refactor(mgb/param_pack): use shared mem for param pack

GitOrigin-RevId: bc56f09037
5 years ago · b708f15d39
--- a/dnn/include/megdnn/oprs/general.h
+++ b/dnn/include/megdnn/oprs/general.h
@@ -469,22 +469,23 @@ using Split = SplitForward;
 * large number of inputs and can handle alignment requirements. Axis is also
 * not supported.
 *
 * The table can be generated by gen_table(). The \p srcs in ParamPackSplit and
 * The offsets can be generated by gen_offsets(). The \p srcs in ParamPackSplit and
 * \p dsts in ParamPackConcat must be on CPU, and must remain valid until the
 * execution stream is synchronized.
 */
 class ParamPackConcatSplitBase : public OperatorBase {
 protected:
    void check_exec(const TensorLayout& concated, const TensorLayout& table,
    void check_exec(const TensorLayout& concated, const TensorLayout& offsets,
                    const TensorLayout& parts);
 public:
    using Param = megdnn::param::Empty;
    ParamPackConcatSplitBase(Handle* handle) : OperatorBase(handle) {}
    //! generate table to be used with ParamPackConcat and ParamPackSplit
    static std::vector<dt_int32> gen_table(const TensorShapeArray& shapes,
                                           size_t alignment, size_t dtype_size);
    //! generate offsets to be used with ParamPackConcat and ParamPackSplit
    static std::vector<dt_int32> gen_offsets(const TensorShapeArray& shapes,
                                             size_t alignment,
                                             size_t dtype_size);
 };
 /**
--- a/dnn/src/common/param_pack.cpp
+++ b/dnn/src/common/param_pack.cpp
@@ -29,7 +29,7 @@ void ParamPackConcatSplitBase::check_exec(const TensorLayout& concated,
                  "concated=%zu table=%zu", concated.shape[0], table.shape[0]);
 }
 std::vector<dt_int32> ParamPackConcatSplitBase::gen_table(
 std::vector<dt_int32> ParamPackConcatSplitBase::gen_offsets(
        const TensorShapeArray& shapes, size_t alignment, size_t dtype_size) {
    megdnn_assert(alignment && (alignment & (alignment - 1)) == 0,
                  "alignment must be power of 2: %zu", alignment);
@@ -46,30 +46,13 @@ std::vector<dt_int32> ParamPackConcatSplitBase::gen_table(
        return v + ((alignment - mod) & (alignment - 1));
    };
    std::vector<dt_int32> offsets(shapes.size());
    size_t offset = 0;
    for (auto&& i : shapes) {
        offset = get_aligned(offset) + i.total_nr_elems();
    for (size_t i = 0; i < shapes.size(); i++) {
        offsets[i] = offset;
        offset = get_aligned(offset) + shapes[i].total_nr_elems();
    }
    std::vector<dt_int32> table(offset * 2);
    auto outer_table = table.data(), inner_table = outer_table + offset;
    offset = 0;
    for (size_t i = 0; i < shapes.size(); ++i) {
        auto aligned = get_aligned(offset);
        for (size_t j = offset; j < aligned; ++j) {
            inner_table[j] = outer_table[j] = -1;
        }
        offset = aligned;
        auto cur_size = shapes[i].total_nr_elems();
        for (size_t j = 0; j < cur_size; ++j) {
            outer_table[offset + j] = i;
            inner_table[offset + j] = j;
        }
        offset += cur_size;
    }
    megdnn_assert(offset * 2 == table.size());
    return table;
    return offsets;
 }
 // vim: syntax=cpp.doxygen
--- a/dnn/test/cuda/param_pack.cpp
+++ b/dnn/test/cuda/param_pack.cpp
@@ -112,8 +112,8 @@ void test_param_pack_split(Handle* handle, const TensorShapeArray& shapes,
    std::vector<int32_t> table =
            create_table<T>(shapes, handle->alignment_requirement());
    ASSERT_EQ(table,
              ParamPackSplit::gen_table(shapes, handle->alignment_requirement(),
                                        sizeof(T)));
              ParamPackSplit::gen_offsets(
                      shapes, handle->alignment_requirement(), sizeof(T)));
    size_t pack_size = table.size() / 2;
    int32_t* table_gpu = create_device_data<int32_t>(handle, table.data(),
            table.size());
--- a/python_module/src/cpp/opr_defs.cpp
+++ b/python_module/src/cpp/opr_defs.cpp
@@ -47,19 +47,19 @@ SymbolVarArray _Opr::param_pack_split(
        shapearr[i] = npy::vec2shape(shapes[i]);
    }
    auto cn = src.node()->comp_node();
    auto table_val = megdnn::ParamPackSplit::gen_offsets(
            shapearr, cn.get_mem_addr_alignment(), src.dtype().size());
    if (!table.node()) {
        auto cn = src.node()->comp_node();
        if (config.has_comp_node_set()) {
            cn = config.get_single_comp_node();
        }
        auto table_val = megdnn::ParamPackSplit::gen_table(
                shapearr, cn.get_mem_addr_alignment(), src.dtype().size());
        HostTensorND hv{cn, TensorShape{table_val.size()}, dtype::Int32{}};
        HostTensorND hv{cn, TensorShape{{table_val.size()}}, dtype::Int32{}};
        memcpy(hv.raw_ptr(), table_val.data(), table_val.size() * sizeof(int));
        table = opr::ImmutableTensor::make(*src.node()->owner_graph(), hv);
    }
    return mgb::opr::ParamPackSplit::make(src, table, shapearr, config);
    return mgb::opr::ParamPackSplit::make(src, table, table_val, shapearr, config);
 }
 #if MGB_ENABLE_OPR_MM
--- a/src/opr/impl/tensor_manip.cpp
+++ b/src/opr/impl/tensor_manip.cpp
@@ -1430,20 +1430,22 @@ void ParamPackConcat::on_output_comp_node_stream_changed(){
 /* f{{{ ======================= ParamPackSplit ======================= */
 MGB_DYN_TYPE_OBJ_FINAL_IMPL(ParamPackSplit);
 ParamPackSplit::ParamPackSplit(VarNode* src, VarNode* table,
        TensorShapeArray& shapes, const OperatorNodeConfig& config)
        : Super{src->owner_graph(), config, "ParamPackSplit", {src, table}},
        m_shapes(shapes){
    mgb_assert(src->comp_node() == table->comp_node());
 ParamPackSplit::ParamPackSplit(VarNode* src, VarNode* offsets,
                               const std::vector<dt_int32> offsets_val,
                               TensorShapeArray& shapes,
                               const OperatorNodeConfig& config)
        : Super{src->owner_graph(), config, "ParamPackSplit", {src, offsets}},
          m_shapes(shapes), m_offsets(offsets_val) {
    mgb_assert(src->comp_node() == offsets->comp_node());
    add_input({src});
    add_input({table});
    add_input({offsets});
    m_mem_fwd_success.resize(m_shapes.size());
    for (size_t i = 0; i < shapes.size(); i++) {
        mgb_assert(shapes[i].total_nr_elems(), "empty param is not allowed!");
        add_output(ssprintf("param_pack_o%zu", i))->dtype(src->dtype());
        add_output(ssprintf("param_pack_o%zu", i))
                ->dtype(src->dtype()).shape(shapes[i]);
    }
    cg::add_workspace_output(this);
 }
 void ParamPackSplit::add_input_layout_constraint(){
@@ -1451,17 +1453,19 @@ void ParamPackSplit::add_input_layout_constraint(){
 }
 SymbolVarArray ParamPackSplit::make(const SymbolVar& src,
                                    const SymbolVar& table,
                                    const SymbolVar& offsets,
                                    const std::vector<dt_int32> offsets_val,
                                    TensorShapeArray shapes,
                                    const OperatorNodeConfig& config) {
    auto&& out = src.node()
                         ->owner_graph()
                         ->insert_opr(std::make_unique<ParamPackSplit>(
                                 src.node(), table.node(), shapes, config))
                                 src.node(), offsets.node(), offsets_val,
                                 shapes, config))
                         ->output();
    SymbolVarArray ret;
    ret.resize(out.size() - 1); // do not return workspace
    ret.resize(out.size());
    for (size_t i = 0; i < ret.size(); ++i) {
        ret[i] = out[i];
    }
@@ -1469,41 +1473,25 @@ SymbolVarArray ParamPackSplit::make(const SymbolVar& src,
 }
 void ParamPackSplit::scn_do_execute() {
    mgb_assert(m_opr.comp_node() == comp_node());
    megdnn::TensorND src = input(0)->dev_tensor().as_megdnn(),
                     table = input(1)->dev_tensor().as_megdnn();
    auto outputs = output();
    m_inp_ptr.resize(outputs.size() - 1);
    auto ptr = m_inp_ptr.data();
    for (size_t i = 0; i < outputs.size() - 1; i++) {
        ptr[i] = outputs[i]->dev_tensor().as_megdnn().raw_ptr;
    }
    megdnn::TensorND dsts(
            ptr, megdnn::TensorLayout({outputs.size() - 1}, dtype::Int32()));
    m_opr->exec(src, table, dsts,
                get_megdnn_workspace_from_var(outputs.back()));
 }
 void ParamPackSplit::on_output_comp_node_stream_changed() {
    Super::on_output_comp_node_stream_changed();
    init_megdnn_opr();
 }
 void ParamPackSplit::init_megdnn_opr(){
    m_opr = intl::create_megdnn_opr<megdnn::ParamPackSplit>(comp_node());
 }
 void ParamPackSplit::init_output_dtype() {
    // already initialized in constructor
 }
 void ParamPackSplit::mem_plan_fwd_in2out_readonly() {
    mgb_assert(m_offsets.size() == output().size());
    for (size_t i = 0; i < output().size(); i++) {
        auto layout = output(i)->layout();
        auto spec = SubTensorSpec::make_from_offset_elem(layout, m_offsets[i]);
        m_mem_fwd_success[i] = output(i)->set_fwd_in2out_readonly(
            input(0), spec);
        mgb_assert(m_mem_fwd_success[i]);
    }
 }
 bool ParamPackSplit::infer_shape(size_t index, TensorShape& dest,
                                 const cg::static_infer::InpVal& inp) {
    if (!m_opr.get()){
        init_megdnn_opr();
    }
    dest = m_shapes[index];
    return true;
 }
@@ -1515,33 +1503,19 @@ void ParamPackSplit::init_output_static_infer_desc() {
    DepVal shp_deps{{input(0), DepType::SHAPE}, {input(1), DepType::SHAPE}};
    auto infer_wk = [this](TensorShape &dst, const InpVal &inp){
        dst.ndim = 1;
        if(!m_opr.get()){
            init_megdnn_opr();
        }
        dst.shape[0] = m_opr->get_workspace_in_bytes(
                inp.val.at(0).shape(), inp.val.at(1).shape(), m_shapes);
        return true;
    };
    for (size_t i = 0; i < output().size() - 1; i++) {
    for (size_t i = 0; i < output().size(); i++) {
        auto ov = output(i);
        mgr.register_shape_infer(
                ov, {SourceType::DEP, shp_deps,
                     std::bind(&ParamPackSplit::infer_shape, this, i, _1, _2)});
    }
    mgr.register_shape_infer(
            output().back(), {SourceType::DEP, shp_deps, infer_wk});
 }
 MGB_IMPL_OPR_GRAD(ParamPackSplit) {
    mgb_assert(out_grad.size() == opr.output().size());
    SmallVector<SymbolVar> grad;
    // last var is workspace, ignore it
    for (size_t i = 0; i < out_grad.size() - 1; ++i) {
    for (size_t i = 0; i < out_grad.size(); ++i) {
        auto gval = out_grad[i];
        if (!gval) {
            gval = SymbolVar{opr.output(i)}.fill_retain_dtype(0).node();
--- a/src/opr/impl/tensor_manip.sereg.h
+++ b/src/opr/impl/tensor_manip.sereg.h
@@ -185,9 +185,10 @@ namespace opr {
            const cg::OperatorNodeBase &opr_, const VarNodeArray &inputs,
            const OperatorNodeConfig &config){
         auto &&opr = opr_.cast_final_safe<ParamPackSplit>();
         auto &&offsets = opr.get_offsets();
         auto &&shape = opr.get_output_shapes();
         return ParamPackSplit::make(inputs[0], inputs[1], shape, config).at(0).
         return ParamPackSplit::make(inputs[0], inputs[1], offsets, shape, config).at(0).
             node()->owner_opr();
    }
--- a/src/opr/include/megbrain/opr/tensor_manip.h
+++ b/src/opr/include/megbrain/opr/tensor_manip.h
@@ -570,31 +570,31 @@ public:
 * \brief Opr used to split parameter
 */
 MGB_DEFINE_OPR_CLASS(ParamPackSplit, cg::SingleCNOperatorNodeBase) // {
    //! input pointer buffer
    SmallVector<void*> m_inp_ptr;
    intl::UniqPtrWithCN<megdnn::ParamPackSplit> m_opr;
    TensorShapeArray m_shapes;
    std::vector<dt_int32> m_offsets;
    std::vector<bool> m_mem_fwd_success;
    void scn_do_execute() override;
    void init_output_static_infer_desc() override;
    void on_output_comp_node_stream_changed() override;
    bool infer_shape(size_t index, TensorShape &dest,
            const cg::static_infer::InpVal &inp);
    void init_output_dtype() override;
    void mem_plan_fwd_in2out_readonly() override;
    void add_input_layout_constraint() override;
    void init_megdnn_opr();
 public:
    ParamPackSplit(VarNode* src, VarNode* table, TensorShapeArray& shapes,
            const OperatorNodeConfig &config);
    ParamPackSplit(VarNode* src, VarNode* offsets,
                   const std::vector<dt_int32> offsets_val,
                   TensorShapeArray& shapes, const OperatorNodeConfig& config);
    static SymbolVarArray make(const SymbolVar& src, const SymbolVar& offsets,
                               const std::vector<dt_int32> offsets_val,
                               TensorShapeArray shapes,
                               const OperatorNodeConfig& config = {});
    static SymbolVarArray make(const SymbolVar &src, const SymbolVar &table,
            TensorShapeArray shapes, const OperatorNodeConfig &config = {});
    const std::vector<dt_int32>& get_offsets() const {
        return m_offsets;
    }
    const TensorShapeArray& get_output_shapes() const {
        return m_shapes;
--- a/src/opr/test/tensor_manip.cpp
+++ b/src/opr/test/tensor_manip.cpp
@@ -1898,7 +1898,7 @@ void test_param_pack_concat(const TensorShapeArray &shapes, DType type){
        srcs.push_back(nd);
    }
    auto host_table_gen = megdnn::ParamPackSplit::gen_table(shapes,
    auto host_table_gen = megdnn::ParamPackSplit::gen_offsets(shapes,
            cn.get_mem_addr_alignment(), 4);
    ASSERT_EQ(host_table_gen.size(), size * 2);
    auto host_table = std::make_shared<HostTensorND>();
@@ -1944,7 +1944,7 @@ void test_param_pack_split(const TensorShapeArray& shapes) {
    auto make_graph = [&](const typename Checker::SymInpArray& inputs) ->
            typename Checker::SymOutArray {
        auto table_val = megdnn::ParamPackSplit::gen_table(
        auto table_val = megdnn::ParamPackSplit::gen_offsets(
                shapes, cn.get_mem_addr_alignment(), 4);
        HostTensorND table;
        std::copy_n(table_val.data(), table_val.size(),
@@ -1954,7 +1954,8 @@ void test_param_pack_split(const TensorShapeArray& shapes) {
                            .ptr<dt_int32>());
        auto sym_table = opr::SharedDeviceTensor::make(
                *inputs[0].node()->owner_graph(), table);
        auto out = opr::ParamPackSplit::make(inputs[0], sym_table, shapes);
        auto out = opr::ParamPackSplit::make(inputs[0], sym_table, table_val,
                                             shapes);
        mgb_assert(out.size() == nr_out);
        typename Checker::SymOutArray ret;
        for (size_t i = 0; i < nr_out; ++i) {