Richard Pausch
Richard Pausch
@finnolec Thanks for the feedback. As discussed offline, there is no time issue. It just would be nice to validate our current presumption.
@psychocoderHPC Thank you for posting this detailed description.
Great work @sbastrakov! For this prototype, could you give a number of independent translation units created and a time of compilation if used with a high number of parallel threads?
No worries/hurry @sbastrakov, I know this is a prototype - I am just interested in these numbers because I believe you are tackling/solving a problem every users has and would...
@bernhardmgruber Cool! Do you have any suggestions for speeding up compilation based on that data?
Dear @HaoPengYY , please excuse the long silence. You are totally right. In principle you can reconstruct your source distribution if you have your complex radiation. Thus with the complex...
@BrianMarre What is the status of the fix and this issue?
Hi @baobaba13, while I do not quite understand the details of your proposed setup, I would say that in general simulating the radiation from a laser irradiated foil is possible....
According to your param file, you use either full density `7e20 m^-3` or zero density for your electron distribution, depending on the radial position. ```c++ dens = (math::sqrt(math::pow(x1,2.0)+math::pow(x3,2.0))
@ervw12 not necessarily - we commonly use absorbing or PML boundaries with (transversely) homogeneous densities. As long as the laser is not too strong an the borders, this is a...