Blog post

“Why Should I Update GCC x86 Compiler?” or “GCC Compiler Performance on Intel® Atom™ from Version to Version”

      I’ll try to figure out what is new for Intel® Atom™ architecture in new versions of GCC and how this affects performance and code size on the well-known EEMBC CoreMark*  benchmark:

Authored by Evgeny Stupachenko (Intel) Last updated on 03/27/2019 - 10:21
Article

Controlling Floating-Point Modes When Using Intel® Threading Building Blocks

Intel® Threading Building Blocks (Intel® TBB) 4.2 Update 4 introduced enhanced support for managing floating-pointing settings.

Authored by Alex (Intel) Last updated on 08/01/2019 - 09:30
Article

Управление режимами вычислений с плавающей запятой при использовании Intel® Threading Building Blocks

В Intel® Threading Building Blocks (Intel® TBB) 4.2, обновление 4, появилась расширенная поддержка управления параметрами вычислений с плавающей запятой.

Authored by Alex (Intel) Last updated on 08/01/2019 - 09:30
Blog post

New optimizations for X86 in upcoming GCC 5.0

 

Authored by Evgeny Stupachenko (Intel) Last updated on 01/24/2018 - 12:12
Article

Intel® System Studio Developer Story : With Intel® JTAG debugger and MinnowBoard MAX, how to debug exception errors in the Android-Linux-Kernel.

 

Inte® System Studio Developer Story : With XDB and MinnowBoard MAX , how to debug exception errors in the Android-Linux-Kernel.

Authored by JONG IL P. (Intel) Last updated on 07/10/2018 - 08:00
Article

Записки разработчика Intel System Studio: отладка Linux-ядра Android с помощью Intel JTAG Debugger и MinnowBoard MAX

Из этого материала вы узнаете о том, как отлаживать код и анализировать исключения на уровне ядра Linux ОС Android в системах, основанных на архитектуре Intel.

Authored by ALEXEY K. (Intel) Last updated on 07/10/2018 - 08:00
Article

MeshCentral - Introduction & Overview

 
Authored by Ylian S. (Blackbelt) Last updated on 10/08/2019 - 18:20
Blog post

Core Challenge In Speeding Up Python, PHP, HHVM, Node.js...

A traditional compiler translates a high-level computer program into machine code for the CPU you want to run it on. An interpreted language translates a high-level language into the machine code for some imaginary CPU. For historical reasons, this imaginary CPU is called a "virtual machine" and its instructions are called "byte code." One advantage of this approach is development speed: creating...
Authored by David S. (Blackbelt) Last updated on 10/15/2019 - 19:43