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6e6c5e79c9
If a PHI defines AGPR legalize its operands to AGPR. At the moment we can get an AGPR PHI with VGPR operands. I am not aware of any problems as it seems to be handled gracefully in RA, but this is not right anyway. It also slightly decreases VGPR pressure in some cases because we do not have to a copy via VGPR. Differential Revision: https://reviews.llvm.org/D69206 git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@375446 91177308-0d34-0410-b5e6-96231b3b80d8
81 lines
2.8 KiB
LLVM
81 lines
2.8 KiB
LLVM
; RUN: llc -march=amdgcn -mcpu=gfx908 -verify-machineinstrs < %s | FileCheck -check-prefix=GCN %s
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; GCN-LABEL: {{^}}test_mfma_loop_zeroinit:
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; Check that we do not use 32 temp vgprs, but rotate 3 vgprs only.
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; 3 vgprs are needed to avoid wait states between writes.
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; FIXME: We should not be using and temporary registers at all.
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; At the moment we initialize an sgpr, then copy it via vgprs.
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP2:v[0-9]+]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP3:v[0-9]+]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP1:v[0-9]+]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP2]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP3]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP1]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP2]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP3]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP1]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP2]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP3]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP1]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP2]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP3]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP1]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP2]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP3]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP1]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP2]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP3]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP1]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP2]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP3]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP1]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP2]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP3]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP1]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP2]]
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; GCN: v_accvgpr_write_b32 a{{[0-9]+}}, [[TMP3]]
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; Check that we do not copy agprs to vgprs and back inside the loop.
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; GCN: [[LOOP:BB[0-9_]+]]:
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; GCN-NOT: v_accvgpr
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; GCN: v_mfma_f32_32x32x1f32
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; GCN-NOT: v_accvgpr
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; GCN: s_cbranch_scc1 [[LOOP]]
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; Final result should be read only once after the loop.
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; GCN-COUNT32: v_accvgpr_read_b32
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define amdgpu_kernel void @test_mfma_loop_zeroinit(<32 x float> addrspace(1)* %arg) {
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entry:
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br label %for.cond.preheader
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for.cond.preheader:
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%phi = phi <32 x float> [ zeroinitializer, %entry ], [ %mai.1, %for.cond.preheader ]
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%c = phi i32 [ 0, %entry ], [ %inc, %for.cond.preheader ]
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%mai.1 = tail call <32 x float> @llvm.amdgcn.mfma.f32.32x32x1f32(float 1.0, float 2.0, <32 x float> %phi, i32 0, i32 0, i32 0)
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%inc = add nuw nsw i32 %c, 1
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%cc = icmp eq i32 %inc, 16
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br i1 %cc, label %exit, label %for.cond.preheader
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exit:
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store <32 x float> %mai.1, <32 x float> addrspace(1)* %arg
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ret void
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}
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declare <32 x float> @llvm.amdgcn.mfma.f32.32x32x1f32(float, float, <32 x float>, i32, i32, i32)
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declare i32 @llvm.amdgcn.workitem.id.x()
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