refactor(mge/dtr): update dtr api

GitOrigin-RevId: dc366c65be
4 years ago · d4dd134d1a
--- a/imperative/python/megengine/init.py
+++ b/imperative/python/megengine/init.py
@@ -76,6 +76,7 @@ from .core._imperative_rt.core2 import full_sync as _full_sync
 from .core._imperative_rt.core2 import sync as _sync
 from .core._imperative_rt.utils import _set_fork_exec_path_for_timed_func
 from .device import *
 from .dtr import *
 from .logger import enable_debug_log, get_logger, set_log_file, set_log_level
 from .serialization import load, save
 from .tensor import Parameter, Tensor, tensor
--- a/imperative/python/megengine/dtr.py
+++ b/imperative/python/megengine/dtr.py
@@ -0,0 +1,131 @@
 # -*- coding: utf-8 -*-
 # MegEngine is Licensed under the Apache License, Version 2.0 (the "License")
 #
 # Copyright (c) 2014-2021 Megvii Inc. All rights reserved.
 #
 # Unless required by applicable law or agreed to in writing,
 # software distributed under the License is distributed on an
 # "AS IS" BASIS, WITHOUT ARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 import re
 from typing import Union

 from mprop import mproperty

 from .core._imperative_rt.core2 import set_option
 from .core._imperative_rt.utils import _set_defrag

 _eviction_threshold = 0
 _evictee_minimum_size = 1024 ** 2


 def str2bytes(text: str) -> int:
    regex = re.compile(r"(\d+(?:\.\d+)?)\s*([kmg]?b)", re.IGNORECASE)
    order = ["b", "kb", "mb", "gb"]
    result = regex.findall(text)
    if len(result) != 1:
        raise ValueError(
            "Formatting of `value` only supports bytes(B), kilobyte(KB), megabyte(MB) and gigabyte(GB) units"
        )
    return int(float(result[0][0]) * 1024 ** order.index(result[0][1].lower()))


@mproperty
 def eviction_threshold(mod):
    r"""
    Returns the eviction threshold in bytes.

    .. note::

       When GPU memory usage exceeds this value, DTR will heuristically select
       and evict resident tensors until the amount of used memory falls below
       this threshold.

    """
    return mod._eviction_threshold


@eviction_threshold.setter
 def eviction_threshold(mod, value: Union[int, str]):
    r"""
    Change the eviction threshold. If `value` is an int, it represents the
    number of bytes. If `value` is a string, its formatting supports bytes(B),
    kilobyte(KB), megabyte(MB) and gigabyte(GB) units.

    Examples:

    .. code-block::

        import megengine as mge
        mge.dtr.eviction_threshold = 2 * 1024 ** 3
        mge.dtr.eviction_threshold = "2GB"
        mge.dtr.eviction_threshold = "2048MB"

    """
    if isinstance(value, str):
        mod._eviction_threshold = mod.str2bytes(value)
    elif isinstance(value, int):
        mod._eviction_threshold = value
    else:
        raise TypeError("`value` should be a str or an int")
    set_option("dtr_eviction_threshold", mod._eviction_threshold)


@mproperty
 def evictee_minimum_size(mod):
    r"""
    Returns the memory threshold of tensors in bytes.

    .. note::

       Only tensors whose size exceeds this threshold will be added to the
       candidate set. A tensor that is not added to the candidate set will
       never be evicted during its lifetime.

    """
    return mod._evictee_minimum_size


@evictee_minimum_size.setter
 def evictee_minimum_size(mod, value: Union[int, str]):
    r"""
    Change the memory threshold of tensors. If `value` is an int, it represents
    the number of bytes. If `value` is a string, its formatting supports bytes(B),
    kilobyte(KB), megabyte(MB) and gigabyte(GB) units.

    Examples:

    .. code-block::

        import megengine as mge
        mge.dtr.evictee_minimum_size = 2 * 1024 ** 2
        mge.dtr.evictee_minimum_size = "2MB"
        mge.dtr.evictee_minimum_size = "2048KB"

    """
    if isinstance(value, str):
        mod._evictee_minimum_size = mod.str2bytes(value)
    elif isinstance(value, int):
        mod._evictee_minimum_size = value
    else:
        raise TypeError("`value` should be a str or an int")
    set_option("dtr_evictee_minimum_size", mod._evictee_minimum_size)


 def enable():
    r"""
    Enable to record computing path of tensors and to perform DTR policy.
    """
    _set_defrag(True)
    set_option("enable_dtr_auto_drop", 1)
    set_option("enable_drop", 1)
    set_option("buffer_length", 0)
    set_option("record_computing_path", 1)


 def disable():
    r"""
    Stop recording computing path of tensors and performing DTR policy.
    """
    set_option("enable_dtr_auto_drop", 0)
    set_option("enable_drop", 0)
    set_option("record_computing_path", 0)
--- a/imperative/python/megengine/utils/dtr.py
+++ b/imperative/python/megengine/utils/dtr.py
@@ -1,44 +0,0 @@
 # -*- coding: utf-8 -*-
 # MegEngine is Licensed under the Apache License, Version 2.0 (the "License")
 #
 # Copyright (c) 2014-2021 Megvii Inc. All rights reserved.
 #
 # Unless required by applicable law or agreed to in writing,
 # software distributed under the License is distributed on an
 # "AS IS" BASIS, WITHOUT ARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

 from ..core._imperative_rt.core2 import set_option
 from ..core._imperative_rt.utils import _set_defrag


 class DTR:
    r"""
    DTR implements `Dynamic Tensor Rematerialization <https://arxiv.org/abs/2006.09616>`_ in MegEngine.

    It is basically an online algorithm for checkpointing driven by certain eviction policies.

    .. code-block::
    
        from megengine.utils.dtr import DTR

        ds = DTR(memory_budget=5*1024**3)

        # your training code

    """

    def __init__(self, memory_budget=0, tensor_lowerbound=1048576):
        r"""
        :param memory_budget: int. The threshold of memory usage. When memory
        usage exceeds this value, auto evict will be triggered.
        :param tensor_lowerbound: int. The minimum memory limit of the tensor
        that can be evicted. Default: 1MB.
        """
        if memory_budget > 0:
            set_option("enable_auto_drop", 1)
            set_option("enable_drop", 1)
            set_option("buffer_length", 0)
            set_option("memory_budget", memory_budget)
            set_option("tensor_lowerbound", tensor_lowerbound)
            set_option("record_computing_path", 1)
            _set_defrag(True)
--- a/imperative/python/requires.txt
+++ b/imperative/python/requires.txt
@@ -6,3 +6,4 @@ tabulate
 tqdm
 redispy
 deprecated
 mprop
--- a/imperative/src/impl/interpreter/interpreter_impl.cpp
+++ b/imperative/src/impl/interpreter/interpreter_impl.cpp
@@ -422,7 +422,7 @@ void ChannelImpl::do_drop(TensorInfo* ptr, bool user=false) {
 }

 void ChannelImpl::free(TensorInfo* ptr) {
    if (m_worker_state.options.enable_auto_drop) {
    if (m_worker_state.options.enable_dtr_auto_drop) {
        // Evicting a tensor, rather than freeing it, can avoid pinning
        // potentially exploding amounts of memory and allow us to save
        // more memory.
@@ -459,7 +459,7 @@ void ChannelImpl::real_free(TensorInfo* ptr) {
    if (m_channel_state.profiler->is_profiling()) {
        m_channel_state.profiler->record_host<TensorEraseEvent>(ptr->id);
    }
    if (ptr->size_exceeds_thd(m_worker_state.options.tensor_lowerbound)) {
    if (ptr->size_exceeds_thd(m_worker_state.options.dtr_evictee_minimum_size)) {
        m_dtr.erase_candidate(ptr);
    }
    detach_users(ptr);
@@ -487,7 +487,7 @@ void ChannelImpl::produce_tensor(TensorInfo* dest, TensorPtr ptr, bool notice=tr
    dest->memory = ptr->blob()->size();
    dest->ptr = std::move(ptr);
    dest->evict_type = EvictType::NONE;
    if (notice && dest->size_exceeds_thd(m_worker_state.options.tensor_lowerbound)) {
    if (notice && dest->size_exceeds_thd(m_worker_state.options.dtr_evictee_minimum_size)) {
        m_dtr.insert_candidate(dest);
    }
    if (notice && m_waitee == dest) {
@@ -519,7 +519,7 @@ void ChannelImpl::recompute(TensorInfo::ComputePath* path) {
        inputs.push_back(i->ptr);
        m_dtr.update_used_time(i);
    }
    if (m_worker_state.options.enable_auto_drop && m_worker_state.options.memory_budget > 0) {
    if (m_worker_state.options.enable_dtr_auto_drop && m_worker_state.options.dtr_eviction_threshold > 0) {
        auto_evict();
    }
    auto outputs = OpDef::apply_on_physical_tensor(*path->op, inputs);
@@ -531,7 +531,7 @@ void ChannelImpl::recompute(TensorInfo::ComputePath* path) {
            o->recompute_times ++;
            if (!o->ptr) {
                produce_tensor(o, std::move(outputs[i]), false);
                if (m_worker_state.options.enable_auto_drop) {
                if (m_worker_state.options.enable_dtr_auto_drop) {
                    m_dtr.update_dsu_after_recompute(o);
                }
            }
@@ -544,7 +544,7 @@ void ChannelImpl::auto_evict() {
        return;
    }
    size_t current_memory = m_dtr.comp_node.get_used_memory();
    while (current_memory > m_worker_state.options.memory_budget) {
    while (current_memory > m_worker_state.options.dtr_eviction_threshold) {
        auto best = m_dtr.find_best_tensor();
        if (!best) {
            if (!m_dtr.warn_printed) {
@@ -642,7 +642,7 @@ void ChannelImpl::process_one_task(IdentifiedCommand& icmd) {
                uint64_t apply_id = ++m_last_id;
                SmallVector<TensorPtr> tensor_inputs;
                SmallVector<CompNode> devices;
                if (m_worker_state.options.enable_auto_drop) {
                if (m_worker_state.options.enable_dtr_auto_drop) {
                    m_dtr.pin(cmd.inputs);
                }
                for (auto i : cmd.inputs) {
@@ -696,7 +696,7 @@ void ChannelImpl::process_one_task(IdentifiedCommand& icmd) {
                        m_worker_state.profiler->record_device<DeviceOpExecuteEvent>(device, event_data);
                    }
                }
                if (m_worker_state.options.enable_auto_drop && m_worker_state.options.memory_budget > 0) {
                if (m_worker_state.options.enable_dtr_auto_drop && m_worker_state.options.dtr_eviction_threshold > 0) {
                    auto_evict();
                }
                // Apply op
@@ -712,7 +712,7 @@ void ChannelImpl::process_one_task(IdentifiedCommand& icmd) {
                }
                // End profiling operator
                double estimate_compute_time = 0;
                if (m_worker_state.options.enable_auto_drop) {
                if (m_worker_state.options.enable_dtr_auto_drop) {
                    for (auto i : cmd.inputs) {
                        estimate_compute_time += i->memory;
                    }
@@ -735,7 +735,7 @@ void ChannelImpl::process_one_task(IdentifiedCommand& icmd) {
                        continue;
                    }
                    produce_tensor(cmd.outputs[i], std::move(tensor_outputs[i]));
                    if (m_worker_state.options.enable_auto_drop) {
                    if (m_worker_state.options.enable_dtr_auto_drop) {
                        cmd.outputs[i]->dsu_ptr = std::make_shared<DsuNode>(estimate_compute_time);
                    }
                }
@@ -774,7 +774,7 @@ void ChannelImpl::process_one_task(IdentifiedCommand& icmd) {
                        TensorInfo::ComputePath::make(cmd.op, cmd.inputs, cmd.outputs);
                        size_t detach_cnt = 0;
                        for (auto output : cmd.outputs) {
                            if (!output->size_exceeds_thd(m_worker_state.options.tensor_lowerbound)) {
                            if (!output->size_exceeds_thd(m_worker_state.options.dtr_evictee_minimum_size)) {
                                output->detach_producer();
                                detach_cnt ++;
                            }
--- a/imperative/src/impl/interpreter/option_manager.h
+++ b/imperative/src/impl/interpreter/option_manager.h
@@ -39,10 +39,10 @@ public:
        "set command buffer length.");
    DEF_OPTION(enable_host_compute,     "MEGENGINE_HOST_COMPUTE",           1,
        "enable host compute, thus computation may be done in host event if it's device is gpu.");
    DEF_OPTION(enable_auto_drop,        "MEGENGINE_AUTO_DROP",              0, "");
    DEF_OPTION(memory_budget,           "MEGENGINE_MEMORY_BUDGET",          0,
    DEF_OPTION(enable_dtr_auto_drop,    "MEGENGINE_DTR_AUTO_DROP",          0, "");
    DEF_OPTION(dtr_eviction_threshold,  "MEGENGINE_DTR_EVICTION_THRESHOLD", 0,
        "auto drop will start whenever gpu memory usage exceeds this value.");
    DEF_OPTION(tensor_lowerbound,       "MEGENGINE_TENSOR_LOWERBOUND",      1048576,
    DEF_OPTION(dtr_evictee_minimum_size, "MEGENGINE_DTR_EVICTEE_MINIMUM_SIZE", 1048576,
        "the minimum memory value of a tensor added to the candidate set");
    DEF_OPTION(record_computing_path,   "MEGENGINE_RECORD_COMPUTING_PATH",  0, "");