CUSP is an open source C++ library of generic parallel algorithms for sparse linear algebra and graph computations on CUDA architecture GPUs. CUSP provides a flexible, high-level interface for manipulating sparse matrices and solving sparse linear systems.
Succeed with Windows RT on Tegra!
Windows RT on Tegra represents a breakthrough opportunity for developers building Windows Store Apps, whether general business applications or cutting-edge games using the latest gaming engines. We're proud to offer the tools, guides, and technology that can drive the kind of mind-blowing visuals that users crave on newer mobile systems. Here's an example of Windows RT on Tegra running the powerful Unreal Engine 3 from Epic Games:
A big day today for NVIDIA and the Tegra developer community. NVIDIA has just launched the online version of Tegra Zone plus a new program called Zone In!
The Tegra Zone app for Android phones and tablets has been showcasing great games for many months and today we're launching the Tegra Zone website at www.tegrazone.com. Now using your laptop or desktop you can access the latest game news, reviews and release information for Tegra-optimized games and Tegra-powered devices.
The NVIDIA GPU Computing SDK provides hundreds of code samples, white papers, to help you get started on the path of writing software with CUDA C/C++ or DirectCompute.
The SDK code samples covers a wide range of applications and techniques, including:
The NVIDIA Performance Primitives library (NPP) is a collection of GPU-accelerated image, video, and signal processing functions that deliver 5x to 10x faster performance than comparable CPU-only implementations. Using NPP, developers can take advantage of over 1900 image processing and approx 600 signal processing primitives to achieve significant improvements in application performance in a matter of hours.
Whether you are simply replacing CPU primitives with GPU-accelerated versions or integrating NPP primitives with your existing GPU-accelerated pipeline, NPP delivers high performance while reducing your development time.