Page Menu
Home
c4science
Search
Configure Global Search
Log In
Files
F91550253
manual-introduction.tex
No One
Temporary
Actions
Download File
Edit File
Delete File
View Transforms
Subscribe
Mute Notifications
Award Token
Subscribers
None
File Metadata
Details
File Info
Storage
Attached
Created
Tue, Nov 12, 03:29
Size
1 KB
Mime Type
text/x-tex
Expires
Thu, Nov 14, 03:29 (2 d)
Engine
blob
Format
Raw Data
Handle
13187388
Attached To
rAKA akantu
manual-introduction.tex
View Options
\chapter{Introduction}
\akantu means ``little element'' in Kinyarwanda, a Bantu
language. From now on, it is also an open-source object-oriented
\emph{Finite-Element} library with the ambition to be generic and
efficient. \akantu is developed within the LSMS (Computational Solid
Mechanics Laboratory, \url{lsms. epfl.ch}) at the Ecole Polytechnique
Federale of Lausanne, Switzerland. The open-source philosophy is
important for any scientific software project evolution. The
collaboration permitted by shared codes enforces sanity when users
(and not only developers) can scrutinize (and possibly criticize) the
implementation details.
\akantu was born with the vision to associate genericity, robustness
and efficiency while benefiting from the open-source
visibility. Genericity is necessary to allow the easy exploration of
mathematical formulations through algorithmic ideas. Robustness and
reliability is naturally expected from any simulation software, even
more in the context of parallel computations. In order to achieve
these goals, we made noticeable choices in the architecture of
\akantu. First we decided to use the object-oriented paradigm through
C++. Then, in order to prevent extra cost associated to virtual
function calls, we designed the library as a hybrid architecture with
objects at high level layers and vectorization at low level
layers. Thus, \akantu benefits from inheritance and polymorphism
mechanisms without the counterpart of having virtual calls within
critical loops. This coding philosophy, which was demonstrated to be
highly efficient, is innovative in the field of
\textit{Finite-Element} software.
This document is appropriate for researchers and engineers willing to
use \akantu in order to perform a finite-element calculation for solid
mechanics, structural mechanics, contact mechanics or heat
transfer. The solid mechanics solver, which is the most complete and
functional part of \akantu, is presented in details in the remainder
of this document.
Event Timeline
Log In to Comment