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README.GPU
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README.GPU
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=====================
GPU support in Abinit
=====================
IMPORTANT: GPU support is currently highly *EXPERIMENTAL* and should
be used by experienced developers only. If you encounter
any problem, please report it to Yann Pouillon before doing
anything else. In particular, DO NOT TRY TO WILDLY AND
DIRTILY HACK THE BUILD SYSTEM, EVEN IF YOU ARE A PHYSICIST!
GPU-related parameters
======================
GPU support is activated by the --enable-gpu option of configure.
Another option of importance is the --with-gpu-flavor one, which selects
the kind of GPU support that will be activated. A convenience option,
codename --with-gpu-prefix, is also provided, in order to set
automatically all relevant parameters whenever possible. A few other
options are available as well, mainly for fine-tuning of the build
parameters and testing purposes.
Full descriptions of all these options can be found in the
~abinit/doc/config/build-config.ac file. Do not hesitate to ask
questions on http://forum.abinit.org/.
In addition, the permitted GPU-related preprocessiong options are:
* HAVE_GPU : generic use;
* HAVE_GPU_SERIAL : serial GPU support;
* HAVE_GPU_MPI : MPI-aware GPU support.
Cuda support
============
At present it is possible to ask for single- or double-precision Cuda
support. The configure script will check that the Cuda libraries are
properly working, but however not whether double-precision is actually
supported by your version of Cuda (this might be added in the future).
All calls to Cuda routines should be carefully embedded within
'#if defined HAVE_GPU_CUDA ... #else ... #endif' preprocessing blocks.
When a feature does require Cuda and will not work without it, the
corresponding '#else' part should display an error and cause Abinit to
abort.
The permitted Cuda-related preprocessing options are :
* HAVE_GPU_CUDA : generic use;
* HAVE_GPU_CUDA_SP : single-precision calculations;
* HAVE_GPU_CUDA_DP : double-precision calculations.
All high-level routines directly accessing Cuda features have to be put
in ~abinit/src/52_manage_cuda/, and low-level ones in
~abinit/src/15_gpu_toolbox/. All exceptions have to be approved by
Xavier Gonze prior to any implementation.
All files belonging to nVidia must *not* be distributed with Abinit.
Please discuss with Yann Pouillon if you need them inside the Abinit
source tree during the build.
In any case, all Cuda-related developments should be done in good
coordination with:
* Marco Mancini
* Marc Torrent
* Thierry Deutsch
* Damien Caliste
* Luigi Genovese
* Matthieu Ospici
* Yann Pouillon
Cuda version
============
To take advantage of the multiple FFT in cuda (FFT in batch), ABINIT
have to be compiled with a Cuda version>=3.0.
It is possible to build with previous vesions (>2.1 tested) but you
make some changes. Contact MMancini.
cuda implementation support devices with capabilty (revision)>1.0
Magma support
=============
The MAGMA project aims to develop a dense linear algebra library similar
to LAPACK but for heterogeneous/hybrid architectures, starting
with current "Multicore+GPU" systems.
It is recommended to take advantage of MAGMA when using ABINIT with
Cuda.
Magma is not distributed within ABINIT package; it has to be preliminary
installed. To activate MAGMA support during building process, use
--wih-linalg-flavor="...+magma" at configure level.
OpenCL support
==============
OpenCL support is currently under discussion. More info will come once
decisions have been taken.
S_GPU support
=============
The S_GPU library provides higher performance and better load balancing
when each GPU of a hybrid computer is shared by several processes, e.g.
MPI tasks.
It will be supported in Abinit in the future, from its version 2.
See http://ligforge.imag.fr/projects/sgpu/ for details.