commit 2bbd9f122af9b0185c99a91c8d9e3ce0380df094
parent 085e8ecc4833efecce3b888b3657d14f86cbdb6b
Author: Christophe Coustet <christophe.coustet@meso-star.com>
Date: Wed, 24 Oct 2018 15:21:31 +0200
Add credit to Intel Embree the Intel way.
Diffstat:
5 files changed, 30 insertions(+), 6 deletions(-)
diff --git a/about.html.in b/about.html.in
@@ -33,8 +33,16 @@ href=https://en.wikipedia.org/wiki/Copyleft>copyleft</a> licences. You can
freely study, modify or extend them. You are also welcome to redistribute them
under certain conditions. Refer to the associated licence for details.</p>
+<p>On the formal side, many of our solvers implement a Monte-Carlo evaluation
+of a path integral. On the algorithm side, this is implemented as random walks
+through complex 3D geometries, making intensive use of ray-tracing. While this
+ray-tracing feature is part of the StarEngine
+<a href=https://gitlab.com/meso-star/star-3d>Star3D</a> library,
+it is internally powered by <a href=https://software.intel.com/sdvis>Intel®
+Rendering Framework</a>: <a href=http://embree.github.io/>Embree</a>.</p>
+
<p>This site lists some of our <b>realisations</b>. You can find more about
-them onto their associated sections. Several programs are <b>publicly
+them onto their dedicated sections. Several programs are <b>publicly
available</b> and you can thus download and try them easily. If you have any
question or want more support, please <a
href="mailto:contact@meso-star.com">contact us</a>. For more informations on
diff --git a/schiff.html.in b/schiff.html.in
@@ -36,6 +36,11 @@ distribution describes the main shapes of the particles (sphere, cylinder,
helical pipe, <i>etc.</i>) and their statistical variation according to the
distribution of their parameters (gaussian, lognormal, <i>etc.</i>).</p>
+<p>Schiff makes intensive use of ray-tracing. While this feature is part of
+the StarEngine <a href=https://gitlab.com/meso-star/star-3d>Star3D</a> library,
+it is internally powered by <a href=https://software.intel.com/sdvis>Intel®
+Rendering Framework</a>: <a href=http://embree.github.io/>Embree</a>.</p>
+
<p>Schiff is available on GNU/Linux 64-bits. It is a free software release
under the GPLv3+ license. You are welcome to redistribute it under certain
conditions; refer to the <a
diff --git a/solstice.html.in b/solstice.html.in
@@ -44,6 +44,11 @@ provided; it is possible to define the spectral distribution of any physical
property, including the input solar spectrum and the absorption of the
atmosphere, at any spectral resolution.</p>
+<p>Solstice makes intensive use of ray-tracing. While this feature is part of
+the StarEngine <a href=https://gitlab.com/meso-star/star-3d>Star3D</a> library,
+it is internally powered by <a href=https://software.intel.com/sdvis>Intel®
+Rendering Framework</a>: <a href=http://embree.github.io/>Embree</a>.</p>
+
<p>Solstice is available on GNU/Linux and Microsoft Windows 7 or later. It is a
free software released under the GPLv3+ license. You are welcome to
redistribute it under certain conditions; refer to the <a
diff --git a/star-engine.html.in b/star-engine.html.in
@@ -71,19 +71,22 @@ are briefly described below:</p>
scattered at an interface.
</li><li>
The <a href=https://gitlab.com/meso-star/star-3d.git>Star-3D</a> library
- manages <b>3D geometries</b> and provide functionalities to efficiently
- access them through <b>ray-tracing</b> or <b>sampling</b>.
+ manages <b>3D geometries</b> and provides functionalities to efficiently
+ access them through <b>ray-tracing</b> or <b>sampling</b>. The ray-tracing
+ functionalities of Star-3D are internally powered by
+ <a href=https://software.intel.com/sdvis>Intel® Rendering Framework</a>:
+ <a href=http://embree.github.io/>Embree</a>.
</li><li>
<a
href="https://gitlab.com/meso-star/star-3dut.git">Star-3DUtilityToolkit</a>
- provides functions to generate the triangular mesh of several shapes like,
+ provides functions to generate the triangular mesh of several shapes, like
cylinder, sphere, supershapes <i>etc.</i>
</li><li>
<a href="https://gitlab.com/meso-star/star-3daw.git">Star-3DAW</a>
and <a href="https://gitlab.com/meso-star/star-3dstl.git">Star-3DSTL</a>
generate Star-3D shapes from geometries saved in the Alias Wavefront obj
and <b>ST</b>ereo <b>L</b>ithography file formats, respectively. This
- simplify the use of Star-3D with geometries exported from CAD software.
+ simplifies the use of Star-3D with geometries exported from CAD software.
</li>
</ul>
diff --git a/stardis.html.in b/stardis.html.in
@@ -26,7 +26,10 @@ conduction's statistical formulation (Kac [<a href="#2">2</a>] and Muller [<a
href="#3">3</a>]). Thanks to recent advances in computer graphics technology
which has already been a game changer in the cinema industry (FX and animated
movies), this theoretical framework can now be practically used on the most
-geometrically complex models.</p>
+geometrically complex models. While this capability is part of the StarEngine
+<a href=https://gitlab.com/meso-star/star-3d>Star3D</a> library, it is
+internally powered by <a href=https://software.intel.com/sdvis>Intel®
+Rendering Framework</a>: <a href=http://embree.github.io/>Embree</a>.</p>
<p>Everytime the linear assumption is relevant, this theoretical framework
allows to encompass all the heat transfer mecanisms
