Lists all supported CPUs and identifiers used in Intel® Integrated Performance Primitives (Intel® IPP).
required steps to properly generate RSA cryptographic systems key pairs
Intel IPP cryptography by example
Purpose of this demo is to show an advantage of Westmere Crypto Acceleration Engine.
There are actually 91 errors described in the article, but number 90 looks nicer in the title. The article is intended for C/C++ programmers, but developers working with other languages may also find it interesting.
The goal of this paper is to demonstrate the performance gains obtained when using the Intel® Secure Key in applications that depend on OpenSSL* for cryptographically secure random numbers.
Pointer Checker feature in Intel® Parallel Studio XE 2016: How is it different from Static Analysis, Intel® Inspector XE, Mudflap etc?
The Pointer Checker is a feature of the Intel® Parallel Studio XE 2016 product release.
Continuing my previous post, I describe some of the challenges in implementing DotMix, a determinstic parallel random-number generator (DPRNG) for Intel® Cilk™ Plus.
Digital Security and Surveillance on 4th generation Intel® Core™ processors Using Intel® System Studio 2015This article presents the advantages of developing embedded digital video surveillance systems to run on 4th generation Intel® Core™ processor with Intel® HD Graphics, in combination with the Intel® System Studio 2015 software development suite. While Intel® HD Graphics is useful for developing many types of computer vision functionalities in video management software; Intel® System Studio...
The generation of Huffman codes is used in many applications, among them the DEFLATE compression algorithm. The classical way to compute these codes uses a heap data structure. This approach is fairly efficient, but traditional software implementations contain lots of branches that are data-dependent and thus hard for general-purpose CPU hardware to predict. On modern processors with deep...