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aco/gfx11: workaround VALUPartialForwardingHazard

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fossil-db (gfx1100):
Totals from 18121 (13.42% of 135032) affected shaders:
Instrs: 28272367 -> 28323468 (+0.18%)
CodeSize: 152581916 -> 152786320 (+0.13%)
Latency: 366477785 -> 366482318 (+0.00%); split: -0.00%, +0.00%
InvThroughput: 74475188 -> 74475758 (+0.00%); split: -0.00%, +0.00%

Signed-off-by: Rhys Perry <pendingchaos02@gmail.com>
Reviewed-by: Daniel Schürmann <daniel@schuermann.dev>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/18273>
This commit is contained in:
Rhys Perry 2022-08-25 12:34:34 +01:00 committed by Marge Bot
parent b0b48b7687
commit 5806f0246f
3 changed files with 416 additions and 0 deletions
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10
src/amd/compiler/README-ISA.md
View file

@ -320,3 +320,13 @@ transcendental instructions in-between.
Mitigated by:
A va_vdst=0 wait: `s_waitcnt_deptr 0x0fff`
### VALUPartialForwardingHazard
Triggered by:
A VALU instruction reading two VGPRs: one written before an exec write by SALU and one after. To
trigger, there must be less than 3 VALU between the first and second VGPR writes and less than 5
VALU between the second VGPR write and the current instruction.
Mitigated by:
A va_vdst=0 wait: `s_waitcnt_deptr 0x0fff`

140
src/amd/compiler/aco_insert_NOPs.cpp
View file

@ -1075,6 +1075,141 @@ handle_lds_direct_valu_hazard(State& state, aco_ptr<Instruction>& instr)
return global_state.wait_vdst;
}
enum VALUPartialForwardingHazardState : uint8_t {
nothing_written,
written_after_exec_write,
exec_written,
};
struct VALUPartialForwardingHazardGlobalState {
bool hazard_found = false;
std::set<unsigned> loop_headers_visited;
};
struct VALUPartialForwardingHazardBlockState {
/* initialized by number of VGPRs read by VALU, decrement when encountered to return early */
uint8_t num_vgprs_read = 0;
BITSET_DECLARE(vgprs_read, 256) = {0};
enum VALUPartialForwardingHazardState state = nothing_written;
unsigned num_valu_since_read = 0;
unsigned num_valu_since_write = 0;
};
bool
handle_valu_partial_forwarding_hazard_instr(VALUPartialForwardingHazardGlobalState& global_state,
VALUPartialForwardingHazardBlockState& block_state,
aco_ptr<Instruction>& instr)
{
if (instr->isSALU() && !instr->definitions.empty()) {
if (block_state.state == written_after_exec_write && instr_writes_exec(instr))
block_state.state = exec_written;
} else if (instr->isVALU() || instr->isVINTERP_INREG()) {
bool vgpr_write = false;
for (Definition& def : instr->definitions) {
if (def.physReg().reg() < 256)
continue;
for (unsigned i = 0; i < def.size(); i++) {
unsigned reg = def.physReg().reg() - 256 + i;
if (!BITSET_TEST(block_state.vgprs_read, reg))
continue;
if (block_state.state == exec_written && block_state.num_valu_since_write < 3) {
global_state.hazard_found = true;
return true;
}
BITSET_CLEAR(block_state.vgprs_read, reg);
block_state.num_vgprs_read--;
vgpr_write = true;
}
}
if (vgpr_write) {
/* If the state is nothing_written: the check below should ensure that this write is
* close enough to the read.
*
* If the state is exec_written: the current choice of second write has failed. Reset and
* try with the current write as the second one, if it's close enough to the read.
*
* If the state is written_after_exec_write: a further second write would be better, if
* it's close enough to the read.
*/
if (block_state.state == nothing_written || block_state.num_valu_since_read < 5) {
block_state.state = written_after_exec_write;
block_state.num_valu_since_write = 0;
} else {
block_state.num_valu_since_write++;
}
} else {
block_state.num_valu_since_write++;
}
block_state.num_valu_since_read++;
} else if (parse_vdst_wait(instr) == 0) {
return true;
}
if (block_state.num_valu_since_read >= (block_state.state == nothing_written ? 5 : 8))
return true; /* Hazard not possible at this distance. */
if (block_state.num_vgprs_read == 0)
return true; /* All VGPRs have been written and a hazard was never found. */
return false;
}
bool
handle_valu_partial_forwarding_hazard_block(VALUPartialForwardingHazardGlobalState& global_state,
VALUPartialForwardingHazardBlockState& block_state,
Block* block)
{
if (block->kind & block_kind_loop_header) {
if (global_state.loop_headers_visited.count(block->index))
return false;
global_state.loop_headers_visited.insert(block->index);
}
return true;
}
bool
handle_valu_partial_forwarding_hazard(State& state, aco_ptr<Instruction>& instr)
{
/* VALUPartialForwardingHazard
* VALU instruction reads two VGPRs: one written before an exec write by SALU and one after.
* For the hazard, there must be less than 3 VALU between the first and second VGPR writes.
* There also must be less than 5 VALU between the second VGPR write and the current instruction.
*/
if (state.program->wave_size != 64 || (!instr->isVALU() && !instr->isVINTERP_INREG()))
return false;
unsigned num_vgprs = 0;
for (Operand& op : instr->operands)
num_vgprs += op.physReg().reg() < 256 ? op.size() : 1;
if (num_vgprs <= 1)
return false; /* early exit */
VALUPartialForwardingHazardBlockState block_state;
for (unsigned i = 0; i < instr->operands.size(); i++) {
Operand& op = instr->operands[i];
if (op.physReg().reg() < 256)
continue;
for (unsigned j = 0; j < op.size(); j++)
BITSET_SET(block_state.vgprs_read, op.physReg().reg() - 256 + j);
}
block_state.num_vgprs_read = BITSET_COUNT(block_state.vgprs_read);
if (block_state.num_vgprs_read <= 1)
return false; /* early exit */
VALUPartialForwardingHazardGlobalState global_state;
search_backwards<VALUPartialForwardingHazardGlobalState, VALUPartialForwardingHazardBlockState,
&handle_valu_partial_forwarding_hazard_block,
&handle_valu_partial_forwarding_hazard_instr>(state, global_state, block_state);
return global_state.hazard_found;
}
void
handle_instruction_gfx11(State& state, NOP_ctx_gfx11& ctx, aco_ptr<Instruction>& instr,
std::vector<aco_ptr<Instruction>>& new_instructions)
@ -1125,6 +1260,11 @@ handle_instruction_gfx11(State& state, NOP_ctx_gfx11& ctx, aco_ptr<Instruction>&
}
}
if (va_vdst > 0 && handle_valu_partial_forwarding_hazard(state, instr)) {
bld.sopp(aco_opcode::s_waitcnt_depctr, -1, 0x0fff);
va_vdst = 0;
}
va_vdst = std::min(va_vdst, parse_vdst_wait(instr));
if (va_vdst == 0) {
ctx.valu_since_wr_by_trans.reset();

266
src/amd/compiler/tests/test_insert_nops.cpp
View file

@ -654,3 +654,269 @@ BEGIN_TEST(insert_nops.valu_trans_use)
finish_insert_nops_test();
END_TEST
BEGIN_TEST(insert_nops.valu_partial_forwarding.basic)
if (!setup_cs(NULL, GFX11))
return;
/* Basic case. */
//>> p_unit_test 0
//! v1: %0:v[0] = v_mov_b32 0
//! s2: %0:exec = s_mov_b64 -1
//! v1: %0:v[1] = v_mov_b32 1
//! s_waitcnt_depctr va_vdst(0)
//! v1: %0:v[2] = v_max_f32 %0:v[0], %0:v[1]
bld.pseudo(aco_opcode::p_unit_test, Operand::c32(0));
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(256), v1), Operand::zero());
bld.sop1(aco_opcode::s_mov_b64, Definition(exec, s2), Operand::c64(-1));
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(257), v1), Operand::c32(1));
bld.vop2(aco_opcode::v_max_f32, Definition(PhysReg(258), v1), Operand(PhysReg(256), v1),
Operand(PhysReg(257), v1));
/* We should consider both the closest and further VALU after the exec write. */
//! p_unit_test 1
//! v1: %0:v[0] = v_mov_b32 0
//! s2: %0:exec = s_mov_b64 -1
//! v1: %0:v[1] = v_mov_b32 1
//; for i in range(2): insert_pattern('v_nop')
//! v1: %0:v[2] = v_mov_b32 2
//! s_waitcnt_depctr va_vdst(0)
//! v1: %0:v[2] = v_max3_f32 %0:v[0], %0:v[1], %0:v[2]
bld.pseudo(aco_opcode::p_unit_test, Operand::c32(1));
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(256), v1), Operand::zero());
bld.sop1(aco_opcode::s_mov_b64, Definition(exec, s2), Operand::c64(-1));
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(257), v1), Operand::c32(1));
bld.vop1(aco_opcode::v_nop);
bld.vop1(aco_opcode::v_nop);
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(258), v1), Operand::c32(2));
bld.vop3(aco_opcode::v_max3_f32, Definition(PhysReg(258), v1), Operand(PhysReg(256), v1),
Operand(PhysReg(257), v1), Operand(PhysReg(258), v1));
//! p_unit_test 2
//! v1: %0:v[0] = v_mov_b32 0
//! s2: %0:exec = s_mov_b64 -1
//! v1: %0:v[1] = v_mov_b32 1
//! v1: %0:v[2] = v_mov_b32 2
//; for i in range(4): insert_pattern('v_nop')
//! s_waitcnt_depctr va_vdst(0)
//! v1: %0:v[2] = v_max3_f32 %0:v[0], %0:v[1], %0:v[2]
bld.pseudo(aco_opcode::p_unit_test, Operand::c32(2));
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(256), v1), Operand::zero());
bld.sop1(aco_opcode::s_mov_b64, Definition(exec, s2), Operand::c64(-1));
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(257), v1), Operand::c32(1));
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(258), v1), Operand::c32(2));
for (unsigned i = 0; i < 4; i++)
bld.vop1(aco_opcode::v_nop);
bld.vop3(aco_opcode::v_max3_f32, Definition(PhysReg(258), v1), Operand(PhysReg(256), v1),
Operand(PhysReg(257), v1), Operand(PhysReg(258), v1));
/* If a VALU writes a read VGPR in-between the first and second writes, it should still be
* counted towards the distance between the first and second writes.
*/
//! p_unit_test 3
//! v1: %0:v[0] = v_mov_b32 0
//! s2: %0:exec = s_mov_b64 -1
//! v1: %0:v[1] = v_mov_b32 1
//; for i in range(2): insert_pattern('v_nop')
//! v1: %0:v[2] = v_mov_b32 2
//; for i in range(3): insert_pattern('v_nop')
//! v1: %0:v[2] = v_max3_f32 %0:v[0], %0:v[1], %0:v[2]
bld.pseudo(aco_opcode::p_unit_test, Operand::c32(3));
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(256), v1), Operand::zero());
bld.sop1(aco_opcode::s_mov_b64, Definition(exec, s2), Operand::c64(-1));
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(257), v1), Operand::c32(1));
bld.vop1(aco_opcode::v_nop);
bld.vop1(aco_opcode::v_nop);
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(258), v1), Operand::c32(2));
for (unsigned i = 0; i < 3; i++)
bld.vop1(aco_opcode::v_nop);
bld.vop3(aco_opcode::v_max3_f32, Definition(PhysReg(258), v1), Operand(PhysReg(256), v1),
Operand(PhysReg(257), v1), Operand(PhysReg(258), v1));
bld.pseudo(aco_opcode::p_unit_test, Operand::c32(4));
finish_insert_nops_test();
END_TEST
BEGIN_TEST(insert_nops.valu_partial_forwarding.multiple_exec_writes)
if (!setup_cs(NULL, GFX11))
return;
//>> p_unit_test 0
//! v1: %0:v[0] = v_mov_b32 0
//! s2: %0:exec = s_mov_b64 0
//! s2: %0:exec = s_mov_b64 -1
//! v1: %0:v[1] = v_mov_b32 1
//! s_waitcnt_depctr va_vdst(0)
//! v1: %0:v[2] = v_max_f32 %0:v[0], %0:v[1]
bld.pseudo(aco_opcode::p_unit_test, Operand::c32(0));
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(256), v1), Operand::zero());
bld.sop1(aco_opcode::s_mov_b64, Definition(exec, s2), Operand::c64(0));
bld.sop1(aco_opcode::s_mov_b64, Definition(exec, s2), Operand::c64(-1));
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(257), v1), Operand::c32(1));
bld.vop2(aco_opcode::v_max_f32, Definition(PhysReg(258), v1), Operand(PhysReg(256), v1),
Operand(PhysReg(257), v1));
//! p_unit_test 1
//! v1: %0:v[0] = v_mov_b32 0
//! s2: %0:exec = s_mov_b64 0
//! v1: %0:v[1] = v_mov_b32 1
//! s2: %0:exec = s_mov_b64 -1
//! s_waitcnt_depctr va_vdst(0)
//! v1: %0:v[2] = v_max_f32 %0:v[0], %0:v[1]
bld.pseudo(aco_opcode::p_unit_test, Operand::c32(1));
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(256), v1), Operand::zero());
bld.sop1(aco_opcode::s_mov_b64, Definition(exec, s2), Operand::c64(0));
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(257), v1), Operand::c32(1));
bld.sop1(aco_opcode::s_mov_b64, Definition(exec, s2), Operand::c64(-1));
bld.vop2(aco_opcode::v_max_f32, Definition(PhysReg(258), v1), Operand(PhysReg(256), v1),
Operand(PhysReg(257), v1));
finish_insert_nops_test();
END_TEST
BEGIN_TEST(insert_nops.valu_partial_forwarding.control_flow)
if (!setup_cs(NULL, GFX11))
return;
/* Control flow merges: one branch shouldn't interfere with the other (clobbering VALU closer
* than interesting one).
*/
//>> p_unit_test 0
//! s_cbranch_scc1 block:BB2
bld.pseudo(aco_opcode::p_unit_test, Operand::c32(0u));
bld.sopp(aco_opcode::s_cbranch_scc1, 2);
//! BB1
//! /* logical preds: / linear preds: BB0, / kind: */
//! v1: %0:v[0] = v_mov_b32 0
//! s2: %0:exec = s_mov_b64 -1
//! v_nop
//! s_branch block:BB3
bld.reset(program->create_and_insert_block());
program->blocks[0].linear_succs.push_back(1);
program->blocks[1].linear_preds.push_back(0);
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(256), v1), Operand::zero());
bld.sop1(aco_opcode::s_mov_b64, Definition(exec, s2), Operand::c64(-1));
bld.vop1(aco_opcode::v_nop);
bld.sopp(aco_opcode::s_branch, 3);
//! BB2
//! /* logical preds: / linear preds: BB0, / kind: */
//! v1: %0:v[0] = v_mov_b32 0
bld.reset(program->create_and_insert_block());
program->blocks[0].linear_succs.push_back(2);
program->blocks[2].linear_preds.push_back(0);
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(256), v1), Operand::zero());
//! BB3
//! /* logical preds: / linear preds: BB1, BB2, / kind: */
//! v1: %0:v[1] = v_mov_b32 1
//! s_waitcnt_depctr va_vdst(0)
//! v1: %0:v[2] = v_max_f32 %0:v[0], %0:v[1]
bld.reset(program->create_and_insert_block());
program->blocks[1].linear_succs.push_back(3);
program->blocks[2].linear_succs.push_back(3);
program->blocks[3].linear_preds.push_back(1);
program->blocks[3].linear_preds.push_back(2);
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(257), v1), Operand::c32(1));
bld.vop2(aco_opcode::v_max_f32, Definition(PhysReg(258), v1), Operand(PhysReg(256), v1),
Operand(PhysReg(257), v1));
/* Control flow merges: one branch shouldn't interfere with the other (should consider furthest
* VALU writes after exec).
*/
//! p_unit_test 1
//! s_cbranch_scc1 block:BB5
bld.pseudo(aco_opcode::p_unit_test, Operand::c32(1u));
bld.sopp(aco_opcode::s_cbranch_scc1, 5);
//! BB4
//! /* logical preds: / linear preds: BB3, / kind: */
//! v1: %0:v[0] = v_mov_b32 0
//! s2: %0:exec = s_mov_b64 -1
//; for i in range(2): insert_pattern('v_nop')
//! v1: %0:v[1] = v_mov_b32 1
//! v_nop
//! s_branch block:BB6
bld.reset(program->create_and_insert_block());
program->blocks[3].linear_succs.push_back(4);
program->blocks[4].linear_preds.push_back(3);
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(256), v1), Operand::zero());
bld.sop1(aco_opcode::s_mov_b64, Definition(exec, s2), Operand::c64(-1));
bld.vop1(aco_opcode::v_nop);
bld.vop1(aco_opcode::v_nop);
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(257), v1), Operand::c32(1));
bld.vop1(aco_opcode::v_nop);
bld.sopp(aco_opcode::s_branch, 6);
//! BB5
//! /* logical preds: / linear preds: BB3, / kind: */
//! v1: %0:v[1] = v_mov_b32 1
bld.reset(program->create_and_insert_block());
program->blocks[3].linear_succs.push_back(5);
program->blocks[5].linear_preds.push_back(3);
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(257), v1), Operand::c32(1));
//! BB6
//! /* logical preds: / linear preds: BB4, BB5, / kind: */
//! s_waitcnt_depctr va_vdst(0)
//! v1: %0:v[2] = v_max_f32 %0:v[0], %0:v[1]
bld.reset(program->create_and_insert_block());
program->blocks[4].linear_succs.push_back(6);
program->blocks[5].linear_succs.push_back(6);
program->blocks[6].linear_preds.push_back(4);
program->blocks[6].linear_preds.push_back(5);
bld.vop2(aco_opcode::v_max_f32, Definition(PhysReg(258), v1), Operand(PhysReg(256), v1),
Operand(PhysReg(257), v1));
/* Control flow merges: one branch shouldn't interfere with the other (should consider closest
* VALU writes after exec).
*/
//! p_unit_test 2
//! s_cbranch_scc1 block:BB8
bld.pseudo(aco_opcode::p_unit_test, Operand::c32(2u));
bld.sopp(aco_opcode::s_cbranch_scc1, 8);
//! BB7
//! /* logical preds: / linear preds: BB6, / kind: */
//! v1: %0:v[0] = v_mov_b32 0
//! s2: %0:exec = s_mov_b64 -1
//! v1: %0:v[1] = v_mov_b32 1
//; for i in range(4): insert_pattern('v_nop')
//! s_branch block:BB9
bld.reset(program->create_and_insert_block());
program->blocks[6].linear_succs.push_back(7);
program->blocks[7].linear_preds.push_back(6);
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(256), v1), Operand::zero());
bld.sop1(aco_opcode::s_mov_b64, Definition(exec, s2), Operand::c64(-1));
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(257), v1), Operand::c32(1));
for (unsigned i = 0; i < 4; i++)
bld.vop1(aco_opcode::v_nop);
bld.sopp(aco_opcode::s_branch, 9);
//! BB8
//! /* logical preds: / linear preds: BB6, / kind: */
//! v1: %0:v[1] = v_mov_b32 1
//; for i in range(5): insert_pattern('v_nop')
bld.reset(program->create_and_insert_block());
program->blocks[6].linear_succs.push_back(8);
program->blocks[8].linear_preds.push_back(6);
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg(257), v1), Operand::c32(1));
for (unsigned i = 0; i < 5; i++)
bld.vop1(aco_opcode::v_nop);
//! BB9
//! /* logical preds: / linear preds: BB7, BB8, / kind: uniform, */
//! s_waitcnt_depctr va_vdst(0)
//! v1: %0:v[2] = v_max_f32 %0:v[0], %0:v[1]
bld.reset(program->create_and_insert_block());
program->blocks[7].linear_succs.push_back(9);
program->blocks[8].linear_succs.push_back(9);
program->blocks[9].linear_preds.push_back(7);
program->blocks[9].linear_preds.push_back(8);
bld.vop2(aco_opcode::v_max_f32, Definition(PhysReg(258), v1), Operand(PhysReg(256), v1),
Operand(PhysReg(257), v1));
finish_insert_nops_test();
END_TEST