Enhancing In-Vehicle Infotainment Application Reliability and Performance using Intel® System Studio
The x86 based in-vehicle infotainment (IVI) solution is available to reduce the time and cost of developing in-vehicle technologies by providing application-ready solutions consisting of compute modules, automotive middleware and development kits. When compared to the traditional approach, Intel products help you to simplify, accelerate, and reduce the cost of technology integration, solution development, and product testing. This application note focuses on development tools to enhance the reliability and performance of IVI applications.
Attachment: Intel® System Studio for IVI Applications.pdf
Boosting Long Term Evolution (LTE) Application Performance with Intel® System Studio
Intel® System Studio presents a wide variety of tools within a single tool chain for signal processing to application processing to obtain great computing performance, short development cycle and product simplification.
Usage of Intel® System Studio with Intel® Expansion Kit with MinnowBoard MAX*.
Intel® Expansion Kit with MinnowBoard MAX* is an open hardware embedded board designed with the Intel Atom® E38xx series SOC. The board targets the small and low-cost embedded market, and was designed to appeal to both embedded developers and the maker community.
Intel® System Studio is a comprehensive and integrated tool suite that provides developers with advanced system tools and technologies to help accelerate the delivery of the next generation of power-efficient, high-performance, and reliable embedded and mobile devices. Using Intel® System Studio, it is easy to develop a prototype of your application.
Intel® System Studio for Print Imaging
Intel® System Studio actively assists in optimizing the print imaging pipeline on the Intel Atom® E38xx series SOC and taking advantage of the on-chip image signal processor (ISP).
The use of Intel® C++ Compiler, Intel® VTune™ Amplifier for Systems and Intel® Integrated Performance Primitives allows execution streamlining, prioritization and improved threading for image processing on multi-function printer devices.