{"name":"berkeleygw","portdir":"science/berkeleygw","version":"2.0.0","license":"BSD","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://www.berkeleygw.org","description":"GW/Bethe-Salpeter equation","long_description":"BerkeleyGW is a set of computer codes that calculate the quasiparticle properties and the optical responses of a large variety of materials from bulk periodic crystals to nanostructures such as slabs, wires and molecules, using many-body perturbation theory (the GW approximation and Bethe-Salpeter equation).","active":true,"categories":["science"],"maintainers":[{"name":"dstrubbe","github":"dstrubbe","ports_count":38}],"variants":["accelerate","atlas","openblas","clang10","clang11","clang12","clang13","clang14","clang15","clang16","clang17","clang50","clang60","clang70","clang80","clang90","clangdevel","gcc10","gcc11","gcc12","gcc13","gccdevel","gfortran","mpich","openmpi","threads","debug","hdf5","fftw2"],"dependencies":[{"type":"build","ports":["clang-16","gcc13"]},{"type":"lib","ports":["vecLibFort","libgcc","fftw-3"]}],"depends_on":[]}