#Eprints #UPCommons @EEBE_UPC On the parallelization of stellar evolution codes https://t.co/JnzfJNlb5d
#Eprints #UPCommons @EEBE_UPC On the parallelization of stellar evolution codes https://t.co/JnzfJNlb5d
RT @SpringerPhysics: On the parallelization of stellar evolution codes https://t.co/9QW5X3vGun #hydrodynamics #parallelcomputing @Springer…
RT SpringerPhysics: On the parallelization of stellar evolution codes https://t.co/oJ76I89wlC #hydrodynamics #parallelcomputing SpringerOpen https://t.co/m8sKNFdUXg
RT @SpringerPhysics: On the parallelization of stellar evolution codes https://t.co/9QW5X3vGun #hydrodynamics #parallelcomputing @Springer…
RT @SpringerPhysics: On the parallelization of stellar evolution codes https://t.co/9QW5X3vGun #hydrodynamics #parallelcomputing @Springer…
This paper explores the different pros and cons in the parallelization of stellar codes through different parallelization strategies extensively used in the modeling of classical novae and type I X-ray bursts. https://t.co/5P0ebwWdgm
David Martin, Jordi José and Richard Longland, On the parallelization of stellar evolution codes, Comput. Astrophys. Cosmol. (2018) 5:3 https://t.co/dwdvQrtOkj #CompAC
On the parallelization of stellar evolution codes https://t.co/oJ76I89wlC #hydrodynamics #parallelcomputing SpringerOpen https://t.co/m8sKNFdUXg
RT @SpringerPhysics: On the parallelization of stellar evolution codes https://t.co/9QW5X3vGun #hydrodynamics #parallelcomputing @Springer…
On the parallelization of stellar evolution codes https://t.co/9QW5X3vGun #hydrodynamics #parallelcomputing @SpringerOpen https://t.co/2gXbxkeQj0