registry/vulkan/chapters/fragmentdensitymapops.txt - third_party/platform/external/gfxstream-protocols - Git at Google

 // Copyright 2018-2021 The Khronos Group, Inc.
 //
 // SPDX-License-Identifier: CC-BY-4.0

 [[fragmentdensitymapops]]
 = Fragment Density Map Operations

 == Fragment Density Map Operations Overview

 When a fragment is generated in a render pass that has a fragment density
 map attachment, its area is determined by the properties of the local
 framebuffer region that the fragment occupies.
 The framebuffer is divided into a uniform grid of these local regions, and
 their fragment area property is derived from the density map with the
 following operations:

   * <<fragmentdensitymap-fetch-density-value,Fetch density value>>
   ** <<fragmentdensitymap-component-swizzle,Component swizzle>>
   ** <<fragmentdensitymap-component-mapping,Component mapping>>
   * <<fragmentdensitymap-conversion-to-fragment-area,Fragment area
     conversion>>
   ** <<fragmentdensitymap-fragment-area-filter,Fragment area filter>>
   ** <<fragmentdensitymap-fragment-area-clamp,Fragment area clamp>>


 [[fragmentdensitymap-fetch-density-value]]
 == Fetch Density Value

 Each local framebuffer region at center coordinate [eq]#(x,y)# fetches a
 texel from the fragment density map at integer coordinates:

   {empty}:: latexmath:[i =
             \left\lfloor{\frac{x}{fragmentDensityTexelSize_{width}}}\right\rfloor]
   {empty}:: latexmath:[j =
             \left\lfloor{\frac{y}{fragmentDensityTexelSize_{height}}}\right\rfloor]

 Where the size of each region in the framebuffer is:

   {empty}:: latexmath:[fragmentDensityTexelSize'_{width} =
             {2^{\lceil{\log_2(\frac{framebuffer_{width}}{fragmentDensityMap_{width}})}\rceil}}]
   {empty}:: latexmath:[fragmentDensityTexelSize'_{height} =
             {2^{\lceil{\log_2(\frac{framebuffer_{height}}{fragmentDensityMap_{height}})}\rceil}}]

 This region is subject to the limits in
 sname:VkPhysicalDeviceFragmentDensityMapPropertiesEXT and therefore the
 final region size is clamped:

   {empty}:: latexmath:[fragmentDensityTexelSize_{width} =
             \mathbin{clamp}(fragmentDensityTexelSize'_{width},minFragmentDensityTexelSize_{width},maxFragmentDensityTexelSize_{width})]
   {empty}:: latexmath:[fragmentDensityTexelSize_{height} =
             \mathbin{clamp}(fragmentDensityTexelSize'_{height},minFragmentDensityTexelSize_{height},maxFragmentDensityTexelSize_{height})]

 When multiview is enabled for the render pass and the fragment density map
 attachment view was created with pname:layerCount greater than `1`, the
 density map layer that the texel is fetched from is:

   {empty}:: latexmath:[layer = baseArrayLayer + ViewIndex]

 Otherwise:

   {empty}:: latexmath:[layer = baseArrayLayer]

 The texel fetched from the density map at [eq]#(i,j,layer)# is next
 converted to density with the following operations.


 [[fragmentdensitymap-component-swizzle]]
 === Component Swizzle

 The pname:components member of slink:VkImageViewCreateInfo is applied to the
 fetched texel as defined in <<textures-component-swizzle,Image component
 swizzle>>.


 [[fragmentdensitymap-component-mapping]]
 === Component Mapping

 The swizzled texel's components are mapped to a density value:

   {empty}:: latexmath:[densityValue_{xy} = (C'_{r},C'_{g})]


 [[fragmentdensitymap-conversion-to-fragment-area]]
 == Fragment Area Conversion

 Fragment area for the framebuffer region is undefined: if the density
 fetched is not a normalized floating-point value greater than `0.0`.
 Otherwise, the fetched fragment area for that region is derived as:

   {empty}:: latexmath:[fragmentArea_{wh} = \frac{1.0}{densityValue_{xy}}]


 [[fragmentdensitymap-fragment-area-filter]]
 ===  Fragment Area Filter

 Optionally, the implementation may: fetch additional density map texels in
 an implementation defined window around [eq]#(i,j)#.
 The texels follow the standard conversion steps up to and including
 <<fragmentdensitymap-conversion-to-fragment-area,fragment area conversion>>.

 A single fetched fragment area for the framebuffer region is chosen by the
 implementation and must: have an area between the _min_ and _max_ areas of
 the fetched set.


 [[fragmentdensitymap-fragment-area-clamp]]
 === Fragment Area Clamp

 The implementation may: clamp the fetched fragment area to one that it
 supports.
 The clamped fragment area must: have a size less than or equal to the
 original fetched value.
 Implementations may: vary the supported set of fragment areas per
 framebuffer region.
 Fragment area [eq]#(1,1)# must: always be in the supported set.

 [NOTE]
 .Note
 ====
 For example, if the fetched fragment area is [eq]#(1,4)# but the
 implementation only supports areas of [eq]#{(1,1),(2,2)}#, it could choose
 to clamp the area to [eq]#(2,2)# since it has the same size as [eq]#(1,4)#.
 While this would produce fragments that have lower quality strictly in the
 x-axis, the overall density is maintained.
 ====

 The clamped fragment area is assigned to the corresponding framebuffer
 region.
	// Copyright 2018-2021 The Khronos Group, Inc.
	//
	// SPDX-License-Identifier: CC-BY-4.0

	[[fragmentdensitymapops]]
	= Fragment Density Map Operations

	== Fragment Density Map Operations Overview

	When a fragment is generated in a render pass that has a fragment density
	map attachment, its area is determined by the properties of the local
	framebuffer region that the fragment occupies.
	The framebuffer is divided into a uniform grid of these local regions, and
	their fragment area property is derived from the density map with the
	following operations:

	* <<fragmentdensitymap-fetch-density-value,Fetch density value>>
	** <<fragmentdensitymap-component-swizzle,Component swizzle>>
	** <<fragmentdensitymap-component-mapping,Component mapping>>
	* <<fragmentdensitymap-conversion-to-fragment-area,Fragment area
	conversion>>
	** <<fragmentdensitymap-fragment-area-filter,Fragment area filter>>
	** <<fragmentdensitymap-fragment-area-clamp,Fragment area clamp>>


	[[fragmentdensitymap-fetch-density-value]]
	== Fetch Density Value

	Each local framebuffer region at center coordinate [eq]#(x,y)# fetches a
	texel from the fragment density map at integer coordinates:

	{empty}:: latexmath:[i =
	\left\lfloor{\frac{x}{fragmentDensityTexelSize_{width}}}\right\rfloor]
	{empty}:: latexmath:[j =
	\left\lfloor{\frac{y}{fragmentDensityTexelSize_{height}}}\right\rfloor]

	Where the size of each region in the framebuffer is:

	{empty}:: latexmath:[fragmentDensityTexelSize'_{width} =
	{2^{\lceil{\log_2(\frac{framebuffer_{width}}{fragmentDensityMap_{width}})}\rceil}}]
	{empty}:: latexmath:[fragmentDensityTexelSize'_{height} =
	{2^{\lceil{\log_2(\frac{framebuffer_{height}}{fragmentDensityMap_{height}})}\rceil}}]

	This region is subject to the limits in
	sname:VkPhysicalDeviceFragmentDensityMapPropertiesEXT and therefore the
	final region size is clamped:

	{empty}:: latexmath:[fragmentDensityTexelSize_{width} =
	\mathbin{clamp}(fragmentDensityTexelSize'_{width},minFragmentDensityTexelSize_{width},maxFragmentDensityTexelSize_{width})]
	{empty}:: latexmath:[fragmentDensityTexelSize_{height} =
	\mathbin{clamp}(fragmentDensityTexelSize'_{height},minFragmentDensityTexelSize_{height},maxFragmentDensityTexelSize_{height})]

	When multiview is enabled for the render pass and the fragment density map
	attachment view was created with pname:layerCount greater than `1`, the
	density map layer that the texel is fetched from is:

	{empty}:: latexmath:[layer = baseArrayLayer + ViewIndex]

	Otherwise:

	{empty}:: latexmath:[layer = baseArrayLayer]

	The texel fetched from the density map at [eq]#(i,j,layer)# is next
	converted to density with the following operations.


	[[fragmentdensitymap-component-swizzle]]
	=== Component Swizzle

	The pname:components member of slink:VkImageViewCreateInfo is applied to the
	fetched texel as defined in <<textures-component-swizzle,Image component
	swizzle>>.


	[[fragmentdensitymap-component-mapping]]
	=== Component Mapping

	The swizzled texel's components are mapped to a density value:

	{empty}:: latexmath:[densityValue_{xy} = (C'_{r},C'_{g})]


	[[fragmentdensitymap-conversion-to-fragment-area]]
	== Fragment Area Conversion

	Fragment area for the framebuffer region is undefined: if the density
	fetched is not a normalized floating-point value greater than `0.0`.
	Otherwise, the fetched fragment area for that region is derived as:

	{empty}:: latexmath:[fragmentArea_{wh} = \frac{1.0}{densityValue_{xy}}]


	[[fragmentdensitymap-fragment-area-filter]]
	=== Fragment Area Filter

	Optionally, the implementation may: fetch additional density map texels in
	an implementation defined window around [eq]#(i,j)#.
	The texels follow the standard conversion steps up to and including
	<<fragmentdensitymap-conversion-to-fragment-area,fragment area conversion>>.

	A single fetched fragment area for the framebuffer region is chosen by the
	implementation and must: have an area between the _min_ and _max_ areas of
	the fetched set.


	[[fragmentdensitymap-fragment-area-clamp]]
	=== Fragment Area Clamp

	The implementation may: clamp the fetched fragment area to one that it
	supports.
	The clamped fragment area must: have a size less than or equal to the
	original fetched value.
	Implementations may: vary the supported set of fragment areas per
	framebuffer region.
	Fragment area [eq]#(1,1)# must: always be in the supported set.

	[NOTE]
	.Note
	====
	For example, if the fetched fragment area is [eq]#(1,4)# but the
	implementation only supports areas of [eq]#{(1,1),(2,2)}#, it could choose
	to clamp the area to [eq]#(2,2)# since it has the same size as [eq]#(1,4)#.
	While this would produce fragments that have lower quality strictly in the
	x-axis, the overall density is maintained.
	====

	The clamped fragment area is assigned to the corresponding framebuffer
	region.