1910 lines
79 KiB
Plaintext
1910 lines
79 KiB
Plaintext
// Copyright (c) 2015-2017 Khronos Group. This work is licensed under a
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// Creative Commons Attribution 4.0 International License; see
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// http://creativecommons.org/licenses/by/4.0/
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[[sparsememory]]
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= Sparse Resources
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As documented in <<resources-association,Resource Memory Association>>,
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sname:VkBuffer and sname:VkImage resources in Vulkan must: be bound
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completely and contiguously to a single sname:VkDeviceMemory object.
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This binding must: be done before the resource is used, and the binding is
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immutable for the lifetime of the resource.
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_Sparse resources_ relax these restrictions and provide these additional
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features:
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* Sparse resources can: be bound non-contiguously to one or more
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sname:VkDeviceMemory allocations.
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* Sparse resources can: be re-bound to different memory allocations over
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the lifetime of the resource.
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* Sparse resources can: have descriptors generated and used orthogonally
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with memory binding commands.
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[[sparsememory-sparseresourcefeatures]]
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== Sparse Resource Features
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Sparse resources have several features that must: be enabled explicitly at
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resource creation time.
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The features are enabled by including bits in the pname:flags parameter of
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slink:VkImageCreateInfo or slink:VkBufferCreateInfo.
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Each feature also has one or more corresponding feature enables specified in
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slink:VkPhysicalDeviceFeatures.
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* <<features-features-sparseBinding,Sparse binding>> is the base feature,
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and provides the following capabilities:
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** Resources can: be bound at some defined (sparse block) granularity.
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** The entire resource must: be bound to memory before use regardless of
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regions actually accessed.
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** No specific mapping of image region to memory offset is defined, i.e.
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the location that each texel corresponds to in memory is
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implementation-dependent.
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** Sparse buffers have a well-defined mapping of buffer range to memory
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range, where an offset into a range of the buffer that is bound to a
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single contiguous range of memory corresponds to an identical offset
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within that range of memory.
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** Requested via the ename:VK_IMAGE_CREATE_SPARSE_BINDING_BIT and
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ename:VK_BUFFER_CREATE_SPARSE_BINDING_BIT bits.
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** A sparse image created using ename:VK_IMAGE_CREATE_SPARSE_BINDING_BIT
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(but not ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT) supports all
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formats that non-sparse usage supports, and supports both
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ename:VK_IMAGE_TILING_OPTIMAL and ename:VK_IMAGE_TILING_LINEAR tiling.
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* _Sparse Residency_ builds on (and requires) the pname:sparseBinding
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feature.
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It includes the following capabilities:
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** Resources do not have to be completely bound to memory before use on
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the device.
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** Images have a prescribed sparse image block layout, allowing specific
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rectangular regions of the image to be bound to specific offsets in
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memory allocations.
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** Consistency of access to unbound regions of the resource is defined by
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the absence or presence of
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sname:VkPhysicalDeviceSparseProperties::pname:residencyNonResidentStrict.
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If this property is present, accesses to unbound regions of the
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resource are well defined and behave as if the data bound is populated
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with all zeros; writes are discarded.
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When this property is absent, accesses are considered safe, but reads
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will return undefined values.
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** Requested via the ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT and
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ename:VK_BUFFER_CREATE_SPARSE_RESIDENCY_BIT bits.
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** [[features-features-sparseResidency]] Sparse residency support is
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advertised on a finer grain via the following features:
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+
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*** <<features-features-sparseResidencyBuffer,pname:sparseResidencyBuffer>>:
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Support for creating sname:VkBuffer objects with the
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ename:VK_BUFFER_CREATE_SPARSE_RESIDENCY_BIT.
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*** <<features-features-sparseResidencyImage2D,pname:sparseResidencyImage2D>>:
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Support for creating 2D single-sampled sname:VkImage objects with
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ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT.
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*** <<features-features-sparseResidencyImage3D,pname:sparseResidencyImage3D>>:
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Support for creating 3D sname:VkImage objects with
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ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT.
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*** <<features-features-sparseResidency2Samples,pname:sparseResidency2Samples>>:
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Support for creating 2D sname:VkImage objects with 2 samples and
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ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT.
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*** <<features-features-sparseResidency4Samples,pname:sparseResidency4Samples>>:
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Support for creating 2D sname:VkImage objects with 4 samples and
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ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT.
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*** <<features-features-sparseResidency8Samples,pname:sparseResidency8Samples>>:
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Support for creating 2D sname:VkImage objects with 8 samples and
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ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT.
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*** <<features-features-sparseResidency16Samples,pname:sparseResidency16Samples>>:
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Support for creating 2D sname:VkImage objects with 16 samples and
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ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT.
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+
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Implementations supporting pname:sparseResidencyImage2D are only required:
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to support sparse 2D, single-sampled images.
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Support is not required: for sparse 3D and MSAA images and is enabled via
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pname:sparseResidencyImage3D, pname:sparseResidency2Samples,
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pname:sparseResidency4Samples, pname:sparseResidency8Samples, and
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pname:sparseResidency16Samples.
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** A sparse image created using ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT
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supports all non-compressed color formats with power-of-two element
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size that non-sparse usage supports.
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Additional formats may: also be supported and can: be queried via
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flink:vkGetPhysicalDeviceSparseImageFormatProperties.
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ename:VK_IMAGE_TILING_LINEAR tiling is not supported.
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* <<features-features-sparseResidencyAliased,Sparse aliasing>> provides
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the following capability that can: be enabled per resource:
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+
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Allows physical memory ranges to be shared between multiple locations in the
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same sparse resource or between multiple sparse resources, with each binding
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of a memory location observing a consistent interpretation of the memory
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contents.
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+
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See <<sparsememory-sparse-memory-aliasing,Sparse Memory Aliasing>> for more
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information.
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[[sparsememory-fully-resident]]
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== Sparse Buffers and Fully-Resident Images
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Both sname:VkBuffer and sname:VkImage objects created with the
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ename:VK_IMAGE_CREATE_SPARSE_BINDING_BIT or
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ename:VK_BUFFER_CREATE_SPARSE_BINDING_BIT bits can: be thought of as a
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linear region of address space.
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In the sname:VkImage case if ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT is
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not used, this linear region is entirely opaque, meaning that there is no
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application-visible mapping between pixel location and memory offset.
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Unless ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT or
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ename:VK_BUFFER_CREATE_SPARSE_RESIDENCY_BIT are also used, the entire
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resource must: be bound to one or more sname:VkDeviceMemory objects before
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use.
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=== Sparse Buffer and Fully-Resident Image Block Size
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The sparse block size in bytes for sparse buffers and fully-resident images
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is reported as sname:VkMemoryRequirements::pname:alignment.
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pname:alignment represents both the memory alignment requirement and the
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binding granularity (in bytes) for sparse resources.
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[[sparsememory-partially-resident-buffers]]
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== Sparse Partially-Resident Buffers
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sname:VkBuffer objects created with the
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ename:VK_BUFFER_CREATE_SPARSE_RESIDENCY_BIT bit allow the buffer to be made
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only partially resident.
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Partially resident sname:VkBuffer objects are allocated and bound
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identically to sname:VkBuffer objects using only the
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ename:VK_BUFFER_CREATE_SPARSE_BINDING_BIT feature.
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The only difference is the ability for some regions of the buffer to be
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unbound during device use.
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[[sparsememory-partially-resident-images]]
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== Sparse Partially-Resident Images
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sname:VkImage objects created with the
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ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT bit allow specific rectangular
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regions of the image called sparse image blocks to be bound to specific
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ranges of memory.
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This allows the application to manage residency at either image subresource
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or sparse image block granularity.
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Each image subresource (outside of the <<sparsememory-miptail,mip tail>>)
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starts on a sparse block boundary and has dimensions that are integer
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multiples of the corresponding dimensions of the sparse image block.
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[NOTE]
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.Note
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====
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Applications can: use these types of images to control LOD based on total
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memory consumption.
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If memory pressure becomes an issue the application can: unbind and disable
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specific mipmap levels of images without having to recreate resources or
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modify pixel data of unaffected levels.
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The application can: also use this functionality to access subregions of the
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image in a "`megatexture`" fashion.
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The application can: create a large image and only populate the region of
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the image that is currently being used in the scene.
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====
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[[sparsememory-accessing-unbound]]
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=== Accessing Unbound Regions
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The following member of sname:VkPhysicalDeviceSparseProperties affects how
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data in unbound regions of sparse resources are handled by the
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implementation:
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* pname:residencyNonResidentStrict
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If this property is not present, reads of unbound regions of the image will
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return undefined values.
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Both reads and writes are still considered _safe_ and will not affect other
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resources or populated regions of the image.
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If this property is present, all reads of unbound regions of the image will
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behave as if the region was bound to memory populated with all zeros; writes
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will be discarded.
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Formatted accesses to unbound memory may: still alter some component values
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in the natural way for those accesses, e.g. substituting a value of one for
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alpha in formats that do not have an alpha component.
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=======
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Example: Reading the alpha component of an unbacked ename:VK_FORMAT_R8_UNORM
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image will return a value of [eq]#1.0f#.
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=======
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See <<devsandqueues-physical-device-enumeration,Physical Device
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Enumeration>> for instructions for retrieving physical device properties.
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ifdef::implementation-guide[]
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.Implementor's Note
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****
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For hardware that cannot: natively handle access to unbound regions of a
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resource, the implementation may: allocate and bind memory to the unbound
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regions.
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Reads and writes to unbound regions will access the implementation-managed
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memory instead of causing a hardware fault.
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Given that reads of unbound regions are undefined in this scenario,
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implementations may: use the same physical memory for unbound regions of
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multiple resources within the same process.
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****
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endif::implementation-guide[]
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[[sparsememory-miptail]]
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=== Mip Tail Regions
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Sparse images created using ename:VK_IMAGE_CREATE_SPARSE_BINDING_BIT
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(without also using ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT) have no
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specific mapping of image region or image subresource to memory offset
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defined, so the entire image can: be thought of as a linear opaque address
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region.
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However, images created with ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT do
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have a prescribed sparse image block layout, and hence each image
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subresource must: start on a sparse block boundary.
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Within each array layer, the set of mip levels that have a smaller size than
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the sparse block size in bytes are grouped together into a _mip tail
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region_.
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If the ename:VK_SPARSE_IMAGE_FORMAT_ALIGNED_MIP_SIZE_BIT flag is present in
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the pname:flags member of sname:VkSparseImageFormatProperties, for the
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image's pname:format, then any mip level which has dimensions that are not
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integer multiples of the corresponding dimensions of the sparse image block,
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and all subsequent mip levels, are also included in the mip tail region.
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The following member of sname:VkPhysicalDeviceSparseProperties may: affect
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how the implementation places mip levels in the mip tail region:
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* pname:residencyAlignedMipSize
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Each mip tail region is bound to memory as an opaque region (i.e. must: be
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bound using a slink:VkSparseImageOpaqueMemoryBindInfo structure) and may: be
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of a size greater than or equal to the sparse block size in bytes.
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This size is guaranteed to be an integer multiple of the sparse block size
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in bytes.
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An implementation may: choose to allow each array-layer's mip tail region to
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be bound to memory independently or require that all array-layer's mip tail
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regions be treated as one.
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This is dictated by ename:VK_SPARSE_IMAGE_FORMAT_SINGLE_MIPTAIL_BIT in
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sname:VkSparseImageMemoryRequirements::pname:flags.
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The following diagrams depict how
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ename:VK_SPARSE_IMAGE_FORMAT_ALIGNED_MIP_SIZE_BIT and
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ename:VK_SPARSE_IMAGE_FORMAT_SINGLE_MIPTAIL_BIT alter memory usage and
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requirements.
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image::images/sparseimage.svg[align="center", title="Sparse Image"]
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In the absence of ename:VK_SPARSE_IMAGE_FORMAT_ALIGNED_MIP_SIZE_BIT and
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ename:VK_SPARSE_IMAGE_FORMAT_SINGLE_MIPTAIL_BIT, each array layer contains a
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mip tail region containing pixel data for all mip levels smaller than the
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sparse image block in any dimension.
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Mip levels that are as large or larger than a sparse image block in all
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dimensions can: be bound individually.
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Right-edges and bottom-edges of each level are allowed to have partially
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used sparse blocks.
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Any bound partially-used-sparse-blocks must: still have their full sparse
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block size in bytes allocated in memory.
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image::images/sparseimage_singlemiptail.svg[align="center", title="Sparse Image with Single Mip Tail"]
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When ename:VK_SPARSE_IMAGE_FORMAT_SINGLE_MIPTAIL_BIT is present all array
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layers will share a single mip tail region.
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image::images/sparseimage_alignedmipsize.svg[align="center", title="Sparse Image with Aligned Mip Size"]
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[NOTE]
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.Note
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====
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The mip tail regions are presented here in 2D arrays simply for figure size
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reasons.
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Each mip tail is logically a single array of sparse blocks with an
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implementation-dependent mapping of pixels to sparse blocks.
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====
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When ename:VK_SPARSE_IMAGE_FORMAT_ALIGNED_MIP_SIZE_BIT is present the first
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mip level that would contain partially used sparse blocks begins the mip
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tail region.
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This level and all subsequent levels are placed in the mip tail.
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Only the first [eq]#N# mip levels whose dimensions are an exact multiple of
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the sparse image block dimensions can: be bound and unbound on a sparse
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block basis.
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image::images/sparseimage_alignedmipsize_singlemiptail.svg[align="center", title="Sparse Image with Aligned Mip Size and Single Mip Tail"]
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[NOTE]
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.Note
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====
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The mip tail region is presented here in a 2D array simply for figure size
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reasons.
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It is logically a single array of sparse blocks with an
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implementation-dependent mapping of pixels to sparse blocks.
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====
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When both ename:VK_SPARSE_IMAGE_FORMAT_ALIGNED_MIP_SIZE_BIT and
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ename:VK_SPARSE_IMAGE_FORMAT_SINGLE_MIPTAIL_BIT are present the constraints
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from each of these flags are in effect.
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[[sparsememory-standard-shapes]]
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=== Standard Sparse Image Block Shapes
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Standard sparse image block shapes define a standard set of dimensions for
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sparse image blocks that depend on the format of the image.
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Layout of pixels within a sparse image block is implementation dependent.
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All currently defined standard sparse image block shapes are 64 KB in size.
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For block-compressed formats (e.g. ename:VK_FORMAT_BC5_UNORM_BLOCK), the
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pixel size is the size of the compressed texel block (128-bit for etext:BC5)
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thus the dimensions of the standard sparse image block shapes apply in terms
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of compressed texel blocks.
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[NOTE]
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.Note
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====
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For block-compressed formats, the dimensions of a sparse image block in
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terms of texels can: be calculated by multiplying the sparse image block
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dimensions by the compressed texel block dimensions.
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====
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<<<
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[[sparsememory-sparseblockshapessingle]]
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.Standard Sparse Image Block Shapes (Single Sample)
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[options="header"]
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|====
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| PIXEL SIZE (bits) | Block Shape (2D) | Block Shape (3D)
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| *8-Bit* | 256 {times} 256 {times} 1 | 64 {times} 32 {times} 32
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| *16-Bit* | 256 {times} 128 {times} 1 | 32 {times} 32 {times} 32
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| *32-Bit* | 128 {times} 128 {times} 1 | 32 {times} 32 {times} 16
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| *64-Bit* | 128 {times} 64 {times} 1 | 32 {times} 16 {times} 16
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| *128-Bit* | 64 {times} 64 {times} 1 | 16 {times} 16 {times} 16
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|====
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[[sparsememory-sparseblockshapesmsaa]]
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.Standard Sparse Image Block Shapes (MSAA)
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[options="header"]
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|====
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| PIXEL SIZE (bits)| Block Shape (2X) | Block Shape (4X) | Block Shape (8X) | Block Shape (16X)
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| *8-Bit* | 128 {times} 256 {times} 1 | 128 {times} 128 {times} 1 | 64 {times} 128 {times} 1 | 64 {times} 64 {times} 1
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| *16-Bit* | 128 {times} 128 {times} 1 | 128 {times} 64 {times} 1 | 64 {times} 64 {times} 1 | 64 {times} 32 {times} 1
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| *32-Bit* | 64 {times} 128 {times} 1 | 64 {times} 64 {times} 1 | 32 {times} 64 {times} 1 | 32 {times} 32 {times} 1
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| *64-Bit* | 64 {times} 64 {times} 1 | 64 {times} 32 {times} 1 | 32 {times} 32 {times} 1 | 32 {times} 16 {times} 1
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| *128-Bit* | 32 {times} 64 {times} 1 | 32 {times} 32 {times} 1 | 16 {times} 32 {times} 1 | 16 {times} 16 {times} 1
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|====
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Implementations that support the standard sparse image block shape for all
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applicable formats may: advertise the following
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sname:VkPhysicalDeviceSparseProperties:
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* pname:residencyStandard2DBlockShape
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* pname:residencyStandard2DMultisampleBlockShape
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* pname:residencyStandard3DBlockShape
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Reporting each of these features does _not_ imply that all possible image
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types are supported as sparse.
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Instead, this indicates that no supported sparse image of the corresponding
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type will use custom sparse image block dimensions for any formats that have
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a corresponding standard sparse image block shape.
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[[sparsememory-custom-shapes]]
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=== Custom Sparse Image Block Shapes
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An implementation that does not support a standard image block shape for a
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particular sparse partially-resident image may: choose to support a custom
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sparse image block shape for it instead.
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The dimensions of such a custom sparse image block shape are reported in
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sname:VkSparseImageFormatProperties::pname:imageGranularity.
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As with standard sparse image block shapes, the size in bytes of the custom
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sparse image block shape will be reported in
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sname:VkMemoryRequirements::pname:alignment.
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Custom sparse image block dimensions are reported through
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fname:vkGetPhysicalDeviceSparseImageFormatProperties and
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fname:vkGetImageSparseMemoryRequirements.
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An implementation must: not support both the standard sparse image block
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shape and a custom sparse image block shape for the same image.
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The standard sparse image block shape must: be used if it is supported.
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[[sparsememory-multiaspect]]
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=== Multiple Aspects
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Partially resident images are allowed to report separate sparse properties
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for different aspects of the image.
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One example is for depth/stencil images where the implementation separates
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the depth and stencil data into separate planes.
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Another reason for multiple aspects is to allow the application to manage
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memory allocation for implementation-private _metadata_ associated with the
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image.
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See the figure below:
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image::images/sparseimage_multiaspect.svg[align="center",title="Multiple Aspect Sparse Image"]
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[NOTE]
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.Note
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====
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The mip tail regions are presented here in 2D arrays simply for figure size
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reasons.
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|
Each mip tail is logically a single array of sparse blocks with an
|
|
implementation-dependent mapping of pixels to sparse blocks.
|
|
====
|
|
|
|
In the figure above the depth, stencil, and metadata aspects all have unique
|
|
sparse properties.
|
|
The per-pixel stencil data is [eq]#{onequarter}# the size of the depth data,
|
|
hence the stencil sparse blocks include [eq]#4 {times}# the number of
|
|
pixels.
|
|
The sparse block size in bytes for all of the aspects is identical and
|
|
defined by sname:VkMemoryRequirements::pname:alignment.
|
|
|
|
|
|
==== Metadata
|
|
|
|
The metadata aspect of an image has the following constraints:
|
|
|
|
* All metadata is reported in the mip tail region of the metadata aspect.
|
|
* All metadata must: be bound prior to device use of the sparse image.
|
|
|
|
|
|
[[sparsememory-sparse-memory-aliasing]]
|
|
== Sparse Memory Aliasing
|
|
|
|
By default sparse resources have the same aliasing rules as non-sparse
|
|
resources.
|
|
See <<resources-memory-aliasing,Memory Aliasing>> for more information.
|
|
|
|
sname:VkDevice objects that have the
|
|
<<features-features-sparseResidencyAliased,sparseResidencyAliased>> feature
|
|
enabled are able to use the ename:VK_BUFFER_CREATE_SPARSE_ALIASED_BIT and
|
|
ename:VK_IMAGE_CREATE_SPARSE_ALIASED_BIT flags for resource creation.
|
|
These flags allow resources to access physical memory bound into multiple
|
|
locations within one or more sparse resources in a _data consistent_
|
|
fashion.
|
|
This means that reading physical memory from multiple aliased locations will
|
|
return the same value.
|
|
|
|
Care must: be taken when performing a write operation to aliased physical
|
|
memory.
|
|
Memory dependencies must: be used to separate writes to one alias from reads
|
|
or writes to another alias.
|
|
Writes to aliased memory that are not properly guarded against accesses to
|
|
different aliases will have undefined results for all accesses to the
|
|
aliased memory.
|
|
|
|
Applications that wish to make use of data consistent sparse memory aliasing
|
|
must: abide by the following guidelines:
|
|
|
|
* All sparse resources that are bound to aliased physical memory must: be
|
|
created with the ename:VK_BUFFER_CREATE_SPARSE_ALIASED_BIT /
|
|
ename:VK_IMAGE_CREATE_SPARSE_ALIASED_BIT flag.
|
|
* All resources that access aliased physical memory must: interpret the
|
|
memory in the same way.
|
|
This implies the following:
|
|
** Buffers and images cannot: alias the same physical memory in a data
|
|
consistent fashion.
|
|
The physical memory ranges must: be used exclusively by buffers or used
|
|
exclusively by images for data consistency to be guaranteed.
|
|
** Memory in sparse image mip tail regions cannot: access aliased memory
|
|
in a data consistent fashion.
|
|
** Sparse images that alias the same physical memory must: have compatible
|
|
formats and be using the same sparse image block shape in order to
|
|
access aliased memory in a data consistent fashion.
|
|
|
|
Failure to follow any of the above guidelines will require the application
|
|
to abide by the normal, non-sparse resource <<resources-memory-aliasing,
|
|
aliasing rules>>.
|
|
In this case memory cannot: be accessed in a data consistent fashion.
|
|
|
|
[NOTE]
|
|
.Note
|
|
====
|
|
Enabling sparse resource memory aliasing can: be a way to lower physical
|
|
memory use, but it may: reduce performance on some implementations.
|
|
An application developer can: test on their target HW and balance the memory
|
|
/ performance trade-offs measured.
|
|
====
|
|
|
|
|
|
ifdef::implementation-guide[]
|
|
== Sparse Resource Implementation Guidelines
|
|
|
|
****
|
|
This section is Informative.
|
|
It is included to aid in implementors' understanding of sparse resources.
|
|
|
|
.Device Virtual Address
|
|
|
|
The basic pname:sparseBinding feature allows the resource to reserve its own
|
|
device virtual address range at resource creation time rather than relying
|
|
on a bind operation to set this.
|
|
Without any other creation flags, no other constraints are relaxed compared
|
|
to normal resources.
|
|
All pages must: be bound to physical memory before the device accesses the
|
|
resource.
|
|
|
|
The <<features-features-sparseResidency,sparse residency>> features allow
|
|
sparse resources to be used even when not all pages are bound to memory.
|
|
Hardware that supports access to unbound pages without causing a fault may:
|
|
support pname:residencyNonResidentStrict.
|
|
|
|
Not faulting on access to unbound pages is not enough to support
|
|
pname:residencyNonResidentStrict.
|
|
An implementation must: also guarantee that reads after writes to unbound
|
|
regions of the resource always return data for the read as if the memory
|
|
contains zeros.
|
|
Depending on the cache implementation of the hardware this may: not always
|
|
be possible.
|
|
|
|
Hardware that does not fault, but does not guarantee correct read values
|
|
will not require dummy pages, but also must: not support
|
|
pname:residencyNonResidentStrict.
|
|
|
|
Hardware that cannot: access unbound pages without causing a fault will
|
|
require the implementation to bind the entire device virtual address range
|
|
to physical memory.
|
|
Any pages that the application does not bind to memory may: be bound to one
|
|
(or more) "`dummy`" physical page(s) allocated by the implementation.
|
|
Given the following properties:
|
|
|
|
* A process must: not access memory from another process
|
|
* Reads return undefined values
|
|
|
|
It is sufficient for each host process to allocate these dummy pages and use
|
|
them for all resources in that process.
|
|
Implementations may: allocate more often (per instance, per device, or per
|
|
resource).
|
|
|
|
|
|
.Binding Memory
|
|
|
|
The byte size reported in sname:VkMemoryRequirements::pname:size must: be
|
|
greater than or equal to the amount of physical memory required: to fully
|
|
populate the resource.
|
|
Some hardware requires "`holes`" in the device virtual address range that
|
|
are never accessed.
|
|
These holes may: be included in the pname:size reported for the resource.
|
|
|
|
Including or not including the device virtual address holes in the resource
|
|
size will alter how the implementation provides support for
|
|
sname:VkSparseImageOpaqueMemoryBindInfo.
|
|
This operation must: be supported for all sparse images, even ones created
|
|
with ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT.
|
|
|
|
ifdef::editing-notes[]
|
|
[NOTE]
|
|
.editing-note
|
|
====
|
|
@ntrevett suggested expanding the NOTE tag below to encompass everything
|
|
from "`The cost is...`" in the first bullet point through the current note.
|
|
TBD.
|
|
====
|
|
endif::editing-notes[]
|
|
|
|
* If the holes are included in the size, this bind function becomes very
|
|
easy.
|
|
In most cases the pname:resourceOffset is simply a device virtual
|
|
address offset and the implementation does not require any sophisticated
|
|
logic to determine what device virtual address to bind.
|
|
The cost is that the application can: allocate more physical memory for
|
|
the resource than it needs.
|
|
* If the holes are not included in the size, the application can: allocate
|
|
less physical memory than otherwise for the resource.
|
|
However, in this case the implementation must: account for the holes
|
|
when mapping pname:resourceOffset to the actual device virtual address
|
|
intended to be mapped.
|
|
|
|
[NOTE]
|
|
.Note
|
|
====
|
|
If the application always uses sname:VkSparseImageMemoryBindInfo to bind
|
|
memory for the non-tail mip levels, any holes that are present in the
|
|
resource size may: never be bound.
|
|
|
|
Since sname:VkSparseImageMemoryBindInfo uses pixel locations to determine
|
|
which device virtual addresses to bind, it is impossible to bind device
|
|
virtual address holes with this operation.
|
|
====
|
|
|
|
.Binding Metadata Memory
|
|
|
|
All metadata for sparse images have their own sparse properties and are
|
|
embedded in the mip tail region for said properties.
|
|
See the <<sparsememory-multiaspect,Multiaspect>> section for details.
|
|
|
|
Given that metadata is in a mip tail region, and the mip tail region must:
|
|
be reported as contiguous (either globally or per-array-layer), some
|
|
implementations will have to resort to complicated offset -> device virtual
|
|
address mapping for handling sname:VkSparseImageOpaqueMemoryBindInfo.
|
|
|
|
To make this easier on the implementation, the
|
|
ename:VK_SPARSE_MEMORY_BIND_METADATA_BIT explicitly denotes when metadata is
|
|
bound with sname:VkSparseImageOpaqueMemoryBindInfo.
|
|
When this flag is not present, the pname:resourceOffset may: be treated as a
|
|
strict device virtual address offset.
|
|
|
|
When ename:VK_SPARSE_MEMORY_BIND_METADATA_BIT is present, the
|
|
pname:resourceOffset must: have been derived explicitly from the
|
|
pname:imageMipTailOffset in the sparse resource properties returned for the
|
|
metadata aspect.
|
|
By manipulating the value returned for pname:imageMipTailOffset, the
|
|
pname:resourceOffset does not have to correlate directly to a device virtual
|
|
address offset, and may: instead be whatever values makes it easiest for the
|
|
implementation to derive the correct device virtual address.
|
|
|
|
****
|
|
endif::implementation-guide[]
|
|
|
|
|
|
[[sparsememory-resourceapi]]
|
|
== Sparse Resource API
|
|
|
|
The APIs related to sparse resources are grouped into the following
|
|
categories:
|
|
|
|
* <<sparsememory-physicalfeatures,Physical Device Features>>
|
|
* <<sparsememory-physicalprops,Physical Device Sparse Properties>>
|
|
* <<sparsememory-format-props,Sparse Image Format Properties>>
|
|
* <<sparsememory-resource-creation,Sparse Resource Creation>>
|
|
* <<sparsememory-memory-requirements,Sparse Resource Memory Requirements>>
|
|
* <<sparsememory-resource-binding,Binding Resource Memory>>
|
|
|
|
|
|
[[sparsememory-physicalfeatures]]
|
|
=== Physical Device Features
|
|
|
|
Some sparse-resource related features are reported and enabled in
|
|
sname:VkPhysicalDeviceFeatures.
|
|
These features must: be supported and enabled on the sname:VkDevice object
|
|
before applications can: use them.
|
|
See <<features-features,Physical Device Features>> for information on how to
|
|
get and set enabled device features, and for more detailed explanations of
|
|
these features.
|
|
|
|
|
|
==== Sparse Physical Device Features
|
|
|
|
* pname:sparseBinding: Support for creating sname:VkBuffer and
|
|
sname:VkImage objects with the ename:VK_BUFFER_CREATE_SPARSE_BINDING_BIT
|
|
and ename:VK_IMAGE_CREATE_SPARSE_BINDING_BIT flags, respectively.
|
|
* pname:sparseResidencyBuffer: Support for creating sname:VkBuffer objects
|
|
with the ename:VK_BUFFER_CREATE_SPARSE_RESIDENCY_BIT flag.
|
|
* pname:sparseResidencyImage2D: Support for creating 2D single-sampled
|
|
sname:VkImage objects with ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT.
|
|
* pname:sparseResidencyImage3D: Support for creating 3D sname:VkImage
|
|
objects with ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT.
|
|
* pname:sparseResidency2Samples: Support for creating 2D sname:VkImage
|
|
objects with 2 samples and ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT.
|
|
* pname:sparseResidency4Samples: Support for creating 2D sname:VkImage
|
|
objects with 4 samples and ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT.
|
|
* pname:sparseResidency8Samples: Support for creating 2D sname:VkImage
|
|
objects with 8 samples and ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT.
|
|
* pname:sparseResidency16Samples: Support for creating 2D sname:VkImage
|
|
objects with 16 samples and ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT.
|
|
* pname:sparseResidencyAliased: Support for creating sname:VkBuffer and
|
|
sname:VkImage objects with the ename:VK_BUFFER_CREATE_SPARSE_ALIASED_BIT
|
|
and ename:VK_IMAGE_CREATE_SPARSE_ALIASED_BIT flags, respectively.
|
|
|
|
|
|
[[sparsememory-physicalprops]]
|
|
=== Physical Device Sparse Properties
|
|
|
|
Some features of the implementation are not possible to disable, and are
|
|
reported to allow applications to alter their sparse resource usage
|
|
accordingly.
|
|
These read-only capabilities are reported in the
|
|
slink:VkPhysicalDeviceProperties::pname:sparseProperties member, which is a
|
|
structure of type sname:VkPhysicalDeviceSparseProperties.
|
|
|
|
[open,refpage='VkPhysicalDeviceSparseProperties',desc='Structure specifying physical device sparse memory properties',type='structs']
|
|
--
|
|
|
|
The sname:VkPhysicalDeviceSparseProperties structure is defined as:
|
|
|
|
include::../api/structs/VkPhysicalDeviceSparseProperties.txt[]
|
|
|
|
* pname:residencyStandard2DBlockShape is ename:VK_TRUE if the physical
|
|
device will access all single-sample 2D sparse resources using the
|
|
standard sparse image block shapes (based on image format), as described
|
|
in the <<sparsememory-sparseblockshapessingle,Standard Sparse Image
|
|
Block Shapes (Single Sample)>> table.
|
|
If this property is not supported the value returned in the
|
|
pname:imageGranularity member of the sname:VkSparseImageFormatProperties
|
|
structure for single-sample 2D images is not required: to match the
|
|
standard sparse image block dimensions listed in the table.
|
|
* pname:residencyStandard2DMultisampleBlockShape is ename:VK_TRUE if the
|
|
physical device will access all multisample 2D sparse resources using
|
|
the standard sparse image block shapes (based on image format), as
|
|
described in the <<sparsememory-sparseblockshapesmsaa,Standard Sparse
|
|
Image Block Shapes (MSAA)>> table.
|
|
If this property is not supported, the value returned in the
|
|
pname:imageGranularity member of the sname:VkSparseImageFormatProperties
|
|
structure for multisample 2D images is not required: to match the
|
|
standard sparse image block dimensions listed in the table.
|
|
* pname:residencyStandard3DBlockShape is ename:VK_TRUE if the physical
|
|
device will access all 3D sparse resources using the standard sparse
|
|
image block shapes (based on image format), as described in the
|
|
<<sparsememory-sparseblockshapessingle,Standard Sparse Image Block
|
|
Shapes (Single Sample)>> table.
|
|
If this property is not supported, the value returned in the
|
|
pname:imageGranularity member of the sname:VkSparseImageFormatProperties
|
|
structure for 3D images is not required: to match the standard sparse
|
|
image block dimensions listed in the table.
|
|
* pname:residencyAlignedMipSize is ename:VK_TRUE if images with mip level
|
|
dimensions that are not integer multiples of the corresponding
|
|
dimensions of the sparse image block may: be placed in the mip tail.
|
|
If this property is not reported, only mip levels with dimensions
|
|
smaller than the pname:imageGranularity member of the
|
|
sname:VkSparseImageFormatProperties structure will be placed in the mip
|
|
tail.
|
|
If this property is reported the implementation is allowed to return
|
|
ename:VK_SPARSE_IMAGE_FORMAT_ALIGNED_MIP_SIZE_BIT in the pname:flags
|
|
member of sname:VkSparseImageFormatProperties, indicating that mip level
|
|
dimensions that are not integer multiples of the corresponding
|
|
dimensions of the sparse image block will be placed in the mip tail.
|
|
* pname:residencyNonResidentStrict specifies whether the physical device
|
|
can: consistently access non-resident regions of a resource.
|
|
If this property is ename:VK_TRUE, access to non-resident regions of
|
|
resources will be guaranteed to return values as if the resource were
|
|
populated with 0; writes to non-resident regions will be discarded.
|
|
|
|
include::../validity/structs/VkPhysicalDeviceSparseProperties.txt[]
|
|
--
|
|
|
|
|
|
[[sparsememory-format-props]]
|
|
=== Sparse Image Format Properties
|
|
|
|
Given that certain aspects of sparse image support, including the sparse
|
|
image block dimensions, may: be implementation-dependent,
|
|
flink:vkGetPhysicalDeviceSparseImageFormatProperties can: be used to query
|
|
for sparse image format properties prior to resource creation.
|
|
This command is used to check whether a given set of sparse image parameters
|
|
is supported and what the sparse image block shape will be.
|
|
|
|
|
|
==== Sparse Image Format Properties API
|
|
|
|
[open,refpage='VkSparseImageFormatProperties',desc='Structure specifying sparse image format properties',type='structs']
|
|
--
|
|
|
|
The sname:VkSparseImageFormatProperties structure is defined as:
|
|
|
|
include::../api/structs/VkSparseImageFormatProperties.txt[]
|
|
|
|
* pname:aspectMask is a bitmask elink:VkImageAspectFlagBits specifying
|
|
which aspects of the image the properties apply to.
|
|
* pname:imageGranularity is the width, height, and depth of the sparse
|
|
image block in texels or compressed texel blocks.
|
|
* pname:flags is a bitmask of elink:VkSparseImageFormatFlagBits specifying
|
|
additional information about the sparse resource.
|
|
|
|
include::../validity/structs/VkSparseImageFormatProperties.txt[]
|
|
--
|
|
|
|
[open,refpage='VkSparseImageFormatFlagBits',desc='Bitmask specifying additional information about a sparse image resource',type='enums']
|
|
--
|
|
|
|
Bits which can: be set in slink:VkSparseImageFormatProperties::pname:flags,
|
|
specifying additional information about the sparse resource, are:
|
|
|
|
include::../api/enums/VkSparseImageFormatFlagBits.txt[]
|
|
|
|
* ename:VK_SPARSE_IMAGE_FORMAT_SINGLE_MIPTAIL_BIT specifies that the image
|
|
uses a single mip tail region for all array layers.
|
|
* ename:VK_SPARSE_IMAGE_FORMAT_ALIGNED_MIP_SIZE_BIT specifies that the
|
|
first mip level whose dimensions are not integer multiples of the
|
|
corresponding dimensions of the sparse image block begins the mip tail
|
|
region.
|
|
* ename:VK_SPARSE_IMAGE_FORMAT_NONSTANDARD_BLOCK_SIZE_BIT specifies that
|
|
the image uses non-standard sparse image block dimensions, and the
|
|
pname:imageGranularity values do not match the standard sparse image
|
|
block dimensions for the given pixel format.
|
|
|
|
--
|
|
|
|
[open,refpage='vkGetPhysicalDeviceSparseImageFormatProperties',desc='Retrieve properties of an image format applied to sparse images',type='protos']
|
|
--
|
|
|
|
fname:vkGetPhysicalDeviceSparseImageFormatProperties returns an array of
|
|
slink:VkSparseImageFormatProperties.
|
|
Each element will describe properties for one set of image aspects that are
|
|
bound simultaneously in the image.
|
|
This is usually one element for each aspect in the image, but for
|
|
interleaved depth/stencil images there is only one element describing the
|
|
combined aspects.
|
|
|
|
include::../api/protos/vkGetPhysicalDeviceSparseImageFormatProperties.txt[]
|
|
|
|
* pname:physicalDevice is the physical device from which to query the
|
|
sparse image capabilities.
|
|
* pname:format is the image format.
|
|
* pname:type is the dimensionality of image.
|
|
* pname:samples is the number of samples per pixel as defined in
|
|
elink:VkSampleCountFlagBits.
|
|
* pname:usage is a bitmask describing the intended usage of the image.
|
|
* pname:tiling is the tiling arrangement of the data elements in memory.
|
|
* pname:pPropertyCount is a pointer to an integer related to the number of
|
|
sparse format properties available or queried, as described below.
|
|
* pname:pProperties is either `NULL` or a pointer to an array of
|
|
slink:VkSparseImageFormatProperties structures.
|
|
|
|
If pname:pProperties is `NULL`, then the number of sparse format properties
|
|
available is returned in pname:pPropertyCount.
|
|
Otherwise, pname:pPropertyCount must: point to a variable set by the user to
|
|
the number of elements in the pname:pProperties array, and on return the
|
|
variable is overwritten with the number of structures actually written to
|
|
pname:pProperties.
|
|
If pname:pPropertyCount is less than the number of sparse format properties
|
|
available, at most pname:pPropertyCount structures will be written.
|
|
|
|
If ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT is not supported for the given
|
|
arguments, pname:pPropertyCount will be set to zero upon return, and no data
|
|
will be written to pname:pProperties.
|
|
|
|
Multiple aspects are returned for depth/stencil images that are implemented
|
|
as separate planes by the implementation.
|
|
The depth and stencil data planes each have unique
|
|
sname:VkSparseImageFormatProperties data.
|
|
|
|
Depth/stencil images with depth and stencil data interleaved into a single
|
|
plane will return a single sname:VkSparseImageFormatProperties structure
|
|
with the pname:aspectMask set to ename:VK_IMAGE_ASPECT_DEPTH_BIT |
|
|
ename:VK_IMAGE_ASPECT_STENCIL_BIT.
|
|
|
|
.Valid Usage
|
|
****
|
|
* [[VUID-vkGetPhysicalDeviceSparseImageFormatProperties-samples-01094]]
|
|
pname:samples must: be a bit value that is set in
|
|
sname:VkImageFormatProperties::pname:sampleCounts returned by
|
|
fname:vkGetPhysicalDeviceImageFormatProperties with pname:format,
|
|
pname:type, pname:tiling, and pname:usage equal to those in this command
|
|
and pname:flags equal to the value that is set in
|
|
sname:VkImageCreateInfo::pname:flags when the image is created
|
|
****
|
|
|
|
include::../validity/protos/vkGetPhysicalDeviceSparseImageFormatProperties.txt[]
|
|
--
|
|
|
|
ifdef::VK_KHR_get_physical_device_properties2[]
|
|
|
|
[open,refpage='vkGetPhysicalDeviceSparseImageFormatProperties2KHR',desc='Retrieve properties of an image format applied to sparse images',type='protos']
|
|
--
|
|
|
|
fname:vkGetPhysicalDeviceSparseImageFormatProperties2KHR returns an array of
|
|
slink:VkSparseImageFormatProperties2KHR.
|
|
Each element will describe properties for one set of image aspects that are
|
|
bound simultaneously in the image.
|
|
This is usually one element for each aspect in the image, but for
|
|
interleaved depth/stencil images there is only one element describing the
|
|
combined aspects.
|
|
|
|
include::../api/protos/vkGetPhysicalDeviceSparseImageFormatProperties2KHR.txt[]
|
|
|
|
* pname:physicalDevice is the physical device from which to query the
|
|
sparse image capabilities.
|
|
* pname:pFormatInfo is a pointer to a structure of type
|
|
slink:VkPhysicalDeviceSparseImageFormatInfo2KHR containing input
|
|
parameters to the command.
|
|
* pname:pPropertyCount is a pointer to an integer related to the number of
|
|
sparse format properties available or queried, as described below.
|
|
* pname:pProperties is either `NULL` or a pointer to an array of
|
|
slink:VkSparseImageFormatProperties2KHR structures.
|
|
|
|
fname:vkGetPhysicalDeviceSparseImageFormatProperties2KHR behaves identically
|
|
to flink:vkGetPhysicalDeviceSparseImageFormatProperties, with the ability to
|
|
return extended information by adding extension structures to the
|
|
pname:pNext chain of its pname:pProperties parameter.
|
|
|
|
include::../validity/protos/vkGetPhysicalDeviceSparseImageFormatProperties2KHR.txt[]
|
|
--
|
|
|
|
[open,refpage='VkPhysicalDeviceSparseImageFormatInfo2KHR',desc='Structure specifying sparse image format inputs',type='structs']
|
|
--
|
|
|
|
The sname:VkPhysicalDeviceSparseImageFormatInfo2KHR structure is defined as:
|
|
|
|
include::../api/structs/VkPhysicalDeviceSparseImageFormatInfo2KHR.txt[]
|
|
|
|
* pname:sType is the type of this structure.
|
|
* pname:pNext is `NULL` or a pointer to an extension-specific structure.
|
|
* pname:format is the image format.
|
|
* pname:type is the dimensionality of image.
|
|
* pname:samples is the number of samples per pixel as defined in
|
|
elink:VkSampleCountFlagBits.
|
|
* pname:usage is a bitmask describing the intended usage of the image.
|
|
* pname:tiling is the tiling arrangement of the data elements in memory.
|
|
|
|
.Valid Usage
|
|
****
|
|
* [[VUID-VkPhysicalDeviceSparseImageFormatInfo2KHR-samples-01095]]
|
|
pname:samples must: be a bit value that is set in
|
|
sname:VkImageFormatProperties::pname:sampleCounts returned by
|
|
fname:vkGetPhysicalDeviceImageFormatProperties with pname:format,
|
|
pname:type, pname:tiling, and pname:usage equal to those in this command
|
|
and pname:flags equal to the value that is set in
|
|
sname:VkImageCreateInfo::pname:flags when the image is created
|
|
****
|
|
|
|
include::../validity/structs/VkPhysicalDeviceSparseImageFormatInfo2KHR.txt[]
|
|
--
|
|
|
|
[open,refpage='VkSparseImageFormatProperties2KHR',desc='Structure specifying sparse image format properties',type='structs']
|
|
--
|
|
|
|
The sname:VkSparseImageFormatProperties2KHR structure is defined as:
|
|
|
|
include::../api/structs/VkSparseImageFormatProperties2KHR.txt[]
|
|
|
|
* pname:sType is the type of this structure.
|
|
* pname:pNext is `NULL` or a pointer to an extension-specific structure.
|
|
* pname:properties is a structure of type
|
|
slink:VkSparseImageFormatProperties which is populated with the same
|
|
values as in flink:vkGetPhysicalDeviceSparseImageFormatProperties.
|
|
|
|
include::../validity/structs/VkSparseImageFormatProperties2KHR.txt[]
|
|
--
|
|
|
|
endif::VK_KHR_get_physical_device_properties2[]
|
|
|
|
|
|
[[sparsememory-resource-creation]]
|
|
=== Sparse Resource Creation
|
|
|
|
Sparse resources require that one or more sparse feature flags be specified
|
|
(as part of the sname:VkPhysicalDeviceFeatures structure described
|
|
previously in the <<sparsememory-physicalfeatures,Physical Device Features>>
|
|
section) at CreateDevice time.
|
|
When the appropriate device features are enabled, the
|
|
etext:VK_BUFFER_CREATE_SPARSE_* and etext:VK_IMAGE_CREATE_SPARSE_* flags
|
|
can: be used.
|
|
See flink:vkCreateBuffer and flink:vkCreateImage for details of the resource
|
|
creation APIs.
|
|
|
|
[NOTE]
|
|
.Note
|
|
====
|
|
Specifying ename:VK_BUFFER_CREATE_SPARSE_RESIDENCY_BIT or
|
|
ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT requires specifying
|
|
ename:VK_BUFFER_CREATE_SPARSE_BINDING_BIT or
|
|
ename:VK_IMAGE_CREATE_SPARSE_BINDING_BIT, respectively, as well.
|
|
This means that resources must: be created with the appropriate
|
|
etext:*_SPARSE_BINDING_BIT to be used with the sparse binding command
|
|
(fname:vkQueueBindSparse).
|
|
====
|
|
|
|
|
|
[[sparsememory-memory-requirements]]
|
|
=== Sparse Resource Memory Requirements
|
|
|
|
Sparse resources have specific memory requirements related to binding sparse
|
|
memory.
|
|
These memory requirements are reported differently for sname:VkBuffer
|
|
objects and sname:VkImage objects.
|
|
|
|
|
|
[[sparsememory-memory-buffer-fully-resident]]
|
|
==== Buffer and Fully-Resident Images
|
|
|
|
Buffers (both fully and partially resident) and fully-resident images can:
|
|
be bound to memory using only the data from sname:VkMemoryRequirements.
|
|
For all sparse resources the sname:VkMemoryRequirements::pname:alignment
|
|
member denotes both the bindable sparse block size in bytes and required:
|
|
alignment of sname:VkDeviceMemory.
|
|
|
|
|
|
[[sparsememory-memory-partially-resident]]
|
|
==== Partially Resident Images
|
|
|
|
Partially resident images have a different method for binding memory.
|
|
As with buffers and fully resident images, the
|
|
sname:VkMemoryRequirements::pname:alignment field denotes the bindable
|
|
sparse block size in bytes for the image.
|
|
|
|
Requesting sparse memory requirements for sname:VkImage objects using
|
|
fname:vkGetImageSparseMemoryRequirements will return an array of one or more
|
|
sname:VkSparseImageMemoryRequirements structures.
|
|
Each structure describes the sparse memory requirements for a group of
|
|
aspects of the image.
|
|
|
|
The sparse image must: have been created using the
|
|
ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT flag to retrieve valid sparse
|
|
image memory requirements.
|
|
|
|
|
|
==== Sparse Image Memory Requirements
|
|
|
|
[open,refpage='VkSparseImageMemoryRequirements',desc='Structure specifying sparse image memory requirements',type='structs']
|
|
--
|
|
|
|
The sname:VkSparseImageMemoryRequirements structure is defined as:
|
|
|
|
include::../api/structs/VkSparseImageMemoryRequirements.txt[]
|
|
|
|
* pname:formatProperties.aspectMask is the set of aspects of the image
|
|
that this sparse memory requirement applies to.
|
|
This will usually have a single aspect specified.
|
|
However, depth/stencil images may: have depth and stencil data
|
|
interleaved in the same sparse block, in which case both
|
|
ename:VK_IMAGE_ASPECT_DEPTH_BIT and ename:VK_IMAGE_ASPECT_STENCIL_BIT
|
|
would be present.
|
|
* pname:formatProperties.imageGranularity describes the dimensions of a
|
|
single bindable sparse image block in pixel units.
|
|
For aspect ename:VK_IMAGE_ASPECT_METADATA_BIT, all dimensions will be
|
|
zero pixels.
|
|
All metadata is located in the mip tail region.
|
|
* pname:formatProperties.flags is a bitmask of
|
|
elink:VkSparseImageFormatFlagBits:
|
|
** If ename:VK_SPARSE_IMAGE_FORMAT_SINGLE_MIPTAIL_BIT is set the image
|
|
uses a single mip tail region for all array layers.
|
|
** If ename:VK_SPARSE_IMAGE_FORMAT_ALIGNED_MIP_SIZE_BIT is set the
|
|
dimensions of mip levels must: be integer multiples of the
|
|
corresponding dimensions of the sparse image block for levels not
|
|
located in the mip tail.
|
|
** If ename:VK_SPARSE_IMAGE_FORMAT_NONSTANDARD_BLOCK_SIZE_BIT is set the
|
|
image uses non-standard sparse image block dimensions.
|
|
The pname:formatProperties.imageGranularity values do not match the
|
|
standard sparse image block dimension corresponding to the image's
|
|
pixel format.
|
|
* pname:imageMipTailFirstLod is the first mip level at which image
|
|
subresources are included in the mip tail region.
|
|
* pname:imageMipTailSize is the memory size (in bytes) of the mip tail
|
|
region.
|
|
If pname:formatProperties.flags contains
|
|
ename:VK_SPARSE_IMAGE_FORMAT_SINGLE_MIPTAIL_BIT, this is the size of the
|
|
whole mip tail, otherwise this is the size of the mip tail of a single
|
|
array layer.
|
|
This value is guaranteed to be a multiple of the sparse block size in
|
|
bytes.
|
|
* pname:imageMipTailOffset is the opaque memory offset used with
|
|
slink:VkSparseImageOpaqueMemoryBindInfo to bind the mip tail region(s).
|
|
* pname:imageMipTailStride is the offset stride between each array-layer's
|
|
mip tail, if pname:formatProperties.flags does not contain
|
|
ename:VK_SPARSE_IMAGE_FORMAT_SINGLE_MIPTAIL_BIT (otherwise the value is
|
|
undefined).
|
|
|
|
include::../validity/structs/VkSparseImageMemoryRequirements.txt[]
|
|
--
|
|
|
|
[open,refpage='vkGetImageSparseMemoryRequirements',desc='Query the memory requirements for a sparse image',type='protos']
|
|
--
|
|
|
|
To query sparse memory requirements for an image, call:
|
|
|
|
include::../api/protos/vkGetImageSparseMemoryRequirements.txt[]
|
|
|
|
* pname:device is the logical device that owns the image.
|
|
* pname:image is the sname:VkImage object to get the memory requirements
|
|
for.
|
|
* pname:pSparseMemoryRequirementCount is a pointer to an integer related
|
|
to the number of sparse memory requirements available or queried, as
|
|
described below.
|
|
* pname:pSparseMemoryRequirements is either `NULL` or a pointer to an
|
|
array of sname:VkSparseImageMemoryRequirements structures.
|
|
|
|
If pname:pSparseMemoryRequirements is `NULL`, then the number of sparse
|
|
memory requirements available is returned in
|
|
pname:pSparseMemoryRequirementCount.
|
|
Otherwise, pname:pSparseMemoryRequirementCount must: point to a variable set
|
|
by the user to the number of elements in the pname:pSparseMemoryRequirements
|
|
array, and on return the variable is overwritten with the number of
|
|
structures actually written to pname:pSparseMemoryRequirements.
|
|
If pname:pSparseMemoryRequirementCount is less than the number of sparse
|
|
memory requirements available, at most pname:pSparseMemoryRequirementCount
|
|
structures will be written.
|
|
|
|
If the image was not created with ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT
|
|
then pname:pSparseMemoryRequirementCount will be set to zero and
|
|
pname:pSparseMemoryRequirements will not be written to.
|
|
|
|
[NOTE]
|
|
.Note
|
|
====
|
|
It is legal for an implementation to report a larger value in
|
|
sname:VkMemoryRequirements::pname:size than would be obtained by adding
|
|
together memory sizes for all sname:VkSparseImageMemoryRequirements returned
|
|
by fname:vkGetImageSparseMemoryRequirements.
|
|
This may: occur when the hardware requires unused padding in the address
|
|
range describing the resource.
|
|
====
|
|
|
|
include::../validity/protos/vkGetImageSparseMemoryRequirements.txt[]
|
|
--
|
|
|
|
|
|
[[sparsememory-resource-binding]]
|
|
=== Binding Resource Memory
|
|
|
|
Non-sparse resources are backed by a single physical allocation prior to
|
|
device use (via fname:vkBindImageMemory or fname:vkBindBufferMemory), and
|
|
their backing must: not be changed.
|
|
On the other hand, sparse resources can: be bound to memory non-contiguously
|
|
and these bindings can: be altered during the lifetime of the resource.
|
|
|
|
[NOTE]
|
|
.Note
|
|
====
|
|
It is important to note that freeing a sname:VkDeviceMemory object with
|
|
fname:vkFreeMemory will not cause resources (or resource regions) bound to
|
|
the memory object to become unbound.
|
|
Access to resources that are bound to memory objects that have been freed
|
|
will result in undefined behavior, potentially including application
|
|
termination.
|
|
|
|
Implementations must: ensure that no access to physical memory owned by the
|
|
system or another process will occur in this scenario.
|
|
In other words, accessing resources bound to freed memory may: result in
|
|
application termination, but must: not result in system termination or in
|
|
reading non-process-accessible memory.
|
|
====
|
|
|
|
Sparse memory bindings execute on a queue that includes the
|
|
ename:VK_QUEUE_SPARSE_BINDING_BIT bit.
|
|
Applications must: use <<synchronization,synchronization primitives>> to
|
|
guarantee that other queues do not access ranges of memory concurrently with
|
|
a binding change.
|
|
Accessing memory in a range while it is being rebound results in undefined
|
|
behavior.
|
|
It is valid to access other ranges of the same resource while a bind
|
|
operation is executing.
|
|
|
|
[NOTE]
|
|
.Note
|
|
====
|
|
Implementations must: provide a guarantee that simultaneously binding sparse
|
|
blocks while another queue accesses those same sparse blocks via a sparse
|
|
resource must: not access memory owned by another process or otherwise
|
|
corrupt the system.
|
|
====
|
|
|
|
While some implementations may: include ename:VK_QUEUE_SPARSE_BINDING_BIT
|
|
support in queue families that also include graphics and compute support,
|
|
other implementations may: only expose a
|
|
ename:VK_QUEUE_SPARSE_BINDING_BIT-only queue family.
|
|
In either case, applications must: use <<synchronization,synchronization
|
|
primitives>> to explicitly request any ordering dependencies between sparse
|
|
memory binding operations and other graphics/compute/transfer operations, as
|
|
sparse binding operations are not automatically ordered against command
|
|
buffer execution, even within a single queue.
|
|
|
|
When binding memory explicitly for the ename:VK_IMAGE_ASPECT_METADATA_BIT
|
|
the application must: use the ename:VK_SPARSE_MEMORY_BIND_METADATA_BIT in
|
|
the sname:VkSparseMemoryBind::pname:flags field when binding memory.
|
|
Binding memory for metadata is done the same way as binding memory for the
|
|
mip tail, with the addition of the ename:VK_SPARSE_MEMORY_BIND_METADATA_BIT
|
|
flag.
|
|
|
|
Binding the mip tail for any aspect must: only be performed using
|
|
slink:VkSparseImageOpaqueMemoryBindInfo.
|
|
If pname:formatProperties.flags contains
|
|
ename:VK_SPARSE_IMAGE_FORMAT_SINGLE_MIPTAIL_BIT, then it can: be bound with
|
|
a single slink:VkSparseMemoryBind structure, with pname:resourceOffset =
|
|
pname:imageMipTailOffset and pname:size = pname:imageMipTailSize.
|
|
|
|
If pname:formatProperties.flags does not contain
|
|
ename:VK_SPARSE_IMAGE_FORMAT_SINGLE_MIPTAIL_BIT then the offset for the mip
|
|
tail in each array layer is given as:
|
|
|
|
[source,c++]
|
|
---------------------------------------------------
|
|
arrayMipTailOffset = imageMipTailOffset + arrayLayer * imageMipTailStride;
|
|
---------------------------------------------------
|
|
|
|
and the mip tail can: be bound with code:layerCount slink:VkSparseMemoryBind
|
|
structures, each using pname:size = pname:imageMipTailSize and
|
|
pname:resourceOffset = ptext:arrayMipTailOffset as defined above.
|
|
|
|
Sparse memory binding is handled by the following APIs and related data
|
|
structures.
|
|
|
|
|
|
[[sparsemem-memory-binding]]
|
|
==== Sparse Memory Binding Functions
|
|
|
|
[open,refpage='VkSparseMemoryBind',desc='Structure specifying a sparse memory bind operation',type='structs']
|
|
--
|
|
|
|
The sname:VkSparseMemoryBind structure is defined as:
|
|
|
|
include::../api/structs/VkSparseMemoryBind.txt[]
|
|
|
|
* pname:resourceOffset is the offset into the resource.
|
|
* pname:size is the size of the memory region to be bound.
|
|
* pname:memory is the sname:VkDeviceMemory object that the range of the
|
|
resource is bound to.
|
|
If pname:memory is dlink:VK_NULL_HANDLE, the range is unbound.
|
|
* pname:memoryOffset is the offset into the sname:VkDeviceMemory object to
|
|
bind the resource range to.
|
|
If pname:memory is dlink:VK_NULL_HANDLE, this value is ignored.
|
|
* pname:flags is a bitmask of elink:VkSparseMemoryBindFlagBits specifying
|
|
usage of the binding operation.
|
|
|
|
The _binding range_ [eq]#[pname:resourceOffset, pname:resourceOffset {plus}
|
|
pname:size)# has different constraints based on pname:flags.
|
|
If pname:flags contains ename:VK_SPARSE_MEMORY_BIND_METADATA_BIT, the
|
|
binding range must: be within the mip tail region of the metadata aspect.
|
|
This metadata region is defined by:
|
|
|
|
:: [eq]#metadataRegion = [base, base {plus} pname:imageMipTailSize)#
|
|
:: [eq]#base = pname:imageMipTailOffset {plus} pname:imageMipTailStride
|
|
{times} n#
|
|
|
|
and pname:imageMipTailOffset, pname:imageMipTailSize, and
|
|
pname:imageMipTailStride values are from the
|
|
slink:VkSparseImageMemoryRequirements corresponding to the metadata aspect
|
|
of the image, and [eq]#n# is a valid array layer index for the image,
|
|
|
|
pname:imageMipTailStride is considered to be zero for aspects where
|
|
sname:VkSparseImageMemoryRequirements::pname:formatProperties.flags contains
|
|
ename:VK_SPARSE_IMAGE_FORMAT_SINGLE_MIPTAIL_BIT.
|
|
|
|
If pname:flags does not contain ename:VK_SPARSE_MEMORY_BIND_METADATA_BIT,
|
|
the binding range must: be within the range
|
|
[eq]#[0,slink:VkMemoryRequirements::pname:size)#.
|
|
|
|
.Valid Usage
|
|
****
|
|
* [[VUID-VkSparseMemoryBind-memory-01096]]
|
|
If pname:memory is not dlink:VK_NULL_HANDLE, pname:memory and
|
|
pname:memoryOffset must: match the memory requirements of the resource,
|
|
as described in section <<resources-association>>
|
|
* [[VUID-VkSparseMemoryBind-memory-01097]]
|
|
If pname:memory is not dlink:VK_NULL_HANDLE, pname:memory must: not have
|
|
been created with a memory type that reports
|
|
ename:VK_MEMORY_PROPERTY_LAZILY_ALLOCATED_BIT bit set
|
|
* [[VUID-VkSparseMemoryBind-size-01098]]
|
|
pname:size must: be greater than `0`
|
|
* [[VUID-VkSparseMemoryBind-resourceOffset-01099]]
|
|
pname:resourceOffset must: be less than the size of the resource
|
|
* [[VUID-VkSparseMemoryBind-size-01100]]
|
|
pname:size must: be less than or equal to the size of the resource minus
|
|
pname:resourceOffset
|
|
* [[VUID-VkSparseMemoryBind-memoryOffset-01101]]
|
|
pname:memoryOffset must: be less than the size of pname:memory
|
|
* [[VUID-VkSparseMemoryBind-size-01102]]
|
|
pname:size must: be less than or equal to the size of pname:memory minus
|
|
pname:memoryOffset
|
|
****
|
|
|
|
include::../validity/structs/VkSparseMemoryBind.txt[]
|
|
--
|
|
|
|
[open,refpage='VkSparseMemoryBindFlagBits',desc='Bitmask specifying usage of a sparse memory binding operation',type='enums']
|
|
--
|
|
|
|
Bits which can: be set in slink:VkSparseMemoryBind::pname:flags, specifying
|
|
usage of a sparse memory binding operation, are:
|
|
|
|
include::../api/enums/VkSparseMemoryBindFlagBits.txt[]
|
|
|
|
* ename:VK_SPARSE_MEMORY_BIND_METADATA_BIT specifies that the memory being
|
|
bound is only for the metadata aspect.
|
|
|
|
--
|
|
|
|
[open,refpage='VkSparseBufferMemoryBindInfo',desc='Structure specifying a sparse buffer memory bind operation',type='structs']
|
|
--
|
|
|
|
Memory is bound to sname:VkBuffer objects created with the
|
|
ename:VK_BUFFER_CREATE_SPARSE_BINDING_BIT flag using the following
|
|
structure:
|
|
|
|
include::../api/structs/VkSparseBufferMemoryBindInfo.txt[]
|
|
|
|
* pname:buffer is the sname:VkBuffer object to be bound.
|
|
* pname:bindCount is the number of sname:VkSparseMemoryBind structures in
|
|
the pname:pBinds array.
|
|
* pname:pBinds is a pointer to array of sname:VkSparseMemoryBind
|
|
structures.
|
|
|
|
include::../validity/structs/VkSparseBufferMemoryBindInfo.txt[]
|
|
--
|
|
|
|
[open,refpage='VkSparseImageOpaqueMemoryBindInfo',desc='Structure specifying sparse image opaque memory bind info',type='structs']
|
|
--
|
|
|
|
Memory is bound to opaque regions of sname:VkImage objects created with the
|
|
ename:VK_IMAGE_CREATE_SPARSE_BINDING_BIT flag using the following structure:
|
|
|
|
include::../api/structs/VkSparseImageOpaqueMemoryBindInfo.txt[]
|
|
|
|
* pname:image is the sname:VkImage object to be bound.
|
|
* pname:bindCount is the number of sname:VkSparseMemoryBind structures in
|
|
the pname:pBinds array.
|
|
* pname:pBinds is a pointer to array of sname:VkSparseMemoryBind
|
|
structures.
|
|
|
|
.Valid Usage
|
|
****
|
|
* [[VUID-VkSparseImageOpaqueMemoryBindInfo-pBinds-01103]]
|
|
If the pname:flags member of any element of pname:pBinds contains
|
|
ename:VK_SPARSE_MEMORY_BIND_METADATA_BIT, the binding range defined
|
|
must: be within the mip tail region of the metadata aspect of
|
|
pname:image
|
|
****
|
|
|
|
include::../validity/structs/VkSparseImageOpaqueMemoryBindInfo.txt[]
|
|
--
|
|
|
|
[NOTE]
|
|
.Note
|
|
==================
|
|
This operation is normally used to bind memory to fully-resident sparse
|
|
images or for mip tail regions of partially resident images.
|
|
However, it can: also be used to bind memory for the entire binding range of
|
|
partially resident images.
|
|
|
|
In case pname:flags does not contain
|
|
ename:VK_SPARSE_MEMORY_BIND_METADATA_BIT, the pname:resourceOffset is in the
|
|
range [eq]#[0, slink:VkMemoryRequirements::pname:size)#, This range includes
|
|
data from all aspects of the image, including metadata.
|
|
For most implementations this will probably mean that the
|
|
pname:resourceOffset is a simple device address offset within the resource.
|
|
It is possible for an application to bind a range of memory that includes
|
|
both resource data and metadata.
|
|
However, the application would not know what part of the image the memory is
|
|
used for, or if any range is being used for metadata.
|
|
|
|
When pname:flags contains ename:VK_SPARSE_MEMORY_BIND_METADATA_BIT, the
|
|
binding range specified must: be within the mip tail region of the metadata
|
|
aspect.
|
|
In this case the pname:resourceOffset is not required: to be a simple device
|
|
address offset within the resource.
|
|
However, it _is_ defined to be within [eq]#[imageMipTailOffset,
|
|
imageMipTailOffset {plus} imageMipTailSize)# for the metadata aspect.
|
|
See slink:VkSparseMemoryBind for the full constraints on binding region with
|
|
this flag present.
|
|
==================
|
|
|
|
ifdef::editing-notes[]
|
|
[NOTE]
|
|
.editing-note
|
|
====
|
|
(Jon) The preceding NOTE refers to pname:flags, which is presumably a
|
|
reference to slink:VkSparseMemoryBind above, even though that is not
|
|
contextually clear.
|
|
====
|
|
endif::editing-notes[]
|
|
|
|
[open,refpage='VkSparseImageMemoryBindInfo',desc='Structure specifying sparse image memory bind info',type='structs']
|
|
--
|
|
|
|
Memory can: be bound to sparse image blocks of sname:VkImage objects created
|
|
with the ename:VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT flag using the following
|
|
structure:
|
|
|
|
include::../api/structs/VkSparseImageMemoryBindInfo.txt[]
|
|
|
|
* pname:image is the sname:VkImage object to be bound
|
|
* pname:bindCount is the number of sname:VkSparseImageMemoryBind
|
|
structures in pBinds array
|
|
* pname:pBinds is a pointer to array of sname:VkSparseImageMemoryBind
|
|
structures
|
|
|
|
.Valid Usage
|
|
****
|
|
* The slink:VkSparseImageMemoryBind::pname:subresource::pname:mipLevel
|
|
members of the elements of the pname:pBinds array must: each be less
|
|
than the pname:mipLevels specified in slink:VkImageCreateInfo when
|
|
pname:image was created
|
|
* The slink:VkSparseImageMemoryBind::pname:subresource::pname:arrayLayer
|
|
members of the elements of the pname:pBinds array must: each be less
|
|
than the pname:arrayLayers specified in slink:VkImageCreateInfo when
|
|
pname:image was created
|
|
****
|
|
|
|
include::../validity/structs/VkSparseImageMemoryBindInfo.txt[]
|
|
--
|
|
|
|
[open,refpage='VkSparseImageMemoryBind',desc='Structure specifying sparse image memory bind',type='structs']
|
|
--
|
|
|
|
The sname:VkSparseImageMemoryBind structure is defined as:
|
|
|
|
include::../api/structs/VkSparseImageMemoryBind.txt[]
|
|
|
|
* pname:subresource is the aspectMask and region of interest in the image.
|
|
* pname:offset are the coordinates of the first texel within the image
|
|
subresource to bind.
|
|
* pname:extent is the size in texels of the region within the image
|
|
subresource to bind.
|
|
The extent must: be a multiple of the sparse image block dimensions,
|
|
except when binding sparse image blocks along the edge of an image
|
|
subresource it can: instead be such that any coordinate of
|
|
[eq]#pname:offset {plus} pname:extent# equals the corresponding
|
|
dimensions of the image subresource.
|
|
* pname:memory is the sname:VkDeviceMemory object that the sparse image
|
|
blocks of the image are bound to.
|
|
If pname:memory is dlink:VK_NULL_HANDLE, the sparse image blocks are
|
|
unbound.
|
|
* pname:memoryOffset is an offset into sname:VkDeviceMemory object.
|
|
If pname:memory is dlink:VK_NULL_HANDLE, this value is ignored.
|
|
* pname:flags are sparse memory binding flags.
|
|
|
|
.Valid Usage
|
|
****
|
|
* [[VUID-VkSparseImageMemoryBind-memory-01104]]
|
|
If the <<features-features-sparseResidencyAliased,sparse aliased
|
|
residency>> feature is not enabled, and if any other resources are bound
|
|
to ranges of pname:memory, the range of pname:memory being bound must:
|
|
not overlap with those bound ranges
|
|
* [[VUID-VkSparseImageMemoryBind-memory-01105]]
|
|
pname:memory and pname:memoryOffset must: match the memory requirements
|
|
of the calling command's pname:image, as described in section
|
|
<<resources-association>>
|
|
* [[VUID-VkSparseImageMemoryBind-subresource-01106]]
|
|
pname:subresource must: be a valid image subresource for pname:image
|
|
(see <<resources-image-views>>)
|
|
* [[VUID-VkSparseImageMemoryBind-offset-01107]]
|
|
pname:offset.x must: be a multiple of the sparse image block width
|
|
(sname:VkSparseImageFormatProperties::pname:imageGranularity.width) of
|
|
the image
|
|
* [[VUID-VkSparseImageMemoryBind-extent-01108]]
|
|
pname:extent.width must: either be a multiple of the sparse image block
|
|
width of the image, or else [eq]#(pname:extent.width {plus}
|
|
pname:offset.x)# must: equal the width of the image subresource
|
|
* [[VUID-VkSparseImageMemoryBind-offset-01109]]
|
|
pname:offset.y must: be a multiple of the sparse image block height
|
|
(sname:VkSparseImageFormatProperties::pname:imageGranularity.height) of
|
|
the image
|
|
* [[VUID-VkSparseImageMemoryBind-extent-01110]]
|
|
pname:extent.height must: either be a multiple of the sparse image block
|
|
height of the image, or else [eq]#(pname:extent.height {plus}
|
|
pname:offset.y)# must: equal the height of the image subresource
|
|
* [[VUID-VkSparseImageMemoryBind-offset-01111]]
|
|
pname:offset.z must: be a multiple of the sparse image block depth
|
|
(sname:VkSparseImageFormatProperties::pname:imageGranularity.depth) of
|
|
the image
|
|
* [[VUID-VkSparseImageMemoryBind-extent-01112]]
|
|
pname:extent.depth must: either be a multiple of the sparse image block
|
|
depth of the image, or else [eq]#(pname:extent.depth {plus}
|
|
pname:offset.z)# must: equal the depth of the image subresource
|
|
****
|
|
|
|
include::../validity/structs/VkSparseImageMemoryBind.txt[]
|
|
--
|
|
|
|
[open,refpage='vkQueueBindSparse',desc='Bind device memory to a sparse resource object',type='protos']
|
|
--
|
|
|
|
To submit sparse binding operations to a queue, call:
|
|
|
|
include::../api/protos/vkQueueBindSparse.txt[]
|
|
|
|
* pname:queue is the queue that the sparse binding operations will be
|
|
submitted to.
|
|
* pname:bindInfoCount is the number of elements in the pname:pBindInfo
|
|
array.
|
|
* pname:pBindInfo is an array of slink:VkBindSparseInfo structures, each
|
|
specifying a sparse binding submission batch.
|
|
* pname:fence is an optional: handle to a fence to be signaled.
|
|
If pname:fence is not dlink:VK_NULL_HANDLE, it defines a
|
|
<<synchronization-fences-signaling, fence signal operation>>.
|
|
|
|
fname:vkQueueBindSparse is a <<devsandqueues-submission,queue submission
|
|
command>>, with each batch defined by an element of pname:pBindInfo as an
|
|
instance of the slink:VkBindSparseInfo structure.
|
|
Batches begin execution in the order they appear in pname:pBindInfo, but
|
|
may: complete out of order.
|
|
|
|
Within a batch, a given range of a resource must: not be bound more than
|
|
once.
|
|
Across batches, if a range is to be bound to one allocation and offset and
|
|
then to another allocation and offset, then the application must: guarantee
|
|
(usually using semaphores) that the binding operations are executed in the
|
|
correct order, as well as to order binding operations against the execution
|
|
of command buffer submissions.
|
|
|
|
As no operation to flink:vkQueueBindSparse causes any pipeline stage to
|
|
access memory, synchronization primitives used in this command effectively
|
|
only define execution dependencies.
|
|
|
|
Additional information about fence and semaphore operation is described in
|
|
<<synchronization, the synchronization chapter>>.
|
|
|
|
.Valid Usage
|
|
****
|
|
* [[VUID-vkQueueBindSparse-fence-01113]]
|
|
If pname:fence is not dlink:VK_NULL_HANDLE, pname:fence must: be
|
|
unsignaled
|
|
* [[VUID-vkQueueBindSparse-fence-01114]]
|
|
If pname:fence is not dlink:VK_NULL_HANDLE, pname:fence must: not be
|
|
associated with any other queue command that has not yet completed
|
|
execution on that queue
|
|
* [[VUID-vkQueueBindSparse-pSignalSemaphores-01115]]
|
|
Each element of the pname:pSignalSemaphores member of each element of
|
|
pname:pBindInfo must: be unsignaled when the semaphore signal operation
|
|
it defines is executed on the device
|
|
* [[VUID-vkQueueBindSparse-pWaitSemaphores-01116]]
|
|
When a semaphore unsignal operation defined by any element of the
|
|
pname:pWaitSemaphores member of any element of pname:pBindInfo executes
|
|
on pname:queue, no other queue must: be waiting on the same semaphore.
|
|
* [[VUID-vkQueueBindSparse-pWaitSemaphores-01117]]
|
|
All elements of the pname:pWaitSemaphores member of all elements of
|
|
pname:pBindInfo must: be semaphores that are signaled, or have
|
|
<<synchronization-semaphores-signaling, semaphore signal operations>>
|
|
previously submitted for execution.
|
|
****
|
|
|
|
include::../validity/protos/vkQueueBindSparse.txt[]
|
|
--
|
|
|
|
[open,refpage='VkBindSparseInfo',desc='Structure specifying a sparse binding operation',type='structs']
|
|
--
|
|
|
|
The sname:VkBindSparseInfo structure is defined as:
|
|
|
|
include::../api/structs/VkBindSparseInfo.txt[]
|
|
|
|
* pname:sType is the type of this structure.
|
|
* pname:pNext is `NULL` or a pointer to an extension-specific structure.
|
|
* pname:waitSemaphoreCount is the number of semaphores upon which to wait
|
|
before executing the sparse binding operations for the batch.
|
|
* pname:pWaitSemaphores is a pointer to an array of semaphores upon which
|
|
to wait on before the sparse binding operations for this batch begin
|
|
execution.
|
|
If semaphores to wait on are provided, they define a
|
|
<<synchronization-semaphores-waiting, semaphore wait operation>>.
|
|
* pname:bufferBindCount is the number of sparse buffer bindings to perform
|
|
in the batch.
|
|
* pname:pBufferBinds is a pointer to an array of
|
|
slink:VkSparseBufferMemoryBindInfo structures.
|
|
* pname:imageOpaqueBindCount is the number of opaque sparse image bindings
|
|
to perform.
|
|
* pname:pImageOpaqueBinds is a pointer to an array of
|
|
slink:VkSparseImageOpaqueMemoryBindInfo structures, indicating opaque
|
|
sparse image bindings to perform.
|
|
* pname:imageBindCount is the number of sparse image bindings to perform.
|
|
* pname:pImageBinds is a pointer to an array of
|
|
slink:VkSparseImageMemoryBindInfo structures, indicating sparse image
|
|
bindings to perform.
|
|
* pname:signalSemaphoreCount is the number of semaphores to be signaled
|
|
once the sparse binding operations specified by the structure have
|
|
completed execution.
|
|
* pname:pSignalSemaphores is a pointer to an array of semaphores which
|
|
will be signaled when the sparse binding operations for this batch have
|
|
completed execution.
|
|
If semaphores to be signaled are provided, they define a
|
|
<<synchronization-semaphores-signaling, semaphore signal operation>>.
|
|
|
|
include::../validity/structs/VkBindSparseInfo.txt[]
|
|
--
|
|
|
|
ifdef::VK_KHX_device_group[]
|
|
|
|
[open,refpage='VkDeviceGroupBindSparseInfoKHX',desc='Structure indicating which instances are bound',type='structs']
|
|
--
|
|
|
|
If the pname:pNext chain of slink:VkBindSparseInfo includes a
|
|
sname:VkDeviceGroupBindSparseInfoKHX structure, then that structure includes
|
|
device indices specifying which instance of the resources and memory are
|
|
bound.
|
|
|
|
The sname:VkDeviceGroupBindSparseInfoKHX structure is defined as:
|
|
|
|
include::../api/structs/VkDeviceGroupBindSparseInfoKHX.txt[]
|
|
|
|
* pname:sType is the type of this structure.
|
|
* pname:pNext is `NULL` or a pointer to an extension-specific structure.
|
|
* pname:resourceDeviceIndex is a device index indicating which instance of
|
|
the resource is bound.
|
|
* pname:memoryDeviceIndex is a device index indicating which instance of
|
|
the memory the resource instance is bound to.
|
|
|
|
These device indices apply to all buffer and image memory binds included in
|
|
the batch that points to this structure.
|
|
The semaphore waits and signals for the batch are executed only by the
|
|
physical device specified by the pname:resourceDeviceIndex.
|
|
|
|
If this structure is not present, pname:resourceDeviceIndex and
|
|
pname:memoryDeviceIndex are assumed to be zero.
|
|
|
|
.Valid Usage
|
|
****
|
|
* [[VUID-VkDeviceGroupBindSparseInfoKHX-resourceDeviceIndex-01118]]
|
|
pname:resourceDeviceIndex and pname:memoryDeviceIndex must: both be
|
|
valid device indices.
|
|
* [[VUID-VkDeviceGroupBindSparseInfoKHX-memoryDeviceIndex-01119]]
|
|
Each memory allocation bound in this batch must: have allocated an
|
|
instance for pname:memoryDeviceIndex.
|
|
****
|
|
|
|
include::../validity/structs/VkDeviceGroupBindSparseInfoKHX.txt[]
|
|
|
|
--
|
|
|
|
endif::VK_KHX_device_group[]
|
|
|
|
|
|
[[sparsememory-examples]]
|
|
== Examples
|
|
|
|
The following examples illustrate basic creation of sparse images and
|
|
binding them to physical memory.
|
|
|
|
|
|
[[sparsememory-examples-basic]]
|
|
=== Basic Sparse Resources
|
|
|
|
This basic example creates a normal sname:VkImage object but uses
|
|
fine-grained memory allocation to back the resource with multiple memory
|
|
ranges.
|
|
|
|
[source,c++]
|
|
---------------------------------------------------
|
|
VkDevice device;
|
|
VkQueue queue;
|
|
VkImage sparseImage;
|
|
VkAllocationCallbacks* pAllocator = NULL;
|
|
VkMemoryRequirements memoryRequirements = {};
|
|
VkDeviceSize offset = 0;
|
|
VkSparseMemoryBind binds[MAX_CHUNKS] = {}; // MAX_CHUNKS is NOT part of Vulkan
|
|
uint32_t bindCount = 0;
|
|
|
|
// ...
|
|
|
|
// Allocate image object
|
|
const VkImageCreateInfo sparseImageInfo =
|
|
{
|
|
VK_STRUCTURE_TYPE_IMAGE_CREATE_INFO, // sType
|
|
NULL, // pNext
|
|
VK_IMAGE_CREATE_SPARSE_BINDING_BIT | ..., // flags
|
|
...
|
|
};
|
|
vkCreateImage(device, &sparseImageInfo, pAllocator, &sparseImage);
|
|
|
|
// Get memory requirements
|
|
vkGetImageMemoryRequirements(
|
|
device,
|
|
sparseImage,
|
|
&memoryRequirements);
|
|
|
|
// Bind memory in fine-grained fashion, find available memory ranges
|
|
// from potentially multiple VkDeviceMemory pools.
|
|
// (Illustration purposes only, can be optimized for perf)
|
|
while (memoryRequirements.size && bindCount < MAX_CHUNKS)
|
|
{
|
|
VkSparseMemoryBind* pBind = &binds[bindCount];
|
|
pBind->resourceOffset = offset;
|
|
|
|
AllocateOrGetMemoryRange(
|
|
device,
|
|
&memoryRequirements,
|
|
&pBind->memory,
|
|
&pBind->memoryOffset,
|
|
&pBind->size);
|
|
|
|
// memory ranges must be sized as multiples of the alignment
|
|
assert(IsMultiple(pBind->size, memoryRequirements.alignment));
|
|
assert(IsMultiple(pBind->memoryOffset, memoryRequirements.alignment));
|
|
|
|
memoryRequirements.size -= pBind->size;
|
|
offset += pBind->size;
|
|
bindCount++;
|
|
}
|
|
|
|
// Ensure all image has backing
|
|
if (memoryRequirements.size)
|
|
{
|
|
// Error condition - too many chunks
|
|
}
|
|
|
|
const VkSparseImageOpaqueMemoryBindInfo opaqueBindInfo =
|
|
{
|
|
sparseImage, // image
|
|
bindCount, // bindCount
|
|
binds // pBinds
|
|
};
|
|
|
|
const VkBindSparseInfo bindSparseInfo =
|
|
{
|
|
VK_STRUCTURE_TYPE_BIND_SPARSE_INFO, // sType
|
|
NULL, // pNext
|
|
...
|
|
1, // imageOpaqueBindCount
|
|
&opaqueBindInfo, // pImageOpaqueBinds
|
|
...
|
|
};
|
|
|
|
// vkQueueBindSparse is externally synchronized per queue object.
|
|
AcquireQueueOwnership(queue);
|
|
|
|
// Actually bind memory
|
|
vkQueueBindSparse(queue, 1, &bindSparseInfo, VK_NULL_HANDLE);
|
|
|
|
ReleaseQueueOwnership(queue);
|
|
---------------------------------------------------
|
|
|
|
|
|
[[sparsememory-examples-advanced]]
|
|
=== Advanced Sparse Resources
|
|
|
|
This more advanced example creates an arrayed color attachment / texture
|
|
image and binds only LOD zero and the required: metadata to physical memory.
|
|
|
|
[source,c++]
|
|
---------------------------------------------------
|
|
VkDevice device;
|
|
VkQueue queue;
|
|
VkImage sparseImage;
|
|
VkAllocationCallbacks* pAllocator = NULL;
|
|
VkMemoryRequirements memoryRequirements = {};
|
|
uint32_t sparseRequirementsCount = 0;
|
|
VkSparseImageMemoryRequirements* pSparseReqs = NULL;
|
|
VkSparseMemoryBind binds[MY_IMAGE_ARRAY_SIZE] = {};
|
|
VkSparseImageMemoryBind imageBinds[MY_IMAGE_ARRAY_SIZE] = {};
|
|
uint32_t bindCount = 0;
|
|
|
|
// Allocate image object (both renderable and sampleable)
|
|
const VkImageCreateInfo sparseImageInfo =
|
|
{
|
|
VK_STRUCTURE_TYPE_IMAGE_CREATE_INFO, // sType
|
|
NULL, // pNext
|
|
VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT | ..., // flags
|
|
...
|
|
VK_FORMAT_R8G8B8A8_UNORM, // format
|
|
...
|
|
MY_IMAGE_ARRAY_SIZE, // arrayLayers
|
|
...
|
|
VK_IMAGE_USAGE_COLOR_ATTACHMENT_BIT |
|
|
VK_IMAGE_USAGE_SAMPLED_BIT, // usage
|
|
...
|
|
};
|
|
vkCreateImage(device, &sparseImageInfo, pAllocator, &sparseImage);
|
|
|
|
// Get memory requirements
|
|
vkGetImageMemoryRequirements(
|
|
device,
|
|
sparseImage,
|
|
&memoryRequirements);
|
|
|
|
// Get sparse image aspect properties
|
|
vkGetImageSparseMemoryRequirements(
|
|
device,
|
|
sparseImage,
|
|
&sparseRequirementsCount,
|
|
NULL);
|
|
|
|
pSparseReqs = (VkSparseImageMemoryRequirements*)
|
|
malloc(sparseRequirementsCount * sizeof(VkSparseImageMemoryRequirements));
|
|
|
|
vkGetImageSparseMemoryRequirements(
|
|
device,
|
|
sparseImage,
|
|
&sparseRequirementsCount,
|
|
pSparseReqs);
|
|
|
|
// Bind LOD level 0 and any required metadata to memory
|
|
for (uint32_t i = 0; i < sparseRequirementsCount; ++i)
|
|
{
|
|
if (pSparseReqs[i].formatProperties.aspectMask &
|
|
VK_IMAGE_ASPECT_METADATA_BIT)
|
|
{
|
|
// Metadata must not be combined with other aspects
|
|
assert(pSparseReqs[i].formatProperties.aspectMask ==
|
|
VK_IMAGE_ASPECT_METADATA_BIT);
|
|
|
|
if (pSparseReqs[i].formatProperties.flags &
|
|
VK_SPARSE_IMAGE_FORMAT_SINGLE_MIPTAIL_BIT)
|
|
{
|
|
VkSparseMemoryBind* pBind = &binds[bindCount];
|
|
pBind->memorySize = pSparseReqs[i].imageMipTailSize;
|
|
bindCount++;
|
|
|
|
// ... Allocate memory range
|
|
|
|
pBind->resourceOffset = pSparseReqs[i].imageMipTailOffset;
|
|
pBind->memoryOffset = /* allocated memoryOffset */;
|
|
pBind->memory = /* allocated memory */;
|
|
pBind->flags = VK_SPARSE_MEMORY_BIND_METADATA_BIT;
|
|
|
|
}
|
|
else
|
|
{
|
|
// Need a mip tail region per array layer.
|
|
for (uint32_t a = 0; a < sparseImageInfo.arrayLayers; ++a)
|
|
{
|
|
VkSparseMemoryBind* pBind = &binds[bindCount];
|
|
pBind->memorySize = pSparseReqs[i].imageMipTailSize;
|
|
bindCount++;
|
|
|
|
// ... Allocate memory range
|
|
|
|
pBind->resourceOffset = pSparseReqs[i].imageMipTailOffset +
|
|
(a * pSparseReqs[i].imageMipTailStride);
|
|
|
|
pBind->memoryOffset = /* allocated memoryOffset */;
|
|
pBind->memory = /* allocated memory */
|
|
pBind->flags = VK_SPARSE_MEMORY_BIND_METADATA_BIT;
|
|
}
|
|
}
|
|
}
|
|
else
|
|
{
|
|
// resource data
|
|
VkExtent3D lod0BlockSize =
|
|
{
|
|
AlignedDivide(
|
|
sparseImageInfo.extent.width,
|
|
pSparseReqs[i].formatProperties.imageGranularity.width);
|
|
AlignedDivide(
|
|
sparseImageInfo.extent.height,
|
|
pSparseReqs[i].formatProperties.imageGranularity.height);
|
|
AlignedDivide(
|
|
sparseImageInfo.extent.depth,
|
|
pSparseReqs[i].formatProperties.imageGranularity.depth);
|
|
}
|
|
size_t totalBlocks =
|
|
lod0BlockSize.width *
|
|
lod0BlockSize.height *
|
|
lod0BlockSize.depth;
|
|
|
|
// Each block is the same size as the alignment requirement,
|
|
// calculate total memory size for level 0
|
|
VkDeviceSize lod0MemSize = totalBlocks * memoryRequirements.alignment;
|
|
|
|
// Allocate memory for each array layer
|
|
for (uint32_t a = 0; a < sparseImageInfo.arrayLayers; ++a)
|
|
{
|
|
// ... Allocate memory range
|
|
|
|
VkSparseImageMemoryBind* pBind = &imageBinds[a];
|
|
pBind->subresource.aspectMask = pSparseReqs[i].formatProperties.aspectMask;
|
|
pBind->subresource.mipLevel = 0;
|
|
pBind->subresource.arrayLayer = a;
|
|
|
|
pBind->offset = (VkOffset3D){0, 0, 0};
|
|
pBind->extent = sparseImageInfo.extent;
|
|
pBind->memoryOffset = /* allocated memoryOffset */;
|
|
pBind->memory = /* allocated memory */;
|
|
pBind->flags = 0;
|
|
}
|
|
}
|
|
|
|
free(pSparseReqs);
|
|
}
|
|
|
|
const VkSparseImageOpaqueMemoryBindInfo opaqueBindInfo =
|
|
{
|
|
sparseImage, // image
|
|
bindCount, // bindCount
|
|
binds // pBinds
|
|
};
|
|
|
|
const VkSparseImageMemoryBindInfo imageBindInfo =
|
|
{
|
|
sparseImage, // image
|
|
sparseImageInfo.arrayLayers, // bindCount
|
|
imageBinds // pBinds
|
|
};
|
|
|
|
const VkBindSparseInfo bindSparseInfo =
|
|
{
|
|
VK_STRUCTURE_TYPE_BIND_SPARSE_INFO, // sType
|
|
NULL, // pNext
|
|
...
|
|
1, // imageOpaqueBindCount
|
|
&opaqueBindInfo, // pImageOpaqueBinds
|
|
1, // imageBindCount
|
|
&imageBindInfo, // pImageBinds
|
|
...
|
|
};
|
|
|
|
// vkQueueBindSparse is externally synchronized per queue object.
|
|
AcquireQueueOwnership(queue);
|
|
|
|
// Actually bind memory
|
|
vkQueueBindSparse(queue, 1, &bindSparseInfo, VK_NULL_HANDLE);
|
|
|
|
ReleaseQueueOwnership(queue);
|
|
---------------------------------------------------
|