19th International CODATA Conference
Category: Keynote
Design and Data in Chemistry: The Interplay of Ideas and Facts
Johann Gasteiger (Gasteiger@chemie.uni-erlangen.de)
Computer-Chemie-Centrum, Universitaet Erlangen-Nuernberg, Germany
http://www2.chemie.uni-erlangen.de
The essential task of chemistry is not so much to produce compounds but to produce
compounds with a certain property, be it a physical, chemical, or biological
property. In order to do that, chemists have to answer three fundamental questions
that correspond to major fields of applying computers in chemistry:
- which structure do I need
for the desired property?
structure-property/activity
relationships
- how can I synthesize this structure?
synthesis
design
- what is the product of my reaction?
reaction
simulation
structure
elucidation
All these problems are highly complex and cannot be solved by calculations based on first principles. Thus, inductive learning methods have to be used to analyze the results of experiments, to analyze data.
Data have to be integrated into information and information has to be condensed into knowledge. Clearly, the amount and the quality of the available data are of high influence on the accuracy of the predictions that can be made.
The progress in the above three problem areas will be presented.