llvm/test/CodeGen/AMDGPU/GlobalISel/global-atomic-fadd.f64.ll - third_party/github.com/llvm/llvm-project - Git at Google

 ; NOTE: Assertions have been autogenerated by utils/update_mir_test_checks.py
 ; RUN: llc -global-isel -mtriple=amdgcn -mcpu=gfx90a -verify-machineinstrs -stop-after=instruction-select < %s | FileCheck -check-prefix=GFX90A_GFX940 %s
 ; RUN: llc -global-isel -mtriple=amdgcn -mcpu=gfx940 -verify-machineinstrs -stop-after=instruction-select < %s | FileCheck -check-prefix=GFX90A_GFX940 %s

 define amdgpu_ps void @global_atomic_fadd_f64_no_rtn_intrinsic(ptr addrspace(1) %ptr, double %data) {
   ; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_no_rtn_intrinsic
   ; GFX90A_GFX940: bb.1 (%ir-block.0):
   ; GFX90A_GFX940-NEXT:   liveins: $vgpr0, $vgpr1, $vgpr2, $vgpr3
   ; GFX90A_GFX940-NEXT: {{  $}}
   ; GFX90A_GFX940-NEXT:   [[COPY:%[0-9]+]]:vgpr_32 = COPY $vgpr0
   ; GFX90A_GFX940-NEXT:   [[COPY1:%[0-9]+]]:vgpr_32 = COPY $vgpr1
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr2
   ; GFX90A_GFX940-NEXT:   [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr3
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   GLOBAL_ATOMIC_ADD_F64 [[REG_SEQUENCE]], [[REG_SEQUENCE1]], 0, 0, implicit $exec :: (volatile dereferenceable load store (s64) on %ir.ptr, addrspace 1)
   ; GFX90A_GFX940-NEXT:   S_ENDPGM 0
   %ret = call double @llvm.amdgcn.global.atomic.fadd.f64.p1.f64(ptr addrspace(1) %ptr, double %data)
   ret void
 }

 define amdgpu_ps double @global_atomic_fadd_f64_rtn_intrinsic(ptr addrspace(1) %ptr, double %data) {
   ; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_rtn_intrinsic
   ; GFX90A_GFX940: bb.1 (%ir-block.0):
   ; GFX90A_GFX940-NEXT:   liveins: $vgpr0, $vgpr1, $vgpr2, $vgpr3
   ; GFX90A_GFX940-NEXT: {{  $}}
   ; GFX90A_GFX940-NEXT:   [[COPY:%[0-9]+]]:vgpr_32 = COPY $vgpr0
   ; GFX90A_GFX940-NEXT:   [[COPY1:%[0-9]+]]:vgpr_32 = COPY $vgpr1
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr2
   ; GFX90A_GFX940-NEXT:   [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr3
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   [[GLOBAL_ATOMIC_ADD_F64_RTN:%[0-9]+]]:vreg_64_align2 = GLOBAL_ATOMIC_ADD_F64_RTN [[REG_SEQUENCE]], [[REG_SEQUENCE1]], 0, 1, implicit $exec :: (volatile dereferenceable load store (s64) on %ir.ptr, addrspace 1)
   ; GFX90A_GFX940-NEXT:   [[COPY4:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_RTN]].sub0
   ; GFX90A_GFX940-NEXT:   [[COPY5:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_RTN]].sub1
   ; GFX90A_GFX940-NEXT:   [[V_READFIRSTLANE_B32_:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY4]], implicit $exec
   ; GFX90A_GFX940-NEXT:   $sgpr0 = COPY [[V_READFIRSTLANE_B32_]]
   ; GFX90A_GFX940-NEXT:   [[V_READFIRSTLANE_B32_1:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY5]], implicit $exec
   ; GFX90A_GFX940-NEXT:   $sgpr1 = COPY [[V_READFIRSTLANE_B32_1]]
   ; GFX90A_GFX940-NEXT:   SI_RETURN_TO_EPILOG implicit $sgpr0, implicit $sgpr1
   %ret = call double @llvm.amdgcn.global.atomic.fadd.f64.p1.f64(ptr addrspace(1) %ptr, double %data)
   ret double %ret
 }

 define amdgpu_ps void @global_atomic_fadd_f64_saddr_no_rtn_intrinsic(ptr addrspace(1) inreg %ptr, double %data) {
   ; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_saddr_no_rtn_intrinsic
   ; GFX90A_GFX940: bb.1 (%ir-block.0):
   ; GFX90A_GFX940-NEXT:   liveins: $sgpr0, $sgpr1, $vgpr0, $vgpr1
   ; GFX90A_GFX940-NEXT: {{  $}}
   ; GFX90A_GFX940-NEXT:   [[COPY:%[0-9]+]]:sreg_32 = COPY $sgpr0
   ; GFX90A_GFX940-NEXT:   [[COPY1:%[0-9]+]]:sreg_32 = COPY $sgpr1
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE:%[0-9]+]]:sreg_64 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr0
   ; GFX90A_GFX940-NEXT:   [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr1
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   [[V_MOV_B32_e32_:%[0-9]+]]:vgpr_32 = V_MOV_B32_e32 0, implicit $exec
   ; GFX90A_GFX940-NEXT:   GLOBAL_ATOMIC_ADD_F64_SADDR [[V_MOV_B32_e32_]], [[REG_SEQUENCE1]], [[REG_SEQUENCE]], 0, 0, implicit $exec :: (volatile dereferenceable load store (s64) on %ir.ptr, addrspace 1)
   ; GFX90A_GFX940-NEXT:   S_ENDPGM 0
   %ret = call double @llvm.amdgcn.global.atomic.fadd.f64.p1.f64(ptr addrspace(1) %ptr, double %data)
   ret void
 }

 define amdgpu_ps double @global_atomic_fadd_f64_saddr_rtn_intrinsic(ptr addrspace(1) inreg %ptr, double %data) {
   ; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_saddr_rtn_intrinsic
   ; GFX90A_GFX940: bb.1 (%ir-block.0):
   ; GFX90A_GFX940-NEXT:   liveins: $sgpr0, $sgpr1, $vgpr0, $vgpr1
   ; GFX90A_GFX940-NEXT: {{  $}}
   ; GFX90A_GFX940-NEXT:   [[COPY:%[0-9]+]]:sreg_32 = COPY $sgpr0
   ; GFX90A_GFX940-NEXT:   [[COPY1:%[0-9]+]]:sreg_32 = COPY $sgpr1
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE:%[0-9]+]]:sreg_64 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr0
   ; GFX90A_GFX940-NEXT:   [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr1
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   [[V_MOV_B32_e32_:%[0-9]+]]:vgpr_32 = V_MOV_B32_e32 0, implicit $exec
   ; GFX90A_GFX940-NEXT:   [[GLOBAL_ATOMIC_ADD_F64_SADDR_RTN:%[0-9]+]]:vreg_64_align2 = GLOBAL_ATOMIC_ADD_F64_SADDR_RTN [[V_MOV_B32_e32_]], [[REG_SEQUENCE1]], [[REG_SEQUENCE]], 0, 1, implicit $exec :: (volatile dereferenceable load store (s64) on %ir.ptr, addrspace 1)
   ; GFX90A_GFX940-NEXT:   [[COPY4:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_SADDR_RTN]].sub0
   ; GFX90A_GFX940-NEXT:   [[COPY5:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_SADDR_RTN]].sub1
   ; GFX90A_GFX940-NEXT:   [[V_READFIRSTLANE_B32_:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY4]], implicit $exec
   ; GFX90A_GFX940-NEXT:   $sgpr0 = COPY [[V_READFIRSTLANE_B32_]]
   ; GFX90A_GFX940-NEXT:   [[V_READFIRSTLANE_B32_1:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY5]], implicit $exec
   ; GFX90A_GFX940-NEXT:   $sgpr1 = COPY [[V_READFIRSTLANE_B32_1]]
   ; GFX90A_GFX940-NEXT:   SI_RETURN_TO_EPILOG implicit $sgpr0, implicit $sgpr1
   %ret = call double @llvm.amdgcn.global.atomic.fadd.f64.p1.f64(ptr addrspace(1) %ptr, double %data)
   ret double %ret
 }

 define amdgpu_ps void @global_atomic_fadd_f64_no_rtn_flat_intrinsic(ptr addrspace(1) %ptr, double %data) {
   ; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_no_rtn_flat_intrinsic
   ; GFX90A_GFX940: bb.1 (%ir-block.0):
   ; GFX90A_GFX940-NEXT:   liveins: $vgpr0, $vgpr1, $vgpr2, $vgpr3
   ; GFX90A_GFX940-NEXT: {{  $}}
   ; GFX90A_GFX940-NEXT:   [[COPY:%[0-9]+]]:vgpr_32 = COPY $vgpr0
   ; GFX90A_GFX940-NEXT:   [[COPY1:%[0-9]+]]:vgpr_32 = COPY $vgpr1
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr2
   ; GFX90A_GFX940-NEXT:   [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr3
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   GLOBAL_ATOMIC_ADD_F64 [[REG_SEQUENCE]], [[REG_SEQUENCE1]], 0, 0, implicit $exec :: (volatile dereferenceable load store (s64) on %ir.ptr, addrspace 1)
   ; GFX90A_GFX940-NEXT:   S_ENDPGM 0
   %ret = call double @llvm.amdgcn.flat.atomic.fadd.f64.p1.f64(ptr addrspace(1) %ptr, double %data)
   ret void
 }

 define amdgpu_ps double @global_atomic_fadd_f64_rtn_flat_intrinsic(ptr addrspace(1) %ptr, double %data) {
   ; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_rtn_flat_intrinsic
   ; GFX90A_GFX940: bb.1 (%ir-block.0):
   ; GFX90A_GFX940-NEXT:   liveins: $vgpr0, $vgpr1, $vgpr2, $vgpr3
   ; GFX90A_GFX940-NEXT: {{  $}}
   ; GFX90A_GFX940-NEXT:   [[COPY:%[0-9]+]]:vgpr_32 = COPY $vgpr0
   ; GFX90A_GFX940-NEXT:   [[COPY1:%[0-9]+]]:vgpr_32 = COPY $vgpr1
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr2
   ; GFX90A_GFX940-NEXT:   [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr3
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   [[GLOBAL_ATOMIC_ADD_F64_RTN:%[0-9]+]]:vreg_64_align2 = GLOBAL_ATOMIC_ADD_F64_RTN [[REG_SEQUENCE]], [[REG_SEQUENCE1]], 0, 1, implicit $exec :: (volatile dereferenceable load store (s64) on %ir.ptr, addrspace 1)
   ; GFX90A_GFX940-NEXT:   [[COPY4:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_RTN]].sub0
   ; GFX90A_GFX940-NEXT:   [[COPY5:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_RTN]].sub1
   ; GFX90A_GFX940-NEXT:   [[V_READFIRSTLANE_B32_:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY4]], implicit $exec
   ; GFX90A_GFX940-NEXT:   $sgpr0 = COPY [[V_READFIRSTLANE_B32_]]
   ; GFX90A_GFX940-NEXT:   [[V_READFIRSTLANE_B32_1:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY5]], implicit $exec
   ; GFX90A_GFX940-NEXT:   $sgpr1 = COPY [[V_READFIRSTLANE_B32_1]]
   ; GFX90A_GFX940-NEXT:   SI_RETURN_TO_EPILOG implicit $sgpr0, implicit $sgpr1
   %ret = call double @llvm.amdgcn.flat.atomic.fadd.f64.p1.f64(ptr addrspace(1) %ptr, double %data)
   ret double %ret
 }

 define amdgpu_ps void @global_atomic_fadd_f64_saddr_no_rtn_flat_intrinsic(ptr addrspace(1) inreg %ptr, double %data) {
   ; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_saddr_no_rtn_flat_intrinsic
   ; GFX90A_GFX940: bb.1 (%ir-block.0):
   ; GFX90A_GFX940-NEXT:   liveins: $sgpr0, $sgpr1, $vgpr0, $vgpr1
   ; GFX90A_GFX940-NEXT: {{  $}}
   ; GFX90A_GFX940-NEXT:   [[COPY:%[0-9]+]]:sreg_32 = COPY $sgpr0
   ; GFX90A_GFX940-NEXT:   [[COPY1:%[0-9]+]]:sreg_32 = COPY $sgpr1
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE:%[0-9]+]]:sreg_64 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr0
   ; GFX90A_GFX940-NEXT:   [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr1
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   [[V_MOV_B32_e32_:%[0-9]+]]:vgpr_32 = V_MOV_B32_e32 0, implicit $exec
   ; GFX90A_GFX940-NEXT:   GLOBAL_ATOMIC_ADD_F64_SADDR [[V_MOV_B32_e32_]], [[REG_SEQUENCE1]], [[REG_SEQUENCE]], 0, 0, implicit $exec :: (volatile dereferenceable load store (s64) on %ir.ptr, addrspace 1)
   ; GFX90A_GFX940-NEXT:   S_ENDPGM 0
   %ret = call double @llvm.amdgcn.flat.atomic.fadd.f64.p1.f64(ptr addrspace(1) %ptr, double %data)
   ret void
 }

 define amdgpu_ps double @global_atomic_fadd_f64_saddr_rtn_flat_intrinsic(ptr addrspace(1) inreg %ptr, double %data) {
   ; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_saddr_rtn_flat_intrinsic
   ; GFX90A_GFX940: bb.1 (%ir-block.0):
   ; GFX90A_GFX940-NEXT:   liveins: $sgpr0, $sgpr1, $vgpr0, $vgpr1
   ; GFX90A_GFX940-NEXT: {{  $}}
   ; GFX90A_GFX940-NEXT:   [[COPY:%[0-9]+]]:sreg_32 = COPY $sgpr0
   ; GFX90A_GFX940-NEXT:   [[COPY1:%[0-9]+]]:sreg_32 = COPY $sgpr1
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE:%[0-9]+]]:sreg_64 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr0
   ; GFX90A_GFX940-NEXT:   [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr1
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   [[V_MOV_B32_e32_:%[0-9]+]]:vgpr_32 = V_MOV_B32_e32 0, implicit $exec
   ; GFX90A_GFX940-NEXT:   [[GLOBAL_ATOMIC_ADD_F64_SADDR_RTN:%[0-9]+]]:vreg_64_align2 = GLOBAL_ATOMIC_ADD_F64_SADDR_RTN [[V_MOV_B32_e32_]], [[REG_SEQUENCE1]], [[REG_SEQUENCE]], 0, 1, implicit $exec :: (volatile dereferenceable load store (s64) on %ir.ptr, addrspace 1)
   ; GFX90A_GFX940-NEXT:   [[COPY4:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_SADDR_RTN]].sub0
   ; GFX90A_GFX940-NEXT:   [[COPY5:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_SADDR_RTN]].sub1
   ; GFX90A_GFX940-NEXT:   [[V_READFIRSTLANE_B32_:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY4]], implicit $exec
   ; GFX90A_GFX940-NEXT:   $sgpr0 = COPY [[V_READFIRSTLANE_B32_]]
   ; GFX90A_GFX940-NEXT:   [[V_READFIRSTLANE_B32_1:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY5]], implicit $exec
   ; GFX90A_GFX940-NEXT:   $sgpr1 = COPY [[V_READFIRSTLANE_B32_1]]
   ; GFX90A_GFX940-NEXT:   SI_RETURN_TO_EPILOG implicit $sgpr0, implicit $sgpr1
   %ret = call double @llvm.amdgcn.flat.atomic.fadd.f64.p1.f64(ptr addrspace(1) %ptr, double %data)
   ret double %ret
 }

 define amdgpu_ps void @global_atomic_fadd_f64_no_rtn_atomicrmw(ptr addrspace(1) %ptr, double %data) #0 {
   ; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_no_rtn_atomicrmw
   ; GFX90A_GFX940: bb.1 (%ir-block.0):
   ; GFX90A_GFX940-NEXT:   liveins: $vgpr0, $vgpr1, $vgpr2, $vgpr3
   ; GFX90A_GFX940-NEXT: {{  $}}
   ; GFX90A_GFX940-NEXT:   [[COPY:%[0-9]+]]:vgpr_32 = COPY $vgpr0
   ; GFX90A_GFX940-NEXT:   [[COPY1:%[0-9]+]]:vgpr_32 = COPY $vgpr1
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr2
   ; GFX90A_GFX940-NEXT:   [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr3
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   GLOBAL_ATOMIC_ADD_F64 [[REG_SEQUENCE]], [[REG_SEQUENCE1]], 0, 0, implicit $exec :: (load store syncscope("wavefront") monotonic (s64) on %ir.ptr, addrspace 1)
   ; GFX90A_GFX940-NEXT:   S_ENDPGM 0
   %ret = atomicrmw fadd ptr addrspace(1) %ptr, double %data syncscope("wavefront") monotonic
   ret void
 }

 define amdgpu_ps double @global_atomic_fadd_f64_rtn_atomicrmw(ptr addrspace(1) %ptr, double %data) #0 {
   ; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_rtn_atomicrmw
   ; GFX90A_GFX940: bb.1 (%ir-block.0):
   ; GFX90A_GFX940-NEXT:   liveins: $vgpr0, $vgpr1, $vgpr2, $vgpr3
   ; GFX90A_GFX940-NEXT: {{  $}}
   ; GFX90A_GFX940-NEXT:   [[COPY:%[0-9]+]]:vgpr_32 = COPY $vgpr0
   ; GFX90A_GFX940-NEXT:   [[COPY1:%[0-9]+]]:vgpr_32 = COPY $vgpr1
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr2
   ; GFX90A_GFX940-NEXT:   [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr3
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   [[GLOBAL_ATOMIC_ADD_F64_RTN:%[0-9]+]]:vreg_64_align2 = GLOBAL_ATOMIC_ADD_F64_RTN [[REG_SEQUENCE]], [[REG_SEQUENCE1]], 0, 1, implicit $exec :: (load store syncscope("wavefront") monotonic (s64) on %ir.ptr, addrspace 1)
   ; GFX90A_GFX940-NEXT:   [[COPY4:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_RTN]].sub0
   ; GFX90A_GFX940-NEXT:   [[COPY5:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_RTN]].sub1
   ; GFX90A_GFX940-NEXT:   [[V_READFIRSTLANE_B32_:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY4]], implicit $exec
   ; GFX90A_GFX940-NEXT:   $sgpr0 = COPY [[V_READFIRSTLANE_B32_]]
   ; GFX90A_GFX940-NEXT:   [[V_READFIRSTLANE_B32_1:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY5]], implicit $exec
   ; GFX90A_GFX940-NEXT:   $sgpr1 = COPY [[V_READFIRSTLANE_B32_1]]
   ; GFX90A_GFX940-NEXT:   SI_RETURN_TO_EPILOG implicit $sgpr0, implicit $sgpr1
   %ret = atomicrmw fadd ptr addrspace(1) %ptr, double %data syncscope("wavefront") monotonic
   ret double %ret
 }

 define amdgpu_ps void @global_atomic_fadd_f64_saddr_no_rtn_atomicrmw(ptr addrspace(1) inreg %ptr, double %data) #0 {
   ; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_saddr_no_rtn_atomicrmw
   ; GFX90A_GFX940: bb.1 (%ir-block.0):
   ; GFX90A_GFX940-NEXT:   liveins: $sgpr0, $sgpr1, $vgpr0, $vgpr1
   ; GFX90A_GFX940-NEXT: {{  $}}
   ; GFX90A_GFX940-NEXT:   [[COPY:%[0-9]+]]:sreg_32 = COPY $sgpr0
   ; GFX90A_GFX940-NEXT:   [[COPY1:%[0-9]+]]:sreg_32 = COPY $sgpr1
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE:%[0-9]+]]:sreg_64 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr0
   ; GFX90A_GFX940-NEXT:   [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr1
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   [[V_MOV_B32_e32_:%[0-9]+]]:vgpr_32 = V_MOV_B32_e32 0, implicit $exec
   ; GFX90A_GFX940-NEXT:   GLOBAL_ATOMIC_ADD_F64_SADDR [[V_MOV_B32_e32_]], [[REG_SEQUENCE1]], [[REG_SEQUENCE]], 0, 0, implicit $exec :: (load store syncscope("wavefront") monotonic (s64) on %ir.ptr, addrspace 1)
   ; GFX90A_GFX940-NEXT:   S_ENDPGM 0
   %ret = atomicrmw fadd ptr addrspace(1) %ptr, double %data syncscope("wavefront") monotonic
   ret void
 }

 define amdgpu_ps double @global_atomic_fadd_f64_saddr_rtn_atomicrmw(ptr addrspace(1) inreg %ptr, double %data) #0 {
   ; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_saddr_rtn_atomicrmw
   ; GFX90A_GFX940: bb.1 (%ir-block.0):
   ; GFX90A_GFX940-NEXT:   liveins: $sgpr0, $sgpr1, $vgpr0, $vgpr1
   ; GFX90A_GFX940-NEXT: {{  $}}
   ; GFX90A_GFX940-NEXT:   [[COPY:%[0-9]+]]:sreg_32 = COPY $sgpr0
   ; GFX90A_GFX940-NEXT:   [[COPY1:%[0-9]+]]:sreg_32 = COPY $sgpr1
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE:%[0-9]+]]:sreg_64 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr0
   ; GFX90A_GFX940-NEXT:   [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr1
   ; GFX90A_GFX940-NEXT:   [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
   ; GFX90A_GFX940-NEXT:   [[V_MOV_B32_e32_:%[0-9]+]]:vgpr_32 = V_MOV_B32_e32 0, implicit $exec
   ; GFX90A_GFX940-NEXT:   [[GLOBAL_ATOMIC_ADD_F64_SADDR_RTN:%[0-9]+]]:vreg_64_align2 = GLOBAL_ATOMIC_ADD_F64_SADDR_RTN [[V_MOV_B32_e32_]], [[REG_SEQUENCE1]], [[REG_SEQUENCE]], 0, 1, implicit $exec :: (load store syncscope("wavefront") monotonic (s64) on %ir.ptr, addrspace 1)
   ; GFX90A_GFX940-NEXT:   [[COPY4:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_SADDR_RTN]].sub0
   ; GFX90A_GFX940-NEXT:   [[COPY5:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_SADDR_RTN]].sub1
   ; GFX90A_GFX940-NEXT:   [[V_READFIRSTLANE_B32_:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY4]], implicit $exec
   ; GFX90A_GFX940-NEXT:   $sgpr0 = COPY [[V_READFIRSTLANE_B32_]]
   ; GFX90A_GFX940-NEXT:   [[V_READFIRSTLANE_B32_1:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY5]], implicit $exec
   ; GFX90A_GFX940-NEXT:   $sgpr1 = COPY [[V_READFIRSTLANE_B32_1]]
   ; GFX90A_GFX940-NEXT:   SI_RETURN_TO_EPILOG implicit $sgpr0, implicit $sgpr1
   %ret = atomicrmw fadd ptr addrspace(1) %ptr, double %data syncscope("wavefront") monotonic
   ret double %ret
 }

 declare double @llvm.amdgcn.global.atomic.fadd.f64.p1.f64(ptr addrspace(1), double)
 declare double @llvm.amdgcn.flat.atomic.fadd.f64.p1.f64(ptr addrspace(1), double)

 attributes #0 = {"amdgpu-unsafe-fp-atomics"="true" }
	; NOTE: Assertions have been autogenerated by utils/update_mir_test_checks.py
	; RUN: llc -global-isel -mtriple=amdgcn -mcpu=gfx90a -verify-machineinstrs -stop-after=instruction-select < %s \| FileCheck -check-prefix=GFX90A_GFX940 %s
	; RUN: llc -global-isel -mtriple=amdgcn -mcpu=gfx940 -verify-machineinstrs -stop-after=instruction-select < %s \| FileCheck -check-prefix=GFX90A_GFX940 %s

	define amdgpu_ps void @global_atomic_fadd_f64_no_rtn_intrinsic(ptr addrspace(1) %ptr, double %data) {
	; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_no_rtn_intrinsic
	; GFX90A_GFX940: bb.1 (%ir-block.0):
	; GFX90A_GFX940-NEXT: liveins: $vgpr0, $vgpr1, $vgpr2, $vgpr3
	; GFX90A_GFX940-NEXT: {{ $}}
	; GFX90A_GFX940-NEXT: [[COPY:%[0-9]+]]:vgpr_32 = COPY $vgpr0
	; GFX90A_GFX940-NEXT: [[COPY1:%[0-9]+]]:vgpr_32 = COPY $vgpr1
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
	; GFX90A_GFX940-NEXT: [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr2
	; GFX90A_GFX940-NEXT: [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr3
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
	; GFX90A_GFX940-NEXT: GLOBAL_ATOMIC_ADD_F64 [[REG_SEQUENCE]], [[REG_SEQUENCE1]], 0, 0, implicit $exec :: (volatile dereferenceable load store (s64) on %ir.ptr, addrspace 1)
	; GFX90A_GFX940-NEXT: S_ENDPGM 0
	%ret = call double @llvm.amdgcn.global.atomic.fadd.f64.p1.f64(ptr addrspace(1) %ptr, double %data)
	ret void
	}

	define amdgpu_ps double @global_atomic_fadd_f64_rtn_intrinsic(ptr addrspace(1) %ptr, double %data) {
	; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_rtn_intrinsic
	; GFX90A_GFX940: bb.1 (%ir-block.0):
	; GFX90A_GFX940-NEXT: liveins: $vgpr0, $vgpr1, $vgpr2, $vgpr3
	; GFX90A_GFX940-NEXT: {{ $}}
	; GFX90A_GFX940-NEXT: [[COPY:%[0-9]+]]:vgpr_32 = COPY $vgpr0
	; GFX90A_GFX940-NEXT: [[COPY1:%[0-9]+]]:vgpr_32 = COPY $vgpr1
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
	; GFX90A_GFX940-NEXT: [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr2
	; GFX90A_GFX940-NEXT: [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr3
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
	; GFX90A_GFX940-NEXT: [[GLOBAL_ATOMIC_ADD_F64_RTN:%[0-9]+]]:vreg_64_align2 = GLOBAL_ATOMIC_ADD_F64_RTN [[REG_SEQUENCE]], [[REG_SEQUENCE1]], 0, 1, implicit $exec :: (volatile dereferenceable load store (s64) on %ir.ptr, addrspace 1)
	; GFX90A_GFX940-NEXT: [[COPY4:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_RTN]].sub0
	; GFX90A_GFX940-NEXT: [[COPY5:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_RTN]].sub1
	; GFX90A_GFX940-NEXT: [[V_READFIRSTLANE_B32_:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY4]], implicit $exec
	; GFX90A_GFX940-NEXT: $sgpr0 = COPY [[V_READFIRSTLANE_B32_]]
	; GFX90A_GFX940-NEXT: [[V_READFIRSTLANE_B32_1:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY5]], implicit $exec
	; GFX90A_GFX940-NEXT: $sgpr1 = COPY [[V_READFIRSTLANE_B32_1]]
	; GFX90A_GFX940-NEXT: SI_RETURN_TO_EPILOG implicit $sgpr0, implicit $sgpr1
	%ret = call double @llvm.amdgcn.global.atomic.fadd.f64.p1.f64(ptr addrspace(1) %ptr, double %data)
	ret double %ret
	}

	define amdgpu_ps void @global_atomic_fadd_f64_saddr_no_rtn_intrinsic(ptr addrspace(1) inreg %ptr, double %data) {
	; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_saddr_no_rtn_intrinsic
	; GFX90A_GFX940: bb.1 (%ir-block.0):
	; GFX90A_GFX940-NEXT: liveins: $sgpr0, $sgpr1, $vgpr0, $vgpr1
	; GFX90A_GFX940-NEXT: {{ $}}
	; GFX90A_GFX940-NEXT: [[COPY:%[0-9]+]]:sreg_32 = COPY $sgpr0
	; GFX90A_GFX940-NEXT: [[COPY1:%[0-9]+]]:sreg_32 = COPY $sgpr1
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE:%[0-9]+]]:sreg_64 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
	; GFX90A_GFX940-NEXT: [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr0
	; GFX90A_GFX940-NEXT: [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr1
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
	; GFX90A_GFX940-NEXT: [[V_MOV_B32_e32_:%[0-9]+]]:vgpr_32 = V_MOV_B32_e32 0, implicit $exec
	; GFX90A_GFX940-NEXT: GLOBAL_ATOMIC_ADD_F64_SADDR [[V_MOV_B32_e32_]], [[REG_SEQUENCE1]], [[REG_SEQUENCE]], 0, 0, implicit $exec :: (volatile dereferenceable load store (s64) on %ir.ptr, addrspace 1)
	; GFX90A_GFX940-NEXT: S_ENDPGM 0
	%ret = call double @llvm.amdgcn.global.atomic.fadd.f64.p1.f64(ptr addrspace(1) %ptr, double %data)
	ret void
	}

	define amdgpu_ps double @global_atomic_fadd_f64_saddr_rtn_intrinsic(ptr addrspace(1) inreg %ptr, double %data) {
	; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_saddr_rtn_intrinsic
	; GFX90A_GFX940: bb.1 (%ir-block.0):
	; GFX90A_GFX940-NEXT: liveins: $sgpr0, $sgpr1, $vgpr0, $vgpr1
	; GFX90A_GFX940-NEXT: {{ $}}
	; GFX90A_GFX940-NEXT: [[COPY:%[0-9]+]]:sreg_32 = COPY $sgpr0
	; GFX90A_GFX940-NEXT: [[COPY1:%[0-9]+]]:sreg_32 = COPY $sgpr1
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE:%[0-9]+]]:sreg_64 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
	; GFX90A_GFX940-NEXT: [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr0
	; GFX90A_GFX940-NEXT: [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr1
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
	; GFX90A_GFX940-NEXT: [[V_MOV_B32_e32_:%[0-9]+]]:vgpr_32 = V_MOV_B32_e32 0, implicit $exec
	; GFX90A_GFX940-NEXT: [[GLOBAL_ATOMIC_ADD_F64_SADDR_RTN:%[0-9]+]]:vreg_64_align2 = GLOBAL_ATOMIC_ADD_F64_SADDR_RTN [[V_MOV_B32_e32_]], [[REG_SEQUENCE1]], [[REG_SEQUENCE]], 0, 1, implicit $exec :: (volatile dereferenceable load store (s64) on %ir.ptr, addrspace 1)
	; GFX90A_GFX940-NEXT: [[COPY4:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_SADDR_RTN]].sub0
	; GFX90A_GFX940-NEXT: [[COPY5:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_SADDR_RTN]].sub1
	; GFX90A_GFX940-NEXT: [[V_READFIRSTLANE_B32_:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY4]], implicit $exec
	; GFX90A_GFX940-NEXT: $sgpr0 = COPY [[V_READFIRSTLANE_B32_]]
	; GFX90A_GFX940-NEXT: [[V_READFIRSTLANE_B32_1:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY5]], implicit $exec
	; GFX90A_GFX940-NEXT: $sgpr1 = COPY [[V_READFIRSTLANE_B32_1]]
	; GFX90A_GFX940-NEXT: SI_RETURN_TO_EPILOG implicit $sgpr0, implicit $sgpr1
	%ret = call double @llvm.amdgcn.global.atomic.fadd.f64.p1.f64(ptr addrspace(1) %ptr, double %data)
	ret double %ret
	}

	define amdgpu_ps void @global_atomic_fadd_f64_no_rtn_flat_intrinsic(ptr addrspace(1) %ptr, double %data) {
	; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_no_rtn_flat_intrinsic
	; GFX90A_GFX940: bb.1 (%ir-block.0):
	; GFX90A_GFX940-NEXT: liveins: $vgpr0, $vgpr1, $vgpr2, $vgpr3
	; GFX90A_GFX940-NEXT: {{ $}}
	; GFX90A_GFX940-NEXT: [[COPY:%[0-9]+]]:vgpr_32 = COPY $vgpr0
	; GFX90A_GFX940-NEXT: [[COPY1:%[0-9]+]]:vgpr_32 = COPY $vgpr1
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
	; GFX90A_GFX940-NEXT: [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr2
	; GFX90A_GFX940-NEXT: [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr3
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
	; GFX90A_GFX940-NEXT: GLOBAL_ATOMIC_ADD_F64 [[REG_SEQUENCE]], [[REG_SEQUENCE1]], 0, 0, implicit $exec :: (volatile dereferenceable load store (s64) on %ir.ptr, addrspace 1)
	; GFX90A_GFX940-NEXT: S_ENDPGM 0
	%ret = call double @llvm.amdgcn.flat.atomic.fadd.f64.p1.f64(ptr addrspace(1) %ptr, double %data)
	ret void
	}

	define amdgpu_ps double @global_atomic_fadd_f64_rtn_flat_intrinsic(ptr addrspace(1) %ptr, double %data) {
	; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_rtn_flat_intrinsic
	; GFX90A_GFX940: bb.1 (%ir-block.0):
	; GFX90A_GFX940-NEXT: liveins: $vgpr0, $vgpr1, $vgpr2, $vgpr3
	; GFX90A_GFX940-NEXT: {{ $}}
	; GFX90A_GFX940-NEXT: [[COPY:%[0-9]+]]:vgpr_32 = COPY $vgpr0
	; GFX90A_GFX940-NEXT: [[COPY1:%[0-9]+]]:vgpr_32 = COPY $vgpr1
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
	; GFX90A_GFX940-NEXT: [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr2
	; GFX90A_GFX940-NEXT: [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr3
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
	; GFX90A_GFX940-NEXT: [[GLOBAL_ATOMIC_ADD_F64_RTN:%[0-9]+]]:vreg_64_align2 = GLOBAL_ATOMIC_ADD_F64_RTN [[REG_SEQUENCE]], [[REG_SEQUENCE1]], 0, 1, implicit $exec :: (volatile dereferenceable load store (s64) on %ir.ptr, addrspace 1)
	; GFX90A_GFX940-NEXT: [[COPY4:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_RTN]].sub0
	; GFX90A_GFX940-NEXT: [[COPY5:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_RTN]].sub1
	; GFX90A_GFX940-NEXT: [[V_READFIRSTLANE_B32_:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY4]], implicit $exec
	; GFX90A_GFX940-NEXT: $sgpr0 = COPY [[V_READFIRSTLANE_B32_]]
	; GFX90A_GFX940-NEXT: [[V_READFIRSTLANE_B32_1:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY5]], implicit $exec
	; GFX90A_GFX940-NEXT: $sgpr1 = COPY [[V_READFIRSTLANE_B32_1]]
	; GFX90A_GFX940-NEXT: SI_RETURN_TO_EPILOG implicit $sgpr0, implicit $sgpr1
	%ret = call double @llvm.amdgcn.flat.atomic.fadd.f64.p1.f64(ptr addrspace(1) %ptr, double %data)
	ret double %ret
	}

	define amdgpu_ps void @global_atomic_fadd_f64_saddr_no_rtn_flat_intrinsic(ptr addrspace(1) inreg %ptr, double %data) {
	; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_saddr_no_rtn_flat_intrinsic
	; GFX90A_GFX940: bb.1 (%ir-block.0):
	; GFX90A_GFX940-NEXT: liveins: $sgpr0, $sgpr1, $vgpr0, $vgpr1
	; GFX90A_GFX940-NEXT: {{ $}}
	; GFX90A_GFX940-NEXT: [[COPY:%[0-9]+]]:sreg_32 = COPY $sgpr0
	; GFX90A_GFX940-NEXT: [[COPY1:%[0-9]+]]:sreg_32 = COPY $sgpr1
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE:%[0-9]+]]:sreg_64 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
	; GFX90A_GFX940-NEXT: [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr0
	; GFX90A_GFX940-NEXT: [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr1
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
	; GFX90A_GFX940-NEXT: [[V_MOV_B32_e32_:%[0-9]+]]:vgpr_32 = V_MOV_B32_e32 0, implicit $exec
	; GFX90A_GFX940-NEXT: GLOBAL_ATOMIC_ADD_F64_SADDR [[V_MOV_B32_e32_]], [[REG_SEQUENCE1]], [[REG_SEQUENCE]], 0, 0, implicit $exec :: (volatile dereferenceable load store (s64) on %ir.ptr, addrspace 1)
	; GFX90A_GFX940-NEXT: S_ENDPGM 0
	%ret = call double @llvm.amdgcn.flat.atomic.fadd.f64.p1.f64(ptr addrspace(1) %ptr, double %data)
	ret void
	}

	define amdgpu_ps double @global_atomic_fadd_f64_saddr_rtn_flat_intrinsic(ptr addrspace(1) inreg %ptr, double %data) {
	; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_saddr_rtn_flat_intrinsic
	; GFX90A_GFX940: bb.1 (%ir-block.0):
	; GFX90A_GFX940-NEXT: liveins: $sgpr0, $sgpr1, $vgpr0, $vgpr1
	; GFX90A_GFX940-NEXT: {{ $}}
	; GFX90A_GFX940-NEXT: [[COPY:%[0-9]+]]:sreg_32 = COPY $sgpr0
	; GFX90A_GFX940-NEXT: [[COPY1:%[0-9]+]]:sreg_32 = COPY $sgpr1
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE:%[0-9]+]]:sreg_64 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
	; GFX90A_GFX940-NEXT: [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr0
	; GFX90A_GFX940-NEXT: [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr1
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
	; GFX90A_GFX940-NEXT: [[V_MOV_B32_e32_:%[0-9]+]]:vgpr_32 = V_MOV_B32_e32 0, implicit $exec
	; GFX90A_GFX940-NEXT: [[GLOBAL_ATOMIC_ADD_F64_SADDR_RTN:%[0-9]+]]:vreg_64_align2 = GLOBAL_ATOMIC_ADD_F64_SADDR_RTN [[V_MOV_B32_e32_]], [[REG_SEQUENCE1]], [[REG_SEQUENCE]], 0, 1, implicit $exec :: (volatile dereferenceable load store (s64) on %ir.ptr, addrspace 1)
	; GFX90A_GFX940-NEXT: [[COPY4:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_SADDR_RTN]].sub0
	; GFX90A_GFX940-NEXT: [[COPY5:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_SADDR_RTN]].sub1
	; GFX90A_GFX940-NEXT: [[V_READFIRSTLANE_B32_:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY4]], implicit $exec
	; GFX90A_GFX940-NEXT: $sgpr0 = COPY [[V_READFIRSTLANE_B32_]]
	; GFX90A_GFX940-NEXT: [[V_READFIRSTLANE_B32_1:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY5]], implicit $exec
	; GFX90A_GFX940-NEXT: $sgpr1 = COPY [[V_READFIRSTLANE_B32_1]]
	; GFX90A_GFX940-NEXT: SI_RETURN_TO_EPILOG implicit $sgpr0, implicit $sgpr1
	%ret = call double @llvm.amdgcn.flat.atomic.fadd.f64.p1.f64(ptr addrspace(1) %ptr, double %data)
	ret double %ret
	}

	define amdgpu_ps void @global_atomic_fadd_f64_no_rtn_atomicrmw(ptr addrspace(1) %ptr, double %data) #0 {
	; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_no_rtn_atomicrmw
	; GFX90A_GFX940: bb.1 (%ir-block.0):
	; GFX90A_GFX940-NEXT: liveins: $vgpr0, $vgpr1, $vgpr2, $vgpr3
	; GFX90A_GFX940-NEXT: {{ $}}
	; GFX90A_GFX940-NEXT: [[COPY:%[0-9]+]]:vgpr_32 = COPY $vgpr0
	; GFX90A_GFX940-NEXT: [[COPY1:%[0-9]+]]:vgpr_32 = COPY $vgpr1
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
	; GFX90A_GFX940-NEXT: [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr2
	; GFX90A_GFX940-NEXT: [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr3
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
	; GFX90A_GFX940-NEXT: GLOBAL_ATOMIC_ADD_F64 [[REG_SEQUENCE]], [[REG_SEQUENCE1]], 0, 0, implicit $exec :: (load store syncscope("wavefront") monotonic (s64) on %ir.ptr, addrspace 1)
	; GFX90A_GFX940-NEXT: S_ENDPGM 0
	%ret = atomicrmw fadd ptr addrspace(1) %ptr, double %data syncscope("wavefront") monotonic
	ret void
	}

	define amdgpu_ps double @global_atomic_fadd_f64_rtn_atomicrmw(ptr addrspace(1) %ptr, double %data) #0 {
	; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_rtn_atomicrmw
	; GFX90A_GFX940: bb.1 (%ir-block.0):
	; GFX90A_GFX940-NEXT: liveins: $vgpr0, $vgpr1, $vgpr2, $vgpr3
	; GFX90A_GFX940-NEXT: {{ $}}
	; GFX90A_GFX940-NEXT: [[COPY:%[0-9]+]]:vgpr_32 = COPY $vgpr0
	; GFX90A_GFX940-NEXT: [[COPY1:%[0-9]+]]:vgpr_32 = COPY $vgpr1
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
	; GFX90A_GFX940-NEXT: [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr2
	; GFX90A_GFX940-NEXT: [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr3
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
	; GFX90A_GFX940-NEXT: [[GLOBAL_ATOMIC_ADD_F64_RTN:%[0-9]+]]:vreg_64_align2 = GLOBAL_ATOMIC_ADD_F64_RTN [[REG_SEQUENCE]], [[REG_SEQUENCE1]], 0, 1, implicit $exec :: (load store syncscope("wavefront") monotonic (s64) on %ir.ptr, addrspace 1)
	; GFX90A_GFX940-NEXT: [[COPY4:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_RTN]].sub0
	; GFX90A_GFX940-NEXT: [[COPY5:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_RTN]].sub1
	; GFX90A_GFX940-NEXT: [[V_READFIRSTLANE_B32_:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY4]], implicit $exec
	; GFX90A_GFX940-NEXT: $sgpr0 = COPY [[V_READFIRSTLANE_B32_]]
	; GFX90A_GFX940-NEXT: [[V_READFIRSTLANE_B32_1:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY5]], implicit $exec
	; GFX90A_GFX940-NEXT: $sgpr1 = COPY [[V_READFIRSTLANE_B32_1]]
	; GFX90A_GFX940-NEXT: SI_RETURN_TO_EPILOG implicit $sgpr0, implicit $sgpr1
	%ret = atomicrmw fadd ptr addrspace(1) %ptr, double %data syncscope("wavefront") monotonic
	ret double %ret
	}

	define amdgpu_ps void @global_atomic_fadd_f64_saddr_no_rtn_atomicrmw(ptr addrspace(1) inreg %ptr, double %data) #0 {
	; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_saddr_no_rtn_atomicrmw
	; GFX90A_GFX940: bb.1 (%ir-block.0):
	; GFX90A_GFX940-NEXT: liveins: $sgpr0, $sgpr1, $vgpr0, $vgpr1
	; GFX90A_GFX940-NEXT: {{ $}}
	; GFX90A_GFX940-NEXT: [[COPY:%[0-9]+]]:sreg_32 = COPY $sgpr0
	; GFX90A_GFX940-NEXT: [[COPY1:%[0-9]+]]:sreg_32 = COPY $sgpr1
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE:%[0-9]+]]:sreg_64 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
	; GFX90A_GFX940-NEXT: [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr0
	; GFX90A_GFX940-NEXT: [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr1
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
	; GFX90A_GFX940-NEXT: [[V_MOV_B32_e32_:%[0-9]+]]:vgpr_32 = V_MOV_B32_e32 0, implicit $exec
	; GFX90A_GFX940-NEXT: GLOBAL_ATOMIC_ADD_F64_SADDR [[V_MOV_B32_e32_]], [[REG_SEQUENCE1]], [[REG_SEQUENCE]], 0, 0, implicit $exec :: (load store syncscope("wavefront") monotonic (s64) on %ir.ptr, addrspace 1)
	; GFX90A_GFX940-NEXT: S_ENDPGM 0
	%ret = atomicrmw fadd ptr addrspace(1) %ptr, double %data syncscope("wavefront") monotonic
	ret void
	}

	define amdgpu_ps double @global_atomic_fadd_f64_saddr_rtn_atomicrmw(ptr addrspace(1) inreg %ptr, double %data) #0 {
	; GFX90A_GFX940-LABEL: name: global_atomic_fadd_f64_saddr_rtn_atomicrmw
	; GFX90A_GFX940: bb.1 (%ir-block.0):
	; GFX90A_GFX940-NEXT: liveins: $sgpr0, $sgpr1, $vgpr0, $vgpr1
	; GFX90A_GFX940-NEXT: {{ $}}
	; GFX90A_GFX940-NEXT: [[COPY:%[0-9]+]]:sreg_32 = COPY $sgpr0
	; GFX90A_GFX940-NEXT: [[COPY1:%[0-9]+]]:sreg_32 = COPY $sgpr1
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE:%[0-9]+]]:sreg_64 = REG_SEQUENCE [[COPY]], %subreg.sub0, [[COPY1]], %subreg.sub1
	; GFX90A_GFX940-NEXT: [[COPY2:%[0-9]+]]:vgpr_32 = COPY $vgpr0
	; GFX90A_GFX940-NEXT: [[COPY3:%[0-9]+]]:vgpr_32 = COPY $vgpr1
	; GFX90A_GFX940-NEXT: [[REG_SEQUENCE1:%[0-9]+]]:vreg_64_align2 = REG_SEQUENCE [[COPY2]], %subreg.sub0, [[COPY3]], %subreg.sub1
	; GFX90A_GFX940-NEXT: [[V_MOV_B32_e32_:%[0-9]+]]:vgpr_32 = V_MOV_B32_e32 0, implicit $exec
	; GFX90A_GFX940-NEXT: [[GLOBAL_ATOMIC_ADD_F64_SADDR_RTN:%[0-9]+]]:vreg_64_align2 = GLOBAL_ATOMIC_ADD_F64_SADDR_RTN [[V_MOV_B32_e32_]], [[REG_SEQUENCE1]], [[REG_SEQUENCE]], 0, 1, implicit $exec :: (load store syncscope("wavefront") monotonic (s64) on %ir.ptr, addrspace 1)
	; GFX90A_GFX940-NEXT: [[COPY4:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_SADDR_RTN]].sub0
	; GFX90A_GFX940-NEXT: [[COPY5:%[0-9]+]]:vgpr_32 = COPY [[GLOBAL_ATOMIC_ADD_F64_SADDR_RTN]].sub1
	; GFX90A_GFX940-NEXT: [[V_READFIRSTLANE_B32_:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY4]], implicit $exec
	; GFX90A_GFX940-NEXT: $sgpr0 = COPY [[V_READFIRSTLANE_B32_]]
	; GFX90A_GFX940-NEXT: [[V_READFIRSTLANE_B32_1:%[0-9]+]]:sreg_32 = V_READFIRSTLANE_B32 [[COPY5]], implicit $exec
	; GFX90A_GFX940-NEXT: $sgpr1 = COPY [[V_READFIRSTLANE_B32_1]]
	; GFX90A_GFX940-NEXT: SI_RETURN_TO_EPILOG implicit $sgpr0, implicit $sgpr1
	%ret = atomicrmw fadd ptr addrspace(1) %ptr, double %data syncscope("wavefront") monotonic
	ret double %ret
	}

	declare double @llvm.amdgcn.global.atomic.fadd.f64.p1.f64(ptr addrspace(1), double)
	declare double @llvm.amdgcn.flat.atomic.fadd.f64.p1.f64(ptr addrspace(1), double)

	attributes #0 = {"amdgpu-unsafe-fp-atomics"="true" }