GALSYNTH a WEB interface for GRASIL by Lorenzo Paoletti Amedeo Petrella Danilo Selvestrel (INAF-PD) Speaker Gian Luigi Granato (INAF-PD)
GRA(phite)SIL(icate) in a nutshell (Silva et al 98, Silva 99, Granato et al 00, Bressan et al 02, Panuzzo et al 03, Vega et al 05) 3 dusty environments: dense phase ISM (star forming Molecular Clouds), diffuse phase (cirrus) clumping of stars and dust, dusty envelopes of AGB stars Stars are born within MCs and gradually escape as a function of their age age- dependent extinction Stars and dust are distributed in a bulge (King profile) + disk (double exponential profile) geometry Radiative transfer exactly solved in MCs, with approximation in the cirrus Dust includes big grains, very small grains and PAHs. The emission is appropriately computed for each component UV-to radio SEDs (continuum, nebular lines, spectral indexes)
Motivations to run GRASIL GRASIL is a complex model with several physical and algorithmic parameters, thus difficult to use quickly, and time consuming. Much handier to use rough prescriptions. BUT are they sufficient in general?
Why a good model is compulsory? just an example with GALFORM SAM (Durham): 850 m counts predicted by GALFORM with GRASIL and a with a relatively simple prescription calibrated to match GRASIL Same at 25!
Babbedge et al in prep. GALFORM+GRASIL vs SWIRE LFs
Simple prescription may be calibrated (with observations or good models) to work under certain conditions, but not in general! Reliability is unpredictable. vital to have a WEB interface for GRASIL to guide the user allow use without compilation/installation provide computing power GALSYNTH (one of our task in MAGPOP proposal..)
GALSYNTH the web interface After login, users access their own workspaces Interactive editing of parameters, with explanations and bound checking (3 levels) Sets of parameters can be saved, modified, reused. Sets include the possibility of iteration over parameters (many models) The user defines jobs that will be executed on a pool of application servers (at present 3 PCs, easy to add more) When job completed, user is notified and can download the results of all models packed in one archive (which remains also on the WEB server)
Registration and login
Users access their own workspaces SETs are sets of input parameters for the codes (CHE sets for CHE_EVO or PAR sets for GRASIL), including definitions of possible iterations on parameters Jobs are batch executions of CHE_EVO+GRASIL sequence according to selected SETs
SET definition I Three Levels, the higher the more parameter to set and the greater the allowed range
SET definition II
SET defined
JOB creation
Job Status
Jobs list and results donwnload
Naming of files The.tar.gz output files of a job consisting of iterations on n parameters, contains a set of files for each specific GRASIL model, with names in the _. Example (job with iteration on etastart, mmolfraz and tgal) :
Results I…
Result II… A completely imaginary galaxy SED at 1,3,5,7,9,11 Gyr NB: GALSYNTH (by now) exploits only part of the possibilities of GRASIL…
GALSYNTH a WEB interface to run immediately GRASIL Anyone can register and be a user Users have their workspaces Interactive editing of parameters, with explanations and bound checking, including iterations Sets of parameters can be saved, modified, reused. Batch jobs are executed on a pool of our computers When job completed, user is notified and downloads models