cuda-samples/Samples/5_Domain_Specific
Ginger Old cb52ce49a7
Update VulkanBaseApp.cpp
Fix "error: 'numeric_limits' is not a member of 'std'" during build
2023-03-03 21:59:04 -06:00
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bicubicTexture Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
bilateralFilter Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
binomialOptions Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
binomialOptions_nvrtc Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
BlackScholes Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
BlackScholes_nvrtc Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
convolutionFFT2D Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
dwtHaar1D Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
dxtc Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
fastWalshTransform Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
FDTD3d Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
fluidsD3D9 Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
fluidsGL Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
fluidsGLES Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
HSOpticalFlow Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
Mandelbrot Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
marchingCubes Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
MonteCarloMultiGPU Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
nbody Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
nbody_opengles Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
nbody_screen Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
NV12toBGRandResize Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
p2pBandwidthLatencyTest Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
postProcessGL Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
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quasirandomGenerator_nvrtc Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
recursiveGaussian Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
simpleD3D9 Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
simpleD3D9Texture Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
simpleD3D10 Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
simpleD3D10RenderTarget Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
simpleD3D10Texture Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
simpleD3D11 Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
simpleD3D11Texture Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
simpleD3D12 Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
simpleGL Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
simpleGLES Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
simpleGLES_EGLOutput Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
simpleGLES_screen Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
simpleVulkan Update VulkanBaseApp.cpp 2023-03-03 21:58:29 -06:00
simpleVulkanMMAP Update VulkanBaseApp.cpp 2023-03-03 21:59:04 -06:00
SLID3D10Texture Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
smokeParticles Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
SobelFilter Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
SobolQRNG Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
stereoDisparity Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
VFlockingD3D10 Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
volumeFiltering Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
volumeRender Updating Samples for 12.1 2023-03-01 01:41:29 +00:00
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README.md add and update samples for CUDA 11.6 2022-01-13 11:35:24 +05:30

5. Domain Specific

bicubicTexture

This sample demonstrates how to efficiently implement a Bicubic B-spline interpolation filter with CUDA texture.

bilateralFilter

Bilateral filter is an edge-preserving non-linear smoothing filter that is implemented with CUDA with OpenGL rendering. It can be used in image recovery and denoising. Each pixel is weight by considering both the spatial distance and color distance between its neighbors. Reference:"C. Tomasi, R. Manduchi, Bilateral Filtering for Gray and Color Images, proceeding of the ICCV, 1998, http://users.soe.ucsc.edu/~manduchi/Papers/ICCV98.pdf"

binomialOptions

This sample evaluates fair call price for a given set of European options under binomial model.

binomialOptions_nvrtc

This sample evaluates fair call price for a given set of European options under binomial model. This sample makes use of NVRTC for Runtime Compilation.

BlackScholes

This sample evaluates fair call and put prices for a given set of European options by Black-Scholes formula.

BlackScholes_nvrtc

This sample evaluates fair call and put prices for a given set of European options by Black-Scholes formula, compiling the CUDA kernels involved at runtime using NVRTC.

convolutionFFT2D

This sample demonstrates how 2D convolutions with very large kernel sizes can be efficiently implemented using FFT transformations.

dwtHaar1D

Discrete Haar wavelet decomposition for 1D signals with a length which is a power of 2.

dxtc

High Quality DXT Compression using CUDA. This example shows how to implement an existing computationally-intensive CPU compression algorithm in parallel on the GPU, and obtain an order of magnitude performance improvement.

fastWalshTransform

Naturally(Hadamard)-ordered Fast Walsh Transform for batching vectors of arbitrary eligible lengths that are power of two in size.

FDTD3d

This sample applies a finite differences time domain progression stencil on a 3D surface.

fluidsD3D9

An example of fluid simulation using CUDA and CUFFT, with Direct3D 9 rendering. A Direct3D Capable device is required.

fluidsGL

An example of fluid simulation using CUDA and CUFFT, with OpenGL rendering.

fluidsGLES

An example of fluid simulation using CUDA and CUFFT, with OpenGLES rendering.

HSOpticalFlow

Variational optical flow estimation example. Uses textures for image operations. Shows how simple PDE solver can be accelerated with CUDA.

Mandelbrot

This sample uses CUDA to compute and display the Mandelbrot or Julia sets interactively. It also illustrates the use of "double single" arithmetic to improve precision when zooming a long way into the pattern. This sample uses double precision. Thanks to Mark Granger of NewTek who submitted this code sample.!

marchingCubes

This sample extracts a geometric isosurface from a volume dataset using the marching cubes algorithm. It uses the scan (prefix sum) function from the Thrust library to perform stream compaction.

MonteCarloMultiGPU

This sample evaluates fair call price for a given set of European options using the Monte Carlo approach, taking advantage of all CUDA-capable GPUs installed in the system. This sample use double precision hardware if a GTX 200 class GPU is present. The sample also takes advantage of CUDA 4.0 capability to supporting using a single CPU thread to control multiple GPUs

nbody

This sample demonstrates efficient all-pairs simulation of a gravitational n-body simulation in CUDA. This sample accompanies the GPU Gems 3 chapter "Fast N-Body Simulation with CUDA". With CUDA 5.5, performance on Tesla K20c has increased to over 1.8TFLOP/s single precision. Double Performance has also improved on all Kepler and Fermi GPU architectures as well. Starting in CUDA 4.0, the nBody sample has been updated to take advantage of new features to easily scale the n-body simulation across multiple GPUs in a single PC. Adding "-numbodies=" to the command line will allow users to set # of bodies for simulation. Adding “-numdevices=” to the command line option will cause the sample to use N devices (if available) for simulation. In this mode, the position and velocity data for all bodies are read from system memory using “zero copy” rather than from device memory. For a small number of devices (4 or fewer) and a large enough number of bodies, bandwidth is not a bottleneck so we can achieve strong scaling across these devices.

nbody_opengles

This sample demonstrates efficient all-pairs simulation of a gravitational n-body simulation in CUDA. Unlike the OpenGL nbody sample, there is no user interaction.

nbody_screen

This sample demonstrates efficient all-pairs simulation of a gravitational n-body simulation in CUDA. Unlike the OpenGL nbody sample, there is no user interaction.

NV12toBGRandResize

This code shows two ways to convert and resize NV12 frames to BGR 3 planars frames using CUDA in batch. Way-1, Convert NV12 Input to BGR @ Input Resolution-1, then Resize to Resolution#2. Way-2, resize NV12 Input to Resolution#2 then convert it to BGR Output. NVIDIA HW Decoder, both dGPU and Tegra, normally outputs NV12 pitch format frames. For the inference using TensorRT, the input frame needs to be BGR planar format with possibly different size. So, conversion and resizing from NV12 to BGR planar is usually required for the inference following decoding. This CUDA code provides a reference implementation for conversion and resizing.

p2pBandwidthLatencyTest

This application demonstrates the CUDA Peer-To-Peer (P2P) data transfers between pairs of GPUs and computes latency and bandwidth. Tests on GPU pairs using P2P and without P2P are tested.

postProcessGL

This sample shows how to post-process an image rendered in OpenGL using CUDA.

quasirandomGenerator

This sample implements Niederreiter Quasirandom Sequence Generator and Inverse Cumulative Normal Distribution functions for the generation of Standard Normal Distributions.

quasirandomGenerator_nvrtc

This sample implements Niederreiter Quasirandom Sequence Generator and Inverse Cumulative Normal Distribution functions for the generation of Standard Normal Distributions, compiling the CUDA kernels involved at runtime using NVRTC.

recursiveGaussian

This sample implements a Gaussian blur using Deriche's recursive method. The advantage of this method is that the execution time is independent of the filter width.

simpleD3D10

Simple program which demonstrates interoperability between CUDA and Direct3D10. The program generates a vertex array with CUDA and uses Direct3D10 to render the geometry. A Direct3D Capable device is required.

simpleD3D10RenderTarget

Simple program which demonstrates interop of rendertargets between Direct3D10 and CUDA. The program uses RenderTarget positions with CUDA and generates a histogram with visualization. A Direct3D10 Capable device is required.

simpleD3D10Texture

Simple program which demonstrates how to interoperate CUDA with Direct3D10 Texture. The program creates a number of D3D10 Textures (2D, 3D, and CubeMap) which are generated from CUDA kernels. Direct3D then renders the results on the screen. A Direct3D10 Capable device is required.

simpleD3D11

Simple program which demonstrates how to use the CUDA D3D11 External Resource Interoperability APIs to update D3D11 buffers from CUDA and synchronize between D3D11 and CUDA with Keyed Mutexes.

simpleD3D11Texture

Simple program which demonstrates Direct3D11 Texture interoperability with CUDA. The program creates a number of D3D11 Textures (2D, 3D, and CubeMap) which are written to from CUDA kernels. Direct3D then renders the results on the screen. A Direct3D Capable device is required.

simpleD3D12

A program which demonstrates Direct3D12 interoperability with CUDA. The program creates a sinewave in DX12 vertex buffer which is created using CUDA kernels. DX12 and CUDA synchronizes using DirectX12 Fences. Direct3D then renders the results on the screen. A DirectX12 Capable NVIDIA GPU is required on Windows10 or higher OS.

simpleD3D9

Simple program which demonstrates interoperability between CUDA and Direct3D9. The program generates a vertex array with CUDA and uses Direct3D9 to render the geometry. A Direct3D capable device is required.

simpleD3D9Texture

Simple program which demonstrates Direct3D9 Texture interoperability with CUDA. The program creates a number of D3D9 Textures (2D, 3D, and CubeMap) which are written to from CUDA kernels. Direct3D then renders the results on the screen. A Direct3D capable device is required.

simpleGL

Simple program which demonstrates interoperability between CUDA and OpenGL. The program modifies vertex positions with CUDA and uses OpenGL to render the geometry.

simpleGLES

Demonstrates data exchange between CUDA and OpenGL ES (aka Graphics interop). The program modifies vertex positions with CUDA and uses OpenGL ES to render the geometry.

simpleGLES_EGLOutput

Demonstrates data exchange between CUDA and OpenGL ES (aka Graphics interop). The program modifies vertex positions with CUDA and uses OpenGL ES to render the geometry, and shows how to render directly to the display using the EGLOutput mechanism and the DRM library.

simpleGLES_screen

Demonstrates data exchange between CUDA and OpenGL ES (aka Graphics interop). The program modifies vertex positions with CUDA and uses OpenGL ES to render the geometry.

simpleVulkan

This sample demonstrates Vulkan CUDA Interop. CUDA imports the Vulkan vertex buffer and operates on it to create sinewave, and synchronizes with Vulkan through vulkan semaphores imported by CUDA. This sample depends on Vulkan SDK, GLFW3 libraries, for building this sample please refer to "Build_instructions.txt" provided in this sample's directory

simpleVulkanMMAP

This sample demonstrates Vulkan CUDA Interop via cuMemMap APIs. CUDA exports buffers that Vulkan imports as vertex buffer. CUDA invokes kernels to operate on vertices and synchronizes with Vulkan through vulkan semaphores imported by CUDA. This sample depends on Vulkan SDK, GLFW3 libraries, for building this sample please refer to "Build_instructions.txt" provided in this sample's directory

SLID3D10Texture

Simple program which demonstrates SLI with Direct3D10 Texture interoperability with CUDA. The program creates a D3D10 Texture which is written to from a CUDA kernel. Direct3D then renders the results on the screen. A Direct3D Capable device is required.

smokeParticles

Smoke simulation with volumetric shadows using half-angle slicing technique. Uses CUDA for procedural simulation, Thrust Library for sorting algorithms, and OpenGL for graphics rendering.

SobelFilter

This sample implements the Sobel edge detection filter for 8-bit monochrome images.

SobolQRNG

This sample implements Sobol Quasirandom Sequence Generator.

stereoDisparity

A CUDA program that demonstrates how to compute a stereo disparity map using SIMD SAD (Sum of Absolute Difference) intrinsics. Requires Compute Capability 2.0 or higher.

VFlockingD3D10

The sample models formation of V-shaped flocks by big birds, such as geese and cranes. The algorithms of such flocking are borrowed from the paper "V-like formations in flocks of artificial birds" from Artificial Life, Vol. 14, No. 2, 2008. The sample has CPU- and GPU-based implementations. Press 'g' to toggle between them. The GPU-based simulation works many times faster than the CPU-based one. The printout in the console window reports the simulation time per step. Press 'r' to reset the initial distribution of birds.

volumeFiltering

This sample demonstrates 3D Volumetric Filtering using 3D Textures and 3D Surface Writes.

volumeRender

This sample demonstrates basic volume rendering using 3D Textures.

vulkanImageCUDA

This sample demonstrates Vulkan Image - CUDA Interop. CUDA imports the Vulkan image buffer, performs box filtering over it, and synchronizes with Vulkan through vulkan semaphores imported by CUDA. This sample depends on Vulkan SDK, GLFW3 libraries, for building this sample please refer to "Build_instructions.txt" provided in this sample's directory