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brw: Rename shared function enums for clarity

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Our name for this enum was brw_message_target, but it's better known as
shared function ID or SFID.  Call it brw_sfid to make it easier to find.

Now that brw only supports Gfx9+, we don't particularly care whether
SFIDs were introduced on Gfx4, Gfx6, or Gfx7.5.  Also, the LSC SFIDs
were confusingly tagged "GFX12" but aren't available on Gfx12.0; they
were introduced with Alchemist/Meteorlake.

GFX6_SFID_DATAPORT_SAMPLER_CACHE in particular was confusing.  It sounds
like the SFID to use for the sampler on Gfx6+, however it has nothing to
do with the sampler at all.  BRW_SFID_SAMPLER remains the sampler SFID.
On Haswell, we ran out of messages on the main data cache data port, and
so they introduced two additional ones, for more messages.  The modern
Tigerlake PRMs simply call these DP_DC0, DP_DC1, and DP_DC2.  I think
the "sampler" name came from some idea about reorganizing messages that
never materialized (instead, the LSC came as a much larger cleanup).

Recently we've adopted the term "HDC" for the legacy data cluster, as
opposed to "LSC" for the modern Load/Store Cache.  To make clear which
SFIDs target the legacy HDC dataports, we use BRW_SFID_HDC0/1/2.

We were also citing the G45, Sandybridge, and Ivybridge PRMs for a
compiler that supports none of those platforms.  Cite modern docs.

Reviewed-by: Caio Oliveira <caio.oliveira@intel.com>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/33650>
This commit is contained in:
Kenneth Graunke 2025-02-10 16:28:48 -08:00 committed by Marge Bot
parent dcb5cfbfcc
commit 88309a9818
20 changed files with 377 additions and 397 deletions
Show stats Download patch file Download diff file Expand all files Collapse all files

22
src/intel/compiler/brw_analysis_performance.cpp
View file

@ -53,8 +53,6 @@ namespace {
EU_UNIT_GATEWAY,
/** Thread Spawner shared function. */
EU_UNIT_SPAWNER,
/* EU_UNIT_VME, */
/* EU_UNIT_CRE, */
/** Number of asynchronous units currently tracked. */
EU_NUM_UNITS,
/** Dummy unit for instructions that don't consume runtime from the above. */
@ -584,11 +582,11 @@ namespace {
case SHADER_OPCODE_SEND:
case SHADER_OPCODE_SEND_GATHER:
switch (info.sfid) {
case GFX6_SFID_DATAPORT_CONSTANT_CACHE:
case BRW_SFID_HDC_READ_ONLY:
/* See FS_OPCODE_UNIFORM_PULL_CONSTANT_LOAD */
return calculate_desc(info, EU_UNIT_DP_CC, 2, 0, 0, 0, 16 /* XXX */,
10 /* XXX */, 100 /* XXX */, 0, 0, 0, 0);
case GFX6_SFID_DATAPORT_RENDER_CACHE:
case BRW_SFID_RENDER_CACHE:
switch (brw_dp_desc_msg_type(devinfo, info.desc)) {
case GFX7_DATAPORT_RC_TYPED_ATOMIC_OP:
return calculate_desc(info, EU_UNIT_DP_RC, 2, 0, 0,
@ -609,7 +607,7 @@ namespace {
return calculate_desc(info, EU_UNIT_SAMPLER, 2, 0, 0, 0, 16,
8, 750, 0, 0, 2, 0);
}
case GFX7_SFID_DATAPORT_DATA_CACHE:
case BRW_SFID_HDC0:
switch (brw_dp_desc_msg_type(devinfo, info.desc)) {
case GFX7_DATAPORT_DC_MEMORY_FENCE:
return calculate_desc(info, EU_UNIT_DP_DC, 2, 0, 0,
@ -622,7 +620,7 @@ namespace {
0, 0);
}
case HSW_SFID_DATAPORT_DATA_CACHE_1:
case BRW_SFID_HDC1:
switch (brw_dp_desc_msg_type(devinfo, info.desc)) {
case HSW_DATAPORT_DC_PORT1_UNTYPED_ATOMIC_OP:
case HSW_DATAPORT_DC_PORT1_UNTYPED_ATOMIC_OP_SIMD4X2:
@ -640,13 +638,13 @@ namespace {
0, 0);
}
case GFX7_SFID_PIXEL_INTERPOLATOR:
case BRW_SFID_PIXEL_INTERPOLATOR:
return calculate_desc(info, EU_UNIT_PI, 2, 0, 0, 14 /* XXX */, 0,
0, 90 /* XXX */, 0, 0, 0, 0);
case GFX12_SFID_UGM:
case GFX12_SFID_TGM:
case GFX12_SFID_SLM:
case BRW_SFID_UGM:
case BRW_SFID_TGM:
case BRW_SFID_SLM:
switch (lsc_msg_desc_opcode(devinfo, info.desc)) {
case LSC_OP_LOAD:
case LSC_OP_STORE:
@ -690,8 +688,8 @@ namespace {
}
case BRW_SFID_MESSAGE_GATEWAY:
case GEN_RT_SFID_BINDLESS_THREAD_DISPATCH: /* or THREAD_SPAWNER */
case GEN_RT_SFID_RAY_TRACE_ACCELERATOR:
case BRW_SFID_BINDLESS_THREAD_DISPATCH: /* or THREAD_SPAWNER */
case BRW_SFID_RAY_TRACE_ACCELERATOR:
return calculate_desc(info, EU_UNIT_SPAWNER, 2, 0, 0, 0 /* XXX */, 0,
10 /* XXX */, 0, 0, 0, 0, 0);

2
src/intel/compiler/brw_compile_fs.cpp
View file

@ -638,7 +638,7 @@ brw_emit_repclear_shader(brw_shader &s)
write->header_size = i == 0 ? 0 : 2;
write->mlen = 1 + write->header_size;
write->sfid = GFX6_SFID_DATAPORT_RENDER_CACHE;
write->sfid = BRW_SFID_RENDER_CACHE;
write->src[0] = brw_imm_ud(
brw_fb_write_desc(
s.devinfo, i,

64
src/intel/compiler/brw_disasm.c
View file

@ -293,23 +293,22 @@ static const char *const end_of_thread[2] = {
[1] = "EOT"
};
static const char *const gfx6_sfid[16] = {
[BRW_SFID_NULL] = "null",
[BRW_SFID_SAMPLER] = "sampler",
[BRW_SFID_MESSAGE_GATEWAY] = "gateway",
[BRW_SFID_URB] = "urb",
[BRW_SFID_THREAD_SPAWNER] = "thread_spawner",
[GFX6_SFID_DATAPORT_SAMPLER_CACHE] = "dp_sampler",
[GFX6_SFID_DATAPORT_RENDER_CACHE] = "render",
[GFX6_SFID_DATAPORT_CONSTANT_CACHE] = "const",
[GFX7_SFID_DATAPORT_DATA_CACHE] = "data",
[GFX7_SFID_PIXEL_INTERPOLATOR] = "pixel interp",
[HSW_SFID_DATAPORT_DATA_CACHE_1] = "dp data 1",
[HSW_SFID_CRE] = "cre",
[GEN_RT_SFID_RAY_TRACE_ACCELERATOR] = "rt accel",
[GFX12_SFID_SLM] = "slm",
[GFX12_SFID_TGM] = "tgm",
[GFX12_SFID_UGM] = "ugm",
static const char *const brw_sfid[16] = {
[BRW_SFID_NULL] = "null",
[BRW_SFID_SAMPLER] = "sampler",
[BRW_SFID_MESSAGE_GATEWAY] = "gateway",
[BRW_SFID_HDC2] = "hdc2",
[BRW_SFID_RENDER_CACHE] = "render",
[BRW_SFID_URB] = "urb",
[BRW_SFID_THREAD_SPAWNER] = "ts/btd",
[BRW_SFID_RAY_TRACE_ACCELERATOR] = "rt accel",
[BRW_SFID_HDC_READ_ONLY] = "hdc:ro",
[BRW_SFID_HDC0] = "hdc0",
[BRW_SFID_PIXEL_INTERPOLATOR] = "pi",
[BRW_SFID_HDC1] = "hdc1",
[BRW_SFID_SLM] = "slm",
[BRW_SFID_TGM] = "tgm",
[BRW_SFID_UGM] = "ugm",
};
static const char *const gfx7_gateway_subfuncid[8] = {
@ -1958,9 +1957,9 @@ static inline bool
brw_sfid_is_lsc(unsigned sfid)
{
switch (sfid) {
case GFX12_SFID_UGM:
case GFX12_SFID_SLM:
case GFX12_SFID_TGM:
case BRW_SFID_UGM:
case BRW_SFID_SLM:
case BRW_SFID_TGM:
return true;
default:
break;
@ -2120,7 +2119,7 @@ brw_disassemble_inst(FILE *file, const struct brw_isa_info *isa,
}
if (is_send(opcode)) {
enum brw_message_target sfid = brw_eu_inst_sfid(devinfo, inst);
enum brw_sfid sfid = brw_eu_inst_sfid(devinfo, inst);
bool has_imm_desc = false, has_imm_ex_desc = false;
uint32_t imm_desc = 0, imm_ex_desc = 0;
@ -2168,7 +2167,7 @@ brw_disassemble_inst(FILE *file, const struct brw_isa_info *isa,
space = 0;
fprintf(file, " ");
err |= control(file, "SFID", gfx6_sfid, sfid, &space);
err |= control(file, "SFID", brw_sfid, sfid, &space);
string(file, " MsgDesc:");
if (!has_imm_desc) {
@ -2207,16 +2206,15 @@ brw_disassemble_inst(FILE *file, const struct brw_isa_info *isa,
brw_sampler_desc_sampler(devinfo, imm_desc));
}
break;
case GFX6_SFID_DATAPORT_SAMPLER_CACHE:
case GFX6_SFID_DATAPORT_CONSTANT_CACHE:
case BRW_SFID_HDC2:
case BRW_SFID_HDC_READ_ONLY:
format(file, " (bti %u, msg_ctrl %u, msg_type %u)",
brw_dp_desc_binding_table_index(devinfo, imm_desc),
brw_dp_desc_msg_control(devinfo, imm_desc),
brw_dp_desc_msg_type(devinfo, imm_desc));
break;
case GFX6_SFID_DATAPORT_RENDER_CACHE: {
/* aka BRW_SFID_DATAPORT_WRITE on Gfx4-5 */
case BRW_SFID_RENDER_CACHE: {
unsigned msg_type = brw_fb_desc_msg_type(devinfo, imm_desc);
err |= control(file, "DP rc message type",
@ -2340,9 +2338,9 @@ brw_disassemble_inst(FILE *file, const struct brw_isa_info *isa,
gfx7_gateway_subfuncid[brw_eu_inst_gateway_subfuncid(devinfo, inst)]);
break;
case GFX12_SFID_SLM:
case GFX12_SFID_TGM:
case GFX12_SFID_UGM: {
case BRW_SFID_SLM:
case BRW_SFID_TGM:
case BRW_SFID_UGM: {
assert(devinfo->has_lsc);
format(file, " (");
const enum lsc_opcode op = lsc_msg_desc_opcode(devinfo, imm_desc);
@ -2423,7 +2421,7 @@ brw_disassemble_inst(FILE *file, const struct brw_isa_info *isa,
break;
}
case GFX7_SFID_DATAPORT_DATA_CACHE:
case BRW_SFID_HDC0:
format(file, " (");
space = 0;
@ -2455,7 +2453,7 @@ brw_disassemble_inst(FILE *file, const struct brw_isa_info *isa,
format(file, ")");
break;
case HSW_SFID_DATAPORT_DATA_CACHE_1: {
case BRW_SFID_HDC1: {
format(file, " (");
space = 0;
@ -2512,14 +2510,14 @@ brw_disassemble_inst(FILE *file, const struct brw_isa_info *isa,
break;
}
case GFX7_SFID_PIXEL_INTERPOLATOR:
case BRW_SFID_PIXEL_INTERPOLATOR:
format(file, " (%s, %s, 0x%02"PRIx64")",
brw_eu_inst_pi_nopersp(devinfo, inst) ? "linear" : "persp",
pixel_interpolator_msg_types[brw_eu_inst_pi_message_type(devinfo, inst)],
brw_eu_inst_pi_message_data(devinfo, inst));
break;
case GEN_RT_SFID_RAY_TRACE_ACCELERATOR:
case BRW_SFID_RAY_TRACE_ACCELERATOR:
if (devinfo->has_ray_tracing) {
format(file, " SIMD%d,",
brw_rt_trace_ray_desc_exec_size(devinfo, imm_desc));

40
src/intel/compiler/brw_eu_defines.h
View file

@ -1164,37 +1164,29 @@ enum tgl_sync_function {
};
/**
* Message target: Shared Function ID for where to SEND a message.
* Shared Function ID - which unit a SEND message targets.
*
* These are enumerated in the ISA reference under "send - Send Message".
* In particular, see the following tables:
* - G45 PRM, Volume 4, Table 14-15 "Message Descriptor Definition"
* - Sandybridge PRM, Volume 4 Part 2, Table 8-16 "Extended Message Descriptor"
* - Ivybridge PRM, Volume 1 Part 1, section 3.2.7 "GPE Function IDs"
* See the Tigerlake and Alchemist PRMs, Volume 2b: Command Reference:
* Enumerations, in the table under "SFID":
*/
enum brw_message_target {
enum brw_sfid {
BRW_SFID_NULL = 0,
BRW_SFID_SAMPLER = 2,
BRW_SFID_MESSAGE_GATEWAY = 3,
BRW_SFID_HDC2 = 4, /* Legacy Data Port 2 */
BRW_SFID_RENDER_CACHE = 5,
BRW_SFID_URB = 6,
BRW_SFID_THREAD_SPAWNER = 7,
BRW_SFID_VME = 8,
BRW_SFID_THREAD_SPAWNER = 7, /* Gfx12.0 and earlier only */
BRW_SFID_BINDLESS_THREAD_DISPATCH = 7,
BRW_SFID_RAY_TRACE_ACCELERATOR = 8,
BRW_SFID_HDC_READ_ONLY = 9, /* Read Only/Constant Data Cache */
BRW_SFID_HDC0 = 10, /* Legacy Data Port 0 */
BRW_SFID_PIXEL_INTERPOLATOR = 11,
BRW_SFID_HDC1 = 12, /* Legacy Data Port 1 */
GFX6_SFID_DATAPORT_SAMPLER_CACHE = 4,
GFX6_SFID_DATAPORT_RENDER_CACHE = 5,
GFX6_SFID_DATAPORT_CONSTANT_CACHE = 9,
GFX7_SFID_DATAPORT_DATA_CACHE = 10,
GFX7_SFID_PIXEL_INTERPOLATOR = 11,
HSW_SFID_DATAPORT_DATA_CACHE_1 = 12,
HSW_SFID_CRE = 13,
GFX12_SFID_TGM = 13, /* Typed Global Memory */
GFX12_SFID_SLM = 14, /* Shared Local Memory */
GFX12_SFID_UGM = 15, /* Untyped Global Memory */
GEN_RT_SFID_BINDLESS_THREAD_DISPATCH = 7,
GEN_RT_SFID_RAY_TRACE_ACCELERATOR = 8,
BRW_SFID_TGM = 13, /* LSC: Typed Global Memory */
BRW_SFID_SLM = 14, /* LSC: Shared Local Memory */
BRW_SFID_UGM = 15, /* LSC: Untyped Global Memory */
};
#define GFX7_MESSAGE_TARGET_DP_DATA_CACHE 10

4
src/intel/compiler/brw_eu_emit.c
View file

@ -1512,7 +1512,7 @@ brw_send_indirect_split_message(struct brw_codegen *p,
brw_eu_inst_set_send_sel_reg32_ex_desc(devinfo, send, 1);
brw_eu_inst_set_send_ex_desc_ia_subreg_nr(devinfo, send, phys_subnr(devinfo, ex_desc) >> 2);
if (devinfo->ver >= 20 && sfid == GFX12_SFID_UGM)
if (devinfo->ver >= 20 && sfid == BRW_SFID_UGM)
brw_eu_inst_set_bits(send, 103, 99, ex_mlen / reg_unit(devinfo));
}
@ -1522,7 +1522,7 @@ brw_send_indirect_split_message(struct brw_codegen *p,
*
* BSpec 56890
*/
if (devinfo->ver < 20 || sfid != GFX12_SFID_UGM)
if (devinfo->ver < 20 || sfid != BRW_SFID_UGM)
brw_eu_inst_set_send_ex_bso(devinfo, send, true);
brw_eu_inst_set_send_src1_len(devinfo, send, ex_mlen / reg_unit(devinfo));
}

6
src/intel/compiler/brw_eu_validate.c
View file

@ -2141,9 +2141,9 @@ send_descriptor_restrictions(const struct brw_isa_info *isa,
if (devinfo->ver < 20)
break;
FALLTHROUGH;
case GFX12_SFID_TGM:
case GFX12_SFID_SLM:
case GFX12_SFID_UGM:
case BRW_SFID_TGM:
case BRW_SFID_SLM:
case BRW_SFID_UGM:
ERROR_IF(!devinfo->has_lsc, "Platform does not support LSC");
ERROR_IF(lsc_opcode_has_transpose(lsc_msg_desc_opcode(devinfo, desc)) &&

15
src/intel/compiler/brw_from_nir.cpp
View file

@ -4755,7 +4755,7 @@ emit_rt_lsc_fence(const brw_builder &bld,
brw_imm_ud(0) /* desc */,
brw_imm_ud(0) /* ex_desc */,
brw_vec8_grf(0, 0) /* payload */);
send->sfid = GFX12_SFID_UGM;
send->sfid = BRW_SFID_UGM;
send->desc = lsc_fence_msg_desc(devinfo, scope, flush_type, true);
send->mlen = reg_unit(devinfo); /* g0 header */
send->ex_mlen = 0;
@ -6001,13 +6001,13 @@ brw_from_nir_emit_intrinsic(nir_to_brw_state &ntb,
lsc_fence_descriptor_for_intrinsic(devinfo, instr);
if (ugm_fence) {
fence_regs[fence_regs_count++] =
emit_fence(ubld1, opcode, GFX12_SFID_UGM, desc,
emit_fence(ubld1, opcode, BRW_SFID_UGM, desc,
true /* commit_enable */);
}
if (tgm_fence) {
fence_regs[fence_regs_count++] =
emit_fence(ubld1, opcode, GFX12_SFID_TGM, desc,
emit_fence(ubld1, opcode, BRW_SFID_TGM, desc,
true /* commit_enable */);
}
@ -6022,7 +6022,7 @@ brw_from_nir_emit_intrinsic(nir_to_brw_state &ntb,
ubld1.SYNC(TGL_SYNC_ALLWR);
}
fence_regs[fence_regs_count++] =
emit_fence(ubld1, opcode, GFX12_SFID_SLM, desc,
emit_fence(ubld1, opcode, BRW_SFID_SLM, desc,
true /* commit_enable */);
}
@ -6035,7 +6035,7 @@ brw_from_nir_emit_intrinsic(nir_to_brw_state &ntb,
} else if (devinfo->ver >= 11) {
if (tgm_fence || ugm_fence || urb_fence) {
fence_regs[fence_regs_count++] =
emit_fence(ubld1, opcode, GFX7_SFID_DATAPORT_DATA_CACHE, 0,
emit_fence(ubld1, opcode, BRW_SFID_HDC0, 0,
true /* commit_enable HSD ES # 1404612949 */);
}
@ -6046,7 +6046,7 @@ brw_from_nir_emit_intrinsic(nir_to_brw_state &ntb,
* special binding table index and the normal DATA_CACHE SFID.
*/
fence_regs[fence_regs_count++] =
emit_fence(ubld1, opcode, GFX12_SFID_SLM, 0,
emit_fence(ubld1, opcode, BRW_SFID_SLM, 0,
true /* commit_enable HSD ES # 1404612949 */);
}
} else {
@ -6058,8 +6058,7 @@ brw_from_nir_emit_intrinsic(nir_to_brw_state &ntb,
if (tgm_fence || ugm_fence || slm_fence || urb_fence) {
fence_regs[fence_regs_count++] =
emit_fence(ubld1, opcode, GFX7_SFID_DATAPORT_DATA_CACHE, 0,
commit_enable);
emit_fence(ubld1, opcode, BRW_SFID_HDC0, 0, commit_enable);
}
}

28
src/intel/compiler/brw_gram.y
View file

@ -409,8 +409,8 @@ add_label(struct brw_codegen *p, const char* label_name, enum instr_label_type t
%type <reg> sync_arg
/* shared functions for send */
%token CONST CRE DATA DP_DATA_1 GATEWAY PIXEL_INTERP RENDER SAMPLER
%token THREAD_SPAWNER URB VME DP_SAMPLER RT_ACCEL SLM TGM UGM
%token HDC0 HDC1 HDC2 HDC_RO GATEWAY PIXEL_INTERP RENDER SAMPLER
%token TS_BTD URB RT_ACCEL SLM TGM UGM
/* message details for send */
%token MSGDESC_BEGIN SRC1_LEN EX_BSO MSGDESC_END
@ -1036,20 +1036,18 @@ sharedfunction:
NULL_TOKEN { $$ = BRW_SFID_NULL; }
| GATEWAY { $$ = BRW_SFID_MESSAGE_GATEWAY; }
| URB { $$ = BRW_SFID_URB; }
| THREAD_SPAWNER { $$ = BRW_SFID_THREAD_SPAWNER; }
| VME { $$ = BRW_SFID_VME; }
| RENDER { $$ = GFX6_SFID_DATAPORT_RENDER_CACHE; }
| CONST { $$ = GFX6_SFID_DATAPORT_CONSTANT_CACHE; }
| DATA { $$ = GFX7_SFID_DATAPORT_DATA_CACHE; }
| PIXEL_INTERP { $$ = GFX7_SFID_PIXEL_INTERPOLATOR; }
| DP_DATA_1 { $$ = HSW_SFID_DATAPORT_DATA_CACHE_1; }
| CRE { $$ = HSW_SFID_CRE; }
| TS_BTD { $$ = BRW_SFID_BINDLESS_THREAD_DISPATCH; }
| RENDER { $$ = BRW_SFID_RENDER_CACHE; }
| HDC_RO { $$ = BRW_SFID_HDC_READ_ONLY; }
| HDC0 { $$ = BRW_SFID_HDC0; }
| PIXEL_INTERP { $$ = BRW_SFID_PIXEL_INTERPOLATOR; }
| HDC1 { $$ = BRW_SFID_HDC1; }
| SAMPLER { $$ = BRW_SFID_SAMPLER; }
| DP_SAMPLER { $$ = GFX6_SFID_DATAPORT_SAMPLER_CACHE; }
| RT_ACCEL { $$ = GEN_RT_SFID_RAY_TRACE_ACCELERATOR; }
| SLM { $$ = GFX12_SFID_SLM; }
| TGM { $$ = GFX12_SFID_TGM; }
| UGM { $$ = GFX12_SFID_UGM; }
| HDC2 { $$ = BRW_SFID_HDC2; }
| RT_ACCEL { $$ = BRW_SFID_RAY_TRACE_ACCELERATOR; }
| SLM { $$ = BRW_SFID_SLM; }
| TGM { $$ = BRW_SFID_TGM; }
| UGM { $$ = BRW_SFID_UGM; }
;
exp2:

18
src/intel/compiler/brw_lex.l
View file

@ -163,19 +163,17 @@ bar { yylval.integer = TGL_SYNC_BAR; return BAR; }
host { yylval.integer = TGL_SYNC_HOST; return HOST; }
/* shared functions for send instruction */
sampler { return SAMPLER; }
dp_sampler { return DP_SAMPLER; }
gateway { return GATEWAY; }
urb { return URB; }
thread_spawner { return THREAD_SPAWNER; }
hdc0 { return HDC0; }
hdc1 { return HDC1; }
hdc2 { return HDC2; }
"hdc:ro" { return HDC_RO; }
pi { return PIXEL_INTERP; }
render { return RENDER; }
const { return CONST; }
data { return DATA; }
cre { return CRE; }
vme { return VME; }
"pixel interp" { return PIXEL_INTERP; }
"dp data 1" { return DP_DATA_1; }
"rt accel" { return RT_ACCEL; }
sampler { return SAMPLER; }
"ts/btd" { return TS_BTD; }
urb { return URB; }
slm { return SLM; }
tgm { return TGM; }
ugm { return UGM; }

50
src/intel/compiler/brw_lower_logical_sends.cpp
View file

@ -491,7 +491,7 @@ lower_fb_write_logical_send(const brw_builder &bld, brw_inst *inst,
inst->opcode = SHADER_OPCODE_SEND;
inst->resize_sources(3);
inst->sfid = GFX6_SFID_DATAPORT_RENDER_CACHE;
inst->sfid = BRW_SFID_RENDER_CACHE;
inst->src[0] = desc;
inst->src[1] = brw_imm_ud(0);
inst->src[2] = payload;
@ -562,7 +562,7 @@ lower_fb_read_logical_send(const brw_builder &bld, brw_inst *inst,
inst->src[3] = brw_reg();
inst->mlen = length;
inst->header_size = length;
inst->sfid = GFX6_SFID_DATAPORT_RENDER_CACHE;
inst->sfid = BRW_SFID_RENDER_CACHE;
inst->check_tdr = true;
inst->desc =
(inst->group / 16) << 11 | /* rt slot group */
@ -1401,7 +1401,7 @@ setup_lsc_surface_descriptors(const brw_builder &bld, brw_inst *inst,
*/
inst->src[1] = retype(surface, BRW_TYPE_UD);
/* Gfx20+ assumes ExBSO with UGM */
if (devinfo->ver >= 20 && inst->sfid == GFX12_SFID_UGM)
if (devinfo->ver >= 20 && inst->sfid == BRW_SFID_UGM)
inst->send_ex_bso = true;
break;
@ -1547,13 +1547,13 @@ lower_lsc_memory_logical_send(const brw_builder &bld, brw_inst *inst)
case MEMORY_MODE_UNTYPED:
case MEMORY_MODE_CONSTANT:
case MEMORY_MODE_SCRATCH:
inst->sfid = GFX12_SFID_UGM;
inst->sfid = BRW_SFID_UGM;
break;
case MEMORY_MODE_TYPED:
inst->sfid = GFX12_SFID_TGM;
inst->sfid = BRW_SFID_TGM;
break;
case MEMORY_MODE_SHARED_LOCAL:
inst->sfid = GFX12_SFID_SLM;
inst->sfid = BRW_SFID_SLM;
break;
}
assert(inst->sfid);
@ -1562,7 +1562,7 @@ lower_lsc_memory_logical_send(const brw_builder &bld, brw_inst *inst)
* shaders. (see HSD 18038444588)
*/
if (devinfo->ver >= 20 && gl_shader_stage_is_rt(bld.shader->stage) &&
inst->sfid == GFX12_SFID_TGM &&
inst->sfid == BRW_SFID_TGM &&
!lsc_opcode_is_atomic(op)) {
if (lsc_opcode_is_store(op)) {
cache_mode = (unsigned) LSC_CACHE(devinfo, STORE, L1UC_L3WB);
@ -1785,7 +1785,7 @@ lower_hdc_memory_logical_send(const brw_builder &bld, brw_inst *inst)
assert(addr_size == LSC_ADDR_SIZE_A32);
assert(!block);
sfid = HSW_SFID_DATAPORT_DATA_CACHE_1;
sfid = BRW_SFID_HDC1;
if (lsc_opcode_is_atomic(op)) {
desc = brw_dp_typed_atomic_desc(devinfo, inst->exec_size, inst->group,
@ -1798,13 +1798,13 @@ lower_hdc_memory_logical_send(const brw_builder &bld, brw_inst *inst)
} else if (mode == MEMORY_MODE_CONSTANT) {
assert(block); /* non-block loads not yet handled */
sfid = GFX6_SFID_DATAPORT_CONSTANT_CACHE;
sfid = BRW_SFID_HDC_READ_ONLY;
desc = brw_dp_oword_block_rw_desc(devinfo, false, components, !has_dest);
} else if (addr_size == LSC_ADDR_SIZE_A64) {
assert(binding_type == LSC_ADDR_SURFTYPE_FLAT);
assert(!dword_scattered);
sfid = HSW_SFID_DATAPORT_DATA_CACHE_1;
sfid = BRW_SFID_HDC1;
if (lsc_opcode_is_atomic(op)) {
unsigned aop = lsc_op_to_legacy_atomic(op);
@ -1830,8 +1830,7 @@ lower_hdc_memory_logical_send(const brw_builder &bld, brw_inst *inst)
} else {
assert(binding_type != LSC_ADDR_SURFTYPE_FLAT);
sfid = surface_access ? HSW_SFID_DATAPORT_DATA_CACHE_1
: GFX7_SFID_DATAPORT_DATA_CACHE;
sfid = surface_access ? BRW_SFID_HDC1 : BRW_SFID_HDC0;
if (lsc_opcode_is_atomic(op)) {
unsigned aop = lsc_op_to_legacy_atomic(op);
@ -1942,7 +1941,7 @@ lower_lsc_varying_pull_constant_logical_send(const brw_builder &bld,
unsigned alignment = alignment_B.ud;
inst->opcode = SHADER_OPCODE_SEND;
inst->sfid = GFX12_SFID_UGM;
inst->sfid = BRW_SFID_UGM;
inst->resize_sources(3);
inst->send_ex_bso = surf_type == LSC_ADDR_SURFTYPE_BSS &&
compiler->extended_bindless_surface_offset;
@ -2046,7 +2045,7 @@ lower_varying_pull_constant_logical_send(const brw_builder &bld, brw_inst *inst)
4, /* num_channels */
false /* write */);
inst->sfid = HSW_SFID_DATAPORT_DATA_CACHE_1;
inst->sfid = BRW_SFID_HDC1;
setup_surface_descriptors(bld, inst, desc, surface, surface_handle);
} else {
const uint32_t desc =
@ -2054,7 +2053,7 @@ lower_varying_pull_constant_logical_send(const brw_builder &bld, brw_inst *inst)
32, /* bit_size */
false /* write */);
inst->sfid = GFX7_SFID_DATAPORT_DATA_CACHE;
inst->sfid = BRW_SFID_HDC0;
setup_surface_descriptors(bld, inst, desc, surface, surface_handle);
/* The byte scattered messages can only read one dword at a time so
@ -2193,7 +2192,7 @@ lower_interpolator_logical_send(const brw_builder &bld, brw_inst *inst,
}
inst->opcode = SHADER_OPCODE_SEND;
inst->sfid = GFX7_SFID_PIXEL_INTERPOLATOR;
inst->sfid = BRW_SFID_PIXEL_INTERPOLATOR;
inst->desc = desc_imm;
inst->ex_desc = 0;
inst->mlen = mlen;
@ -2277,7 +2276,7 @@ lower_btd_logical_send(const brw_builder &bld, brw_inst *inst)
inst->send_is_volatile = false;
/* Set up SFID and descriptors */
inst->sfid = GEN_RT_SFID_BINDLESS_THREAD_DISPATCH;
inst->sfid = BRW_SFID_BINDLESS_THREAD_DISPATCH;
inst->desc = brw_btd_spawn_desc(devinfo, inst->exec_size,
GEN_RT_BTD_MESSAGE_SPAWN);
inst->resize_sources(4);
@ -2375,7 +2374,7 @@ lower_trace_ray_logical_send(const brw_builder &bld, brw_inst *inst)
inst->send_is_volatile = false;
/* Set up SFID and descriptors */
inst->sfid = GEN_RT_SFID_RAY_TRACE_ACCELERATOR;
inst->sfid = BRW_SFID_RAY_TRACE_ACCELERATOR;
inst->desc = brw_rt_trace_ray_desc(devinfo, inst->exec_size);
inst->resize_sources(4);
inst->src[0] = brw_imm_ud(0); /* desc */
@ -2457,7 +2456,7 @@ lower_lsc_memory_fence_and_interlock(const brw_builder &bld, brw_inst *inst)
enum lsc_flush_type flush_type =
lsc_fence_msg_desc_flush_type(devinfo, inst->desc);
if (inst->sfid == GFX12_SFID_TGM) {
if (inst->sfid == BRW_SFID_TGM) {
scope = LSC_FENCE_TILE;
flush_type = LSC_FLUSH_TYPE_EVICT;
}
@ -2495,14 +2494,14 @@ lower_hdc_memory_fence_and_interlock(const brw_builder &bld, brw_inst *inst)
const bool commit_enable = inst->src[1].ud;
bool slm = false;
if (inst->sfid == GFX12_SFID_SLM) {
if (inst->sfid == BRW_SFID_SLM) {
assert(devinfo->ver >= 11);
/* This SFID doesn't exist on Gfx11-12.0, but we use it to represent
* SLM fences, and map back here to the way Gfx11 represented that:
* a special "SLM" binding table index and the data cache SFID.
*/
inst->sfid = GFX7_SFID_DATAPORT_DATA_CACHE;
inst->sfid = BRW_SFID_HDC0;
slm = true;
}
@ -2522,9 +2521,8 @@ lower_hdc_memory_fence_and_interlock(const brw_builder &bld, brw_inst *inst)
inst->header_size = 1;
const unsigned msg_type =
inst->sfid == GFX6_SFID_DATAPORT_RENDER_CACHE ?
GFX7_DATAPORT_RC_MEMORY_FENCE :
GFX7_DATAPORT_DC_MEMORY_FENCE;
inst->sfid == BRW_SFID_RENDER_CACHE ? GFX7_DATAPORT_RC_MEMORY_FENCE :
GFX7_DATAPORT_DC_MEMORY_FENCE;
inst->desc = brw_dp_desc(devinfo, slm ? GFX7_BTI_SLM : 0, msg_type,
commit_enable ? 1 << 5 : 0);
@ -2691,7 +2689,7 @@ brw_lower_uniform_pull_constant_loads(brw_shader &s)
const brw_reg payload = ubld.vgrf(BRW_TYPE_UD);
ubld.MOV(payload, offset_B);
inst->sfid = GFX12_SFID_UGM;
inst->sfid = BRW_SFID_UGM;
inst->desc = lsc_msg_desc(devinfo, LSC_OP_LOAD,
surface_handle.file == BAD_FILE ?
LSC_ADDR_SURFTYPE_BTI :
@ -2732,7 +2730,7 @@ brw_lower_uniform_pull_constant_loads(brw_shader &s)
ubld.group(1, 0).MOV(component(header, 2),
brw_imm_ud(offset_B.ud / 16));
inst->sfid = GFX6_SFID_DATAPORT_CONSTANT_CACHE;
inst->sfid = BRW_SFID_HDC_READ_ONLY;
inst->opcode = SHADER_OPCODE_SEND;
inst->header_size = 1;
inst->mlen = 1;

6
src/intel/compiler/brw_opt.cpp
View file

@ -723,9 +723,9 @@ brw_opt_send_gather_to_send(brw_shader &s)
*
* TODO: Pass LSC address length or infer it so valid splits can work.
*/
if (payload2_len && (inst->sfid == GFX12_SFID_UGM ||
inst->sfid == GFX12_SFID_TGM ||
inst->sfid == GFX12_SFID_SLM ||
if (payload2_len && (inst->sfid == BRW_SFID_UGM ||
inst->sfid == BRW_SFID_TGM ||
inst->sfid == BRW_SFID_SLM ||
inst->sfid == BRW_SFID_URB)) {
enum lsc_opcode lsc_op = lsc_msg_desc_opcode(devinfo, inst->desc);
if (lsc_op_num_data_values(lsc_op) > 0)

13
src/intel/compiler/brw_reg_allocate.cpp
View file

@ -705,13 +705,12 @@ brw_reg_alloc::build_ex_desc(const brw_builder &bld, unsigned reg_size, bool uns
} else {
if (unspill) {
inst = bld.exec_all().group(1, 0).OR(
ex_desc, ex_desc, brw_imm_ud(GFX12_SFID_UGM));
ex_desc, ex_desc, brw_imm_ud(BRW_SFID_UGM));
_mesa_set_add(spill_insts, inst);
} else {
inst = bld.exec_all().group(1, 0).OR(
ex_desc, ex_desc,
brw_imm_ud(brw_message_ex_desc(devinfo, reg_size) |
GFX12_SFID_UGM));
brw_imm_ud(brw_message_ex_desc(devinfo, reg_size) | BRW_SFID_UGM));
_mesa_set_add(spill_insts, inst);
}
}
@ -841,7 +840,7 @@ brw_reg_alloc::emit_unspill(const brw_builder &bld,
unspill_inst = ubld.emit(SHADER_OPCODE_SEND, dst,
srcs, ARRAY_SIZE(srcs));
unspill_inst->sfid = GFX12_SFID_UGM;
unspill_inst->sfid = BRW_SFID_UGM;
unspill_inst->header_size = 0;
unspill_inst->mlen = lsc_msg_addr_len(devinfo, LSC_ADDR_SIZE_A32,
unspill_inst->exec_size);
@ -874,7 +873,7 @@ brw_reg_alloc::emit_unspill(const brw_builder &bld,
unspill_inst->size_written = reg_size * REG_SIZE;
unspill_inst->send_has_side_effects = false;
unspill_inst->send_is_volatile = true;
unspill_inst->sfid = GFX7_SFID_DATAPORT_DATA_CACHE;
unspill_inst->sfid = BRW_SFID_HDC0;
unspill_inst->src[0] = brw_imm_ud(
brw_dp_desc(devinfo, bti,
@ -918,7 +917,7 @@ brw_reg_alloc::emit_spill(const brw_builder &bld,
};
spill_inst = bld.emit(SHADER_OPCODE_SEND, bld.null_reg_f(),
srcs, ARRAY_SIZE(srcs));
spill_inst->sfid = GFX12_SFID_UGM;
spill_inst->sfid = BRW_SFID_UGM;
uint32_t desc = lsc_msg_desc(devinfo, LSC_OP_STORE,
LSC_ADDR_SURFTYPE_SS,
LSC_ADDR_SIZE_A32,
@ -958,7 +957,7 @@ brw_reg_alloc::emit_spill(const brw_builder &bld,
spill_inst->header_size = 1;
spill_inst->send_has_side_effects = true;
spill_inst->send_is_volatile = false;
spill_inst->sfid = GFX7_SFID_DATAPORT_DATA_CACHE;
spill_inst->sfid = BRW_SFID_HDC0;
spill_inst->src[0] = brw_imm_ud(
brw_dp_desc(devinfo, bti,

20
src/intel/compiler/brw_schedule_instructions.cpp
View file

@ -357,12 +357,12 @@ schedule_node::set_latency(const struct brw_isa_info *isa)
break;
}
case GFX6_SFID_DATAPORT_CONSTANT_CACHE:
case BRW_SFID_HDC_READ_ONLY:
/* See FS_OPCODE_UNIFORM_PULL_CONSTANT_LOAD */
latency = 200;
break;
case GFX6_SFID_DATAPORT_RENDER_CACHE:
case BRW_SFID_RENDER_CACHE:
switch (brw_fb_desc_msg_type(isa->devinfo, inst->desc)) {
case GFX7_DATAPORT_RC_TYPED_SURFACE_WRITE:
case GFX7_DATAPORT_RC_TYPED_SURFACE_READ:
@ -386,7 +386,7 @@ schedule_node::set_latency(const struct brw_isa_info *isa)
}
break;
case GFX7_SFID_DATAPORT_DATA_CACHE:
case BRW_SFID_HDC0:
switch ((inst->desc >> 14) & 0x1f) {
case BRW_DATAPORT_READ_MESSAGE_OWORD_BLOCK_READ:
case GFX7_DATAPORT_DC_UNALIGNED_OWORD_BLOCK_READ:
@ -458,7 +458,7 @@ schedule_node::set_latency(const struct brw_isa_info *isa)
}
break;
case HSW_SFID_DATAPORT_DATA_CACHE_1:
case BRW_SFID_HDC1:
switch (brw_dp_desc_msg_type(isa->devinfo, inst->desc)) {
case HSW_DATAPORT_DC_PORT1_UNTYPED_SURFACE_READ:
case HSW_DATAPORT_DC_PORT1_UNTYPED_SURFACE_WRITE:
@ -492,13 +492,13 @@ schedule_node::set_latency(const struct brw_isa_info *isa)
}
break;
case GFX7_SFID_PIXEL_INTERPOLATOR:
case BRW_SFID_PIXEL_INTERPOLATOR:
latency = 50; /* TODO */
break;
case GFX12_SFID_UGM:
case GFX12_SFID_TGM:
case GFX12_SFID_SLM:
case BRW_SFID_UGM:
case BRW_SFID_TGM:
case BRW_SFID_SLM:
switch (lsc_msg_desc_opcode(isa->devinfo, inst->desc)) {
case LSC_OP_LOAD:
case LSC_OP_STORE:
@ -534,8 +534,8 @@ schedule_node::set_latency(const struct brw_isa_info *isa)
break;
case BRW_SFID_MESSAGE_GATEWAY:
case GEN_RT_SFID_BINDLESS_THREAD_DISPATCH: /* or THREAD_SPAWNER */
case GEN_RT_SFID_RAY_TRACE_ACCELERATOR:
case BRW_SFID_BINDLESS_THREAD_DISPATCH: /* or THREAD_SPAWNER */
case BRW_SFID_RAY_TRACE_ACCELERATOR:
/* TODO.
*
* We'll assume for the moment that this is pretty quick as it

2
src/intel/compiler/brw_shader.cpp
View file

@ -700,7 +700,7 @@ brw_shader::assign_curb_setup()
BRW_TYPE_UD);
brw_inst *send = ubld.emit(SHADER_OPCODE_SEND, dest, srcs, 4);
send->sfid = GFX12_SFID_UGM;
send->sfid = BRW_SFID_UGM;
uint32_t desc = lsc_msg_desc(devinfo, LSC_OP_LOAD,
LSC_ADDR_SURFTYPE_FLAT,
pull_constants_a64 ?

4
src/intel/compiler/brw_workaround.cpp
View file

@ -43,7 +43,7 @@ needs_dummy_fence(const intel_device_info *devinfo, brw_inst *inst)
/* This workaround is about making sure that any instruction writing
* through UGM has completed before we hit EOT.
*/
if (inst->sfid != GFX12_SFID_UGM)
if (inst->sfid != BRW_SFID_UGM)
return false;
/* Any UGM, non-Scratch-surface Stores (not including Atomic) messages,
@ -106,7 +106,7 @@ brw_workaround_memory_fence_before_eot(brw_shader &s)
brw_inst *dummy_fence = ubld.emit(SHADER_OPCODE_MEMORY_FENCE,
dst, brw_vec8_grf(0, 0),
/* commit enable */ brw_imm_ud(1));
dummy_fence->sfid = GFX12_SFID_UGM;
dummy_fence->sfid = BRW_SFID_UGM;
dummy_fence->desc = lsc_fence_msg_desc(s.devinfo, LSC_FENCE_TILE,
LSC_FLUSH_TYPE_NONE_6, false);
dummy_fence->size_written = REG_SIZE * reg_unit(s.devinfo);

2
src/intel/compiler/tests/gen12.5/send.asm
View file

@ -23,7 +23,7 @@ send(1) g10UD g0UD nullUD 0x0210011f
send(1) g23UD g117UD nullUD 0x2210c500 a0.1<0>UD
ugm MsgDesc: ( load, a32, d32, V8, transpose, L1STATE_L3MOCS dst_len = 1, src0_len = 1, bss ) src1_len = 0 ex_bso surface_state_index 0 { align1 WE_all 1N @1 $10 };
send(8) nullUD g14UD g24UD 0x040350fc a0.1<0>UD
dp data 1 MsgDesc: (DC typed surface write, Surface = 252, SIMD16, Mask = 0x0) src1_len = 4 ex_bso mlen 2 rlen 0 { align1 1Q @1 $5 };
hdc1 MsgDesc: (DC typed surface write, Surface = 252, SIMD16, Mask = 0x0) src1_len = 4 ex_bso mlen 2 rlen 0 { align1 1Q @1 $5 };
send(8) nullUD g51UD g52UD 0x02000000 0x00000040
rt accel MsgDesc: SIMD8, mlen 1 ex_mlen 1 rlen 0 { align1 1Q $2 };
send(16) nullUD g88UD g98UD 0x02000100 0x00000080

30
src/intel/compiler/tests/gen12/send.asm
View file

@ -1,37 +1,37 @@
send(16) g113UD g12UD nullUD a0<0>UD 0x00000000
dp data 1 MsgDesc: indirect ex_mlen 0 { align1 1H @1 $6 };
hdc1 MsgDesc: indirect ex_mlen 0 { align1 1H @1 $6 };
(+f1.0) send(16) nullUD g15UD g17UD a0<0>UD 0x00000080
dp data 1 MsgDesc: indirect ex_mlen 2 { align1 1H @1 $4 };
hdc1 MsgDesc: indirect ex_mlen 2 { align1 1H @1 $4 };
send(8) g104UD g119UD nullUD 0x04116e13 0x00000000
dp data 1 MsgDesc: (DC typed surface read, Surface = 19, SIMD8, Mask = 0xe) mlen 2 ex_mlen 0 rlen 1 { align1 2Q $8 };
hdc1 MsgDesc: (DC typed surface read, Surface = 19, SIMD8, Mask = 0xe) mlen 2 ex_mlen 0 rlen 1 { align1 2Q $8 };
send(8) nullUD g92UD g117UD 0x020350fc a0.1<0>UD
dp data 1 MsgDesc: (DC typed surface write, Surface = 252, SIMD16, Mask = 0x0) mlen 1 rlen 0 { align1 1Q @1 $8 };
hdc1 MsgDesc: (DC typed surface write, Surface = 252, SIMD16, Mask = 0x0) mlen 1 rlen 0 { align1 1Q @1 $8 };
(+f0.0.any8h) send(8) g55UD g118UD nullUD 0x02184201 0x00000000
data MsgDesc: (DC unaligned OWORD block read, bti 1, 2) mlen 1 ex_mlen 0 rlen 1 { align1 WE_all 1Q @3 $9 };
hdc0 MsgDesc: (DC unaligned OWORD block read, bti 1, 2) mlen 1 ex_mlen 0 rlen 1 { align1 WE_all 1Q @3 $9 };
send(8) nullUD g126UD nullUD 0x02000000 0x00000000
thread_spawner MsgDesc: mlen 1 ex_mlen 0 rlen 0 { align1 WE_all 1Q @1 EOT };
ts/btd MsgDesc: mlen 1 ex_mlen 0 rlen 0 { align1 WE_all 1Q @1 EOT };
send(8) g18UD g24UD nullUD 0x04115e10 0x00000000
dp data 1 MsgDesc: (DC typed surface read, Surface = 16, SIMD16, Mask = 0xe) mlen 2 ex_mlen 0 rlen 1 { align1 1Q $1 };
hdc1 MsgDesc: (DC typed surface read, Surface = 16, SIMD16, Mask = 0xe) mlen 2 ex_mlen 0 rlen 1 { align1 1Q $1 };
send(8) g19UD g28UD nullUD 0x04116e10 0x00000000
dp data 1 MsgDesc: (DC typed surface read, Surface = 16, SIMD8, Mask = 0xe) mlen 2 ex_mlen 0 rlen 1 { align1 2Q @7 $2 };
hdc1 MsgDesc: (DC typed surface read, Surface = 16, SIMD8, Mask = 0xe) mlen 2 ex_mlen 0 rlen 1 { align1 2Q @7 $2 };
send(16) g50UD g36UD nullUD a0<0>UD 0x00000000
sampler MsgDesc: indirect ex_mlen 0 { align1 1H @1 $3 };
send(8) nullUD g25UD g21UD 0x02035001 0x00000100
dp data 1 MsgDesc: (DC typed surface write, Surface = 1, SIMD16, Mask = 0x0) mlen 1 ex_mlen 4 rlen 0 { align1 1Q $9 };
hdc1 MsgDesc: (DC typed surface write, Surface = 1, SIMD16, Mask = 0x0) mlen 1 ex_mlen 4 rlen 0 { align1 1Q $9 };
send(8) g5UD g25UD nullUD 0x02415001 0x00000000
dp data 1 MsgDesc: (DC typed surface read, Surface = 1, SIMD16, Mask = 0x0) mlen 1 ex_mlen 0 rlen 4 { align1 1Q $10 };
hdc1 MsgDesc: (DC typed surface read, Surface = 1, SIMD16, Mask = 0x0) mlen 1 ex_mlen 0 rlen 4 { align1 1Q $10 };
send(8) g27UD g35UD nullUD 0x04146efd 0x00000000
dp data 1 MsgDesc: (DC A64 untyped surface read, Surface = 253, SIMD8, Mask = 0xe) mlen 2 ex_mlen 0 rlen 1 { align1 1Q @1 $0 };
hdc1 MsgDesc: (DC A64 untyped surface read, Surface = 253, SIMD8, Mask = 0xe) mlen 2 ex_mlen 0 rlen 1 { align1 1Q @1 $0 };
send(8) nullUD g36UD g38UD 0x04035001 0x00000100
dp data 1 MsgDesc: (DC typed surface write, Surface = 1, SIMD16, Mask = 0x0) mlen 2 ex_mlen 4 rlen 0 { align1 1Q @1 $1 };
hdc1 MsgDesc: (DC typed surface write, Surface = 1, SIMD16, Mask = 0x0) mlen 2 ex_mlen 4 rlen 0 { align1 1Q @1 $1 };
send(8) nullUD g126UD g118UD 0x02080007 0x00000200
urb MsgDesc: offset 0 SIMD8 write mlen 1 ex_mlen 8 rlen 0 { align1 1Q @1 EOT };
send(8) g14UD g37UD nullUD 0x02110401 0x00000000
data MsgDesc: (DC byte scattered read, bti 1, 4) mlen 1 ex_mlen 0 rlen 1 { align1 1Q @1 $0 };
hdc0 MsgDesc: (DC byte scattered read, bti 1, 4) mlen 1 ex_mlen 0 rlen 1 { align1 1Q @1 $0 };
send(1) g100UD g0UD nullUD 0x0219e000 0x00000000
data MsgDesc: (DC mfence, bti 0, 32) mlen 1 ex_mlen 0 rlen 1 { align1 WE_all 1N $1 };
hdc0 MsgDesc: (DC mfence, bti 0, 32) mlen 1 ex_mlen 0 rlen 1 { align1 WE_all 1N $1 };
send(1) g15UD g0UD nullUD 0x0219e000 0x00000000
data MsgDesc: (DC mfence, bti 0, 32) mlen 1 ex_mlen 0 rlen 1 { align1 WE_all 1N $5 };
hdc0 MsgDesc: (DC mfence, bti 0, 32) mlen 1 ex_mlen 0 rlen 1 { align1 WE_all 1N $5 };
sendc(16) nullUD g119UD nullUD 0x10031000 0x00000000
render MsgDesc: RT write SIMD16 LastRT Surface = 0 mlen 8 ex_mlen 0 rlen 0 { align1 1H @1 EOT };

178
src/intel/compiler/tests/gen9/send.asm
View file

@ -5,11 +5,11 @@ send(8) null<1>F g13<8,8,1>F 0x12080007
send(8) null<1>F g123<8,8,1>F 0x8a080027
urb MsgDesc: 2 SIMD8 write mlen 5 rlen 0 { align1 1Q EOT };
send(16) g9<1>UD g2<0,1,0>UD 0x02280300
const MsgDesc: (0, 3, 0, 0) mlen 1 rlen 2 { align1 WE_all 1H };
hdc:ro MsgDesc: (0, 3, 0, 0) mlen 1 rlen 2 { align1 WE_all 1H };
send(8) null<1>F g119<8,8,1>F 0x92080017
urb MsgDesc: 1 SIMD8 write mlen 9 rlen 0 { align1 1Q EOT };
send(16) null<1>UW g127<8,8,1>UW 0x82000010
thread_spawner MsgDesc: mlen 1 rlen 0 { align1 WE_all 1H EOT };
ts/btd MsgDesc: mlen 1 rlen 0 { align1 WE_all 1H EOT };
send(8) g124<1>UW g13<8,8,1>UD 0x0643a001
sampler MsgDesc: ld_lz SIMD8 Surface = 1 Sampler = 0 mlen 3 rlen 4 { align1 1Q };
send(16) g120<1>UW g23<8,8,1>UD 0x0c85a001
@ -93,9 +93,9 @@ send(8) null<1>F g123<8,8,1>F 0x8a080037
send(8) g6<1>UW g11<8,8,1>UD 0x144a4001
sampler MsgDesc: sample_d SIMD8 Surface = 1 Sampler = 0 mlen 10 rlen 4 { align1 1Q };
(+f1.0) send(8) g125<1>UW g3<8,8,1>UD 0x0210b501
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, inc) mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, inc) mlen 1 rlen 1 { align1 1Q };
(+f1.0) send(16) g122<1>UW g4<8,8,1>UD 0x0420a501
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, inc) mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, inc) mlen 2 rlen 2 { align1 1H };
send(8) g6<1>UW g12<8,8,1>UD 0x084a4001
sampler MsgDesc: sample_d SIMD8 Surface = 1 Sampler = 0 mlen 4 rlen 4 { align1 1Q };
send(8) g98<1>UW g17<8,8,1>UD 0x0c43c001
@ -333,7 +333,7 @@ send(16) g120<1>UW g2<8,8,1>UD 0x08449001
send(16) g32<1>UW g44<8,8,1>UD 0x0865a001
sampler MsgDesc: ld_lz SIMD16 Surface = 1 Sampler = 0 mlen 4 rlen 6 { align1 1H };
send(16) null<1>UW g5<8,8,1>UD 0x04008502
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD16, inc) mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD16, inc) mlen 2 rlen 0 { align1 1H };
send(8) g5<1>UW g3<8,8,1>UD 0x02427001
sampler MsgDesc: ld SIMD8 Surface = 1 Sampler = 0 mlen 1 rlen 4 { align1 1Q };
send(16) g8<1>UW g5<8,8,1>UD 0x04847001
@ -411,9 +411,9 @@ send(8) g98<1>UD g1<8,8,1>UD 0x02180208
send(8) null<1>F g12<8,8,1>UD 0x0c0a0027
urb MsgDesc: 2 SIMD8 write per-slot mlen 6 rlen 0 { align1 1Q };
send(8) null<1>UW g126<0,1,0>UD 0x040a02fd
data MsgDesc: ( DC OWORD block write, 253, 2) mlen 2 rlen 0 { align1 1Q };
hdc0 MsgDesc: ( DC OWORD block write, 253, 2) mlen 2 rlen 0 { align1 1Q };
send(8) g115<1>UW g115<0,1,0>UD 0x021802fd
data MsgDesc: ( DC OWORD block read, 253, 2) mlen 1 rlen 1 { align1 WE_all 1Q };
hdc0 MsgDesc: ( DC OWORD block read, 253, 2) mlen 1 rlen 1 { align1 WE_all 1Q };
send(8) null<1>F g25<8,8,1>F 0x12080057
urb MsgDesc: 5 SIMD8 write mlen 9 rlen 0 { align1 1Q };
send(8) null<1>F g34<8,8,1>F 0x12080077
@ -449,7 +449,7 @@ send(16) g120<1>UW g11<8,8,1>UD 0x04449001
send(8) g124<1>UW g3<8,8,1>UD 0x08427000
sampler MsgDesc: ld SIMD8 Surface = 0 Sampler = 0 mlen 4 rlen 4 { align1 1Q };
send(16) null<1>UW g40<8,8,1>UD 0x04008501
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, inc) mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, inc) mlen 2 rlen 0 { align1 1H };
send(8) null<1>F g127<8,8,1>UD 0x82080007
urb MsgDesc: 0 SIMD8 write mlen 1 rlen 0 { align1 1Q EOT };
send(8) g124<1>UW g9<8,8,1>UD 0x0a4a8000
@ -461,7 +461,7 @@ send(16) g4<1>UW g12<8,8,1>UD 0x0c65a001
send(8) g2<1>UW g16<8,8,1>UD 0x0e434001
sampler MsgDesc: sample_d_c SIMD8 Surface = 1 Sampler = 0 mlen 7 rlen 4 { align1 2Q };
(+f1.0) send(8) null<1>UW g4<8,8,1>UD 0x02009501
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, inc) mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, inc) mlen 1 rlen 0 { align1 1Q };
send(8) g6<1>UW g9<8,8,1>UD 0x08434001
sampler MsgDesc: sample_d_c SIMD8 Surface = 1 Sampler = 0 mlen 4 rlen 4 { align1 1Q };
send(8) null<1>F g102<8,8,1>F 0x120801f7
@ -471,7 +471,7 @@ send(8) null<1>F g121<8,8,1>F 0x8a080217
send(16) null<1>UW g3<0,1,0>UD 0x02008004
gateway MsgDesc: (barrier msg) mlen 1 rlen 0 { align1 WE_all 1H };
send(16) g3<1>UW g14<8,8,1>UD 0x04205efe
dp data 1 MsgDesc: ( untyped surface read, Surface = 254, SIMD16, Mask = 0xe) mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( untyped surface read, Surface = 254, SIMD16, Mask = 0xe) mlen 2 rlen 2 { align1 1H };
send(8) null<1>F g30<8,8,1>F 0x140a0027
urb MsgDesc: 2 SIMD8 write per-slot mlen 10 rlen 0 { align1 1Q };
send(8) null<1>F g40<8,8,1>F 0x0c0a0047
@ -479,9 +479,9 @@ send(8) null<1>F g40<8,8,1>F 0x0c0a0047
send(8) null<1>F g126<8,8,1>UD 0x84080007
urb MsgDesc: 0 SIMD8 write mlen 2 rlen 0 { align1 1Q EOT };
send(8) g5<1>UW g11<8,8,1>UD 0x04415001
dp data 1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD16, Mask = 0x0) mlen 2 rlen 4 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD16, Mask = 0x0) mlen 2 rlen 4 { align1 1Q };
send(8) g2<1>UW g3<8,8,1>UD 0x04416001
dp data 1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD8, Mask = 0x0) mlen 2 rlen 4 { align1 2Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD8, Mask = 0x0) mlen 2 rlen 4 { align1 2Q };
send(8) g13<1>UD g3<8,8,1>UD 0x02480038
urb MsgDesc: 3 SIMD8 read mlen 1 rlen 4 { align1 1Q };
send(8) null<1>F g7<8,8,1>F 0x140a0037
@ -519,9 +519,9 @@ send(8) null<1>F g119<8,8,1>F 0x920800b7
send(8) g6<1>UW g8<8,8,1>UD 0x084b0000
sampler MsgDesc: gather4_c SIMD8 Surface = 0 Sampler = 0 mlen 4 rlen 4 { align1 1Q };
send(8) g7<1>UW g0<8,8,1>UD 0x02200008
pixel interp MsgDesc: (persp, per_message_offset, 0x08) mlen 1 rlen 2 { align1 1Q };
pi MsgDesc: (persp, per_message_offset, 0x08) mlen 1 rlen 2 { align1 1Q };
send(16) g9<1>UW g0<8,8,1>UD 0x02410008
pixel interp MsgDesc: (persp, per_message_offset, 0x08) mlen 1 rlen 4 { align1 1H };
pi MsgDesc: (persp, per_message_offset, 0x08) mlen 1 rlen 4 { align1 1H };
send(8) g2<1>UW g11<8,8,1>UD 0x0443d001
sampler MsgDesc: ld_mcs SIMD8 Surface = 1 Sampler = 0 mlen 2 rlen 4 { align1 1Q };
send(8) g2<1>UW g9<8,8,1>UD 0x0843e001
@ -607,7 +607,7 @@ send(8) g3<1>UW g11<8,8,1>UD 0x0a43c001
send(16) g16<1>UW g5<8,8,1>UD 0x1485c001
sampler MsgDesc: ld2dms_w SIMD16 Surface = 1 Sampler = 0 mlen 10 rlen 8 { align1 1H };
send(16) g4<1>UD g13<0,1,0>UD 0x02280301
const MsgDesc: (1, 3, 0, 0) mlen 1 rlen 2 { align1 WE_all 1H };
hdc:ro MsgDesc: (1, 3, 0, 0) mlen 1 rlen 2 { align1 WE_all 1H };
send(8) g2<1>UW g2<8,8,1>UD 0x0443a001
sampler MsgDesc: ld_lz SIMD8 Surface = 1 Sampler = 0 mlen 2 rlen 4 { align1 1Q };
send(16) g2<1>UW g10<8,8,1>UD 0x0885a001
@ -677,9 +677,9 @@ send(8) null<1>F g6<8,8,1>F 0x0a080017
send(8) null<1>F g7<8,8,1>F 0x0a080057
urb MsgDesc: 5 SIMD8 write mlen 5 rlen 0 { align1 1Q };
send(8) g4<1>UW g2<8,8,1>UD 0x02406001
dp data 1 MsgDesc: ( untyped surface read, Surface = 1, SIMD8, Mask = 0x0) mlen 1 rlen 4 { align1 1Q };
hdc1 MsgDesc: ( untyped surface read, Surface = 1, SIMD8, Mask = 0x0) mlen 1 rlen 4 { align1 1Q };
send(16) g5<1>UW g2<8,8,1>UD 0x04805001
dp data 1 MsgDesc: ( untyped surface read, Surface = 1, SIMD16, Mask = 0x0) mlen 2 rlen 8 { align1 1H };
hdc1 MsgDesc: ( untyped surface read, Surface = 1, SIMD16, Mask = 0x0) mlen 2 rlen 8 { align1 1H };
send(8) g124<1>UW g13<8,8,1>UD 0x084b0001
sampler MsgDesc: gather4_c SIMD8 Surface = 1 Sampler = 0 mlen 4 rlen 4 { align1 1Q };
send(16) g120<1>UW g7<8,8,1>UD 0x0e8d0001
@ -711,9 +711,9 @@ send(8) g64<1>UD g113<8,8,1>UD 0x02380058
send(8) null<1>F g119<8,8,1>F 0x92080047
urb MsgDesc: 4 SIMD8 write mlen 9 rlen 0 { align1 1Q EOT };
send(8) g5<1>UW g4<8,8,1>UD 0x06415001
dp data 1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD16, Mask = 0x0) mlen 3 rlen 4 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD16, Mask = 0x0) mlen 3 rlen 4 { align1 1Q };
send(8) g2<1>UW g10<8,8,1>UD 0x06416001
dp data 1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD8, Mask = 0x0) mlen 3 rlen 4 { align1 2Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD8, Mask = 0x0) mlen 3 rlen 4 { align1 2Q };
send(8) null<1>F g119<8,8,1>F 0x92080077
urb MsgDesc: 7 SIMD8 write mlen 9 rlen 0 { align1 1Q EOT };
send(8) g12<1>UD g8<4,4,1>UD 0x044a0038
@ -749,9 +749,9 @@ send(16) g20<1>UW g22<8,8,1>UD 0x0c246001
send(16) g22<1>UW g28<8,8,1>UD 0x0c246102
sampler MsgDesc: sample_l_c SIMD16 Surface = 2 Sampler = 1 mlen 6 rlen 2 { align1 1H };
send(8) g4<1>UW g0<8,8,1>UD 0x02201000
pixel interp MsgDesc: (persp, sample_position, 0x00) mlen 1 rlen 2 { align1 1Q };
pi MsgDesc: (persp, sample_position, 0x00) mlen 1 rlen 2 { align1 1Q };
send(16) g6<1>UW g0<8,8,1>UD 0x02411000
pixel interp MsgDesc: (persp, sample_position, 0x00) mlen 1 rlen 4 { align1 1H };
pi MsgDesc: (persp, sample_position, 0x00) mlen 1 rlen 4 { align1 1H };
send(8) g124<1>UW g19<8,8,1>UD 0x0a4b0001
sampler MsgDesc: gather4_c SIMD8 Surface = 1 Sampler = 0 mlen 5 rlen 4 { align1 1Q };
send(16) g120<1>UW g7<8,8,1>UD 0x128d0001
@ -905,7 +905,7 @@ send(16) g10<1>UW g26<8,8,1>UD 0x128c8304
send(8) g6<1>UW g15<8,8,1>UD 0x0e4a4001
sampler MsgDesc: sample_d SIMD8 Surface = 1 Sampler = 0 mlen 7 rlen 4 { align1 1Q };
send(16) null<1>UW g2<8,8,1>UD 0x04008601
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, dec) mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, dec) mlen 2 rlen 0 { align1 1H };
send(8) g124<1>UW g2<8,8,1>UD 0x08422001
sampler MsgDesc: sample_l SIMD8 Surface = 1 Sampler = 0 mlen 4 rlen 4 { align1 1Q };
send(16) g120<1>UW g2<8,8,1>UD 0x10842001
@ -997,19 +997,19 @@ send(8) g124<1>UW g6<8,8,1>UD 0x06320001
send(16) g120<1>UW g8<8,8,1>UD 0x0c640001
sampler MsgDesc: sample SIMD16 Surface = 1 Sampler = 0 mlen 6 rlen 6 { align1 1H };
send(8) g124<1>UW g2<8,8,1>UD 0x02406000
dp data 1 MsgDesc: ( untyped surface read, Surface = 0, SIMD8, Mask = 0x0) mlen 1 rlen 4 { align1 1Q };
hdc1 MsgDesc: ( untyped surface read, Surface = 0, SIMD8, Mask = 0x0) mlen 1 rlen 4 { align1 1Q };
send(8) g127<1>UW g6<8,8,1>UD 0x06120001
sampler MsgDesc: sample SIMD8 Surface = 1 Sampler = 0 mlen 3 rlen 1 { align1 1Q };
send(16) g126<1>UW g8<8,8,1>UD 0x0c240001
sampler MsgDesc: sample SIMD16 Surface = 1 Sampler = 0 mlen 6 rlen 2 { align1 1H };
send(8) g23<1>UW g2<8,8,1>UD 0x04115e01
dp data 1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD16, Mask = 0xe) mlen 2 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD16, Mask = 0xe) mlen 2 rlen 1 { align1 1Q };
send(8) g39<1>UW g45<8,8,1>UD 0x04116e01
dp data 1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD8, Mask = 0xe) mlen 2 rlen 1 { align1 2Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD8, Mask = 0xe) mlen 2 rlen 1 { align1 2Q };
(+f1.0) send(8) null<1>UW g2<8,8,1>UD 0x04018501
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, inc) mlen 2 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, inc) mlen 2 rlen 0 { align1 1Q };
(+f1.0) send(8) null<1>UW g42<8,8,1>UD 0x04019501
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, inc) mlen 2 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, inc) mlen 2 rlen 0 { align1 2Q };
send(8) g2<1>UW g6<8,8,1>UD 0x04423001
sampler MsgDesc: sample_c SIMD8 Surface = 1 Sampler = 0 mlen 2 rlen 4 { align1 1Q };
send(8) g6<1>UW g8<8,8,1>UD 0x04423102
@ -1161,17 +1161,17 @@ send(8) g5<1>UW g15<8,8,1>UD 0x04420203
send(16) g7<1>UW g27<8,8,1>UD 0x08840203
sampler MsgDesc: sample SIMD16 Surface = 3 Sampler = 2 mlen 4 rlen 8 { align1 1H };
send(16) g4<1>UW g17<8,8,1>UD 0x0420a503
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 3, SIMD16, inc) mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 3, SIMD16, inc) mlen 2 rlen 2 { align1 1H };
send(16) null<1>UW g18<8,8,1>UD 0x04008504
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 4, SIMD16, inc) mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 4, SIMD16, inc) mlen 2 rlen 0 { align1 1H };
send(16) g11<1>UW g19<8,8,1>UD 0x0420a602
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD16, dec) mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD16, dec) mlen 2 rlen 2 { align1 1H };
send(16) null<1>UW g20<8,8,1>UD 0x04008505
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 5, SIMD16, inc) mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 5, SIMD16, inc) mlen 2 rlen 0 { align1 1H };
send(16) g16<1>UW g21<8,8,1>UD 0x04205e01
dp data 1 MsgDesc: ( untyped surface read, Surface = 1, SIMD16, Mask = 0xe) mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( untyped surface read, Surface = 1, SIMD16, Mask = 0xe) mlen 2 rlen 2 { align1 1H };
send(16) null<1>UW g22<8,8,1>UD 0x04008506
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 6, SIMD16, inc) mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 6, SIMD16, inc) mlen 2 rlen 0 { align1 1H };
send(8) g26<1>UW g26<8,8,1>UD 0x0242a203
sampler MsgDesc: resinfo SIMD8 Surface = 3 Sampler = 2 mlen 1 rlen 4 { align1 1Q };
send(8) g30<1>UW g30<8,8,1>UD 0x0242a304
@ -1221,7 +1221,7 @@ send(16) g66<1>UW g74<8,8,1>UD 0x0484a809
send(16) g74<1>UW g108<8,8,1>UD 0x0484a90a
sampler MsgDesc: resinfo SIMD16 Surface = 10 Sampler = 9 mlen 2 rlen 8 { align1 1H };
send(16) null<1>UW g3<8,8,1>UD 0x040085fe
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, inc) mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, inc) mlen 2 rlen 0 { align1 1H };
send(8) null<1>F g119<8,8,1>F 0x92080067
urb MsgDesc: 6 SIMD8 write mlen 9 rlen 0 { align1 1Q EOT };
send(8) g6<1>UW g20<8,8,1>UD 0x12424001
@ -1233,9 +1233,9 @@ send(16) g2<1>UW g7<8,8,1>UD 0x0825a001
send(8) g9<1>UW g17<8,8,1>UD 0x06422000
sampler MsgDesc: sample_l SIMD8 Surface = 0 Sampler = 0 mlen 3 rlen 4 { align1 1Q };
send(16) null<1>UW g123<0,1,0>UD 0x060a03fd
data MsgDesc: ( DC OWORD block write, 253, 3) mlen 3 rlen 0 { align1 1H };
hdc0 MsgDesc: ( DC OWORD block write, 253, 3) mlen 3 rlen 0 { align1 1H };
send(16) g114<1>UW g114<0,1,0>UD 0x022803fd
data MsgDesc: ( DC OWORD block read, 253, 3) mlen 1 rlen 2 { align1 WE_all 1H };
hdc0 MsgDesc: ( DC OWORD block read, 253, 3) mlen 1 rlen 2 { align1 WE_all 1H };
send(8) null<1>F g12<8,8,1>UD 0x0c0a0127
urb MsgDesc: 18 SIMD8 write per-slot mlen 6 rlen 0 { align1 1Q };
send(8) g2<1>UW g11<8,8,1>UD 0x04420405
@ -1373,9 +1373,9 @@ send(8) g5<1>UW g10<8,8,1>UD 0x06420001
send(16) g7<1>UW g19<8,8,1>UD 0x0c840001
sampler MsgDesc: sample SIMD16 Surface = 1 Sampler = 0 mlen 6 rlen 8 { align1 1H };
send(8) g1<1>UW g125<8,8,1>UD 0x02106e02
dp data 1 MsgDesc: ( untyped surface read, Surface = 2, SIMD8, Mask = 0xe) mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( untyped surface read, Surface = 2, SIMD8, Mask = 0xe) mlen 1 rlen 1 { align1 1Q };
send(8) g8<1>UW g22<8,8,1>UD 0x02106efe
dp data 1 MsgDesc: ( untyped surface read, Surface = 254, SIMD8, Mask = 0xe) mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( untyped surface read, Surface = 254, SIMD8, Mask = 0xe) mlen 1 rlen 1 { align1 1Q };
send(8) null<1>F g123<8,8,1>F 0x8a080097
urb MsgDesc: 9 SIMD8 write mlen 5 rlen 0 { align1 1Q EOT };
send(8) g29<1>UW g5<8,8,1>UD 0x0e4b2001
@ -1459,7 +1459,7 @@ send(16) g85<1>UW g2<8,8,1>UD 0x0885a60e
send(16) g77<1>UW g2<8,8,1>UD 0x0885a70f
sampler MsgDesc: ld_lz SIMD16 Surface = 15 Sampler = 7 mlen 4 rlen 8 { align1 1H };
send(16) g83<1>UW g86<8,8,1>UD 0x04205e00
dp data 1 MsgDesc: ( untyped surface read, Surface = 0, SIMD16, Mask = 0xe) mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( untyped surface read, Surface = 0, SIMD16, Mask = 0xe) mlen 2 rlen 2 { align1 1H };
send(8) null<1>F g122<8,8,1>F 0x8c0a0047
urb MsgDesc: 4 SIMD8 write per-slot mlen 6 rlen 0 { align1 1Q EOT };
send(8) g14<1>UW g11<8,8,1>UD 0x084b0202
@ -1725,11 +1725,11 @@ send(8) null<1>F g40<8,8,1>UD 0x0c0a8207
send(8) null<1>F g41<8,8,1>UD 0x0c0a8217
urb MsgDesc: 33 SIMD8 write per-slot masked mlen 6 rlen 0 { align1 1Q };
send(8) g124<1>UW g2<8,8,1>UD 0x02106e01
dp data 1 MsgDesc: ( untyped surface read, Surface = 1, SIMD8, Mask = 0xe) mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( untyped surface read, Surface = 1, SIMD8, Mask = 0xe) mlen 1 rlen 1 { align1 1Q };
send(16) g11<1>UW g19<8,8,1>UD 0x0420a601
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, dec) mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, dec) mlen 2 rlen 2 { align1 1H };
send(16) null<1>UW g20<8,8,1>UD 0x04008503
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 3, SIMD16, inc) mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 3, SIMD16, inc) mlen 2 rlen 0 { align1 1H };
send(8) g17<1>UW g11<8,8,1>UD 0x0813e001
sampler MsgDesc: ld2dms SIMD8 Surface = 1 Sampler = 0 mlen 4 rlen 1 { align1 1Q };
send(16) g22<1>UW g2<8,8,1>UD 0x1025e001
@ -1763,9 +1763,9 @@ send(8) g2<1>UW g8<8,8,1>UD 0x02420001
send(16) g2<1>UW g15<8,8,1>UD 0x04840001
sampler MsgDesc: sample SIMD16 Surface = 1 Sampler = 0 mlen 2 rlen 8 { align1 1H };
send(8) g7<1>UW g44<8,8,1>UD 0x02106e00
dp data 1 MsgDesc: ( untyped surface read, Surface = 0, SIMD8, Mask = 0xe) mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( untyped surface read, Surface = 0, SIMD8, Mask = 0xe) mlen 1 rlen 1 { align1 1Q };
send(8) null<1>UW g44<8,8,1>UD 0x02009500
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 0, SIMD8, inc) mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 0, SIMD8, inc) mlen 1 rlen 0 { align1 1Q };
send(8) g7<1>UD g37<8,8,1>UD 0x02480438
urb MsgDesc: 67 SIMD8 read mlen 1 rlen 4 { align1 1Q };
send(8) g11<1>UD g37<8,8,1>UD 0x02480638
@ -1909,9 +1909,9 @@ send(16) g2<1>UW g11<8,8,1>UD 0x10846001
send(16) g10<1>UW g19<8,8,1>UD 0x10846102
sampler MsgDesc: sample_l_c SIMD16 Surface = 2 Sampler = 1 mlen 8 rlen 8 { align1 1H };
(+f1.0) send(8) g4<1>UW g10<8,8,1>UD 0x0210b502
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD8, inc) mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD8, inc) mlen 1 rlen 1 { align1 1Q };
(+f1.0) send(16) g5<1>UW g13<8,8,1>UD 0x0420a502
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD16, inc) mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD16, inc) mlen 2 rlen 2 { align1 1H };
send(8) g8<1>UW g9<8,8,1>UD 0x06321001
sampler MsgDesc: sample_b SIMD8 Surface = 1 Sampler = 0 mlen 3 rlen 3 { align1 1Q };
send(16) g2<1>UW g14<8,8,1>UD 0x0c641001
@ -1933,7 +1933,7 @@ send(8) null<1>F g12<8,8,1>UD 0x0e0a80a7
send(16) g9<1>UW g17<8,8,1>UD 0x04847002
sampler MsgDesc: ld SIMD16 Surface = 2 Sampler = 0 mlen 2 rlen 8 { align1 1H };
send(16) g23<1>UW g32<8,8,1>UD 0x04205e02
dp data 1 MsgDesc: ( untyped surface read, Surface = 2, SIMD16, Mask = 0xe) mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( untyped surface read, Surface = 2, SIMD16, Mask = 0xe) mlen 2 rlen 2 { align1 1H };
send(8) g8<1>UD g1<8,8,1>UD 0x02280068
urb MsgDesc: 6 SIMD8 read mlen 1 rlen 2 { align1 1Q };
send(8) g8<1>UD g1<8,8,1>UD 0x02280088
@ -1985,21 +1985,21 @@ send(8) g8<1>UD g1<8,8,1>UD 0x022801f8
send(8) g8<1>UD g1<8,8,1>UD 0x02280208
urb MsgDesc: 32 SIMD8 read mlen 1 rlen 2 { align1 1Q };
send(8) g2<1>UW g3<8,8,1>UD 0x04203000
pixel interp MsgDesc: (persp, per_slot_offset, 0x00) mlen 2 rlen 2 { align1 1Q };
pi MsgDesc: (persp, per_slot_offset, 0x00) mlen 2 rlen 2 { align1 1Q };
send(16) g2<1>UW g11<8,8,1>UD 0x08413000
pixel interp MsgDesc: (persp, per_slot_offset, 0x00) mlen 4 rlen 4 { align1 1H };
pi MsgDesc: (persp, per_slot_offset, 0x00) mlen 4 rlen 4 { align1 1H };
send(8) g2<1>UW g0<8,8,1>UD 0x02201010
pixel interp MsgDesc: (persp, sample_position, 0x10) mlen 1 rlen 2 { align1 1Q };
pi MsgDesc: (persp, sample_position, 0x10) mlen 1 rlen 2 { align1 1Q };
send(16) g2<1>UW g0<8,8,1>UD 0x02411010
pixel interp MsgDesc: (persp, sample_position, 0x10) mlen 1 rlen 4 { align1 1H };
pi MsgDesc: (persp, sample_position, 0x10) mlen 1 rlen 4 { align1 1H };
send(8) g2<1>UW g0<8,8,1>UD 0x02201020
pixel interp MsgDesc: (persp, sample_position, 0x20) mlen 1 rlen 2 { align1 1Q };
pi MsgDesc: (persp, sample_position, 0x20) mlen 1 rlen 2 { align1 1Q };
send(16) g2<1>UW g0<8,8,1>UD 0x02411020
pixel interp MsgDesc: (persp, sample_position, 0x20) mlen 1 rlen 4 { align1 1H };
pi MsgDesc: (persp, sample_position, 0x20) mlen 1 rlen 4 { align1 1H };
send(8) g2<1>UW g0<8,8,1>UD 0x02201030
pixel interp MsgDesc: (persp, sample_position, 0x30) mlen 1 rlen 2 { align1 1Q };
pi MsgDesc: (persp, sample_position, 0x30) mlen 1 rlen 2 { align1 1Q };
send(16) g2<1>UW g0<8,8,1>UD 0x02411030
pixel interp MsgDesc: (persp, sample_position, 0x30) mlen 1 rlen 4 { align1 1H };
pi MsgDesc: (persp, sample_position, 0x30) mlen 1 rlen 4 { align1 1H };
send(8) g20<1>UW g15<8,8,1>UD 0x04320203
sampler MsgDesc: sample SIMD8 Surface = 3 Sampler = 2 mlen 2 rlen 3 { align1 1Q };
send(8) g11<1>UW g26<8,8,1>UD 0x04320405
@ -2013,15 +2013,15 @@ send(16) g12<1>UW g48<8,8,1>UD 0x08640405
send(16) g38<1>UW g44<8,8,1>UD 0x08640304
sampler MsgDesc: sample SIMD16 Surface = 4 Sampler = 3 mlen 4 rlen 6 { align1 1H };
(+f1.0) send(8) null<1>UW g94<8,8,1>UD 0x02009601
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, dec) mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, dec) mlen 1 rlen 0 { align1 1Q };
(+f1.0) send(8) g47<1>UW g94<8,8,1>UD 0x0210b601
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, dec) mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, dec) mlen 1 rlen 1 { align1 1Q };
send(16) g4<1>UW g1<8,8,1>UD 0x04405c02
dp data 1 MsgDesc: ( untyped surface read, Surface = 2, SIMD16, Mask = 0xc) mlen 2 rlen 4 { align1 1H };
hdc1 MsgDesc: ( untyped surface read, Surface = 2, SIMD16, Mask = 0xc) mlen 2 rlen 4 { align1 1H };
send(8) null<1>UW g100<8,8,1>UD 0x02009600
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 0, SIMD8, dec) mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 0, SIMD8, dec) mlen 1 rlen 0 { align1 1Q };
send(8) g51<1>UW g100<8,8,1>UD 0x0210b600
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 0, SIMD8, dec) mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 0, SIMD8, dec) mlen 1 rlen 1 { align1 1Q };
send(8) g5<1>UW g11<8,8,1>UD 0x064a0001
sampler MsgDesc: sample SIMD8 Surface = 1 Sampler = 0 mlen 3 rlen 4 { align1 1Q };
send(16) g7<1>UW g19<8,8,1>UD 0x0a8c0001
@ -2029,11 +2029,11 @@ send(16) g7<1>UW g19<8,8,1>UD 0x0a8c0001
send(8) null<1>F g123<8,8,1>F 0x8a080117
urb MsgDesc: 17 SIMD8 write mlen 5 rlen 0 { align1 1Q EOT };
send(8) g3<1>UW g3<8,8,1>UD 0x02415002
dp data 1 MsgDesc: ( DC typed surface read, Surface = 2, SIMD16, Mask = 0x0) mlen 1 rlen 4 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 2, SIMD16, Mask = 0x0) mlen 1 rlen 4 { align1 1Q };
send(8) g5<1>UW g4<8,8,1>UD 0x02416002
dp data 1 MsgDesc: ( DC typed surface read, Surface = 2, SIMD8, Mask = 0x0) mlen 1 rlen 4 { align1 2Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 2, SIMD8, Mask = 0x0) mlen 1 rlen 4 { align1 2Q };
send(8) g6<1>UW g16<8,8,1>UD 0x0210b500
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 0, SIMD8, inc) mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 0, SIMD8, inc) mlen 1 rlen 1 { align1 1Q };
send(8) null<1>F g119<8,8,1>F 0x92080097
urb MsgDesc: 9 SIMD8 write mlen 9 rlen 0 { align1 1Q EOT };
send(8) null<1>F g4<8,8,1>F 0x120800c7
@ -2063,7 +2063,7 @@ send(8) g14<1>UW g18<8,8,1>UD 0x08123102
send(16) g24<1>UW g32<8,8,1>UD 0x10243102
sampler MsgDesc: sample_c SIMD16 Surface = 2 Sampler = 1 mlen 8 rlen 2 { align1 1H };
send(8) g5<1>UW g5<8,8,1>UD 0x04415000
dp data 1 MsgDesc: ( DC typed surface read, Surface = 0, SIMD16, Mask = 0x0) mlen 2 rlen 4 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 0, SIMD16, Mask = 0x0) mlen 2 rlen 4 { align1 1Q };
send(8) g2<1>UD g9<8,8,1>UD 0x043a0028
urb MsgDesc: 2 SIMD8 read per-slot mlen 2 rlen 3 { align1 1Q };
send(8) g13<1>UD g1<8,8,1>UD 0x02380098
@ -2087,9 +2087,9 @@ send(8) null<1>F g60<8,8,1>F 0x120800a7
send(8) null<1>F g119<8,8,1>F 0x92080107
urb MsgDesc: 16 SIMD8 write mlen 9 rlen 0 { align1 1Q EOT };
send(8) g3<1>UW g7<8,8,1>UD 0x02115e01
dp data 1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD16, Mask = 0xe) mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD16, Mask = 0xe) mlen 1 rlen 1 { align1 1Q };
send(8) g5<1>UW g11<8,8,1>UD 0x02116e01
dp data 1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD8, Mask = 0xe) mlen 1 rlen 1 { align1 2Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD8, Mask = 0xe) mlen 1 rlen 1 { align1 2Q };
send(8) null<1>F g123<8,8,1>F 0x8a080067
urb MsgDesc: 6 SIMD8 write mlen 5 rlen 0 { align1 1Q EOT };
send(8) null<1>F g80<8,8,1>F 0x140a00b7
@ -2363,7 +2363,7 @@ send(8) null<1>F g38<8,8,1>UD 0x080a8207
send(8) null<1>F g39<8,8,1>UD 0x080a8217
urb MsgDesc: 33 SIMD8 write per-slot masked mlen 4 rlen 0 { align1 1Q };
send(8) g18<1>UW g19<8,8,1>UD 0x04115e00
dp data 1 MsgDesc: ( DC typed surface read, Surface = 0, SIMD16, Mask = 0xe) mlen 2 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 0, SIMD16, Mask = 0xe) mlen 2 rlen 1 { align1 1Q };
send(8) g2<1>UW g6<8,8,1>UD 0x0623d001
sampler MsgDesc: ld_mcs SIMD8 Surface = 1 Sampler = 0 mlen 3 rlen 2 { align1 1Q };
send(16) g2<1>UW g8<8,8,1>UD 0x0c45d001
@ -2593,21 +2593,21 @@ send(8) null<1>F g38<8,8,1>UD 0x0c0a01e7
send(8) null<1>F g39<8,8,1>UD 0x0c0a01f7
urb MsgDesc: 31 SIMD8 write per-slot mlen 6 rlen 0 { align1 1Q };
send(16) g46<1>UD g12<0,1,0>UD 0x02280302
const MsgDesc: (2, 3, 0, 0) mlen 1 rlen 2 { align1 WE_all 1H };
hdc:ro MsgDesc: (2, 3, 0, 0) mlen 1 rlen 2 { align1 WE_all 1H };
send(16) g50<1>UD g15<0,1,0>UD 0x02280304
const MsgDesc: (4, 3, 0, 0) mlen 1 rlen 2 { align1 WE_all 1H };
hdc:ro MsgDesc: (4, 3, 0, 0) mlen 1 rlen 2 { align1 WE_all 1H };
send(16) g34<1>UD g20<0,1,0>UD 0x02280303
const MsgDesc: (3, 3, 0, 0) mlen 1 rlen 2 { align1 WE_all 1H };
hdc:ro MsgDesc: (3, 3, 0, 0) mlen 1 rlen 2 { align1 WE_all 1H };
send(16) g16<1>UD g21<0,1,0>UD 0x02280306
const MsgDesc: (6, 3, 0, 0) mlen 1 rlen 2 { align1 WE_all 1H };
hdc:ro MsgDesc: (6, 3, 0, 0) mlen 1 rlen 2 { align1 WE_all 1H };
send(8) g5<1>UW g19<8,8,1>UD 0x02106e03
dp data 1 MsgDesc: ( untyped surface read, Surface = 3, SIMD8, Mask = 0xe) mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( untyped surface read, Surface = 3, SIMD8, Mask = 0xe) mlen 1 rlen 1 { align1 1Q };
send(8) g8<1>UW g21<8,8,1>UD 0x02106e04
dp data 1 MsgDesc: ( untyped surface read, Surface = 4, SIMD8, Mask = 0xe) mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( untyped surface read, Surface = 4, SIMD8, Mask = 0xe) mlen 1 rlen 1 { align1 1Q };
send(16) g8<1>UW g34<8,8,1>UD 0x04205e03
dp data 1 MsgDesc: ( untyped surface read, Surface = 3, SIMD16, Mask = 0xe) mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( untyped surface read, Surface = 3, SIMD16, Mask = 0xe) mlen 2 rlen 2 { align1 1H };
send(16) g14<1>UW g37<8,8,1>UD 0x04205e04
dp data 1 MsgDesc: ( untyped surface read, Surface = 4, SIMD16, Mask = 0xe) mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( untyped surface read, Surface = 4, SIMD16, Mask = 0xe) mlen 2 rlen 2 { align1 1H };
send(8) g15<1>UD g12<8,8,1>UD 0x041a0038
urb MsgDesc: 3 SIMD8 read per-slot mlen 2 rlen 1 { align1 1Q };
send(8) g2<1>UW g54<8,8,1>UD 0x0242a707
@ -2725,9 +2725,9 @@ send(8) g8<1>UD g9<8,8,1>UD 0x02480008
send(8) null<1>F g123<8,8,1>F 0x8a080007
urb MsgDesc: 0 SIMD8 write mlen 5 rlen 0 { align1 1Q EOT };
send(8) g4<1>UW g2<8,8,1>UD 0x04215c01
dp data 1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD16, Mask = 0xc) mlen 2 rlen 2 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD16, Mask = 0xc) mlen 2 rlen 2 { align1 1Q };
send(8) g40<1>UW g38<8,8,1>UD 0x04216c01
dp data 1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD8, Mask = 0xc) mlen 2 rlen 2 { align1 2Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD8, Mask = 0xc) mlen 2 rlen 2 { align1 2Q };
send(8) g6<1>UW g11<8,8,1>UD 0x104a4001
sampler MsgDesc: sample_d SIMD8 Surface = 1 Sampler = 0 mlen 8 rlen 4 { align1 1Q };
send(8) g124<1>UW g2<8,8,1>UD 0x04422001
@ -2745,17 +2745,17 @@ send(16) g10<1>UW g18<8,8,1>UD 0x0c845102
send(8) null<1>F g121<8,8,1>F 0x8a080197
urb MsgDesc: 25 SIMD8 write mlen 5 rlen 0 { align1 1Q EOT };
send(8) g124<1>UW g6<8,8,1>UD 0x02415000
dp data 1 MsgDesc: ( DC typed surface read, Surface = 0, SIMD16, Mask = 0x0) mlen 1 rlen 4 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 0, SIMD16, Mask = 0x0) mlen 1 rlen 4 { align1 1Q };
send(8) g124<1>UW g6<8,8,1>UD 0x06415000
dp data 1 MsgDesc: ( DC typed surface read, Surface = 0, SIMD16, Mask = 0x0) mlen 3 rlen 4 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 0, SIMD16, Mask = 0x0) mlen 3 rlen 4 { align1 1Q };
send(8) g124<1>UW g6<8,8,1>UD 0x02215c00
dp data 1 MsgDesc: ( DC typed surface read, Surface = 0, SIMD16, Mask = 0xc) mlen 1 rlen 2 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 0, SIMD16, Mask = 0xc) mlen 1 rlen 2 { align1 1Q };
send(8) g17<1>UW g27<8,8,1>UD 0x02115e00
dp data 1 MsgDesc: ( DC typed surface read, Surface = 0, SIMD16, Mask = 0xe) mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 0, SIMD16, Mask = 0xe) mlen 1 rlen 1 { align1 1Q };
send(8) g124<1>UW g2<8,8,1>UD 0x02415001
dp data 1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD16, Mask = 0x0) mlen 1 rlen 4 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD16, Mask = 0x0) mlen 1 rlen 4 { align1 1Q };
send(8) g2<1>UW g29<8,8,1>UD 0x02416001
dp data 1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD8, Mask = 0x0) mlen 1 rlen 4 { align1 2Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 1, SIMD8, Mask = 0x0) mlen 1 rlen 4 { align1 2Q };
send(8) g9<1>UW g19<8,8,1>UD 0x0843e102
sampler MsgDesc: ld2dms SIMD8 Surface = 2 Sampler = 1 mlen 4 rlen 4 { align1 1Q };
send(16) g23<1>UW g7<8,8,1>UD 0x1085e102
@ -2811,9 +2811,9 @@ send(16) g2<1>UW g11<8,8,1>UD 0x10845001
send(16) g10<1>UW g19<8,8,1>UD 0x10845102
sampler MsgDesc: sample_b_c SIMD16 Surface = 2 Sampler = 1 mlen 8 rlen 8 { align1 1H };
send(8) g124<1>UW g2<8,8,1>UD 0x02306801
dp data 1 MsgDesc: ( untyped surface read, Surface = 1, SIMD8, Mask = 0x8) mlen 1 rlen 3 { align1 1Q };
hdc1 MsgDesc: ( untyped surface read, Surface = 1, SIMD8, Mask = 0x8) mlen 1 rlen 3 { align1 1Q };
send(16) g120<1>UW g2<8,8,1>UD 0x04605801
dp data 1 MsgDesc: ( untyped surface read, Surface = 1, SIMD16, Mask = 0x8) mlen 2 rlen 6 { align1 1H };
hdc1 MsgDesc: ( untyped surface read, Surface = 1, SIMD16, Mask = 0x8) mlen 2 rlen 6 { align1 1H };
send(8) g8<1>UD g7<8,8,1>UD 0x043a0128
urb MsgDesc: 18 SIMD8 read per-slot mlen 2 rlen 3 { align1 1Q };
send(8) g12<1>UW g5<8,8,1>UD 0x0833e001
@ -2971,9 +2971,9 @@ send(8) g5<1>UW g2<8,8,1>UD 0x04129001
send(16) g6<1>UW g2<8,8,1>UD 0x08249001
sampler MsgDesc: lod SIMD16 Surface = 1 Sampler = 0 mlen 4 rlen 2 { align1 1H };
send(8) g11<1>UW g4<8,8,1>UD 0x04415002
dp data 1 MsgDesc: ( DC typed surface read, Surface = 2, SIMD16, Mask = 0x0) mlen 2 rlen 4 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 2, SIMD16, Mask = 0x0) mlen 2 rlen 4 { align1 1Q };
send(8) g7<1>UW g5<8,8,1>UD 0x04416002
dp data 1 MsgDesc: ( DC typed surface read, Surface = 2, SIMD8, Mask = 0x0) mlen 2 rlen 4 { align1 2Q };
hdc1 MsgDesc: ( DC typed surface read, Surface = 2, SIMD8, Mask = 0x0) mlen 2 rlen 4 { align1 2Q };
send(8) null<1>F g16<8,8,1>UD 0x0e0a8057
urb MsgDesc: 5 SIMD8 write per-slot masked mlen 7 rlen 0 { align1 1Q };
send(8) g6<1>UD g18<8,8,1>UD 0x043a0318
@ -3183,9 +3183,9 @@ send(8) g9<1>UW g5<8,8,1>UD 0x04420002
send(16) g13<1>UW g7<8,8,1>UD 0x08840002
sampler MsgDesc: sample SIMD16 Surface = 2 Sampler = 0 mlen 4 rlen 8 { align1 1H };
(+f1.0) send(8) g124<1>UW g2<8,8,1>UD 0x0211a501
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, inc) mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, inc) mlen 1 rlen 1 { align1 1Q };
(+f1.0) send(8) g121<1>UW g3<8,8,1>UD 0x0211b501
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, inc) mlen 1 rlen 1 { align1 2Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, inc) mlen 1 rlen 1 { align1 2Q };
send(8) g22<1>UD g32<8,8,1>UD 0x02280238
urb MsgDesc: 35 SIMD8 read mlen 1 rlen 2 { align1 1Q };
send(8) g24<1>UD g32<8,8,1>UD 0x02280438

2
src/intel/compiler/tests/gen9/sendc.asm
View file

@ -53,7 +53,7 @@ sendc(8) null<1>UW g123<8,8,1>UD 0x8a0a1001
sendc(16) null<1>UW g119<8,8,1>UD 0x920c1001
sampler MsgDesc: sample_b SIMD16 Surface = 1 Sampler = 0 mlen 9 rlen 0 { align1 1H EOT };
sendc(1) g2<1>UW g2<0,1,0>UW 0x0209c000
data MsgDesc: ( DC mfence, 0, 0) mlen 1 rlen 0 { align1 WE_all 1N };
hdc0 MsgDesc: ( DC mfence, 0, 0) mlen 1 rlen 0 { align1 WE_all 1N };
sendc(8) null<1>UW g120<8,8,1>UD 0x900b4001
sampler MsgDesc: sample_d_c SIMD8 Surface = 1 Sampler = 0 mlen 8 rlen 0 { align1 1Q EOT };
sendc(8) null<1>UW g123<8,8,1>UD 0x8a0b4001

268
src/intel/compiler/tests/gen9/sends.asm
View file

@ -1,268 +1,268 @@
sends(8) nullUD g34UD g36UD 0x04035001 0x00000100
dp data 1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD16, Mask = 0x0) mlen 2 ex_mlen 4 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD16, Mask = 0x0) mlen 2 ex_mlen 4 rlen 0 { align1 1Q };
sends(8) nullUD g1UD g3UD 0x04036001 0x00000100
dp data 1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD8, Mask = 0x0) mlen 2 ex_mlen 4 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD8, Mask = 0x0) mlen 2 ex_mlen 4 rlen 0 { align1 2Q };
sends(8) nullUD g21UD g23UD 0x04035001 0x00000100
dp data 1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD16, Mask = 0x0) mlen 2 ex_mlen 4 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD16, Mask = 0x0) mlen 2 ex_mlen 4 rlen 0 { align1 1Q };
(+f1.0) sends(8) g9UD g2UD g3UD 0x0210b201 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, or) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, or) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
(+f1.0) sends(16) g11UD g2UD g6UD 0x0420a201 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, or) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, or) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
sends(16) nullUD g6UD g8UD 0x04025efe 0x00000080
dp data 1 MsgDesc: ( DC untyped surface write, Surface = 254, SIMD16, Mask = 0xe) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped surface write, Surface = 254, SIMD16, Mask = 0xe) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
sends(16) nullUD g10UD g12UD 0x040087fe 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, add) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, add) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
(+f1.0) sends(8) nullUD g11UD g5UD 0x04035002 0x00000100
dp data 1 MsgDesc: ( DC typed surface write, Surface = 2, SIMD16, Mask = 0x0) mlen 2 ex_mlen 4 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 2, SIMD16, Mask = 0x0) mlen 2 ex_mlen 4 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g2UD g11UD 0x04036002 0x00000100
dp data 1 MsgDesc: ( DC typed surface write, Surface = 2, SIMD8, Mask = 0x0) mlen 2 ex_mlen 4 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 2, SIMD8, Mask = 0x0) mlen 2 ex_mlen 4 rlen 0 { align1 2Q };
(+f1.0) sends(8) nullUD g3UD g4UD 0x02026001 0x00000100
dp data 1 MsgDesc: ( DC untyped surface write, Surface = 1, SIMD8, Mask = 0x0) mlen 1 ex_mlen 4 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC untyped surface write, Surface = 1, SIMD8, Mask = 0x0) mlen 1 ex_mlen 4 rlen 0 { align1 1Q };
(+f1.0) sends(16) nullUD g3UD g5UD 0x04025001 0x00000200
dp data 1 MsgDesc: ( DC untyped surface write, Surface = 1, SIMD16, Mask = 0x0) mlen 2 ex_mlen 8 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped surface write, Surface = 1, SIMD16, Mask = 0x0) mlen 2 ex_mlen 8 rlen 0 { align1 1H };
sends(8) nullUD g2UD g3UD 0x02009b00 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 0, SIMD8, imin) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 0, SIMD8, imin) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g2UD g4UD 0x04035e01 0x00000040
dp data 1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD16, Mask = 0xe) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD16, Mask = 0xe) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g45UD g41UD 0x04036e01 0x00000040
dp data 1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD8, Mask = 0xe) mlen 2 ex_mlen 1 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD8, Mask = 0xe) mlen 2 ex_mlen 1 rlen 0 { align1 2Q };
(+f1.0) sends(8) nullUD g2UD g4UD 0x04018c01 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, umax) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, umax) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g45UD g41UD 0x04019c01 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, umax) mlen 2 ex_mlen 1 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, umax) mlen 2 ex_mlen 1 rlen 0 { align1 2Q };
(+f1.0) sends(8) nullUD g2UD g4UD 0x04018401 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, mov) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, mov) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g45UD g41UD 0x04019401 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, mov) mlen 2 ex_mlen 1 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, mov) mlen 2 ex_mlen 1 rlen 0 { align1 2Q };
(+f1.0) sends(8) nullUD g2UD g4UD 0x04018e01 0x00000080
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, cmpwr) mlen 2 ex_mlen 2 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, cmpwr) mlen 2 ex_mlen 2 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g11UD g13UD 0x04019e01 0x00000080
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, cmpwr) mlen 2 ex_mlen 2 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, cmpwr) mlen 2 ex_mlen 2 rlen 0 { align1 2Q };
sends(16) nullUD g3UD g1UD 0x04008dfe 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, umin) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, umin) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
sends(16) nullUD g5UD g1UD 0x04008bfe 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, imin) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, imin) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
sends(16) nullUD g3UD g1UD 0x04008cfe 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, umax) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, umax) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
sends(16) nullUD g5UD g1UD 0x04008afe 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, imax) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, imax) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
sends(16) nullUD g3UD g1UD 0x040081fe 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, and) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, and) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
sends(16) nullUD g3UD g1UD 0x040082fe 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, or) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, or) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
sends(16) nullUD g3UD g1UD 0x040083fe 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, xor) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, xor) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
sends(16) nullUD g3UD g1UD 0x040084fe 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, mov) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, mov) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
sends(16) nullUD g3UD g7UD 0x04008efe 0x00000100
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, cmpwr) mlen 2 ex_mlen 4 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, cmpwr) mlen 2 ex_mlen 4 rlen 0 { align1 1H };
sends(16) g1UD g19UD g21UD 0x0420a4fe 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, mov) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, mov) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
sends(16) g13UD g23UD g25UD 0x0420a2fe 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, or) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, or) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
sends(8) nullUD g14UD g10UD 0x02026000 0x00000100
dp data 1 MsgDesc: ( DC untyped surface write, Surface = 0, SIMD8, Mask = 0x0) mlen 1 ex_mlen 4 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC untyped surface write, Surface = 0, SIMD8, Mask = 0x0) mlen 1 ex_mlen 4 rlen 0 { align1 1Q };
sends(8) nullUD g4UD g2UD 0x02026efe 0x00000040
dp data 1 MsgDesc: ( DC untyped surface write, Surface = 254, SIMD8, Mask = 0xe) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC untyped surface write, Surface = 254, SIMD8, Mask = 0xe) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
sends(8) g7UD g19UD g20UD 0x0210bdfe 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD8, umin) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD8, umin) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
sends(8) g11UD g25UD g26UD 0x0210b4fe 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD8, mov) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD8, mov) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
sends(16) g1UD g14UD g16UD 0x0420a7fe 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, add) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD16, add) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
(+f1.0) sends(8) nullUD g2UD g13UD a0<0>UD 0x00000100
dp data 1 MsgDesc: indirect ex_mlen 4 { align1 1Q };
hdc1 MsgDesc: indirect ex_mlen 4 { align1 1Q };
(+f1.0) sends(8) nullUD g5UD g6UD 0x02026e01 0x00000040
dp data 1 MsgDesc: ( DC untyped surface write, Surface = 1, SIMD8, Mask = 0xe) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC untyped surface write, Surface = 1, SIMD8, Mask = 0xe) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g5UD g6UD 0x02026e02 0x00000040
dp data 1 MsgDesc: ( DC untyped surface write, Surface = 2, SIMD8, Mask = 0xe) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC untyped surface write, Surface = 2, SIMD8, Mask = 0xe) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(16) nullUD g6UD g8UD 0x04025e01 0x00000080
dp data 1 MsgDesc: ( DC untyped surface write, Surface = 1, SIMD16, Mask = 0xe) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped surface write, Surface = 1, SIMD16, Mask = 0xe) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
(+f1.0) sends(16) nullUD g6UD g8UD 0x04025e02 0x00000080
dp data 1 MsgDesc: ( DC untyped surface write, Surface = 2, SIMD16, Mask = 0xe) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped surface write, Surface = 2, SIMD16, Mask = 0xe) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
(+f1.0) sends(8) g3UD g8UD g9UD 0x0210b702 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD8, add) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD8, add) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
(+f1.0) sends(16) g4UD g11UD g13UD 0x0420a702 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD16, add) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD16, add) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
(+f1.0) sends(8) nullUD g5UD g3UD 0x02026c01 0x00000080
dp data 1 MsgDesc: ( DC untyped surface write, Surface = 1, SIMD8, Mask = 0xc) mlen 1 ex_mlen 2 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC untyped surface write, Surface = 1, SIMD8, Mask = 0xc) mlen 1 ex_mlen 2 rlen 0 { align1 1Q };
(+f1.0) sends(16) nullUD g19UD g21UD 0x04025c01 0x00000100
dp data 1 MsgDesc: ( DC untyped surface write, Surface = 1, SIMD16, Mask = 0xc) mlen 2 ex_mlen 4 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped surface write, Surface = 1, SIMD16, Mask = 0xc) mlen 2 ex_mlen 4 rlen 0 { align1 1H };
sends(8) nullUD g14UD g15UD 0x02026e00 0x00000040
dp data 1 MsgDesc: ( DC untyped surface write, Surface = 0, SIMD8, Mask = 0xe) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC untyped surface write, Surface = 0, SIMD8, Mask = 0xe) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
sends(8) nullUD g16UD g9UD 0x02026c00 0x00000080
dp data 1 MsgDesc: ( DC untyped surface write, Surface = 0, SIMD8, Mask = 0xc) mlen 1 ex_mlen 2 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC untyped surface write, Surface = 0, SIMD8, Mask = 0xc) mlen 1 ex_mlen 2 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g15UD g18UD 0x06035001 0x00000100
dp data 1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD16, Mask = 0x0) mlen 3 ex_mlen 4 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD16, Mask = 0x0) mlen 3 ex_mlen 4 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g34UD g11UD 0x06036001 0x00000100
dp data 1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD8, Mask = 0x0) mlen 3 ex_mlen 4 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD8, Mask = 0x0) mlen 3 ex_mlen 4 rlen 0 { align1 2Q };
(+f1.0) sends(8) g13UD g18UD g19UD 0x0210bb02 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD8, imin) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD8, imin) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
(+f1.0) sends(8) g16UD g25UD g30UD 0x0210b402 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD8, mov) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD8, mov) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
(+f1.0) sends(16) g22UD g27UD g29UD 0x0420ab02 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD16, imin) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD16, imin) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
(+f1.0) sends(16) g25UD g37UD g2UD 0x0420a402 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD16, mov) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD16, mov) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
sends(16) nullUD g8UD g10UD 0x04025c02 0x00000100
dp data 1 MsgDesc: ( DC untyped surface write, Surface = 2, SIMD16, Mask = 0xc) mlen 2 ex_mlen 4 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped surface write, Surface = 2, SIMD16, Mask = 0xc) mlen 2 ex_mlen 4 rlen 0 { align1 1H };
(+f1.0) sends(8) g127UD g2UD g9UD 0x0411a401 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, mov) mlen 2 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, mov) mlen 2 ex_mlen 1 rlen 1 { align1 1Q };
(+f1.0) sends(8) g127UD g2UD g4UD 0x0411b401 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, mov) mlen 2 ex_mlen 1 rlen 1 { align1 2Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, mov) mlen 2 ex_mlen 1 rlen 1 { align1 2Q };
(+f1.0) sends(8) nullUD g14UD g15UD 0x02009201 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, or) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, or) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(16) nullUD g24UD g26UD 0x04008201 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, or) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, or) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
sends(8) nullUD g124UD g11UD 0x04035000 0x00000100
dp data 1 MsgDesc: ( DC typed surface write, Surface = 0, SIMD16, Mask = 0x0) mlen 2 ex_mlen 4 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 0, SIMD16, Mask = 0x0) mlen 2 ex_mlen 4 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g5UD g6UD 0x02035e02 0x00000040
dp data 1 MsgDesc: ( DC typed surface write, Surface = 2, SIMD16, Mask = 0xe) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 2, SIMD16, Mask = 0xe) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g7UD g9UD 0x02036e02 0x00000040
dp data 1 MsgDesc: ( DC typed surface write, Surface = 2, SIMD8, Mask = 0xe) mlen 1 ex_mlen 1 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 2, SIMD8, Mask = 0xe) mlen 1 ex_mlen 1 rlen 0 { align1 2Q };
sends(8) nullUD g11UD g21UD 0x04035e00 0x00000040
dp data 1 MsgDesc: ( DC typed surface write, Surface = 0, SIMD16, Mask = 0xe) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 0, SIMD16, Mask = 0xe) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
sends(8) nullUD g15UD g27UD 0x04035e02 0x00000040
dp data 1 MsgDesc: ( DC typed surface write, Surface = 2, SIMD16, Mask = 0xe) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 2, SIMD16, Mask = 0xe) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
sends(8) nullUD g16UD g28UD 0x04036e02 0x00000040
dp data 1 MsgDesc: ( DC typed surface write, Surface = 2, SIMD8, Mask = 0xe) mlen 2 ex_mlen 1 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 2, SIMD8, Mask = 0xe) mlen 2 ex_mlen 1 rlen 0 { align1 2Q };
(+f1.0) sends(8) g13UD g19UD g20UD 0x0210bd02 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD8, umin) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD8, umin) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
(+f1.0) sends(16) g22UD g28UD g30UD 0x0420ad02 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD16, umin) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 2, SIMD16, umin) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
(+f1.0) sends(8) nullUD g2UD g4UD 0x04035c02 0x00000080
dp data 1 MsgDesc: ( DC typed surface write, Surface = 2, SIMD16, Mask = 0xc) mlen 2 ex_mlen 2 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 2, SIMD16, Mask = 0xc) mlen 2 ex_mlen 2 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g38UD g40UD 0x04036c02 0x00000080
dp data 1 MsgDesc: ( DC typed surface write, Surface = 2, SIMD8, Mask = 0xc) mlen 2 ex_mlen 2 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 2, SIMD8, Mask = 0xc) mlen 2 ex_mlen 2 rlen 0 { align1 2Q };
sends(8) nullUD g17UD g6UD 0x02035000 0x00000100
dp data 1 MsgDesc: ( DC typed surface write, Surface = 0, SIMD16, Mask = 0x0) mlen 1 ex_mlen 4 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 0, SIMD16, Mask = 0x0) mlen 1 ex_mlen 4 rlen 0 { align1 1Q };
sends(8) g124UD g20UD g21UD 0x0211a700 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 0, SIMD16, add) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 0, SIMD16, add) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
sends(8) g124UD g20UD g21UD 0x0211ad00 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 0, SIMD16, umin) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 0, SIMD16, umin) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
sends(8) g124UD g20UD g21UD 0x0211ac00 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 0, SIMD16, umax) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 0, SIMD16, umax) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
sends(8) g124UD g20UD g21UD 0x0211a100 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 0, SIMD16, and) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 0, SIMD16, and) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
sends(8) g124UD g20UD g21UD 0x0211a200 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 0, SIMD16, or) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 0, SIMD16, or) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
sends(8) g124UD g20UD g21UD 0x0211a300 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 0, SIMD16, xor) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 0, SIMD16, xor) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
sends(8) g124UD g20UD g21UD 0x0211a400 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 0, SIMD16, mov) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 0, SIMD16, mov) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
sends(8) g124UD g21UD g6UD 0x0211ae00 0x00000080
dp data 1 MsgDesc: ( DC typed atomic, Surface = 0, SIMD16, cmpwr) mlen 1 ex_mlen 2 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 0, SIMD16, cmpwr) mlen 1 ex_mlen 2 rlen 1 { align1 1Q };
(+f1.0) sends(8) nullUD g16UD g2UD 0x02035001 0x00000100
dp data 1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD16, Mask = 0x0) mlen 1 ex_mlen 4 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD16, Mask = 0x0) mlen 1 ex_mlen 4 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g29UD g8UD 0x02036001 0x00000100
dp data 1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD8, Mask = 0x0) mlen 1 ex_mlen 4 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD8, Mask = 0x0) mlen 1 ex_mlen 4 rlen 0 { align1 2Q };
(+f1.0) sends(8) nullUD g14UD g18UD 0x02035e01 0x00000040
dp data 1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD16, Mask = 0xe) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD16, Mask = 0xe) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g23UD g7UD 0x02036e01 0x00000040
dp data 1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD8, Mask = 0xe) mlen 1 ex_mlen 1 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 1, SIMD8, Mask = 0xe) mlen 1 ex_mlen 1 rlen 0 { align1 2Q };
(+f1.0) sends(8) nullUD g17UD g2UD 0x02035002 0x00000100
dp data 1 MsgDesc: ( DC typed surface write, Surface = 2, SIMD16, Mask = 0x0) mlen 1 ex_mlen 4 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 2, SIMD16, Mask = 0x0) mlen 1 ex_mlen 4 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g28UD g3UD 0x02036002 0x00000100
dp data 1 MsgDesc: ( DC typed surface write, Surface = 2, SIMD8, Mask = 0x0) mlen 1 ex_mlen 4 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 2, SIMD8, Mask = 0x0) mlen 1 ex_mlen 4 rlen 0 { align1 2Q };
(+f1.0) sends(8) nullUD g17UD g2UD 0x02035003 0x00000100
dp data 1 MsgDesc: ( DC typed surface write, Surface = 3, SIMD16, Mask = 0x0) mlen 1 ex_mlen 4 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 3, SIMD16, Mask = 0x0) mlen 1 ex_mlen 4 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g23UD g6UD 0x02036003 0x00000100
dp data 1 MsgDesc: ( DC typed surface write, Surface = 3, SIMD8, Mask = 0x0) mlen 1 ex_mlen 4 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 3, SIMD8, Mask = 0x0) mlen 1 ex_mlen 4 rlen 0 { align1 2Q };
(+f1.0) sends(8) nullUD g12UD g13UD 0x02009701 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, add) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, add) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(16) nullUD g20UD g22UD 0x04008701 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, add) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, add) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
sends(8) g7UD g18UD g19UD 0x0210bbfe 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD8, imin) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 254, SIMD8, imin) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
sends(8) nullUD g6UD g1UD 0x04035003 0x00000100
dp data 1 MsgDesc: ( DC typed surface write, Surface = 3, SIMD16, Mask = 0x0) mlen 2 ex_mlen 4 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 3, SIMD16, Mask = 0x0) mlen 2 ex_mlen 4 rlen 0 { align1 1Q };
sends(8) nullUD g8UD g10UD 0x04036003 0x00000100
dp data 1 MsgDesc: ( DC typed surface write, Surface = 3, SIMD8, Mask = 0x0) mlen 2 ex_mlen 4 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 3, SIMD8, Mask = 0x0) mlen 2 ex_mlen 4 rlen 0 { align1 2Q };
(+f1.0) sends(8) g3UD g21UD g20UD 0x0210b701 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, add) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, add) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
(+f1.0) sends(8) g5UD g21UD g20UD 0x0210bd01 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, umin) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, umin) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
(+f1.0) sends(8) g6UD g21UD g20UD 0x0210bc01 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, umax) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, umax) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
(+f1.0) sends(8) g7UD g21UD g20UD 0x0210b101 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, and) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, and) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
(+f1.0) sends(8) g9UD g21UD g20UD 0x0210b301 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, xor) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, xor) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
(+f1.0) sends(8) g10UD g21UD g20UD 0x0210b401 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, mov) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, mov) mlen 1 ex_mlen 1 rlen 1 { align1 1Q };
(+f1.0) sends(8) g11UD g21UD g11UD 0x0210be01 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, cmpwr) mlen 1 ex_mlen 2 rlen 1 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, cmpwr) mlen 1 ex_mlen 2 rlen 1 { align1 1Q };
(+f1.0) sends(16) g3UD g38UD g36UD 0x0420a701 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, add) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, add) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
(+f1.0) sends(16) g7UD g38UD g36UD 0x0420ad01 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, umin) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, umin) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
(+f1.0) sends(16) g9UD g38UD g36UD 0x0420ac01 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, umax) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, umax) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
(+f1.0) sends(16) g11UD g38UD g36UD 0x0420a101 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, and) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, and) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
(+f1.0) sends(16) g15UD g38UD g36UD 0x0420a301 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, xor) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, xor) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
(+f1.0) sends(16) g17UD g38UD g36UD 0x0420a401 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, mov) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, mov) mlen 2 ex_mlen 2 rlen 2 { align1 1H };
(+f1.0) sends(16) g19UD g38UD g21UD 0x0420ae01 0x00000100
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, cmpwr) mlen 2 ex_mlen 4 rlen 2 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, cmpwr) mlen 2 ex_mlen 4 rlen 2 { align1 1H };
sends(8) nullUD g4UD g12UD 0x04035e09 0x00000040
dp data 1 MsgDesc: ( DC typed surface write, Surface = 9, SIMD16, Mask = 0xe) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 9, SIMD16, Mask = 0xe) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
sends(8) nullUD g5UD g13UD 0x04036e09 0x00000040
dp data 1 MsgDesc: ( DC typed surface write, Surface = 9, SIMD8, Mask = 0xe) mlen 2 ex_mlen 1 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed surface write, Surface = 9, SIMD8, Mask = 0xe) mlen 2 ex_mlen 1 rlen 0 { align1 2Q };
(+f1.0) sends(8) nullUD g14UD g18UD 0x02009d01 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, umin) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, umin) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g17UD g19UD 0x02009c01 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, umax) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, umax) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g19UD g20UD 0x02009101 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, and) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, and) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g27UD g22UD 0x02009301 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, xor) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, xor) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g29UD g23UD 0x02009401 0x00000040
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, mov) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, mov) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g32UD g2UD 0x02009e01 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, cmpwr) mlen 1 ex_mlen 2 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD8, cmpwr) mlen 1 ex_mlen 2 rlen 0 { align1 1Q };
(+f1.0) sends(16) nullUD g18UD g32UD 0x04008d01 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, umin) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, umin) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
(+f1.0) sends(16) nullUD g24UD g33UD 0x04008c01 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, umax) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, umax) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
(+f1.0) sends(16) nullUD g30UD g34UD 0x04008101 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, and) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, and) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
(+f1.0) sends(16) nullUD g46UD g36UD 0x04008301 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, xor) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, xor) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
(+f1.0) sends(16) nullUD g49UD g37UD 0x04008401 0x00000080
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, mov) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, mov) mlen 2 ex_mlen 2 rlen 0 { align1 1H };
(+f1.0) sends(16) nullUD g56UD g2UD 0x04008e01 0x00000100
dp data 1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, cmpwr) mlen 2 ex_mlen 4 rlen 0 { align1 1H };
hdc1 MsgDesc: ( DC untyped atomic op, Surface = 1, SIMD16, cmpwr) mlen 2 ex_mlen 4 rlen 0 { align1 1H };
(+f1.0) sends(8) nullUD g20UD g21UD 0x02018101 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, and) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, and) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g3UD g38UD 0x02019101 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, and) mlen 1 ex_mlen 1 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, and) mlen 1 ex_mlen 1 rlen 0 { align1 2Q };
(+f1.0) sends(8) nullUD g19UD g20UD 0x02018201 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, or) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, or) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g3UD g36UD 0x02019201 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, or) mlen 1 ex_mlen 1 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, or) mlen 1 ex_mlen 1 rlen 0 { align1 2Q };
(+f1.0) sends(8) nullUD g19UD g20UD 0x02018301 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, xor) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, xor) mlen 1 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g3UD g36UD 0x02019301 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, xor) mlen 1 ex_mlen 1 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, xor) mlen 1 ex_mlen 1 rlen 0 { align1 2Q };
(+f1.0) sends(8) nullUD g2UD g18UD 0x04018701 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, add) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, add) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g2UD g4UD 0x04019701 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, add) mlen 2 ex_mlen 1 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, add) mlen 2 ex_mlen 1 rlen 0 { align1 2Q };
(+f1.0) sends(8) nullUD g2UD g18UD 0x04018d01 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, umin) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, umin) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g2UD g4UD 0x04019d01 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, umin) mlen 2 ex_mlen 1 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, umin) mlen 2 ex_mlen 1 rlen 0 { align1 2Q };
(+f1.0) sends(8) nullUD g2UD g18UD 0x04018101 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, and) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, and) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g2UD g4UD 0x04019101 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, and) mlen 2 ex_mlen 1 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, and) mlen 2 ex_mlen 1 rlen 0 { align1 2Q };
(+f1.0) sends(8) nullUD g2UD g18UD 0x04018201 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, or) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, or) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g2UD g4UD 0x04019201 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, or) mlen 2 ex_mlen 1 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, or) mlen 2 ex_mlen 1 rlen 0 { align1 2Q };
(+f1.0) sends(8) nullUD g2UD g18UD 0x04018301 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, xor) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD16, xor) mlen 2 ex_mlen 1 rlen 0 { align1 1Q };
(+f1.0) sends(8) nullUD g2UD g4UD 0x04019301 0x00000040
dp data 1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, xor) mlen 2 ex_mlen 1 rlen 0 { align1 2Q };
hdc1 MsgDesc: ( DC typed atomic, Surface = 1, SIMD8, xor) mlen 2 ex_mlen 1 rlen 0 { align1 2Q };