Division Scientific Computing, Theory and DataSCD
By July 1, 2021, the new research division "Scientific Computing, Theory and Data" has been established at PSI.
Its goals are:
- to provide modeling know-how and computing resources for the science, engineering, and accelerator program at PSI
- to provide conceptual and practical input to new science initiatives at PSI like SwissFEL
- to link new opportunities of computational materials modeling (NCCR MARVEL) and data science (SDSC) to PSI’s unique large research facilities
- to establish an international role model for the data chain at large research facilities
Highlights & News
Scientific Highlights
Regarder les protéines des récepteurs se courber
Les récepteurs couplés aux protéines G servent de médiateurs dans l'organisme. Dans une interview Ramon Guixà explique comment il donne vie aux molécules réceptrices à l'écran.
Nouveau plan de construction pour des ordinateurs quantiques plus stables
Des chercheurs du PSI ont montré comment des bits quantiques plus rapides et plus précis peuvent être créés. Leurs idée centrale est d'introduire de manière ciblée des atomes magnétiques de la classe des terres rares dans le réseau cristallin d’un matériau.
Fellow Award for Dr. Mantzaras
The prestigious Fellow Award “Fellow of The Combustion Institute” was allotted to Dr. Mantzaras for “Pioneering Experimental and Modeling Research in Hetero-/Homogeneous and Catalytic Combustion”. The combustion activities at LSM emphasize on non-intrusive laser-based measurements in a high-pressure optically accessible catalytic reactor, while the modeling activities encompass advanced multidimensional numerical simulations and theoretical work based on activation energy asymptotics.
Benefit of random testing
With the imminent relaxation of socio-economic restrictions, it becomes vital to assess its effect on the prevalence of acute infections within the population, as rapidly as possible. Currently available monitoring instruments for the COVID-19 pandemic have an inherent time delay of about 14 days, as they rely on confirmed infections, hospitalizations, and death numbers. These methods give Reff(t) (the number of infections caused by a single infected person), but their delay is a significant disadvantage when restrictions are released. If after relaxation, Reff(t) rises above 1, one will not be able to react adequately before two weeks have passed during which time the prevalence could significantly rise. Here, we propose the use of random testing to shorten this reaction time, by obtaining direct and modeling dependent information on Reff(t). Through random testing of between 2500 and 20000 people per day, we find that over periods significantly shorter than two weeks, it becomes possible to detect a dangerous increase in Reff with reasonable confidence.
La simulation: le troisième pilier de la science
Des chercheurs de l’Institut Paul Scherrer PSI simulent et modélisent de grandes installations de recherche, mais aussi certaines expériences, par exemple en sciences des matériaux et en sciences de la vie. Andreas Adelmann, chef du Laboratoire de simulation et modélisation, explique comment ils procèdent.