Microsoft Windows* 8.x

Intel® Visual Fortran Composer XE 2013 for Windows*, Update 2

Intel® Visual Fortran Composer XE 2013 includes the latest Intel Fortran compilers and performance libraries for IA-32 and Intel® 64 architecture systems. This new product release now includes: Intel® Visual Fortran Compiler XE Version 13.1, Intel® Math Kernel Library (Intel® MKL) Version 11.0 Update 2

New in this release:

  • Desarrolladores
  • Microsoft Windows* (XP, Vista, 7)
  • Microsoft Windows* 8.x
  • Fortran
  • Intel® Composer XE
  • Intel® Fortran Compiler
  • Intel® Fortran Composer XE
  • Intel® Visual Fortran Composer XE
  • Intel® Math Kernel Library
  • Intel® C++ Composer XE 2013 for Windows*, Update 2

    Intel® C++ Composer XE 2013 includes the latest Intel C/C++ compilers and performance libraries for IA-32 and Intel® 64 architecture systems. This new product release now includes: Intel® C++ Compiler XE Version 13.1, Intel® Math Kernel Library (Intel® MKL) Version 11.0 Update 2, Intel® Integrated Performance Primitives (Intel® IPP) Version 7.1 Update 1, Intel® Threading Building Blocks (Intel® TBB) Version 4.1 Update 2

    New in this release:

  • Desarrolladores
  • Microsoft Windows* (XP, Vista, 7)
  • Microsoft Windows* 8.x
  • C/C++
  • Intel® C++ Compiler
  • Intel® C++ Composer XE
  • Intel® Composer XE
  • Intel® Integrated Performance Primitives
  • Intel® Math Kernel Library
  • Módulos Intel® de subprocesamiento
  • Compiler Bug (?)

    NEVER MIND - I SEE the ERROR.......................

    But it does not explain how to access the :LAPACK routines.

    That include file doesn't work.

     

    subroutine solve(a,x,b)

    parameter nrhs=1;m=4;n=10

    real*8 a(m,n),x(m,nrhs),b(m,nrhs)

    !!!!!!!!!!!!!!!!!!!!!!!!!!!!

    lda=m;ldb=m

    call gelss(m,n,nrhs,a,lda,b,ldb)

    end

    Faster compilation by not recompiling dependencies

    I have a large object oriented groundwater modeling code (e.g. 70K lines in ~100 files) written in Fortran 2003 (I use pointers, linked lists, pointers to procedures, classes extensively as every process model or dataset is an object).  When debugging and updating lower level classes/modules, I have to recompile nearly all the code over and over when testing, even though my changes do not affect other portions of the code.  Yes, this is the desired behavior of a compiler since code mods may affect other portions of the code, thus the need for dependency checks.

    How to Detect and Repair Correctness Issues in Code to Run on the Intel® Xeon Phi™ Coprocessor Architecture with Intel® Inspector XE

    How to Detect and Repair Correctness Issues in Code to Run on the Intel® Xeon Phi™ Coprocessor Architecture with Intel® Inspector XE

     

    Intel® Xeon Phi™ coprocessors combine advanced power performance with the benefits of standard CPU programming models.  Developing and tuning for Intel® Xeon Phi™ coprocessors means you get both great coprocessor performance and improved performance on Intel® Xeon® processors.

  • Desarrolladores
  • Linux*
  • Microsoft Windows* 8.x
  • C/C++
  • Avanzado
  • Principiante
  • Intermedio
  • Intel® C++ Studio XE
  • Intel® Cluster Studio XE
  • Intel® Parallel Studio XE
  • Intel® Inspector XE
  • Mensaje pasa a interfaz
  • Learning Lab
  • Herramientas de desarrollo
  • Arquitectura Intel® para muchos núcleos integrados
  • Computación en paralelo
  • Subprocesos
  • Suscribirse a Microsoft Windows* 8.x