Anv allows non-8x4-aligned depth buffer clears, but it has multisampled
HiZ disabled for BDW. iris allows multisampled HiZ on BDW, but disallows
non-8x4-aligned depth buffer clears.
Drop the unused optimization for non-8x4-aligned clears of multisampled
surfaces on BDW and use this opportunity to use some PRM text in the
code comment.
Reviewed-by: Kenneth Graunke <kenneth@whitecape.org>
Acked-by: Francisco Jerez <currojerez@riseup.net>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/14091>
Binding table pool runs out of capacity quickly on modern games,
requiring new Surface Base Address instructions to be sent. That
is costly due to flushes and stalls. Increasing BT pool capacity
to 64KB improves performance several workloads.
Fallout4 +4%
Shadow of the Tomb Raider +4%
Borderlands3 +3%
Reviewed-by: Lionel Landwerlin <lionel.g.landwerlin@intel.com>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/14483>
The coarser 32x32 cross-slice hashing mode seems to lead to better L1
and L2 utilization due to the improved execution locality, however it
can also lead to a bottleneck in a single slice, especially in
workloads that concentrate heavy rendering in small areas of the
screen (e.g. SynMark2 OglGeomPoint, OglTerrain*) -- This effect is
mitigated here by performing a permutation of the pixel pipe hashing
tables that ensures that adjacent rows map to pixel pipes as far away
as possible in the caching hierarchy.
Reviewed-by: Caio Oliveira <caio.oliveira@intel.com>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/13569>
This starts off with the simplest possible pixel hashing table
calculation that just assigns consecutive indices (modulo N) to
adjacent entries of the table, along the lines of the existing
intel_compute_pixel_hash_table(). The same function will be improved
in a future commit with a more optimal calculation.
Reviewed-by: Caio Oliveira <caio.oliveira@intel.com>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/13569>
It's now an array with 7 tables, each table is intended to specify the
pixel pipe hashing behavior for every possible slice count between 2
and 8, however that doesn't actually work, among other reasons due to
hardware bugs that will cause the GPU to erroneously access the table
at the wrong index in some cases, so in practice all 7 tables need to
be initialized to the same value.
Reviewed-by: Caio Oliveira <caio.oliveira@intel.com>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/13569>
The state cache invalidation shouldn't be necessary on recent
platforms. On ICL it *seems* to be required to get the hardware to
pick up an updated indirect clear color, so this change is only
applied to TGL platforms and later for the moment.
On some DG2 configs this seems to improve SynMark2/OglDrvRes by 16.0%
±0.1%, n=8.
Acked-by: Caio Oliveira <caio.oliveira@intel.com>
Reviewed-by: Kenneth Graunke <kenneth@whitecape.org>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/13569>
The current packed dispatch assumptions for fragment shaders seem to
be the reason that the fs-readFirstInvocation-uint-loop Piglit
test-case for the ARB_shader_ballot extension fails on DG2 in
combination with the patches in this series that enable pixel pipe
hashing (thanks Jordan for reporting the regression). I've confirmed
that the brw_fs_test_dispatch_packing() test fails on DG2 hardware for
fragment shaders, while it succeeds for other shader stages,
indicating that the PSD hardware no longer guarantees packed dispatch.
Disable it.
Reviewed-by: Caio Oliveira <caio.oliveira@intel.com>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/13569>
Actually, no, there's no need to do anything, just update some
comments for the record. An earlier revision of this change that
implemented the workaround text to the letter required no less than 8
new PIPE_CONTROLs throughout the tree. However Felix Degrood noticed
that the cost of some of the PIPE_CONTROLs was showing up in workloads
like Shadow of the Tomb Raider. The Windows driver wasn't emitting
many of those pipe controls, contrary to the W/A instructions, so we
engaged in a back and forth with the hardware team, who concluded that
the original suggested workaround was unnecessarily strict, and the
Windows driver's behavior acceptable. It turns out that Wa_1408224581
we had already implemented for TGL is roughly equivalent to the
Windows behavior, so no need to do anything new after all.
Reviewed-by: Lionel Landwerlin <lionel.g.landwerlin@intel.com>
Reviewed-by: Rohan Garg <rohan.garg@intel.com>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/14278>
XeHP platforms require the invalidation of the instruction cache after
a STATE_BASE_ADDRESS change due to a hardware bug potentially leading
to instruction cache pollution. Note that the workaround text says
it's applicable "DG2 128/256/512-A/B", however it's also marked as
permanent and not confirmed to be fixed in any specific steping, so we
apply it to all Gfx12HP platforms.
Reviewed-by: Lionel Landwerlin <lionel.g.landwerlin@intel.com>
Reviewed-by: Rohan Garg <rohan.garg@intel.com>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/14278>
This fixes a test from the vkd3d-proton test_dual_source_blending_dxbc
test which asserts in the backend with :
brw_fs_visitor.cpp:716: void fs_visitor::emit_fb_writes(): Assertion `!prog_data->dual_src_blend || key->nr_color_regions == 1' failed.
This is because there is 2 color attachments provided by the
renderpass so we initially set nr_color_regions = 2. But once we've
parsed the shader, we can see it's only using one output (with dual
source color blending).
This change looks at the output variables to update the valid output
variables.
Signed-off-by: Lionel Landwerlin <lionel.g.landwerlin@intel.com>
Reviewed-by: Tapani Pälli <tapani.palli@intel.com>
Cc: mesa-stable
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/14417>
Was getting ASAN errors in CI when trying to add ANV to the
debian-testing job:
==10993==ERROR: LeakSanitizer: detected memory leaks
Direct leak of 4194304 byte(s) in 64 object(s) allocated from:
#0 0x7f763c1bda3c in __interceptor_posix_memalign ../../../../src/libsanitizer/asan/asan_malloc_linux.cpp:226
#1 0x55f43d28627f in os_malloc_aligned ../src/util/os_memory_aligned.h:58
#2 0x55f43d28627f in _util_sparse_array_node_alloc ../src/util/sparse_array.c:107
#3 0x55f43d28627f in util_sparse_array_get ../src/util/sparse_array.c:143
#4 0x55f43d1fdaba in anv_device_lookup_bo ../src/intel/vulkan/anv_private.h:1335
#5 0x55f43d1fdaba in anv_device_import_bo_from_host_ptr ../src/intel/vulkan/anv_allocator.c:1843
#6 0x55f43d1ff571 in anv_block_pool_expand_range ../src/intel/vulkan/anv_allocator.c:534
#7 0x55f43d1ffcb5 in anv_block_pool_init ../src/intel/vulkan/anv_allocator.c:417
#8 0x55f43d18f082 in run_test ../src/intel/vulkan/tests/block_pool_no_free.c:123
#9 0x55f43d1862b6 in main ../src/intel/vulkan/tests/block_pool_no_free.c:152
#10 0x7f763b942d09 in __libc_start_main ../csu/libc-start.c:308
Signed-off-by: Tomeu Vizoso <tomeu.vizoso@collabora.com>
Reviewed-by: Lionel Landwerlin <lionel.g.landwerlin@intel.com>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/14121>
When we lower SPIR-V to NIR for textures in vtn_handle_texture, we only
bump the number of coordinate components when the op is not a lod query.
Update the assert to take this into account.
This fixes:
- dEQP-VK.robustness.robustness2.bind.template.r32f.dontunroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.bind.template.r32f.unroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.bind.template.r32i.dontunroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.bind.template.r32i.unroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.bind.template.r32ui.dontunroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.bind.template.r32ui.unroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.bind.template.rg32f.dontunroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.bind.template.rg32f.unroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.bind.template.rg32i.dontunroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.bind.template.rg32i.unroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.bind.template.rg32ui.dontunroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.bind.template.rg32ui.unroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.bind.template.rgba32f.dontunroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.bind.template.rgba32f.unroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.bind.template.rgba32i.dontunroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.bind.template.rgba32i.unroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.bind.template.rgba32ui.dontunroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.bind.template.rgba32ui.unroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.push.notemplate.r32f.dontunroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.push.notemplate.r32f.unroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.push.notemplate.r32i.dontunroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.push.notemplate.r32i.unroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.push.notemplate.r32ui.dontunroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.push.notemplate.r32ui.unroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.push.notemplate.rg32f.dontunroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.push.notemplate.rg32f.unroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.push.notemplate.rg32i.dontunroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.push.notemplate.rg32i.unroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.push.notemplate.rg32ui.dontunroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.push.notemplate.rg32ui.unroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.push.notemplate.rgba32f.dontunroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.push.notemplate.rgba32f.unroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.push.notemplate.rgba32i.dontunroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.push.notemplate.rgba32i.unroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.push.notemplate.rgba32ui.dontunroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
- dEQP-VK.robustness.robustness2.push.notemplate.rgba32ui.unroll.nonvolatile.sampled_image.no_fmt_qual.null_descriptor.samples_1.cube_array.frag
Fixes: 231337a1 ("intel/fs/xehp: Assert that the compiler is sending all 3 coords for cubemaps.")
Signed-off-by: Rohan Garg <rohan.garg@intel.com>
Reviewed-by: Francisco Jerez <currojerez@riseup.net>
Reviewed-by: Sagar Ghuge <sagar.ghuge@intel.com>
Reviewed-by: Jason Ekstrand <jason@jlekstrand.net>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/13925>
Note that this causes a geometry slice to be disabled if any DSS is
fused off within that slice, which may seem stricter than the BSpec
quotation implies, but testing shows that pixel pipes with any faulted
DSS don't work at all, and that using a slice with any faulted pixel
pipe leads to serious graphics corruption.
It would be better to query this geometry topology information from
the hardware instead of trying to reconstruct it here, but the kernel
interface for that is not available yet.
Reviewed-by: Caio Oliveira <caio.oliveira@intel.com>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/14436>
Nanley Chery