!12371 [auto-monad] Optimize merge_addn and matmul_biasadd_fusion

From: @hwhewei Reviewed-by: @zh_qh,@ginfung Signed-off-by: @zh_qh
4 years ago · 32c8733d3b
parent 94054172ce 24f744686e
commit 32c8733d3b
4 changed files with 76 additions and 29 deletions
--- a/mindspore/ccsrc/backend/optimizer/ascend/ir_fusion/matmul_biasadd_fusion.cc
+++ b/mindspore/ccsrc/backend/optimizer/ascend/ir_fusion/matmul_biasadd_fusion.cc
@ -39,9 +39,7 @@ const AnfNodePtr MatmulBiasaddFusion::Process(const FuncGraphPtr &graph, const A
  }

  // If there is a side-effect operator in the fusion, do not merge
-  MonadState state_matmul = GetMonadState(matmul);
-  MonadState state_node = GetMonadState(node, matmul);
-  if (!IsStateEquivalent(state_matmul, state_node)) {
+  if (!IsStateEquivalent(node, matmul)) {
    return node;
  }

--- a/mindspore/ccsrc/frontend/optimizer/irpass/merge_addn.h
+++ b/mindspore/ccsrc/frontend/optimizer/irpass/merge_addn.h
@ -71,16 +71,15 @@ class MergeAddN : public AnfVisitor {
      is_inner_ = true;

      // {prim::kPrimMakeTuple, {PrimAddN, {prim::kPrimMakeTuple, Xs}}, Ys}
-      AnfVisitor::Match(prim::kPrimAddN, {IsCNode})(inputs[1]);
+      const auto &first_input = inputs.at(1);
+      AnfVisitor::Match(prim::kPrimAddN, {IsCNode})(first_input);
      if (is_match_) {
-        if (!is_unique(inputs[1])) {
+        if (!is_unique(first_input)) {
          is_match_ = false;
          return;
        }

-        MonadState state_input = GetMonadState(inputs[1]);
-        MonadState state_cnode = GetMonadState(cnode, inputs[1]);
-        if (!IsStateEquivalent(state_cnode, state_input)) {
+        if (!IsStateEquivalent(cnode, first_input)) {
          is_match_ = false;
          return;
        }
@ -92,16 +91,15 @@ class MergeAddN : public AnfVisitor {
      }

      // {prim::kPrimMakeTuple, Ys, {PrimAddN, {prim::kPrimMakeTuple, Xs}}}
-      AnfVisitor::Match(prim::kPrimAddN, {IsCNode})(inputs.back());
+      const auto &last_input = inputs.back();
+      AnfVisitor::Match(prim::kPrimAddN, {IsCNode})(last_input);
      if (is_match_) {
-        if (!is_unique(inputs.back())) {
+        if (!is_unique(last_input)) {
          is_match_ = false;
          return;
        }

-        MonadState state_input = GetMonadState(inputs.back());
-        MonadState state_cnode = GetMonadState(cnode, inputs.back());
-        if (!IsStateEquivalent(state_cnode, state_input)) {
+        if (!IsStateEquivalent(cnode, last_input)) {
          is_match_ = false;
          return;
        }
--- a/mindspore/core/ir/anf.cc
+++ b/mindspore/core/ir/anf.cc
@ -300,6 +300,46 @@ bool IsStateEquivalent(const MonadState &state1, const MonadState &state2) {
         (state1.io == nullptr || state2.io == nullptr || state1.io == state2.io);
 }

+bool IsStateStrictEquivalent(const AnfNodePtr &outer, const AnfNodePtr &inner) {
+  MonadState state_matmul = GetMonadState(inner);
+  MonadState state_node = GetMonadState(outer, inner);
+  return IsStateEquivalent(state_matmul, state_node);
+}
+
+std::set<CNodePtr> GetLoadInputs(const AnfNodePtr &node) {
+  std::set<CNodePtr> loads;
+  auto cnode = dyn_cast<CNode>(node);
+  if (cnode == nullptr) {
+    return loads;
+  }
+  auto &inputs = cnode->inputs();
+  for (size_t i = 1; i < inputs.size(); ++i) {
+    auto &input = inputs.at(i);
+    if (IsPrimitiveCNode(input, prim::kPrimLoad)) {
+      loads.insert(input->cast<CNodePtr>());
+    } else if (IsPrimitiveCNode(input, prim::kPrimMakeTuple)) {
+      loads.merge(GetLoadInputs(input));
+    }
+  }
+  return loads;
+}
+
+bool IsStateEquivalent(const AnfNodePtr &outer, const AnfNodePtr &inner) {
+  constexpr size_t kMonadInput = 2;
+  auto outer_loads = GetLoadInputs(outer);
+  if (outer_loads.empty()) {
+    return true;
+  }
+  auto inner_loads = GetLoadInputs(inner);
+  if (inner_loads.empty()) {
+    return true;
+  }
+  outer_loads.merge(inner_loads);
+  auto &monad = (*outer_loads.begin())->inputs().at(kMonadInput);
+  return std::all_of(++outer_loads.begin(), outer_loads.end(),
+                     [&monad](const CNodePtr &load) { return load->inputs().at(kMonadInput) == monad; });
+}
+
 size_t NewSeenGeneration() {
  static size_t seen_generation = 0;
  return ++seen_generation;
@ -353,6 +393,26 @@ std::string GetMaketupleNodeTarget(const CNodePtr &cnode) {
  std::string default_target = context_ptr->get_param<std::string>(MS_CTX_DEVICE_TARGET);
  return default_target;
 }
+
+std::string GetAttrTarget(const PrimitivePtr &primitive, const ValuePtr &att_target, const AnfNodePtr &attr_input,
+                          const std::string &primitive_target, const std::string &default_target) {
+  if (IsPrimitive(attr_input, prim::kPrimImageSummary) || IsPrimitive(attr_input, prim::kPrimScalarSummary) ||
+      IsPrimitive(attr_input, prim::kPrimTensorSummary) || IsPrimitive(attr_input, prim::kPrimHistogramSummary) ||
+      IsPrimitive(attr_input, prim::kPrimStateSetItem) || IsPrimitive(attr_input, prim::kPrimDepend) ||
+      IsPrimitive(attr_input, prim::kPrimControlDepend) || IsPrimitive(attr_input, prim::kPrimReturn) ||
+      IsPrimitive(attr_input, prim::kPrimPartial)) {
+    primitive->EraseAttr(primitive_target);
+    return default_target;
+  }
+  if (!att_target->isa<StringImm>()) {
+    MS_LOG(EXCEPTION) << "Only support string CPU|GPU|Ascend for primitive_target";
+  }
+  auto target = GetValue<std::string>(att_target);
+  if (kTargetSet.find(target) == kTargetSet.end()) {
+    MS_LOG(EXCEPTION) << "Only support string CPU|GPU|Ascend for primitive_target, but get " << target;
+  }
+  return target;
+}
 }  // namespace

 std::string GetCNodeTarget(const AnfNodePtr &node) {
@ -387,22 +447,7 @@ std::string GetCNodeTarget(const AnfNodePtr &node) {
  auto primitive = value->cast<PrimitivePtr>();
  auto att_target = primitive->GetAttr(primitive_target);
  if (att_target != nullptr) {
-    if (IsPrimitive(attr_input, prim::kPrimImageSummary) || IsPrimitive(attr_input, prim::kPrimScalarSummary) ||
-        IsPrimitive(attr_input, prim::kPrimTensorSummary) || IsPrimitive(attr_input, prim::kPrimHistogramSummary) ||
-        IsPrimitive(attr_input, prim::kPrimStateSetItem) || IsPrimitive(attr_input, prim::kPrimDepend) ||
-        IsPrimitive(attr_input, prim::kPrimControlDepend) || IsPrimitive(attr_input, prim::kPrimReturn) ||
-        IsPrimitive(attr_input, prim::kPrimPartial)) {
-      primitive->EraseAttr(primitive_target);
-      return default_target;
-    }
-    if (!att_target->isa<StringImm>()) {
-      MS_LOG(EXCEPTION) << "Only support string CPU|GPU|Ascend for primitive_target";
-    }
-    auto target = GetValue<std::string>(att_target);
-    if (kTargetSet.find(target) == kTargetSet.end()) {
-      MS_LOG(EXCEPTION) << "Only support string CPU|GPU|Ascend for primitive_target, but get " << target;
-    }
-    return target;
+    return GetAttrTarget(primitive, att_target, attr_input, primitive_target, default_target);
  }
  if (IsPrimitiveCNode(node, prim::kPrimDepend)) {
    auto &inputs = cnode->inputs();
--- a/mindspore/core/ir/anf.h
+++ b/mindspore/core/ir/anf.h
@ -530,6 +530,12 @@ MonadState GetMonadState(const AnfNodePtr &node, const AnfNodePtr &skip_input =
 // Check if two state is equivalent.
 bool IsStateEquivalent(const MonadState &state1, const MonadState &state2);

+// Check if monad state is strict equivalent for the connected two nodes.
+bool IsStateStrictEquivalent(const AnfNodePtr &outer, const AnfNodePtr &inner);
+
+// Check if monad state is equivalent for the connected two nodes, not strict but more faster.
+bool IsStateEquivalent(const AnfNodePtr &outer, const AnfNodePtr &inner);
+
 // used to check whether a ValueNode has some kind of value
 template <typename T>
 static bool IsValueNode(const AnfNodePtr &node) {