Filtros
Why P scales as C*V^2*f is so obvious (pt 2)
THE GORY DETAILS
Let’s continue from where we left off last time. Let’s figure out the why of the equation,
P = C * V^2 * (a * f)
Preparing for Parallel Optimization
Optimizing your application for multi-core technology can result in big performance improvements, but it requires a plan of action that is well suited to your application. This article gives an overview of key steps to follow as you optimize your code.Parallel Universe Magazine #12: Advanced Vectorization
This blog contains additional content for the article "Advanced Vectorization" from Parallel Universe #12:
What's Bugging You?
What's bugging me? I'll tell you what's bugging me. It's when my dashboard dials stop working right.
Go Parallel 3
Parallel programming with the Go language (golang). The blog shows how and when to use sync and sync/atomic packages.Using Intel® MPI Library 5.0 with MPICH based applications
Why it is needed?Diagnostic 15522: Loop was not vectorized: loop control flow is too complex.
Product Version: Intel® Fortran Compiler 15.0 and above
Diagnostic 15524: Loop was not vectorized: search loop cannot be vectorized unless all memory references can be aligned vector load.
Product Version: Intel(R) Visual Fortran Compiler XE 15.0 or a later version
Diagnostic 15527: loop was not vectorized: function call to xxx cannot be vectorized
Product Version: Intel(R) Visual Fortran Compiler XE 15.0 or a later version
Diagnostic 15532: Loop was not vectorized: compile time constraints prevent loop optimization
Product Version: Intel(R) Visual Fortran Compiler XE 15.0 or a later version
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