People say that GCC (GNU Compiler Collection) cannot generate effective code compared to other proprietary compilers. Is it a myth or reality?
(This work was done by Vivek Lingegowda during his internship at Intel.)
Some ARPACK users have reported stability issues after upgrading to the Intel® Math Kernel Library (Intel® MKL
“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:
Intel® Threading Building Blocks (Intel® TBB) 4.2 Update 4 introduced enhanced support for managing floating-pointing settings.
La gente dice que el conjunto de compiladores GCC (Colección de Compiladores GNU) no puede generar código eficiente en comparación con otros compiladores sujetos a derechos.
Tim Mattson (Intel) has authored an extensive series of excellent videos as in introduction to OpenMP*.
Starting with version 7.12.0, Intel® SDE has Intel® TSX-related instruction and memory access logging features which can be useful for debugging Intel® TSX's capacity aborts.
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.