Tutorial

Configure Analysis

Intel® Inspector is a dynamic memory and threading error checking tool for users developing serial and multithreaded applications on Windows* and Linux* operating systems. This topic is part of a tutorial that shows how to find and fix threading errors using the Intel Inspector and a C++ sample application.

Configure Analysis

Intel® Inspector is a dynamic memory and threading error checking tool for users developing serial and multithreaded applications on Windows* and Linux* operating systems. This topic is part of a tutorial that shows how to find and fix memory errors using the Intel Inspector and a Fortran sample application.

Navigation Quick Start

Intel® Inspector is a dynamic memory and threading error checking tool for users developing serial and multithreaded applications on Windows* and Linux* operating systems. This topic is part of a tutorial that shows how to find and fix memory errors using the Intel Inspector and a C++ sample application.

Interpret Result Data

Intel® Inspector is a dynamic memory and threading error checking tool for users developing serial and multithreaded applications on Windows* and Linux* operating systems. This topic is part of a tutorial that shows how to find and fix threading errors using the Intel Inspector and a C++ sample application.

Mode collapse in GANs

Hello everyone! 

In my project I had to deal with the so called mode collapse. It is usually referred to a problem when all the generator outputs are identical (all of them or most of the samples are equal). But what can cause mode collapse and how to struggle with it?

Use the Intel® SPMD Program Compiler for CPU Vectorization in Games

Migrate highly vectorized GPU compute kernels to CPU code using the Intel® SPMD Program Compiler (commonly referred to in previous documents as ISPC). Includes a link to a Github code sample to help you utilize spare CPU cycles to create a richer gaming experience.
  • Microsoft Windows* 10
  • Game Development
  • C/C++
  • Intel® Advanced Vector Extensions (Intel® AVX)
  • Intel® Streaming SIMD Extensions
  • Message Passing Interface (MPI)
  • LZO data compression functions and improvements in Intel® Integrated Performance Primitives

    Introduction

    In this document, we describe Intel IPP data compression functions, that implement the LZO (Lempel-Ziv-Oberhumer) compressed data format. This format and algorithm use 64KB compression dictionary and do not require additional memory for decompression. (See original code of the LZO library at http://www.oberhumer.com.)

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  • Microsoft Windows* 10
  • Microsoft Windows* 8.x
  • C/C++
  • Advanced
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  • Intermediate
  • Intel® Advanced Vector Extensions (Intel® AVX)
  • Optimization
  • Pirate Cove as an Example: How to Bring Steam*VR into Unity*

    This article is aimed at an existing Unity* developer who would like to incorporate Steam*VR into their scene talk to some points that I learned along the way as well as show you how I got VR working with my scene. I will not be talking much about laying out the scene and how I used Unity to get everything up and running; rather, the main focus of this article is to help someone get VR incorporated into their scene.
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  • Game Development
  • C#
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  • Building and Probing Prolog* with Intel® Architecture

    This article explores what happens when Intel solutions support functional and logic programming languages that are regularly used for Artificial Intelligence (AI) and proposes a Prolog interpreter recompilation using Intel® C++ Compiler and libraries in order to evaluate their contribution to logic based AI.
  • Professional
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  • Linux*
  • Artificial Intelligence
  • C/C++
  • Intermediate
  • Intel® Parallel Studio XE
  • Prolog*
  • OpenMP*
  • Machine Learning
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