lower_hopper_intrin.cc

/*!
 * \file lower hopper intrin.cc
 * \brief Lower Hopper intrinsics cuda GPU(sm90+)
 */

#include <tvm/ffi/reflection/registry.h>
#include <tvm/tir/analysis.h>
#include <tvm/tir/builtin.h>
#include <tvm/tir/op.h>
#include <tvm/tir/stmt_functor.h>
#include <tvm/tir/transform.h>

#include "../op/builtin.h"
#include "../runtime/runtime.h"

namespace tvm {
namespace tl {

using namespace tir;

#if (CUDA_MAJOR_VERSION >= 12)
class LowerHopperIntrin : public StmtExprMutator {
public:
  static PrimFunc Substitute(PrimFunc &f, bool disable_shuffle_elect) {
    PrimFuncNode *fptr = f.CopyOnWrite();
    LowerHopperIntrin substituter(disable_shuffle_elect);
    fptr->body = substituter.VisitStmt(f->body);
    Map<String, Array<PrimExpr>> init_desc_arg_map;
    for (const auto &[call, var] : substituter.desc_map_) {
      // Should allocate 128 bytes for TensorMap on stack
      Call alloc_desc = Call(DataType::Handle(), builtin::tvm_stack_alloca(),
                             {StringImm("arg_value"), 16});
      Array<PrimExpr> init_desc_args;
      if (call->op.same_as(create_tma_descriptor())) {
        init_desc_args.push_back(StringImm(tvm_tensormap_create_tiled));
      } else if (call->op.same_as(create_tma_im2col_descriptor())) {
        init_desc_args.push_back(StringImm(tvm_tensormap_create_im2col));
      } else {
        CHECK(0) << call->op;
      }
      init_desc_args.push_back(var);
      init_desc_args.insert(init_desc_args.end(), call->args.begin(),
                            call->args.end());
      // add to function attribute
      Call init_desc =
          Call(DataType::Handle(), builtin::tvm_call_packed(), init_desc_args);
      fptr->body =
          LetStmt(var, alloc_desc, SeqStmt({Evaluate(init_desc), fptr->body}));
      init_desc_arg_map.Set(var->name_hint, init_desc_args);
    }
    f = WithAttr(std::move(f), "tma_descriptor_args", init_desc_arg_map);
    return f;
  }

  Stmt VisitStmt_(const AttrStmtNode *op) final {
    // Insert the prefetch TMA descriptor statement TO the beginning of the
    // kernel
    if (op->attr_key == tir::attr::thread_extent) {
      IterVar iv = Downcast<IterVar>(op->node);
      if (iv->thread_tag == "threadIdx.x") {
        auto body = StmtExprMutator::VisitStmt(op->body);
        if (prefetch_calls_.empty() && init_mbarrier_calls_.empty()) {
          return AttrStmt(op->node, op->attr_key, op->value, body);
        } else {
          Array<Stmt> stmt_seq;
          if (!init_mbarrier_calls_.empty()) {
            auto alloc_mbarrier =
                Evaluate(Call(DataType::Handle(), builtin::create_barriers(),
                              {static_cast<int>(init_mbarrier_calls_.size())}));
            stmt_seq.push_back(alloc_mbarrier);
          }

          auto stmts = prefetch_calls_;
          stmts.insert(stmts.end(), init_mbarrier_calls_.begin(),
                       init_mbarrier_calls_.end());
          PrimExpr condition;
          if (!disable_shuffle_elect_) {
            condition = Call(DataType::Bool(), tl_shuffle_elect(), {0});
          } else {
            condition = EQ(iv->var, 0);
          }
          auto stmt_ = IfThenElse(condition,
                                  stmts.size() > 1 ? SeqStmt(stmts) : stmts[0]);
          stmt_seq.push_back(stmt_);
          if (!init_mbarrier_calls_.empty()) {
            Stmt mem_sync =
                Evaluate(Call(DataType::Handle(), builtin::tvm_storage_sync(),
                              {StringImm("shared")}));
            stmt_seq.push_back(mem_sync);
          }
          stmt_seq.push_back(body);

          prefetch_calls_.clear();
          init_mbarrier_calls_.clear();
          return AttrStmt(op->node, op->attr_key, op->value, SeqStmt(stmt_seq));
        }
      }
    }
    return StmtExprMutator::VisitStmt_(op);
  }

  PrimExpr VisitExpr_(const CallNode *call) final {
    if (call->op.same_as(create_tma_descriptor()) ||
        call->op.same_as(create_tma_im2col_descriptor())) {
      Var var;
      auto iter = desc_map_.find(GetRef<Call>(call));
      if (iter != desc_map_.end()) {
        var = iter->second;
      } else {
        String name = call->args[2].as<Var>().value()->name_hint;
        var = Var(name + "_desc",
                  PointerType(PrimType(cuTensorMapType()), "grid_constant"));
        desc_map_[GetRef<Call>(call)] = var;
        prefetch_calls_.push_back(
            Evaluate(Call(DataType::Handle(), builtin::call_extern(),
                          {StringImm("tl::prefetch_tma_descriptor"), var})));
      }
      return var;
    } else if (call->op.same_as(create_list_of_mbarrier())) {
      ICHECK(init_mbarrier_calls_.empty());
      int num_barriers = static_cast<int>(call->args.size());
      for (int i = 0; i < num_barriers; i++) {
        PrimExpr mbarrier = Call(DataType::Handle(), get_mbarrier(), {i});
        init_mbarrier_calls_.push_back(Evaluate(
            Call(DataType::Handle(), builtin::ptx_init_barrier_thread_count(),
                 {mbarrier, call->args[i]})));
      }
      return 0;
    } else {
      return StmtExprMutator::VisitExpr_(call);
    }
  }

private:
  Array<Stmt> prefetch_calls_;
  Array<Stmt> init_mbarrier_calls_;
  std::unordered_map<Call, Var, StructuralHash, ExprDeepEqual> desc_map_;
  LowerHopperIntrin(bool disable_shuffle_elect)
      : disable_shuffle_elect_(disable_shuffle_elect) {}
  bool disable_shuffle_elect_;
};

using namespace tir::transform;

tvm::transform::Pass LowerHopperIntrin() {
  auto pass_func = [=](PrimFunc f, const IRModule &m, PassContext ctx) {
    bool disable_shuffle_elect =
        ctx->GetConfig<Bool>(kDisableShuffleElect, Bool(false)).value();
    return LowerHopperIntrin::Substitute(f, disable_shuffle_elect);
  };
  return CreatePrimFuncPass(pass_func, 0, "tl.LowerHopperIntrin", {});
}

TVM_FFI_STATIC_INIT_BLOCK({
  namespace refl = tvm::ffi::reflection;
  refl::GlobalDef().def("tl.transform.LowerHopperIntrin", LowerHopperIntrin);
});
#endif // (CUDA_MAJOR_VERSION >= 12)

} // namespace tl
} // namespace tvm