum_valid_dist_attr_for_program(
                train_program, process_mesh_topology, True)
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            init_dist_context = self.init_program(valid_dist_attr_dict,
                                                  train_program,
                                                  pipeline_process_meshes,
                                                  global_process_mesh)
            best_dist_context, cost = self._search_core(
                valid_dist_attr_dict, init_dist_context,
                pipeline_process_meshes)
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            print(
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                "MCMC search: the min cost is {} in the process mesh {} with pipeline mode."
                .format(cost, process_mesh_topology))
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            best_dist_context._dist_op_context = DistributedOperatorContext()
            pipeline_min_cost = cost if pipeline_min_cost is None else pipeline_min_cost
            searched_pipeline_dist_context = best_dist_context if searched_pipeline_dist_context is None else searched_pipeline_dist_context
            if pipeline_min_cost > cost:
                searched_pipeline_dist_context = best_dist_context
                pipeline_min_cost = cost

        searched_non_pipeline_dist_context = None
        non_pipeline_min_cost = None
        for process_mesh_topology in process_mesh_topology_list:
            # if process_mesh_topology shape is 3, include pipeline mode by default
            if len(process_mesh_topology) == 3:
                continue
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            print("MCMC search: search process mesh {} without pipeline mode.".
                  format(process_mesh_topology))
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            valid_dist_attr_dict, pipeline_process_meshes, global_process_mesh = PlanSpace.enum_valid_dist_attr_for_program(
                train_program, process_mesh_topology, False)
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            init_dist_context = self.init_program(valid_dist_attr_dict,
                                                  train_program,
                                                  pipeline_process_meshes,
                                                  global_process_mesh)
            best_dist_context, cost = self._search_core(
                valid_dist_attr_dict, init_dist_context,
                pipeline_process_meshes)
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            print(
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                "MCMC search: the min cost is {} in the process mesh {} without pipeline mode."
                .format(cost, process_mesh_topology))
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            best_dist_context._dist_op_context = DistributedOperatorContext()
            non_pipeline_min_cost = cost if non_pipeline_min_cost is None else non_pipeline_min_cost
            searched_non_pipeline_dist_context = best_dist_context if searched_non_pipeline_dist_context is None else searched_non_pipeline_dist_context
            if non_pipeline_min_cost > cost:
                searched_non_pipeline_dist_context = best_dist_context
                non_pipeline_min_cost = cost

        if non_pipeline_min_cost > pipeline_min_cost:
            searched_dist_context = searched_pipeline_dist_context
            min_cost = pipeline_min_cost
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            print(
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                "Better set FLAGS_benchmark=1 to avoid hang problem in the pipeline mode."
            )
        else:
            searched_dist_context = searched_non_pipeline_dist_context
            min_cost = non_pipeline_min_cost

        # rebuild g_process_group
        pg0 = get_process_group(0)
        for process_mesh in searched_dist_context._process_meshes:
            pg0.add_ranks(process_mesh.processes)
        end_time = time.time()
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        print(
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            "End MCMC searching: the min cost is {} and the search time is {}s."
            .format(min_cost, end_time - start_time))
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        return searched_dist_context, min_cost


class Planner:
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    def __init__(self,
                 serial_program_info,
                 parallelizer,
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                 algorithm_config=None):
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        self._serial_program_info = serial_program_info
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        self._parallelizer = parallelizer
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        self._algorithm_config = algorithm_config
        self._algorithm_searcher = self.create_algorithm_searcher(
            algorithm_config)

    @property
    def serial_program_info(self):
        return self._serial_program_info

    @property
    def algorithm_config(self):
        return self._algorithm_config

    @property
    def algorithm_searcher(self):
        return self._algorithm_searcher

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    @property
    def parallelizer(self):
        return self._parallelizer

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    def create_algorithm_searcher(self, algorithm_config):
        name = algorithm_config.get("name", None)
        assert name is not None, "Invalid algorithm config."

        algorithm_searcher = None
        if name == "mcmc":
            # NOTE: Only GPU clusters are supported now.
            max_search_times = algorithm_config.get("max_search_times", None)
            algorithm_searcher = MCMC(
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                self.serial_program_info, self.parallelizer,
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                max_search_times) if max_search_times is not None else MCMC(
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                    self.serial_program_info, self.parallelizer)
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        else:
            raise NotImplementedError(
                "Other search algorithms have not been supported now.")

        return algorithm_searcher

    def search(self):
        return self.algorithm_searcher.search()