tadd brcon2021 talk - adamsgaard.dk - my academic webpage | |
git clone git://src.adamsgaard.dk/adamsgaard.dk | |
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commit b5dea96fd5b0e51a5ab86a14a6e37fb6556a4253 | |
parent 5a55b5b1ec812501b22c5a360595c2cde3d3737d | |
Author: Anders Damsgaard <[email protected]> | |
Date: Tue, 15 Jun 2021 10:24:23 +0200 | |
add brcon2021 talk | |
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A pages/010-unix-for-science.cfg | 7 +++++++ | |
A pages/010-unix-for-science.html | 22 ++++++++++++++++++++++ | |
A pages/010-unix-for-science.txt | 23 +++++++++++++++++++++++ | |
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diff --git a/pages/010-unix-for-science.cfg b/pages/010-unix-for-science.cfg | |
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+filename=unix-for-science.html | |
+title=brcon 2021 talk: Unix principles for science simulations | |
+description=Talk at brcon 2021 | |
+id=unix-for-science | |
+tags=science, unix, programming, C, bitreich | |
+created=2021-06-15 | |
+updated=2021-06-15 | |
diff --git a/pages/010-unix-for-science.html b/pages/010-unix-for-science.html | |
t@@ -0,0 +1,22 @@ | |
+<p>I presented some ideas and examples of using the <a | |
+href="https://en.wikipedia.org/wiki/Unix_philosophy">Unix | |
+principles</a> in scientific software development during <a | |
+href="gopher://bitreich.org/1/con/2021">brcon 2021</a>. Abstract:</p> | |
+ | |
+<blockquote>Most numerical simulations contain several steps, for example | |
+initialization of model state, defining boundary conditions, stepping | |
+through simulation time, statistical analysis on results, and | |
+visualiation. In this talk I demonstrate how UNIX principles of | |
+process modularity and text streams allow for unparalleled flexibility | |
+for scientific applications.</blockquote> | |
+ | |
+<p>You can check out the slides and audio here:</p> | |
+ | |
+<ul> | |
+<li><a href="https://adamsgaard.dk/pub/brcon2021_adc.md">slides (markdown)</a>… | |
+<li><a href="https://adamsgaard.dk/pub/brcon2021-adc.ogg">audio (ogg)</a></li> | |
+</ul> | |
+ | |
+<p>The full conference schedule (June 14 to 20, | |
+2021) and presentation recordings are available <a | |
+href="gopher://bitreich.org/1/con/2020">here</a>. | |
diff --git a/pages/010-unix-for-science.txt b/pages/010-unix-for-science.txt | |
t@@ -0,0 +1,23 @@ | |
+I presented some ideas and examples of using the [1]Unix principles in | |
+scientific software development during [2]brcon 2021. Abstract: | |
+ | |
+ Most numerical simulations contain several steps, for example | |
+ initialization of model state, defining boundary conditions, | |
+ stepping through simulation time, statistical analysis on results, | |
+ and visualiation. In this talk I demonstrate how UNIX principles of | |
+ process modularity and text streams allow for unparalleled flexibility | |
+ for scientific applications. | |
+ | |
+You can check out the slides and audio here: | |
+ | |
+- slides (markdown): gopher://adamsgaard.dk/0/pub/brcon2021_adc.md | |
+- audio (ogg): gopher://adamsgaard.dk/9/pub/brcon2021-adc.ogg | |
+ | |
+The full conference schedule (June 14 to 20, 2021) and presentation | |
+recordings are available [3]here. | |
+ | |
+ | |
+References: | |
+ | |
+[1] gopher://gopherpedia.com/0/Unix philosophy | |
+[2] gopher://bitreich.org/1/con/2021 |