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Diagnostic 7866: The statement following this DEC loop optimization directive must be an iterative do-stmt, a vector assignment, an OMP do-directive or a parallel-do-directive, or an OMP simd-directive or a do-simd-directive

Diagnostic 7866: The statement following this DEC loop optimization directive must be an iterative do-stmt, a vector assignment, an OMP do-directive or a parallel-do-directive, or an OMP simd-direc

Authored by Last updated on 12/31/2018 - 15:00
Article

Threading Fortran Applications for Parallel Performance on Multi-Core Systems

Advice and background information is given on typical issues that may arise when threading an application using the Intel Fortran Compiler and other software tools, whether using OpenMP, automatic parallelization or threaded libraries.
Authored by Martyn Corden (Intel) Last updated on 12/12/2018 - 18:00
Article

Intel® MKL Entry Points

Many functions in Intel® Math Kernel Library (MKL) have multiple entry points. This article describes the entry points that exist and why they are there.
Authored by Gregory Henry (Intel) Last updated on 03/27/2019 - 10:00
Article

Memory Limits for Applications on Windows*

A discussion of limits on the size of code and data for applications running on 32-bit and 64-bit Windows systems
Authored by Last updated on 05/25/2018 - 15:30
Blog post

Doctor Fortran in "I Can C Clearly Now, Part I"

Spend any time in the comp.lang.fortran newsgroup, or other places where programming languages are discussed, and you’ll soon see a new “Which is better, Fortran or C?” thread show up.

Authored by Last updated on 06/14/2017 - 15:31
Article

LoadLibrary returns NULL handle when loading a DLL built with "/debug:parallel"

Reference Number : DPD200155237Version : 11.1Product :
Authored by Duan, Xiaoping (Intel) Last updated on 12/31/2018 - 15:00
Article

Guided Auto-Parallel (GAP)

Guided Auto-Parallel - compiler feature providing guidance to user on what changes are necessary for the compiler to automatically add vectorization or parallelization to serial application.
Authored by An Le (Intel) Last updated on 12/31/2018 - 15:00
Article

Which applications are most likely to benefit from recompilation for Intel® Advanced Vector Extensions (Intel® AVX)?

Applications containing vectorizable, floating-point loops or calls to performance libraries are the most likely to see significant performance gains from rebuilding for the Intel® Advanced Vector Extensions (Intel® AVX)
Authored by Martyn Corden (Intel) Last updated on 08/22/2018 - 17:05