QCaml (Quantum Camel) ===================== QCaml is a quantum chemistry software written in OCaml. Requirements ------------ * BLAS/LAPACK : Linear algebra * LaCaml : LAPACK OCaml interface * gmp : GNU Multiple Precision arithmetic library * Zarith : Arbitrary-precision integers * GetOpt : Parsing of command-line * Alcotest : Lightweight testing framework * odoc-ltxhtml : https://github.com/akabe/odoc-ltxhtml ```bash opam install dune lacaml getopt alcotest zarith camlp-streams ``` To use the Intel MKL library: ```bash export LACAML_LIBS="-L${MKLROOT}/lib/intel64 -Wl,--no-as-needed -lmkl_rt -lpthread -lm -ldl" opam install --assume-depexts lacaml ``` How to build the project ------------------------ Run `make` to compile the libraries and executables that are meant to be installed. ``` $ make ``` How to run tests ---------------- ``` $ make test ``` How to use local libraries interactively ---------------------------------------- Use `dune utop DIR` where DIR if the folder contains the `dune` file for a library. For instance, our `sub2` sample library can be used as follows: ``` $ dune utop sub2/lib ... utop # Proj_sub2.A.do_something ();; 1525373137.245 seconds have elapsed since 1970-01-01T00:00:00. - : unit = () ``` Installation ------------ The project can be installed with or without opam. Without opam, you can run the following which relies directly on dune: ``` $ make install ``` Similarly: ``` $ make uninstall ``` With opam, you can install the current development version of your project as a single opam package. It will override the currently installed package of the same name, if any: ``` $ opam pin add QCaml . ``` For more information on `opam pin`, please consult the opam documentation. The advantage of the opam-based method is that other opam packages can depend on this one, and opam will recompile them automatically as necessary. Profiling --------- The Landmarks memory profiler can be used.