Intel® Math Kernel Library (Intel® MKL) is a highly optimized, extensively threaded, and thread-safe library of mathematical functions for engineering, scientific, and financial applications that require maximum performance. The Intel MKL 11.1 packages are now ready for download.
This 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 software development suite. While Intel® HD Graphics is useful for developing many types of computer vision functionalities in video management software; Intel® System Studio is an embedded application development suite that is useful in developing robust digital video surveillance applications.
Code size optimization is a key factor, especially critical in embedded systems requiring code size reduction at the cost of application speed! Application developed for an embedded system is generally tuned for a particular processor with a finite memory size and hence memory is the main cost component of an embedded product. Directly impacting the memory requirement in an embedded system is the code size of the application, as reduced code size means lesser memory usage and lower cost of the product.
Intel® System Studio (ISS) provides a suite of development tools for embedded and mobile developers. It contain Intel® C++ Compiler for Embedded OS Linux* (ICC), Intel® Integrated Performance Primitives for Linux* (IPP), Intel® Math Kernel Library for Linux* (MKL) etc.
Sampling Collector (SEP) is a command-line tool for doing hardware-based sampling using event-based sampling (EBS). In this article, we will describe how to use SEP for Tizen* mobile system. The usage model described in this article is also applicable for Tizen* IVI system and other embedded Linux system. However for Tizen* IVI system, or an embedded system with ssh services enabled, using Vtune Amplifier remote data collection with ssh is recommended.
1. Sensores en tabletas Android con procesador Intel® Atom™
Las tabletas basadas en procesadores Intel Atom admiten una amplia variedad de sensores de hardware. Estos sensores se usan para detectar el movimiento y los cambios de posición, e informar los parámetros de entorno del ambiente. El diagrama de bloques de la Figura 1 muestra una posible configuración de sensores en una tableta Android basada en procesador Intel Atom típica.
Intel® VTune™ Amplifier uses a sampling driver to enable the hardware Event-Based Sampling (EBS) analysis. During Intel System Studio production installation, the sampling driver can be installed for host system so that we can collect the performance data for applications that running on host system. However the sampling driver should also be installed on the target system if we want to collect the event-based sampling data for the application that running on target system.