diff --git a/include/mlir-hlo/Dialect/mhlo/transforms/map_lmhlo_to_scalar_op.h b/include/mlir-hlo/Dialect/mhlo/transforms/map_lmhlo_to_scalar_op.h
index 9354830..ad03703 100644
--- a/include/mlir-hlo/Dialect/mhlo/transforms/map_lmhlo_to_scalar_op.h
+++ b/include/mlir-hlo/Dialect/mhlo/transforms/map_lmhlo_to_scalar_op.h
@@ -437,6 +437,23 @@ inline Value MapLhloOpToStdScalarOp<lmhlo::LogOp>(Location loc,
       loc, result_types, args, b);
 }
 
+inline Value LhloAlwaysPropagateNaN(Value v, ArrayRef<Value> args, Location loc,
+                                    OpBuilder* b) {
+  Type element_type = getElementTypeOrSelf(args.front().getType());
+  if (auto float_type = element_type.dyn_cast<FloatType>()) {
+    Value isnan =
+        b->create<mlir::CmpFOp>(loc, CmpFPredicate::UNO, args[0], args[1]);
+
+    auto nan_apfloat = APFloat::getQNaN(float_type.getFloatSemantics());
+    Value nan = b->create<mlir::ConstantFloatOp>(loc, nan_apfloat, float_type);
+    if (VectorType vec_type = args[0].getType().dyn_cast<VectorType>()) {
+      nan = b->create<::mlir::SplatOp>(loc, vec_type, nan);
+    }
+    v = b->create<mlir::SelectOp>(loc, isnan, nan, v);
+  }
+  return v;
+}
+
 template <>
 inline Value MapLhloOpToStdScalarOp<lmhlo::LogisticOp>(
     Location loc, ArrayRef<Type> result_types, ArrayRef<Value> args,
@@ -464,10 +481,13 @@ inline Value MapLhloOpToStdScalarOp<lmhlo::MaxOp>(Location loc,
                                                   ArrayRef<Type> result_types,
                                                   ArrayRef<Value> args,
                                                   OpBuilder* b) {
-  return CompareSelectOpToStdScalarOp<
-      IntegerType, ScalarIOp<lmhlo::CompareOp>, CmpIPredicate, FloatType,
-      ScalarFOp<lmhlo::CompareOp>, CmpFPredicate>::map(loc, "GT", result_types,
-                                                       args, b);
+  return LhloAlwaysPropagateNaN(
+      CompareSelectOpToStdScalarOp<
+          IntegerType, ScalarIOp<lmhlo::CompareOp>, CmpIPredicate, FloatType,
+          ScalarFOp<lmhlo::CompareOp>, CmpFPredicate>::map(loc, "GT",
+                                                           result_types, args,
+                                                           b),
+      args, loc, b);
 }
 
 template <>
@@ -475,10 +495,13 @@ inline Value MapLhloOpToStdScalarOp<lmhlo::MinOp>(Location loc,
                                                   ArrayRef<Type> result_types,
                                                   ArrayRef<Value> args,
                                                   OpBuilder* b) {
-  return CompareSelectOpToStdScalarOp<
-      IntegerType, ScalarIOp<lmhlo::CompareOp>, CmpIPredicate, FloatType,
-      ScalarFOp<lmhlo::CompareOp>, CmpFPredicate>::map(loc, "LT", result_types,
-                                                       args, b);
+  return LhloAlwaysPropagateNaN(
+      CompareSelectOpToStdScalarOp<
+          IntegerType, ScalarIOp<lmhlo::CompareOp>, CmpIPredicate, FloatType,
+          ScalarFOp<lmhlo::CompareOp>, CmpFPredicate>::map(loc, "LT",
+                                                           result_types, args,
+                                                           b),
+      args, loc, b);
 }
 
 template <>
diff --git a/tests/hlo-legalize-to-linalg.mlir b/tests/hlo-legalize-to-linalg.mlir
index f4e9287..48332d2 100644
--- a/tests/hlo-legalize-to-linalg.mlir
+++ b/tests/hlo-legalize-to-linalg.mlir
@@ -540,7 +540,10 @@ func @minf(%lhs: tensor<2x2xf32>, %rhs: tensor<2x2xf32>) -> tensor<2x2xf32> {
 // CHECK: linalg.generic
 // CHECK-NEXT: ^bb0(%[[LHS_IN:.*]]: f32, %[[RHS_IN:.*]]: f32, %{{.*}}: f32):
 // CHECK-NEXT:   %[[CMP:.*]] = cmpf olt, %[[LHS_IN]], %[[RHS_IN]] : f32
-// CHECK-NEXT:   %[[RESULT:.*]] = select %[[CMP]], %[[LHS_IN]], %[[RHS_IN]] : f32
+// CHECK-NEXT:   %[[MIN:.*]] = select %[[CMP]], %[[LHS_IN]], %[[RHS_IN]] : f32
+// CHECK-NEXT:   %[[ISNAN:.*]] = cmpf uno, %[[LHS_IN]], %[[RHS_IN]] : f32
+// CHECK-NEXT:   %[[NAN:.*]] = constant 0x7FC00000 : f32
+// CHECK-NEXT:   %[[RESULT:.*]] = select %[[ISNAN]], %[[NAN]], %[[MIN]] : f32
 // CHECK-NEXT:   linalg.yield %[[RESULT]] : f32
 
 // -----
@@ -950,10 +953,14 @@ func @clamp(%lb : tensor<4xf32>, %x : tensor<4xf32>, %ub : tensor<4xf32>)
   // CHECK: %[[INIT:.*]] = linalg.init_tensor
   // CHECK: %[[RESULT:.*]] = linalg.generic {{.*}} ins(%[[LB]], %[[X]], %[[UB]] : tensor<4xf32>, tensor<4xf32>, tensor<4xf32>) outs(%[[INIT]] : tensor<4xf32>)
   // CHECK: ^bb0(%[[SCALAR_LB:.*]]: f32, %[[SCALAR_X:.*]]: f32, %[[SCALAR_UB:.*]]: f32, %{{.*}}: f32):
-  // CHECK:   %[[LT_X_UB:.*]] = cmpf olt, %[[SCALAR_X]], %[[SCALAR_UB]]
-  // CHECK:   %[[X2:.*]] = select %[[LT_X_UB]], %[[SCALAR_X]], %[[SCALAR_UB]]
-  // CHECK:   %[[GT_X2_LB:.*]] = cmpf ogt, %[[X2]], %[[SCALAR_LB]]
-  // CHECK:   %[[MAX_X2_LB:.*]] = select %[[GT_X2_LB]], %[[X2]], %[[SCALAR_LB]]
+  // CHECK:   cmpf olt
+  // CHECK:   select
+  // CHECK:   cmpf uno
+  // CHECK:   select
+  // CHECK:   cmpf ogt
+  // CHECK:   select
+  // CHECK:   cmpf uno
+  // CHECK:   %[[MAX_X2_LB:.*]] = select
   // CHECK:   linalg.yield %[[MAX_X2_LB]]
   // CHECK: } -> tensor<4xf32>
   // CHECK: return %[[RESULT]] : tensor<4xf32>
diff --git a/tests/lhlo-legalize-to-affine.mlir b/tests/lhlo-legalize-to-affine.mlir
index ee67ea1..35c0bef 100644
--- a/tests/lhlo-legalize-to-affine.mlir
+++ b/tests/lhlo-legalize-to-affine.mlir
@@ -4,6 +4,7 @@
 // CHECK-LABEL: func @min_op
 func @min_op(%lhs: memref<4x3x2x1xf32>, %rhs: memref<4x3x2x1xf32>,
              %result: memref<4x3x2x1xf32>) -> () {
+  // CHECK-NEXT: %[[NAN:.*]] = constant 0x7FC00000 : f32
   // CHECK-NEXT: affine.for %[[I:.*]] = 0 to 4 {
   // CHECK-NEXT:   affine.for %[[J:.*]] = 0 to 3 {
   // CHECK-NEXT:     affine.for %[[K:.*]] = 0 to 2 {
@@ -12,7 +13,9 @@ func @min_op(%lhs: memref<4x3x2x1xf32>, %rhs: memref<4x3x2x1xf32>,
   // CHECK-NEXT:         %[[RHS:.*]] = affine.load %{{.*}}[%[[I]], %[[J]], %[[K]], %[[L]]] : memref<4x3x2x1xf32>
   // CHECK-NEXT:         %[[MIN_PREDICATE:.*]] = cmpf olt, %[[LHS]], %[[RHS]] : f32
   // CHECK-NEXT:         %[[MIN:.*]] = select %[[MIN_PREDICATE]], %[[LHS]], %[[RHS]] : f32
-  // CHECK-NEXT:         affine.store %[[MIN]], %{{.*}}[%[[I]], %[[J]], %[[K]], %[[L]]] : memref<4x3x2x1xf32>
+  // CHECK-NEXT:         %[[ISNAN:.*]] = cmpf uno, %[[LHS]], %[[RHS]] : f32
+  // CHECK-NEXT:         %[[MIN_NONAN:.*]] = select %[[ISNAN]], %[[NAN]], %[[MIN]] : f32
+  // CHECK-NEXT:         affine.store %[[MIN_NONAN]], %{{.*}}[%[[I]], %[[J]], %[[K]], %[[L]]] : memref<4x3x2x1xf32>
   // CHECK:      return
   "lmhlo.minimum"(%lhs, %rhs, %result) {name = "min.1"} :
       (memref<4x3x2x1xf32>, memref<4x3x2x1xf32>, memref<4x3x2x1xf32>) -> ()
@@ -69,8 +72,11 @@ func @int_div_op(%lhs: memref<7xi32>, %rhs: memref<7xi32>,
 // CHECK-LABEL: func @float_max_op
 func @float_max_op(%lhs: memref<7xf32>, %rhs: memref<7xf32>,
                    %result: memref<7xf32>) -> () {
-  // CHECK: %[[CHECK:.*]] = cmpf ogt, %[[ONE:.*]], %[[TWO:.*]] : f32
-  // CHECK: select %[[CHECK]], %[[ONE]], %[[TWO]] : f32
+  // CHECK: %[[NAN:.*]] = constant 0x7FC00000 : f32
+  // CHECK: %[[CMP:.*]] = cmpf ogt, %[[LHS_IN:.*]], %[[RHS_IN:.*]] : f32
+  // CHECK: %[[MIN:.*]] = select %[[CMP]], %[[LHS_IN]], %[[RHS_IN]] : f32
+  // CHECK: %[[ISNAN:.*]] = cmpf uno, %[[LHS_IN]], %[[RHS_IN]] : f32
+  // CHECK: select %[[ISNAN]], %[[NAN]], %[[MIN]] : f32
   "lmhlo.maximum"(%lhs, %rhs, %result) {name = "max.1"}
       : (memref<7xf32>, memref<7xf32>, memref<7xf32>) -> ()
   return
@@ -90,8 +96,11 @@ func @int_max_op(%lhs: memref<7xi32>, %rhs: memref<7xi32>,
 // CHECK-LABEL: func @float_min_op
 func @float_min_op(%lhs: memref<7xf32>, %rhs: memref<7xf32>,
                    %result: memref<7xf32>) -> () {
-  // CHECK: %[[CHECK:.*]] = cmpf olt, %[[ONE:.*]], %[[TWO:.*]] : f32
-  // CHECK: select %[[CHECK]], %[[ONE]], %[[TWO]] : f32
+  // CHECK: %[[NAN:.*]] = constant 0x7FC00000 : f32
+  // CHECK: %[[CMP:.*]] = cmpf olt, %[[LHS_IN:.*]], %[[RHS_IN:.*]] : f32
+  // CHECK: %[[MIN:.*]] = select %[[CMP]], %[[LHS_IN]], %[[RHS_IN]] : f32
+  // CHECK: %[[ISNAN:.*]] = cmpf uno, %[[LHS_IN]], %[[RHS_IN]] : f32
+  // CHECK: select %[[ISNAN]], %[[NAN]], %[[MIN]] : f32
   "lmhlo.minimum"(%lhs, %rhs, %result) {name = "min.1"}
       : (memref<7xf32>, memref<7xf32>, memref<7xf32>) -> ()
   return
diff --git a/tests/lhlo-legalize-to-linalg.mlir b/tests/lhlo-legalize-to-linalg.mlir
index dfcc3c7..36bbdb7 100644
--- a/tests/lhlo-legalize-to-linalg.mlir
+++ b/tests/lhlo-legalize-to-linalg.mlir
@@ -70,7 +70,10 @@ func @minf(%lhs: memref<2x2xf32>, %rhs: memref<2x2xf32>,
 // CHECK: linalg.generic
 // CHECK-NEXT: ^bb0(%[[LHS_IN:.*]]: f32, %[[RHS_IN:.*]]: f32, %[[RESULT_OUT:.*]]: f32):
 // CHECK-NEXT:   %[[CMP:.*]] = cmpf olt, %[[LHS_IN]], %[[RHS_IN]] : f32
-// CHECK-NEXT:   %[[RESULT:.*]] = select %[[CMP]], %[[LHS_IN]], %[[RHS_IN]] : f32
+// CHECK-NEXT:   %[[MIN:.*]] = select %[[CMP]], %[[LHS_IN]], %[[RHS_IN]] : f32
+// CHECK-NEXT:   %[[ISNAN:.*]] = cmpf uno, %[[LHS_IN]], %[[RHS_IN]] : f32
+// CHECK-NEXT:   %[[NAN:.*]] = constant 0x7FC00000 : f32
+// CHECK-NEXT:   %[[RESULT:.*]] = select %[[ISNAN]], %[[NAN]], %[[MIN]] : f32
 // CHECK-NEXT:   linalg.yield %[[RESULT]] : f32
 
 // -----
@@ -948,9 +951,9 @@ func @reduce_maximum(%arg: memref<100x10xf32>,
 // CHECK-NEXT: store
 // CHECK-NEXT: load
 // CHECK-NEXT: load
-// CHECK-NEXT: cmpf
-// CHECK-NEXT: select
-// CHECK-NEXT: store
+// CHECK: cmpf
+// CHECK: select
+// CHECK: store
 // CHECK-NEXT: load
 // CHECK-NEXT: linalg.yield
 // CHECK-NEXT: }