void RenderIndirectDiffusePerformance(HDCamera hdCamera, CommandBuffer cmd, ScriptableRenderContext renderContext, int frameCount)
        {
            // Fetch the required resources
            var       settings  = hdCamera.volumeStack.GetComponent <GlobalIllumination>();
            BlueNoise blueNoise = GetBlueNoiseManager();

            // Fetch all the settings
            LightCluster       lightClusterSettings = hdCamera.volumeStack.GetComponent <LightCluster>();
            RayTracingSettings rtSettings           = hdCamera.volumeStack.GetComponent <RayTracingSettings>();

            ComputeShader indirectDiffuseCS = m_Asset.renderPipelineRayTracingResources.indirectDiffuseRaytracingCS;

            // Request the intermediate texture we will be using
            RTHandle directionBuffer     = GetRayTracingBuffer(InternalRayTracingBuffers.Direction);
            RTHandle intermediateBuffer1 = GetRayTracingBuffer(InternalRayTracingBuffers.RGBA1);

            using (new ProfilingScope(cmd, ProfilingSampler.Get(HDProfileId.RaytracingIntegrateIndirectDiffuse)))
            {
                // Fetch the new sample kernel
                int currentKernel = indirectDiffuseCS.FindKernel(settings.fullResolution.value ? "RaytracingIndirectDiffuseFullRes" : "RaytracingIndirectDiffuseHalfRes");

                // Inject the ray-tracing sampling data
                blueNoise.BindDitheredRNGData8SPP(cmd);

                // Bind all the required textures
                cmd.SetComputeTextureParam(indirectDiffuseCS, currentKernel, HDShaderIDs._DepthTexture, m_SharedRTManager.GetDepthStencilBuffer());
                cmd.SetComputeTextureParam(indirectDiffuseCS, currentKernel, HDShaderIDs._NormalBufferTexture, m_SharedRTManager.GetNormalBuffer());

                // Bind all the required scalars
                cmd.SetComputeFloatParam(indirectDiffuseCS, HDShaderIDs._RaytracingIntensityClamp, settings.clampValue.value);

                // Bind the sampling data
                int frameIndex = RayTracingFrameIndex(hdCamera);
                cmd.SetComputeIntParam(indirectDiffuseCS, HDShaderIDs._RaytracingFrameIndex, frameIndex);

                // Bind the output buffers
                cmd.SetComputeTextureParam(indirectDiffuseCS, currentKernel, HDShaderIDs._RaytracingDirectionBuffer, directionBuffer);

                // Texture dimensions
                int texWidth  = hdCamera.actualWidth;
                int texHeight = hdCamera.actualHeight;

                // Evaluate the dispatch parameters
                int areaTileSize = 8;
                int numTilesXHR  = (texWidth + (areaTileSize - 1)) / areaTileSize;
                int numTilesYHR  = (texHeight + (areaTileSize - 1)) / areaTileSize;

                // Compute the directions
                cmd.DispatchCompute(indirectDiffuseCS, currentKernel, numTilesXHR, numTilesYHR, hdCamera.viewCount);

                // Prepare the components for the deferred lighting
                DeferredLightingRTParameters deferredParamters = PrepareIndirectDiffuseDeferredLightingRTParameters(hdCamera);
                DeferredLightingRTResources  deferredResources = PrepareDeferredLightingRTResources(hdCamera, directionBuffer, m_IndirectDiffuseBuffer);

                // Evaluate the deferred lighting
                RenderRaytracingDeferredLighting(cmd, deferredParamters, deferredResources);
            }

            using (new ProfilingScope(cmd, ProfilingSampler.Get(HDProfileId.RaytracingFilterIndirectDiffuse)))
            {
                // Fetch the right filter to use
                int currentKernel = indirectDiffuseCS.FindKernel(settings.fullResolution.value ? "IndirectDiffuseIntegrationUpscaleFullRes" : "IndirectDiffuseIntegrationUpscaleHalfRes");

                // Inject all the parameters for the compute
                cmd.SetComputeTextureParam(indirectDiffuseCS, currentKernel, HDShaderIDs._DepthTexture, m_SharedRTManager.GetDepthStencilBuffer());
                cmd.SetComputeTextureParam(indirectDiffuseCS, currentKernel, HDShaderIDs._NormalBufferTexture, m_SharedRTManager.GetNormalBuffer());
                cmd.SetComputeTextureParam(indirectDiffuseCS, currentKernel, HDShaderIDs._IndirectDiffuseTexture, m_IndirectDiffuseBuffer);
                cmd.SetComputeTextureParam(indirectDiffuseCS, currentKernel, HDShaderIDs._RaytracingDirectionBuffer, directionBuffer);
                cmd.SetComputeTextureParam(indirectDiffuseCS, currentKernel, HDShaderIDs._BlueNoiseTexture, blueNoise.textureArray16RGB);
                cmd.SetComputeTextureParam(indirectDiffuseCS, currentKernel, HDShaderIDs._UpscaledIndirectDiffuseTextureRW, intermediateBuffer1);
                cmd.SetComputeTextureParam(indirectDiffuseCS, currentKernel, HDShaderIDs._ScramblingTexture, m_Asset.renderPipelineResources.textures.scramblingTex);
                cmd.SetComputeIntParam(indirectDiffuseCS, HDShaderIDs._SpatialFilterRadius, settings.upscaleRadius.value);

                // Texture dimensions
                int texWidth  = hdCamera.actualWidth;
                int texHeight = hdCamera.actualHeight;

                // Evaluate the dispatch parameters
                int areaTileSize = 8;
                int numTilesXHR  = (texWidth + (areaTileSize - 1)) / areaTileSize;
                int numTilesYHR  = (texHeight + (areaTileSize - 1)) / areaTileSize;

                // Compute the texture
                cmd.DispatchCompute(indirectDiffuseCS, currentKernel, numTilesXHR, numTilesYHR, hdCamera.viewCount);

                // Copy the data back to the right buffer
                HDUtils.BlitCameraTexture(cmd, intermediateBuffer1, m_IndirectDiffuseBuffer);

                // Denoise if required
                if (settings.denoise.value)
                {
                    DenoiseIndirectDiffuseBuffer(hdCamera, cmd, settings);
                }
            }
        }
        public void RenderReflectionsT1(HDCamera hdCamera, CommandBuffer cmd, RTHandle outputTexture, ScriptableRenderContext renderContext, int frameCount)
        {
            // Fetch the required resources
            HDRaytracingEnvironment rtEnvironment = m_RayTracingManager.CurrentEnvironment();
            BlueNoise        blueNoise            = m_RayTracingManager.GetBlueNoiseManager();
            RayTracingShader reflectionShaderRT   = m_Asset.renderPipelineRayTracingResources.reflectionRaytracingRT;
            ComputeShader    reflectionShaderCS   = m_Asset.renderPipelineRayTracingResources.reflectionRaytracingCS;
            ComputeShader    reflectionFilter     = m_Asset.renderPipelineRayTracingResources.reflectionBilateralFilterCS;

            // Fetch all the settings
            var          settings             = VolumeManager.instance.stack.GetComponent <ScreenSpaceReflection>();
            LightCluster lightClusterSettings = VolumeManager.instance.stack.GetComponent <LightCluster>();

            if (settings.deferredMode.value)
            {
                // Fetch the new sample kernel
                int currentKernel = reflectionShaderCS.FindKernel(settings.fullResolution.value ? "RaytracingReflectionsFullRes" : "RaytracingReflectionsHalfRes");

                // Inject the ray-tracing sampling data
                blueNoise.BindDitheredRNGData8SPP(cmd);

                // Bind all the required textures
                cmd.SetComputeTextureParam(reflectionShaderCS, currentKernel, HDShaderIDs._DepthTexture, m_SharedRTManager.GetDepthStencilBuffer());
                cmd.SetComputeTextureParam(reflectionShaderCS, currentKernel, HDShaderIDs._NormalBufferTexture, m_SharedRTManager.GetNormalBuffer());
                RenderTargetIdentifier clearCoatMaskTexture = hdCamera.frameSettings.litShaderMode == LitShaderMode.Deferred ? m_GbufferManager.GetBuffersRTI()[2] : TextureXR.GetBlackTexture();
                cmd.SetComputeTextureParam(reflectionShaderCS, currentKernel, HDShaderIDs._SsrClearCoatMaskTexture, clearCoatMaskTexture);

                // Bind all the required scalars
                cmd.SetComputeFloatParam(reflectionShaderCS, HDShaderIDs._RaytracingIntensityClamp, settings.clampValue.value);
                cmd.SetComputeFloatParam(reflectionShaderCS, HDShaderIDs._RaytracingReflectionMinSmoothness, settings.minSmoothness.value);
                cmd.SetComputeIntParam(reflectionShaderCS, HDShaderIDs._RaytracingIncludeSky, settings.reflectSky.value ? 1 : 0);

                // Bind the sampling data
                int frameIndex = hdCamera.IsTAAEnabled() ? hdCamera.taaFrameIndex : (int)m_FrameCount % 8;
                cmd.SetComputeIntParam(reflectionShaderCS, HDShaderIDs._RaytracingFrameIndex, frameIndex);

                // Bind the output buffers
                cmd.SetComputeTextureParam(reflectionShaderCS, currentKernel, HDShaderIDs._RaytracingDirectionBuffer, m_ReflIntermediateTexture1);

                // Texture dimensions
                int texWidth  = hdCamera.actualWidth;
                int texHeight = hdCamera.actualHeight;

                if (settings.fullResolution.value)
                {
                    // Evaluate the dispatch parameters
                    int areaTileSize = 8;
                    int numTilesXHR  = (texWidth + (areaTileSize - 1)) / areaTileSize;
                    int numTilesYHR  = (texHeight + (areaTileSize - 1)) / areaTileSize;

                    // Compute the directions
                    cmd.DispatchCompute(reflectionShaderCS, currentKernel, numTilesXHR, numTilesYHR, hdCamera.viewCount);
                }
                else
                {
                    // Evaluate the dispatch parameters
                    int areaTileSize = 8;
                    int numTilesXHR  = (texWidth / 2 + (areaTileSize - 1)) / areaTileSize;
                    int numTilesYHR  = (texHeight / 2 + (areaTileSize - 1)) / areaTileSize;

                    // Compute the directions
                    cmd.DispatchCompute(reflectionShaderCS, currentKernel, numTilesXHR, numTilesYHR, hdCamera.viewCount);
                }
                // Prepare the components for the deferred lighting
                DeferredLightingRTParameters deferredParamters = PrepareReflectionDeferredLightingRTParameters(hdCamera, rtEnvironment);
                DeferredLightingRTResources  deferredResources = PrepareDeferredLightingRTResources(m_ReflIntermediateTexture1, m_ReflIntermediateTexture0);

                // Evaluate the deferred lighting
                RenderRaytracingDeferredLighting(cmd, deferredParamters, deferredResources);
            }
            else
            {
                // Bind all the required data for ray tracing
                BindRayTracedReflectionData(cmd, hdCamera, rtEnvironment, reflectionShaderRT, settings, lightClusterSettings);

                // Run the computation
                if (settings.fullResolution.value)
                {
                    cmd.DispatchRays(reflectionShaderRT, m_RayGenReflectionFullResName, (uint)hdCamera.actualWidth, (uint)hdCamera.actualHeight, (uint)hdCamera.viewCount);
                }
                else
                {
                    // Run the computation
                    cmd.DispatchRays(reflectionShaderRT, m_RayGenReflectionHalfResName, (uint)(hdCamera.actualWidth / 2), (uint)(hdCamera.actualHeight / 2), (uint)hdCamera.viewCount);
                }
            }

            using (new ProfilingSample(cmd, "Filter Reflection", CustomSamplerId.RaytracingFilterReflection.GetSampler()))
            {
                // Fetch the right filter to use
                int currentKernel = 0;
                if (settings.fullResolution.value)
                {
                    currentKernel = reflectionFilter.FindKernel("ReflectionIntegrationUpscaleFullRes");
                }
                else
                {
                    currentKernel = reflectionFilter.FindKernel("ReflectionIntegrationUpscaleHalfRes");
                }

                // Inject all the parameters for the compute
                cmd.SetComputeTextureParam(reflectionFilter, currentKernel, HDShaderIDs._SsrLightingTextureRW, m_ReflIntermediateTexture0);
                cmd.SetComputeTextureParam(reflectionFilter, currentKernel, HDShaderIDs._SsrHitPointTexture, m_ReflIntermediateTexture1);
                cmd.SetComputeTextureParam(reflectionFilter, currentKernel, HDShaderIDs._DepthTexture, m_SharedRTManager.GetDepthStencilBuffer());
                cmd.SetComputeTextureParam(reflectionFilter, currentKernel, HDShaderIDs._NormalBufferTexture, m_SharedRTManager.GetNormalBuffer());
                cmd.SetComputeTextureParam(reflectionFilter, currentKernel, HDShaderIDs._BlueNoiseTexture, blueNoise.textureArray16RGB);
                cmd.SetComputeTextureParam(reflectionFilter, currentKernel, "_RaytracingReflectionTexture", outputTexture);
                cmd.SetComputeTextureParam(reflectionFilter, currentKernel, HDShaderIDs._ScramblingTexture, m_Asset.renderPipelineResources.textures.scramblingTex);
                cmd.SetComputeIntParam(reflectionFilter, HDShaderIDs._SpatialFilterRadius, settings.upscaleRadius.value);
                cmd.SetComputeIntParam(reflectionFilter, HDShaderIDs._RaytracingDenoiseRadius, settings.denoise.value ? settings.denoiserRadius.value : 0);
                cmd.SetComputeFloatParam(reflectionFilter, HDShaderIDs._RaytracingReflectionMinSmoothness, settings.minSmoothness.value);

                // Texture dimensions
                int texWidth  = hdCamera.actualWidth;
                int texHeight = hdCamera.actualHeight;

                // Evaluate the dispatch parameters
                int areaTileSize = 8;
                int numTilesXHR  = (texWidth + (areaTileSize - 1)) / areaTileSize;
                int numTilesYHR  = (texHeight + (areaTileSize - 1)) / areaTileSize;

                // Bind the right texture for clear coat support
                RenderTargetIdentifier clearCoatMaskTexture = hdCamera.frameSettings.litShaderMode == LitShaderMode.Deferred ? m_GbufferManager.GetBuffersRTI()[2] : TextureXR.GetBlackTexture();
                cmd.SetComputeTextureParam(reflectionFilter, currentKernel, HDShaderIDs._SsrClearCoatMaskTexture, clearCoatMaskTexture);

                // Compute the texture
                cmd.DispatchCompute(reflectionFilter, currentKernel, numTilesXHR, numTilesYHR, hdCamera.viewCount);

                using (new ProfilingSample(cmd, "Filter Reflection", CustomSamplerId.RaytracingFilterReflection.GetSampler()))
                {
                    if (settings.denoise.value)
                    {
                        // Grab the history buffer
                        RTHandle reflectionHistory = hdCamera.GetCurrentFrameRT((int)HDCameraFrameHistoryType.RaytracedReflection)
                                                     ?? hdCamera.AllocHistoryFrameRT((int)HDCameraFrameHistoryType.RaytracedReflection, ReflectionHistoryBufferAllocatorFunction, 1);

                        HDSimpleDenoiser simpleDenoiser = m_RayTracingManager.GetSimpleDenoiser();
                        simpleDenoiser.DenoiseBuffer(cmd, hdCamera, outputTexture, reflectionHistory, m_ReflIntermediateTexture0, settings.denoiserRadius.value, singleChannel: false);
                        HDUtils.BlitCameraTexture(cmd, m_ReflIntermediateTexture0, outputTexture);
                    }
                }
            }
        }
Example #3
0
        public void RenderIndirectDiffuseT1(HDCamera hdCamera, CommandBuffer cmd, ScriptableRenderContext renderContext, int frameCount)
        {
            // Fetch the required resources
            var       settings  = VolumeManager.instance.stack.GetComponent <GlobalIllumination>();
            BlueNoise blueNoise = GetBlueNoiseManager();

            // Fetch all the settings
            LightCluster       lightClusterSettings = VolumeManager.instance.stack.GetComponent <LightCluster>();
            RayTracingSettings rtSettings           = VolumeManager.instance.stack.GetComponent <RayTracingSettings>();

            ComputeShader indirectDiffuseCS = m_Asset.renderPipelineRayTracingResources.indirectDiffuseRaytracingCS;

            using (new ProfilingSample(cmd, "Ray Trace Indirect Diffuse", CustomSamplerId.RaytracingIntegrateIndirectDiffuse.GetSampler()))
            {
                if (settings.deferredMode.value)
                {
                    // Fetch the new sample kernel
                    int currentKernel = indirectDiffuseCS.FindKernel(settings.fullResolution.value ? "RaytracingIndirectDiffuseFullRes" : "RaytracingIndirectDiffuseHalfRes");

                    // Inject the ray-tracing sampling data
                    blueNoise.BindDitheredRNGData8SPP(cmd);

                    // Bind all the required textures
                    cmd.SetComputeTextureParam(indirectDiffuseCS, currentKernel, HDShaderIDs._DepthTexture, m_SharedRTManager.GetDepthStencilBuffer());
                    cmd.SetComputeTextureParam(indirectDiffuseCS, currentKernel, HDShaderIDs._NormalBufferTexture, m_SharedRTManager.GetNormalBuffer());

                    // Bind all the required scalars
                    cmd.SetComputeFloatParam(indirectDiffuseCS, HDShaderIDs._RaytracingIntensityClamp, settings.clampValue.value);

                    // Bind the sampling data
                    int frameIndex = hdCamera.IsTAAEnabled() ? hdCamera.taaFrameIndex : (int)m_FrameCount % 8;
                    cmd.SetComputeIntParam(indirectDiffuseCS, HDShaderIDs._RaytracingFrameIndex, frameIndex);

                    // Bind the output buffers
                    cmd.SetComputeTextureParam(indirectDiffuseCS, currentKernel, HDShaderIDs._RaytracingDirectionBuffer, m_RaytracingDirectionBuffer);

                    // Texture dimensions
                    int texWidth  = hdCamera.actualWidth;
                    int texHeight = hdCamera.actualHeight;

                    // Evaluate the dispatch parameters
                    int areaTileSize = 8;
                    int numTilesXHR  = (texWidth + (areaTileSize - 1)) / areaTileSize;
                    int numTilesYHR  = (texHeight + (areaTileSize - 1)) / areaTileSize;

                    // Compute the directions
                    cmd.DispatchCompute(indirectDiffuseCS, currentKernel, numTilesXHR, numTilesYHR, hdCamera.viewCount);

                    // Prepare the components for the deferred lighting
                    DeferredLightingRTParameters deferredParamters = PrepareIndirectDiffuseDeferredLightingRTParameters(hdCamera);
                    DeferredLightingRTResources  deferredResources = PrepareDeferredLightingRTResources(hdCamera, m_RaytracingDirectionBuffer, m_IDIntermediateBuffer0);

                    // Evaluate the deferred lighting
                    RenderRaytracingDeferredLighting(cmd, deferredParamters, deferredResources);
                }
                else
                {
                    RayTracingShader indirectDiffuseRT = m_Asset.renderPipelineRayTracingResources.indirectDiffuseRaytracingRT;

                    BindRayTracedIndirectDiffuseData(cmd, hdCamera, indirectDiffuseRT, settings, lightClusterSettings, rtSettings);

                    // Run the computation
                    CoreUtils.SetKeyword(cmd, "DIFFUSE_LIGHTING_ONLY", true);
                    CoreUtils.SetKeyword(cmd, "MULTI_BOUNCE_INDIRECT", false);

                    // Run the computation
                    cmd.DispatchRays(indirectDiffuseRT, m_RayGenIndirectDiffuseFullResName, (uint)hdCamera.actualWidth, (uint)hdCamera.actualHeight, (uint)hdCamera.viewCount);

                    CoreUtils.SetKeyword(cmd, "DIFFUSE_LIGHTING_ONLY", false);
                }
            }

            using (new ProfilingSample(cmd, "Filter Indirect Diffuse", CustomSamplerId.RaytracingFilterIndirectDiffuse.GetSampler()))
            {
                // Fetch the right filter to use
                int currentKernel = indirectDiffuseCS.FindKernel(settings.fullResolution.value ? "IndirectDiffuseIntegrationUpscaleFullRes" : "IndirectDiffuseIntegrationUpscaleHalfRes");

                // Inject all the parameters for the compute
                cmd.SetComputeTextureParam(indirectDiffuseCS, currentKernel, HDShaderIDs._DepthTexture, m_SharedRTManager.GetDepthStencilBuffer());
                cmd.SetComputeTextureParam(indirectDiffuseCS, currentKernel, HDShaderIDs._NormalBufferTexture, m_SharedRTManager.GetNormalBuffer());
                cmd.SetComputeTextureParam(indirectDiffuseCS, currentKernel, HDShaderIDs._IndirectDiffuseTexture, m_IDIntermediateBuffer0);
                cmd.SetComputeTextureParam(indirectDiffuseCS, currentKernel, HDShaderIDs._RaytracingDirectionBuffer, m_RaytracingDirectionBuffer);
                cmd.SetComputeTextureParam(indirectDiffuseCS, currentKernel, HDShaderIDs._BlueNoiseTexture, blueNoise.textureArray16RGB);
                cmd.SetComputeTextureParam(indirectDiffuseCS, currentKernel, HDShaderIDs._UpscaledIndirectDiffuseTextureRW, m_IDIntermediateBuffer1);
                cmd.SetComputeTextureParam(indirectDiffuseCS, currentKernel, HDShaderIDs._ScramblingTexture, m_Asset.renderPipelineResources.textures.scramblingTex);
                cmd.SetComputeIntParam(indirectDiffuseCS, HDShaderIDs._SpatialFilterRadius, settings.upscaleRadius.value);

                // Texture dimensions
                int texWidth  = hdCamera.actualWidth;
                int texHeight = hdCamera.actualHeight;

                // Evaluate the dispatch parameters
                int areaTileSize = 8;
                int numTilesXHR  = (texWidth + (areaTileSize - 1)) / areaTileSize;
                int numTilesYHR  = (texHeight + (areaTileSize - 1)) / areaTileSize;

                // Compute the texture
                cmd.DispatchCompute(indirectDiffuseCS, currentKernel, numTilesXHR, numTilesYHR, hdCamera.viewCount);

                // Copy the data back to the right buffer
                HDUtils.BlitCameraTexture(cmd, m_IDIntermediateBuffer1, m_IDIntermediateBuffer0);

                // Denoise if required
                if (settings.denoise.value)
                {
                    DenoiseIndirectDiffuseBuffer(hdCamera, cmd, settings);
                }
            }
        }
        void RenderReflectionsPerformance(HDCamera hdCamera, CommandBuffer cmd, RTHandle outputTexture, ScriptableRenderContext renderContext, int frameCount, bool transparent)
        {
            // Fetch the required resources
            BlueNoise        blueNoise           = GetBlueNoiseManager();
            RayTracingShader reflectionShaderRT  = m_Asset.renderPipelineRayTracingResources.reflectionRaytracingRT;
            ComputeShader    reflectionShaderCS  = m_Asset.renderPipelineRayTracingResources.reflectionRaytracingCS;
            ComputeShader    reflectionFilter    = m_Asset.renderPipelineRayTracingResources.reflectionBilateralFilterCS;
            RTHandle         intermediateBuffer0 = GetRayTracingBuffer(InternalRayTracingBuffers.RGBA0);
            RTHandle         intermediateBuffer1 = GetRayTracingBuffer(InternalRayTracingBuffers.RGBA1);

            CoreUtils.SetRenderTarget(cmd, intermediateBuffer1, m_SharedRTManager.GetDepthStencilBuffer(), ClearFlag.Color, clearColor: Color.black);

            // Fetch all the settings
            var                settings             = hdCamera.volumeStack.GetComponent <ScreenSpaceReflection>();
            LightCluster       lightClusterSettings = hdCamera.volumeStack.GetComponent <LightCluster>();
            RayTracingSettings rtSettings           = hdCamera.volumeStack.GetComponent <RayTracingSettings>();

            // Texture dimensions
            int texWidth  = hdCamera.actualWidth;
            int texHeight = hdCamera.actualHeight;

            // Evaluate the dispatch parameters
            int areaTileSize = 8;
            int numTilesXHR = 0, numTilesYHR = 0;
            int currentKernel = 0;
            RenderTargetIdentifier clearCoatMaskTexture;

            using (new ProfilingScope(cmd, ProfilingSampler.Get(HDProfileId.RaytracingIntegrateReflection)))
            {
                // Fetch the new sample kernel
                if (settings.fullResolution.value)
                {
                    currentKernel = transparent ? m_RaytracingReflectionsTransparentFullResKernel : m_RaytracingReflectionsFullResKernel;
                }
                else
                {
                    currentKernel = transparent ? m_RaytracingReflectionsTransparentHalfResKernel : m_RaytracingReflectionsHalfResKernel;
                }

                // Inject the ray-tracing sampling data
                blueNoise.BindDitheredRNGData8SPP(cmd);

                // Bind all the required textures
                cmd.SetComputeTextureParam(reflectionShaderCS, currentKernel, HDShaderIDs._DepthTexture, m_SharedRTManager.GetDepthStencilBuffer());
                cmd.SetComputeTextureParam(reflectionShaderCS, currentKernel, HDShaderIDs._NormalBufferTexture, m_SharedRTManager.GetNormalBuffer());
                clearCoatMaskTexture = hdCamera.frameSettings.litShaderMode == LitShaderMode.Deferred ? m_GbufferManager.GetBuffersRTI()[2] : TextureXR.GetBlackTexture();
                cmd.SetComputeTextureParam(reflectionShaderCS, currentKernel, HDShaderIDs._SsrClearCoatMaskTexture, clearCoatMaskTexture);
                cmd.SetComputeIntParam(reflectionShaderCS, HDShaderIDs._SsrStencilBit, (int)StencilUsage.TraceReflectionRay);
                cmd.SetComputeTextureParam(reflectionShaderCS, currentKernel, HDShaderIDs._StencilTexture, m_SharedRTManager.GetDepthStencilBuffer(), 0, RenderTextureSubElement.Stencil);

                // Bind all the required scalars
                m_ShaderVariablesRayTracingCB._RaytracingIntensityClamp = settings.clampValue.value;
                m_ShaderVariablesRayTracingCB._RaytracingIncludeSky     = settings.reflectSky.value ? 1 : 0;
                ConstantBuffer.PushGlobal(cmd, m_ShaderVariablesRayTracingCB, HDShaderIDs._ShaderVariablesRaytracing);

                // Bind the output buffers
                cmd.SetComputeTextureParam(reflectionShaderCS, currentKernel, HDShaderIDs._RaytracingDirectionBuffer, intermediateBuffer1);

                if (settings.fullResolution.value)
                {
                    // Evaluate the dispatch parameters
                    numTilesXHR = (texWidth + (areaTileSize - 1)) / areaTileSize;
                    numTilesYHR = (texHeight + (areaTileSize - 1)) / areaTileSize;
                }
                else
                {
                    // Evaluate the dispatch parameters
                    numTilesXHR = (texWidth / 2 + (areaTileSize - 1)) / areaTileSize;
                    numTilesYHR = (texHeight / 2 + (areaTileSize - 1)) / areaTileSize;
                }

                // Compute the directions
                cmd.DispatchCompute(reflectionShaderCS, currentKernel, numTilesXHR, numTilesYHR, hdCamera.viewCount);

                // Prepare the components for the deferred lighting
                DeferredLightingRTParameters deferredParamters = PrepareReflectionDeferredLightingRTParameters(hdCamera);
                DeferredLightingRTResources  deferredResources = PrepareDeferredLightingRTResources(hdCamera, intermediateBuffer1, intermediateBuffer0);

                // Evaluate the deferred lighting
                RenderRaytracingDeferredLighting(cmd, deferredParamters, deferredResources);

                // Fetch the right filter to use
                if (settings.fullResolution.value)
                {
                    currentKernel = reflectionFilter.FindKernel("ReflectionIntegrationUpscaleFullRes");
                }
                else
                {
                    currentKernel = reflectionFilter.FindKernel("ReflectionIntegrationUpscaleHalfRes");
                }

                // Inject all the parameters for the compute
                cmd.SetComputeTextureParam(reflectionFilter, currentKernel, HDShaderIDs._SsrLightingTextureRW, intermediateBuffer0);
                cmd.SetComputeTextureParam(reflectionFilter, currentKernel, HDShaderIDs._SsrHitPointTexture, intermediateBuffer1);
                cmd.SetComputeTextureParam(reflectionFilter, currentKernel, HDShaderIDs._DepthTexture, m_SharedRTManager.GetDepthStencilBuffer());
                cmd.SetComputeTextureParam(reflectionFilter, currentKernel, HDShaderIDs._NormalBufferTexture, m_SharedRTManager.GetNormalBuffer());
                cmd.SetComputeTextureParam(reflectionFilter, currentKernel, HDShaderIDs._BlueNoiseTexture, blueNoise.textureArray16RGB);
                cmd.SetComputeTextureParam(reflectionFilter, currentKernel, "_RaytracingReflectionTexture", outputTexture);
                cmd.SetComputeTextureParam(reflectionFilter, currentKernel, HDShaderIDs._ScramblingTexture, m_Asset.renderPipelineResources.textures.scramblingTex);
                cmd.SetComputeIntParam(reflectionFilter, HDShaderIDs._SpatialFilterRadius, settings.upscaleRadius.value);
                cmd.SetComputeIntParam(reflectionFilter, HDShaderIDs._RaytracingDenoiseRadius, settings.denoise.value ? settings.denoiserRadius.value : 0);

                numTilesXHR = (texWidth + (areaTileSize - 1)) / areaTileSize;
                numTilesYHR = (texHeight + (areaTileSize - 1)) / areaTileSize;

                // Bind the right texture for clear coat support
                clearCoatMaskTexture = hdCamera.frameSettings.litShaderMode == LitShaderMode.Deferred ? m_GbufferManager.GetBuffersRTI()[2] : TextureXR.GetBlackTexture();
                cmd.SetComputeTextureParam(reflectionFilter, currentKernel, HDShaderIDs._SsrClearCoatMaskTexture, clearCoatMaskTexture);

                // Compute the texture
                cmd.DispatchCompute(reflectionFilter, currentKernel, numTilesXHR, numTilesYHR, hdCamera.viewCount);
            }

            using (new ProfilingScope(cmd, ProfilingSampler.Get(HDProfileId.RaytracingFilterReflection)))
            {
                if (settings.denoise.value && !transparent)
                {
                    // Grab the history buffer
                    RTHandle reflectionHistory = hdCamera.GetCurrentFrameRT((int)HDCameraFrameHistoryType.RaytracedReflection)
                                                 ?? hdCamera.AllocHistoryFrameRT((int)HDCameraFrameHistoryType.RaytracedReflection, ReflectionHistoryBufferAllocatorFunction, 1);

                    float historyValidity = 1.0f;
#if UNITY_HDRP_DXR_TESTS_DEFINE
                    if (Application.isPlaying)
                    {
                        historyValidity = 0.0f;
                    }
                    else
#endif
                    // We need to check if something invalidated the history buffers
                    historyValidity *= ValidRayTracingHistory(hdCamera) ? 1.0f : 0.0f;

                    HDReflectionDenoiser reflectionDenoiser = GetReflectionDenoiser();
                    reflectionDenoiser.DenoiseBuffer(cmd, hdCamera, settings.denoiserRadius.value, outputTexture, reflectionHistory, intermediateBuffer0, historyValidity: historyValidity);
                    HDUtils.BlitCameraTexture(cmd, intermediateBuffer0, outputTexture);
                }
            }
        }