Team:Groningen/modeling cumulus2
From 2011.igem.org
Line 1: | Line 1: | ||
{{HeaderGroningen2011}} | {{HeaderGroningen2011}} | ||
=Cumulus 2.0= | =Cumulus 2.0= | ||
+ | No piece of software is ever truly finished. This of course hold double for one that was produced under the time constrainst posed by a competition such as iGEM | ||
Revision as of 13:11, 21 September 2011
Cumulus 2.0
No piece of software is ever truly finished. This of course hold double for one that was produced under the time constrainst posed by a competition such as iGEM
More modelling components
There are currently 15 different modelling components implemented in the cumulus system. While this is certainly enough to simulate a whole range of genetic circuits, it is not nearly enough to
Dynamic Modelling
Our generic modeling approach allows for the construction of a model in a matter of minutes(or hours if it is very complicated). Its main disadvantage it that they need to be programmed directly into the code. A little more programming here could allow the components to be completly dynamicaly generated. This would allow us to store them in a database and have users exchange them without recompiling their software.
Connection to the parts registry
Dyna
Multy cellular models
Although we only use single cell models we explicitly made abstraction layer between the cell level and the level of the whole model in cumulus. This will make it simple for us to create support for multicellular models, including communication an heterogeneous population.
Stogastic models
Noise is currently not modeled in cumulus even though it is a big factor in genetic circuits. Our vision is that we could best model noise by having the model generate mutiple states from every single states and again fusing states that are similar. This would allow us to compute not only single states but complete state distributions.