feat(mge/jit): add trace/dump options

GitOrigin-RevId: 0f43c14599
4 years ago · 478f2c51dc
--- a/imperative/python/megengine/core/tensor/megbrain_graph.py
+++ b/imperative/python/megengine/core/tensor/megbrain_graph.py
@@ -14,6 +14,7 @@ from concurrent.futures import Future, ThreadPoolExecutor
 import numpy as np
 from .. import _imperative_rt
 from .._imperative_rt import GraphOptimizeOptions
 from .._imperative_rt.ops import BackwardGraph
 from .._wrap import device as as_device
 from ..ops.builtin import OpDef
@@ -83,6 +84,84 @@ class Graph(_imperative_rt.ComputingGraph):
        return self._wrap(_imperative_rt.make_h2d(self, device, dtype, shape, name))
 def optimize_for_inference(dest_vars, **kwargs):
    r"""Applies optimize_for_inference pass for computing graph.
        :param dest_vars: list of output vars in the computing graph
        :Keyword Arguments:
            * enable_io16xc32 --
                whether to use float16 for I/O between oprs and use
                float32 as internal computation precision. Note the output var would be
                changed to float16.
            * enable_ioc16 --
                whether to use float16 for both I/O and computation
                precision.
            * enable_hwcd4 --
                whether to use NHWCD4 data layout. This is faster on some
                OpenCL backend.
            * enable_nchw88 --
                whether to use NCHW88 data layout, currently
                used in X86 AVX backend.
            * enable_nchw44 --
                whether to use NCHW44 data layout, currently
                used in arm backend.
            * enable_nchw44_dot --
                whether to use NCHW44_dot data layout, currently
                used in armv8.2+dotprod backend.
            * enable_nchw4 --
                whether to use NCHW4 data layout, currently
                used in nvidia backend(based on cudnn).
            * enable_nchw32 --
                whether to use NCHW32 data layout, currently
                used in nvidia backend with tensorcore(based on cudnn).
            * enable_chwn4 --
                whether to use CHWN4 data layout, currently
                used in nvidia backend with tensorcore.
            * enable_fuse_conv_bias_nonlinearity: whether to fuse conv+bias+nonlinearty
                into one opr.
            * enable_fuse_conv_bias_with_z: whether to fuse conv_bias with z
                input for inference on nvidia backend(this optimization pass will
                result in mismatch of the precision of output of training and
                inference)
    """
    inference_options = GraphOptimizeOptions()
    if optimize_for_inference:
        inference_optimize_layout_transform_map = {
            "enable_hwcd4": GraphOptimizeOptions.LayoutTransform.NHWCD4,
            "enable_nchw4": GraphOptimizeOptions.LayoutTransform.NCHW4,
            "enable_nchw88": GraphOptimizeOptions.LayoutTransform.NCHW88,
            "enable_nchw32": GraphOptimizeOptions.LayoutTransform.NCHW32,
            "enable_nchw44": GraphOptimizeOptions.LayoutTransform.NCHW44,
            "enable_nchw44_dot": GraphOptimizeOptions.LayoutTransform.NCHW44_DOT,
            "enable_chwn4": GraphOptimizeOptions.LayoutTransform.CHWN4,
        }
        for k, v in inference_optimize_layout_transform_map.items():
            if kwargs.pop(k, False):
                inference_options.layout_transform = v
        if kwargs.pop("enable_io16xc32", False):
            inference_options.f16_io_f32_comp = True
        if kwargs.pop("enable_ioc16", False):
            inference_options.f16_io_comp = True
        if kwargs.pop("enable_fuse_conv_bias_nonlinearity", False):
            inference_options.fuse_conv_bias_nonlinearity = True
        if kwargs.pop("enable_fuse_conv_bias_with_z", False):
            inference_options.fuse_conv_bias_with_z = True
        if kwargs:
            raise ValueError("unknown options: %s" % list(kwargs))
    res_vars = _imperative_rt.optimize_for_inference(
        [i._node for i in dest_vars], inference_options
    )
    return [VarNode(i) for i in res_vars]
 def dump(*args):
    return _imperative_rt.dump_graph([i._node for i in args])
--- a/imperative/python/megengine/jit/tracing.py
+++ b/imperative/python/megengine/jit/tracing.py
@@ -11,6 +11,7 @@ import numpy as np
 from ..core._imperative_rt import GraphProfiler
 from ..core._imperative_rt.ops import OprAttr
 from ..core._trace_option import set_tensor_shape
 from ..core.ops.special import Const
 from ..core.tensor import megbrain_graph as G
 from ..core.tensor.core import OpBase, TensorBase, TensorWrapperBase, apply
@@ -76,6 +77,22 @@ class TensorInfo:
 class trace:
    """
    Wraps a callable and provide:
    * tracing via :meth:`.trace` and :meth:`.dump`
    * accelerated evalutaion via :meth:`.__call__`
    :param function: the function will be traced.
    :param symbolic: whether to apply symbolic execution for tracing. Default: False
    :param capture_as_const: capture global vars or closures as const value. Default: False
    :param sublinear_memory_config: configuration for sublinear memory optimization.
        If not None, it enables sublinear memory optimization with given setting.
    :param profiling: whether to profile compiled trace. Default: False
    :param opt_level: optimization level for compiling trace.
    :param symbolic_shape: whether to use symbolic shape for tracing. Default: True
    """
    def __new__(cls, *args, **kwargs):
        if not args:
            return functools.partial(cls, **kwargs)
@@ -88,6 +105,8 @@ class trace:
        capture_as_const=False,
        sublinear_memory_config: SublinearMemoryConfig = None,
        profiling: bool = False,
        opt_level: int = None,
        tensor_shape: bool = True,
    ):
        self.__wrapped__ = function
        self._symbolic = symbolic
@@ -95,6 +114,8 @@ class trace:
        self._sublinear_memory_config = sublinear_memory_config
        self._profiling = profiling
        self._profiler = None
        self._graph_opt_level = opt_level
        self._tensor_shape = tensor_shape
        self._untraced = True
        self._tinfo = []  # handle -> TensorInfo
@@ -112,6 +133,8 @@ class trace:
        self._output_bindings = None
        self._output_names = None
        set_tensor_shape(self._tensor_shape)
    def _new_handle(self):
        handle = len(self._tinfo)
        info = TensorInfo()
@@ -307,6 +330,9 @@ class trace:
    def _apply_graph_options(self, graph):
        graph.options.seq_opt.enable_seq_comp_node_opt = False
        # graph opt level
        if self._graph_opt_level is not None:
            graph.options.graph_opt_level = self._graph_opt_level
        # sublinear
        if self._sublinear_memory_config is not None:
            graph.options.enable_sublinear_memory_opt = True
@@ -320,6 +346,7 @@ class trace:
            )
            sublinear_config.thresh_nr_try = self._sublinear_memory_config.thresh_nr_try
            sublinear_config.num_worker = self._sublinear_memory_config.num_worker
        # profile
        if self._profiling:
            self._profiler = GraphProfiler(graph)
@@ -416,7 +443,55 @@ class trace:
                self._process_outputs(outputs)
            return outputs
    def dump(self, file, *, arg_names=None, output_names=None):
    def dump(self, file, *, arg_names=None, output_names=None, append=False, **kwargs):
        r"""Serializes trace to file system.
        :param file: output file, could be file object or filename.
        :param arg_names: names of the input tensors in the traced function.
        :param output_names: names of the output tensors in the traced function,
            use the default name if not specified.
        :param append: whether output is appended to ``file``.
            Only works when ``file`` is str.
        :Keyword Arguments:
            * enable_io16xc32 --
                whether to use float16 for I/O between oprs and use
                float32 as internal computation precision. Note the output var would be
                changed to float16.
            * enable_ioc16 --
                whether to use float16 for both I/O and computation
                precision.
            * enable_hwcd4 --
                whether to use NHWCD4 data layout. This is faster on some
                OpenCL backend.
            * enable_nchw88 --
                whether to use NCHW88 data layout, currently
                used in X86 AVX backend.
            * enable_nchw44 --
                whether to use NCHW44 data layout, currently
                used in arm backend.
            * enable_nchw44_dot --
                whether to use NCHW44_dot data layout, currently
                used in armv8.2+dotprod backend.
            * enable_nchw4 --
                whether to use NCHW4 data layout, currently
                used in nvidia backend(based on cudnn).
            * enable_nchw32 --
                whether to use NCHW32 data layout, currently
                used in nvidia backend with tensorcore(based on cudnn).
            * enable_chwn4 --
                whether to use CHWN4 data layout, currently
                used in nvidia backend with tensorcore.
            * enable_fuse_conv_bias_nonlinearity: whether to fuse conv+bias+nonlinearty
                into one opr.
            * enable_fuse_conv_bias_with_z: whether to fuse conv_bias with z
                input for inference on nvidia backend(this optimization pass will
                result in mismatch of the precision of output of training and
                inference)
        """
        if not self._capture_as_const:
            raise ValueError(
                "you must specify capture_as_const=True at __init__ to use dump"
@@ -482,8 +557,11 @@ class trace:
                v.name = output_names[i]
            dest_vars.append(v)
        dest_vars = G.optimize_for_inference(dest_vars, **kwargs)
        if isinstance(file, str):
            file = open(file, "wb")
            permission = "wb" if append == False else "ab"
            file = open(file, permission)
        file.write(G.dump(*dest_vars))
    def _process_inputs(self, *args, **kwargs):
--- a/imperative/python/src/graph_rt.cpp
+++ b/imperative/python/src/graph_rt.cpp
@@ -20,12 +20,17 @@
 #include "./helper.h"
 #include "megbrain/plugin/profiler.h"
 #include "./common.h"
 #include "megbrain/gopt/inference.h"
 namespace py = pybind11;
 using namespace mgb;
 using namespace imperative;
 using _OptimizeForInferenceOptions = mgb::gopt::OptimizeForInferenceOptions;
 using _LayoutTransform = _OptimizeForInferenceOptions::LayoutTransform;
 namespace {
 class _CompGraphProfilerImpl {
    std::shared_ptr<ComputingGraph> m_comp_graph;
@@ -138,6 +143,37 @@ void init_graph_rt(py::module m) {
        return py::bytes(reinterpret_cast<const char*>(&buf[0]), buf.size());
    });
    auto GraphOptimizeOptions = py::class_<_OptimizeForInferenceOptions>(m, "GraphOptimizeOptions")
        .def(py::init())
        .def_readwrite("f16_io_f32_comp", &_OptimizeForInferenceOptions::f16_io_f32_comp)
        .def_readwrite("f16_io_comp", &_OptimizeForInferenceOptions::f16_io_comp)
        .def_readwrite("fuse_conv_bias_nonlinearity", &_OptimizeForInferenceOptions::fuse_conv_bias_nonlinearity)
        .def_readwrite("fuse_conv_bias_with_z", &_OptimizeForInferenceOptions::fuse_conv_bias_with_z)
        .def_readwrite("layout_transform", &_OptimizeForInferenceOptions::layout_transform)
        ;
    py::enum_<_LayoutTransform>(GraphOptimizeOptions, "LayoutTransform")
        .value("DEFAULT", _LayoutTransform::DEFAULT)
        .value("NCHW4", _LayoutTransform::NCHW4)
        .value("NHWCD4", _LayoutTransform::NHWCD4)
        .value("NCHW88", _LayoutTransform::NCHW88)
        .value("NCHW44", _LayoutTransform::NCHW44)
        .value("NCHW44_DOT", _LayoutTransform::NCHW44_DOT)
        .value("NCHW32", _LayoutTransform::NCHW32)
        .value("CHWN4", _LayoutTransform::CHWN4)
        .export_values()
        ;
    m.def("optimize_for_inference", [](const VarNodeArray& dest_vars, const _OptimizeForInferenceOptions& opt) {
        SymbolVarArray symvars(dest_vars.begin(), dest_vars.end());
        auto res_symvars = mgb::gopt::optimize_for_inference(symvars, opt);
        VarNodeArray vars;
        for (auto& si: res_symvars)
            vars.push_back(si.node());
        return vars;
    });
 #define CURRENT_CLASS cg::ComputingGraph::Options
    auto PyComputingGraphOptions = py::class_<cg::ComputingGraph::Options>(PyComputingGraph, "Options")
--- a/imperative/python/test/unit/test_jit.py
+++ b/imperative/python/test/unit/test_jit.py
@@ -1,29 +0,0 @@
 # -*- coding: utf-8 -*-
 # MegEngine is Licensed under the Apache License, Version 2.0 (the "License")
 #
 # Copyright (c) 2014-2020 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 pytest
 from megengine.core import Tensor
 # from megengine.core.interpreter.hints import function
@pytest.mark.skip(reason="under rewrite")
 def test_1():
    @function
    def f(x, p):
        x = x + 1
        if p:
            return x * x
        return x * 2
    x = Tensor(0)
    for _ in range(5):
        assert f(x, 0).numpy() == 2
        assert f(x, 1).numpy() == 1
--- a/imperative/python/test/unit/test_tracing.py
+++ b/imperative/python/test/unit/test_tracing.py
@@ -1,10 +1,23 @@
 # -*- coding: utf-8 -*-
 # MegEngine is Licensed under the Apache License, Version 2.0 (the "License")
 #
 # Copyright (c) 2014-2020 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 io
 from tempfile import mkstemp
 import numpy as np
 import pytest
 from megengine import tensor
 from megengine.core.ops import builtin as ops
 from megengine.core.tensor import megbrain_graph as G
 from megengine.core.tensor.core import apply
 from megengine.core.tensor.raw_tensor import as_raw_tensor
 from megengine.functional import exp, log
 from megengine.jit import exclude_from_trace, trace
@@ -101,3 +114,85 @@ def test_trace_profiler():
        out = f.get_profile()
        assert out.get("profiler")
@pytest.mark.skip(reason="eq_to_unit failed in inplace.cpp")
 def test_goptions_div_zero():
    @trace(symbolic=True, opt_level=0)
    def f(x):
        return x / x
    @trace(symbolic=True, opt_level=1)
    def g(x):
        return x / x
    out = f(tensor(0.0))
    if out == out:
        raise ValueError("actual result should be nan")
    out = g(tensor(0.0))
    if out != out:
        raise ValueError("actual result should be 1")
@pytest.mark.skip(reason="cast to Elemwise failed in inplace.cpp")
 def test_goptions_log_exp():
    @trace(symbolic=True, opt_level=0, capture_as_const=True)
    def f(x):
        return log(exp(x))
    @trace(symbolic=True, opt_level=1, capture_as_const=True)
    def g(x):
        return log(exp(x))
    f(tensor(1.0))
    _, out = mkstemp()
    f.dump(out)
    *_, outputs = G.load_comp_graph_from_file(out)
    oprs_1 = cgtools.get_oprs_seq(outputs)
    g(tensor(1.0))
    g.dump(out)
    *_, outputs = G.load_comp_graph_from_file(out)
    oprs_2 = cgtools.get_oprs_seq(outputs)
    assert len(oprs_1) - len(oprs_2) == 2
@pytest.mark.skip(reason="need cgtools to check final oprs")
 def test_goptions_log_sum_exp():
    @trace(symbolic=True, opt_level=0, capture_as_const=True)
    def f(x, y):
        return log(exp(x) + exp(y))
    @trace(symbolic=True, opt_level=1, capture_as_const=True)
    def g(x, y):
        return log(exp(x) + exp(y))
    f(tensor(1.0), tensor(2.0))
    _, out = mkstemp()
    f.dump(out)
    *_, outputs = G.load_comp_graph_from_file(out)
    oprs_1 = cgtools.get_oprs_seq(outputs)
    g(tensor(1.0), tensor(2.0))
    g.dump(out)
    *_, outputs = G.load_comp_graph_from_file(out)
    oprs_2 = cgtools.get_oprs_seq(outputs)
    assert len(oprs_1) - len(oprs_2) == 2
@pytest.mark.skip(reason="need cgtools to check computing input dtype")
 def test_optimize_for_inference():
    @trace(symbolic=True, capture_as_const=True)
    def f(x):
        return exp(x)
    _, out = mkstemp()
    f(tensor(5.0))
    f.dump(out, optimize_for_inference=True, optimize_options={"enable_io16xc32": True})
    res = G.load_comp_graph_from_file(out)
    computing_input = res.output_vars_list[0].owner.inputs[0]
    assert computing_input.dtype == np.float16