From: Charles Date: Tue, 15 Dec 2020 05:13:23 +0000 (+0900) Subject: Café X-Git-Url: https://source.charles.plessy.org/?a=commitdiff_plain;h=fd7812e7bd5f1d43a31cebb26a08ee619451cac5;p=source%2F.git Café --- diff --git a/biblio/30498165.mdwn b/biblio/30498165.mdwn new file mode 100644 index 00000000..30ed5a92 --- /dev/null +++ b/biblio/30498165.mdwn @@ -0,0 +1,10 @@ +[[!meta title="Organic synthesis in a modular robotic system driven by a chemical programming language."]] +[[!tag automation]] + +Steiner S, Wolf J, Glatzel S, Andreou A, Granda JM, Keenan G, Hinkley T, Aragon-Camarasa G, Kitson PJ, Angelone D, Cronin L. + +Science. 2019 Jan 11;363(6423):eaav2211. doi: 10.1126/science.aav2211. + +Organic synthesis in a modular robotic system driven by a chemical programming language. + +[[!pmid 30498165 desc="“The physical routing that links the connected modules is described in [GraphML]”. Hardware-unknowing domain-specific language (DSL) is compiled in robot commands, so that the same DSL instructions can be executed on robots with different layouts but same equipment. The commands are first simulated to check for potential issues such as overfilling, etc. Valves etc. are connected to and commanded by the computer."]] diff --git a/tags/automation.mdwn b/tags/automation.mdwn index 3851ef67..44c50ffc 100644 --- a/tags/automation.mdwn +++ b/tags/automation.mdwn @@ -6,6 +6,10 @@ Computational planning of the synthesis of complex natural products. ([[Mikulak-Klucznik and coll., 2020|biblio/33049755]]). +Computational control of an organic chemistry system. Position of the +instruments are stored relative to each other in a graph. +([[Steiner and coll., 2019|biblio/30498165]]) + Computational planning of compounts for a robotic platform that can assemble an run flow chemistry modules: [[Coley and coll., 2019|biblio/31395756]]. The use of laboratory automation in synthetic biology studied by a sociologist: [[Meckin 2020|biblio/32904024]].