From f858fa26b4cca8834c8687f01d2ba431fcc8e006 Mon Sep 17 00:00:00 2001 From: Caio Marcelo de Oliveira Filho Date: Fri, 17 Jan 2020 15:07:44 -0800 Subject: [PATCH] intel/fs,vec4: Pull stall logic for memory fences up into the IR MIME-Version: 1.0 Content-Type: text/plain; charset=utf8 Content-Transfer-Encoding: 8bit Instead of emitting the stall MOV "inside" the SHADER_OPCODE_MEMORY_FENCE generation, use the scheduling fences when creating the IR. For IvyBridge, every (data cache) fence is accompained by a render cache fence, that now is explicit in the IR, two SHADER_OPCODE_MEMORY_FENCEs are emitted (with different SFIDs). Because Begin and End interlock intrinsics are effectively memory barriers, move its handling alongside the other memory barrier intrinsics. The SHADER_OPCODE_INTERLOCK is still used to distinguish if we are going to use a SENDC (for Begin) or regular SEND (for End). This change is a preparation to allow emitting both SENDs in Gen11+ before we can stall on them. Shader-db results for IVB (i965): total instructions in shared programs: 11971190 -> 11971200 (<.01%) instructions in affected programs: 11482 -> 11492 (0.09%) helped: 0 HURT: 8 HURT stats (abs) min: 1 max: 3 x̄: 1.25 x̃: 1 HURT stats (rel) min: 0.03% max: 0.50% x̄: 0.14% x̃: 0.10% 95% mean confidence interval for instructions value: 0.66 1.84 95% mean confidence interval for instructions %-change: 0.01% 0.27% Instructions are HURT. Unlike the previous code, that used the `mov g1 g2` trick to force both `g1` and `g2` to stall, the scheduling fence will generate `mov null g1` and `mov null g2`. During review it was decided it was not worth keeping the special codepath for the small effect will have. Shader-db results for HSW (i965), BDW and SKL don't have a change on instruction count, but do report changes in cycles count, showing SKL results below total cycles in shared programs: 341738444 -> 341710570 (<.01%) cycles in affected programs: 7240002 -> 7212128 (-0.38%) helped: 46 HURT: 5 helped stats (abs) min: 14 max: 1940 x̄: 676.22 x̃: 154 helped stats (rel) min: <.01% max: 2.62% x̄: 1.28% x̃: 0.95% HURT stats (abs) min: 2 max: 1768 x̄: 646.40 x̃: 362 HURT stats (rel) min: <.01% max: 0.83% x̄: 0.28% x̃: 0.08% 95% mean confidence interval for cycles value: -777.71 -315.38 95% mean confidence interval for cycles %-change: -1.42% -0.83% Cycles are helped. This seems to be the effect of allocating two registers separatedly instead of a single one with size 2, which causes different register allocation, affecting the cycle estimates. while ICL also has not change on instruction count but report changes negative changes in cycles total cycles in shared programs: 352665369 -> 352707484 (0.01%) cycles in affected programs: 9608288 -> 9650403 (0.44%) helped: 4 HURT: 104 helped stats (abs) min: 24 max: 128 x̄: 88.50 x̃: 101 helped stats (rel) min: <.01% max: 0.85% x̄: 0.46% x̃: 0.49% HURT stats (abs) min: 2 max: 2016 x̄: 408.36 x̃: 48 HURT stats (rel) min: <.01% max: 3.31% x̄: 0.88% x̃: 0.45% 95% mean confidence interval for cycles value: 256.67 523.24 95% mean confidence interval for cycles %-change: 0.63% 1.03% Cycles are HURT. AFAICT this is the result of the case above. Shader-db results for TGL have similar cycles result as ICL, but also affect instructions total instructions in shared programs: 17690586 -> 17690597 (<.01%) instructions in affected programs: 64617 -> 64628 (0.02%) helped: 55 HURT: 32 helped stats (abs) min: 1 max: 16 x̄: 4.13 x̃: 3 helped stats (rel) min: 0.05% max: 2.78% x̄: 0.86% x̃: 0.74% HURT stats (abs) min: 1 max: 65 x̄: 7.44 x̃: 2 HURT stats (rel) min: 0.05% max: 4.58% x̄: 1.13% x̃: 0.69% 95% mean confidence interval for instructions value: -2.03 2.28 95% mean confidence interval for instructions %-change: -0.41% 0.15% Inconclusive result (value mean confidence interval includes 0). Now that more is done in the IR, more dependencies are visible and more SWSB annotations are emitted. Mixed with different register allocation decisions like above, some shaders will see more `sync nops` while others able to avoid them. Most of the new `sync nops` are also redundant and could be dropped, which will be fixed in a separate change. Reviewed-by: Francisco Jerez Part-of: --- src/intel/compiler/brw_eu.h | 5 +- src/intel/compiler/brw_eu_defines.h | 4 +- src/intel/compiler/brw_eu_emit.c | 53 ++------- src/intel/compiler/brw_fs_generator.cpp | 20 ++-- src/intel/compiler/brw_fs_nir.cpp | 126 +++++++++++++++------- src/intel/compiler/brw_vec4_generator.cpp | 12 +-- src/intel/compiler/brw_vec4_nir.cpp | 7 +- 7 files changed, 118 insertions(+), 109 deletions(-) diff --git a/src/intel/compiler/brw_eu.h b/src/intel/compiler/brw_eu.h index 96c22ab429a..7ae17dbdd37 100644 --- a/src/intel/compiler/brw_eu.h +++ b/src/intel/compiler/brw_eu.h @@ -1148,12 +1148,13 @@ brw_untyped_surface_write(struct brw_codegen *p, unsigned num_channels, bool header_present); -unsigned +void brw_memory_fence(struct brw_codegen *p, struct brw_reg dst, struct brw_reg src, enum opcode send_op, - bool stall, + enum brw_message_target sfid, + bool commit_enable, unsigned bti); void diff --git a/src/intel/compiler/brw_eu_defines.h b/src/intel/compiler/brw_eu_defines.h index 146d3b3f067..742e12c2830 100644 --- a/src/intel/compiler/brw_eu_defines.h +++ b/src/intel/compiler/brw_eu_defines.h @@ -454,8 +454,8 @@ enum opcode { * Memory fence messages. * * Source 0: Must be register g0, used as header. - * Source 1: Immediate bool to indicate whether or not we need to stall - * until memory transactions prior to the fence are completed. + * Source 1: Immediate bool to indicate whether control is returned to the + * thread only after the fence has been honored. * Source 2: Immediate byte indicating which memory to fence. Zero means * global memory; GEN7_BTI_SLM means SLM (for Gen11+ only). * diff --git a/src/intel/compiler/brw_eu_emit.c b/src/intel/compiler/brw_eu_emit.c index 8786903dada..12042131999 100644 --- a/src/intel/compiler/brw_eu_emit.c +++ b/src/intel/compiler/brw_eu_emit.c @@ -3145,68 +3145,29 @@ brw_set_memory_fence_message(struct brw_codegen *p, brw_inst_set_binding_table_index(devinfo, insn, bti); } -unsigned +void brw_memory_fence(struct brw_codegen *p, struct brw_reg dst, struct brw_reg src, enum opcode send_op, - bool stall, + enum brw_message_target sfid, + bool commit_enable, unsigned bti) { const struct gen_device_info *devinfo = p->devinfo; - const bool commit_enable = stall || - devinfo->gen >= 10 || /* HSD ES # 1404612949 */ - (devinfo->gen == 7 && !devinfo->is_haswell); - struct brw_inst *insn; - unsigned fences = 0; - - brw_push_insn_state(p); - brw_set_default_mask_control(p, BRW_MASK_DISABLE); - brw_set_default_exec_size(p, BRW_EXECUTE_1); dst = retype(vec1(dst), BRW_REGISTER_TYPE_UW); src = retype(vec1(src), BRW_REGISTER_TYPE_UD); /* Set dst as destination for dependency tracking, the MEMORY_FENCE * message doesn't write anything back. */ - insn = next_insn(p, send_op); + struct brw_inst *insn = next_insn(p, send_op); + brw_inst_set_mask_control(devinfo, insn, BRW_MASK_DISABLE); + brw_inst_set_exec_size(devinfo, insn, BRW_EXECUTE_1); brw_set_dest(p, insn, dst); brw_set_src0(p, insn, src); - brw_set_memory_fence_message(p, insn, GEN7_SFID_DATAPORT_DATA_CACHE, - commit_enable, bti); - fences++; - - if (devinfo->gen == 7 && !devinfo->is_haswell) { - /* IVB does typed surface access through the render cache, so we need to - * flush it too. Use a different register so both flushes can be - * pipelined by the hardware. - */ - insn = next_insn(p, send_op); - brw_set_dest(p, insn, offset(dst, 1)); - brw_set_src0(p, insn, src); - brw_set_memory_fence_message(p, insn, GEN6_SFID_DATAPORT_RENDER_CACHE, - commit_enable, bti); - fences++; - - /* Now write the response of the second message into the response of the - * first to trigger a pipeline stall -- This way future render and data - * cache messages will be properly ordered with respect to past data and - * render cache messages. - */ - brw_MOV(p, dst, offset(dst, 1)); - } - - if (stall) { - brw_set_default_swsb(p, tgl_swsb_sbid(TGL_SBID_DST, - brw_get_default_swsb(p).sbid)); - - brw_MOV(p, retype(brw_null_reg(), BRW_REGISTER_TYPE_UW), dst); - } - - brw_pop_insn_state(p); - - return fences; + brw_set_memory_fence_message(p, insn, sfid, commit_enable, bti); } void diff --git a/src/intel/compiler/brw_fs_generator.cpp b/src/intel/compiler/brw_fs_generator.cpp index b055110ddf8..5825e0770d4 100644 --- a/src/intel/compiler/brw_fs_generator.cpp +++ b/src/intel/compiler/brw_fs_generator.cpp @@ -2217,13 +2217,19 @@ fs_generator::generate_code(const cfg_t *cfg, int dispatch_width, generate_shader_time_add(inst, src[0], src[1], src[2]); break; + case SHADER_OPCODE_INTERLOCK: case SHADER_OPCODE_MEMORY_FENCE: { assert(src[1].file == BRW_IMMEDIATE_VALUE); assert(src[2].file == BRW_IMMEDIATE_VALUE); - const unsigned sends = - brw_memory_fence(p, dst, src[0], BRW_OPCODE_SEND, src[1].ud, - src[2].ud); - send_count += sends; + + const enum opcode send_op = inst->opcode == SHADER_OPCODE_INTERLOCK ? + BRW_OPCODE_SENDC : BRW_OPCODE_SEND; + + brw_memory_fence(p, dst, src[0], send_op, + brw_message_target(inst->sfid), + /* commit_enable */ src[1].ud, + /* bti */ src[2].ud); + send_count++; break; } @@ -2257,12 +2263,6 @@ fs_generator::generate_code(const cfg_t *cfg, int dispatch_width, break; - case SHADER_OPCODE_INTERLOCK: - assert(devinfo->gen >= 9); - /* The interlock is basically a memory fence issued via sendc */ - brw_memory_fence(p, dst, src[0], BRW_OPCODE_SENDC, false, /* bti */ 0); - break; - case SHADER_OPCODE_FIND_LIVE_CHANNEL: { const struct brw_reg mask = brw_stage_has_packed_dispatch(devinfo, stage, diff --git a/src/intel/compiler/brw_fs_nir.cpp b/src/intel/compiler/brw_fs_nir.cpp index f7d94e618b4..6f415d5de82 100644 --- a/src/intel/compiler/brw_fs_nir.cpp +++ b/src/intel/compiler/brw_fs_nir.cpp @@ -4232,19 +4232,52 @@ fs_visitor::nir_emit_intrinsic(const fs_builder &bld, nir_intrinsic_instr *instr case nir_intrinsic_memory_barrier_shared: case nir_intrinsic_memory_barrier_buffer: case nir_intrinsic_memory_barrier_image: - case nir_intrinsic_memory_barrier: { + case nir_intrinsic_memory_barrier: + case nir_intrinsic_begin_invocation_interlock: + case nir_intrinsic_end_invocation_interlock: { bool l3_fence, slm_fence; - if (instr->intrinsic == nir_intrinsic_scoped_memory_barrier) { + const enum opcode opcode = + instr->intrinsic == nir_intrinsic_begin_invocation_interlock ? + SHADER_OPCODE_INTERLOCK : SHADER_OPCODE_MEMORY_FENCE; + + switch (instr->intrinsic) { + case nir_intrinsic_scoped_memory_barrier: { nir_variable_mode modes = nir_intrinsic_memory_modes(instr); l3_fence = modes & (nir_var_shader_out | nir_var_mem_ssbo | nir_var_mem_global); slm_fence = modes & nir_var_mem_shared; - } else { + break; + } + + case nir_intrinsic_begin_invocation_interlock: + case nir_intrinsic_end_invocation_interlock: + /* For beginInvocationInterlockARB(), we will generate a memory fence + * but with a different opcode so that generator can pick SENDC + * instead of SEND. + * + * For endInvocationInterlockARB(), we need to insert a memory fence which + * stalls in the shader until the memory transactions prior to that + * fence are complete. This ensures that the shader does not end before + * any writes from its critical section have landed. Otherwise, you can + * end up with a case where the next invocation on that pixel properly + * stalls for previous FS invocation on its pixel to complete but + * doesn't actually wait for the dataport memory transactions from that + * thread to land before submitting its own. + * + * Handling them here will allow the logic for IVB render cache (see + * below) to be reused. + */ + l3_fence = true; + slm_fence = false; + break; + + default: l3_fence = instr->intrinsic != nir_intrinsic_memory_barrier_shared; slm_fence = instr->intrinsic == nir_intrinsic_group_memory_barrier || instr->intrinsic == nir_intrinsic_memory_barrier || instr->intrinsic == nir_intrinsic_memory_barrier_shared; + break; } if (stage != MESA_SHADER_COMPUTE) @@ -4266,6 +4299,12 @@ fs_visitor::nir_emit_intrinsic(const fs_builder &bld, nir_intrinsic_instr *instr l3_fence = true; } + /* IVB does typed surface access through the render cache, so we need + * to flush it too. + */ + const bool needs_render_fence = + devinfo->gen == 7 && !devinfo->is_haswell; + /* Be conservative in Gen11+ and always stall in a fence. Since there * are two different fences, and shader might want to synchronize * between them. @@ -4276,23 +4315,57 @@ fs_visitor::nir_emit_intrinsic(const fs_builder &bld, nir_intrinsic_instr *instr * TODO: When emitting more than one fence, it might help emit all * the fences first and then generate the stall moves. */ - const bool stall = devinfo->gen >= 11; + const bool stall = devinfo->gen >= 11 || needs_render_fence || + instr->intrinsic == nir_intrinsic_end_invocation_interlock; + + const bool commit_enable = stall || + devinfo->gen >= 10; /* HSD ES # 1404612949 */ const fs_builder ubld = bld.group(8, 0); - const fs_reg tmp = ubld.vgrf(BRW_REGISTER_TYPE_UD, 2); if (l3_fence) { - ubld.emit(SHADER_OPCODE_MEMORY_FENCE, tmp, - brw_vec8_grf(0, 0), brw_imm_ud(stall), - /* bti */ brw_imm_ud(0)) - ->size_written = 2 * REG_SIZE; + fs_inst *fence = + ubld.emit(opcode, + ubld.vgrf(BRW_REGISTER_TYPE_UD), + brw_vec8_grf(0, 0), + brw_imm_ud(commit_enable), + brw_imm_ud(/* bti */ 0)); + fence->sfid = GEN7_SFID_DATAPORT_DATA_CACHE; + + if (needs_render_fence) { + fs_inst *render_fence = + ubld.emit(opcode, + ubld.vgrf(BRW_REGISTER_TYPE_UD), + brw_vec8_grf(0, 0), + brw_imm_ud(commit_enable), + brw_imm_ud(/* bti */ 0)); + render_fence->sfid = GEN6_SFID_DATAPORT_RENDER_CACHE; + + ubld.exec_all().group(1, 0).emit( + FS_OPCODE_SCHEDULING_FENCE, ubld.null_reg_ud(), + fence->dst, render_fence->dst); + } else if (stall) { + ubld.exec_all().group(1, 0).emit( + FS_OPCODE_SCHEDULING_FENCE, ubld.null_reg_ud(), + fence->dst); + } } if (slm_fence) { - ubld.emit(SHADER_OPCODE_MEMORY_FENCE, tmp, - brw_vec8_grf(0, 0), brw_imm_ud(stall), - brw_imm_ud(GEN7_BTI_SLM)) - ->size_written = 2 * REG_SIZE; + assert(opcode == SHADER_OPCODE_MEMORY_FENCE); + fs_inst *fence = + ubld.emit(opcode, + ubld.vgrf(BRW_REGISTER_TYPE_UD), + brw_vec8_grf(0, 0), + brw_imm_ud(commit_enable), + brw_imm_ud(GEN7_BTI_SLM)); + fence->sfid = GEN7_SFID_DATAPORT_DATA_CACHE; + + if (stall) { + ubld.exec_all().group(1, 0).emit( + FS_OPCODE_SCHEDULING_FENCE, ubld.null_reg_ud(), + fence->dst); + } } if (!l3_fence && !slm_fence) @@ -5210,33 +5283,6 @@ fs_visitor::nir_emit_intrinsic(const fs_builder &bld, nir_intrinsic_instr *instr break; } - case nir_intrinsic_begin_invocation_interlock: { - const fs_builder ubld = bld.group(8, 0); - const fs_reg tmp = ubld.vgrf(BRW_REGISTER_TYPE_UD, 2); - - ubld.emit(SHADER_OPCODE_INTERLOCK, tmp, brw_vec8_grf(0, 0)) - ->size_written = 2 * REG_SIZE; - break; - } - - case nir_intrinsic_end_invocation_interlock: { - /* For endInvocationInterlock(), we need to insert a memory fence which - * stalls in the shader until the memory transactions prior to that - * fence are complete. This ensures that the shader does not end before - * any writes from its critical section have landed. Otherwise, you can - * end up with a case where the next invocation on that pixel properly - * stalls for previous FS invocation on its pixel to complete but - * doesn't actually wait for the dataport memory transactions from that - * thread to land before submitting its own. - */ - const fs_builder ubld = bld.group(8, 0); - const fs_reg tmp = ubld.vgrf(BRW_REGISTER_TYPE_UD, 2); - ubld.emit(SHADER_OPCODE_MEMORY_FENCE, tmp, - brw_vec8_grf(0, 0), brw_imm_ud(1), brw_imm_ud(0)) - ->size_written = 2 * REG_SIZE; - break; - } - default: unreachable("unknown intrinsic"); } diff --git a/src/intel/compiler/brw_vec4_generator.cpp b/src/intel/compiler/brw_vec4_generator.cpp index 7c038c97196..be6697cc16c 100644 --- a/src/intel/compiler/brw_vec4_generator.cpp +++ b/src/intel/compiler/brw_vec4_generator.cpp @@ -1911,13 +1911,13 @@ generate_code(struct brw_codegen *p, send_count++; break; - case SHADER_OPCODE_MEMORY_FENCE: { - const unsigned sends = - brw_memory_fence(p, dst, src[0], BRW_OPCODE_SEND, false, - /* bti */ 0); - send_count += sends; + case SHADER_OPCODE_MEMORY_FENCE: + brw_memory_fence(p, dst, src[0], BRW_OPCODE_SEND, + brw_message_target(inst->sfid), + /* commit_enable */ false, + /* bti */ 0); + send_count++; break; - } case SHADER_OPCODE_FIND_LIVE_CHANNEL: { const struct brw_reg mask = diff --git a/src/intel/compiler/brw_vec4_nir.cpp b/src/intel/compiler/brw_vec4_nir.cpp index 1baf9e67177..76446adcf54 100644 --- a/src/intel/compiler/brw_vec4_nir.cpp +++ b/src/intel/compiler/brw_vec4_nir.cpp @@ -704,9 +704,10 @@ vec4_visitor::nir_emit_intrinsic(nir_intrinsic_instr *instr) case nir_intrinsic_scoped_memory_barrier: { const vec4_builder bld = vec4_builder(this).at_end().annotate(current_annotation, base_ir); - const dst_reg tmp = bld.vgrf(BRW_REGISTER_TYPE_UD, 2); - bld.emit(SHADER_OPCODE_MEMORY_FENCE, tmp, brw_vec8_grf(0, 0)) - ->size_written = 2 * REG_SIZE; + const dst_reg tmp = bld.vgrf(BRW_REGISTER_TYPE_UD); + vec4_instruction *fence = + bld.emit(SHADER_OPCODE_MEMORY_FENCE, tmp, brw_vec8_grf(0, 0)); + fence->sfid = GEN7_SFID_DATAPORT_DATA_CACHE; break; } -- 2.30.2