Source: cuba Section: math Priority: optional Maintainer: Igor Pashev Build-Depends: debhelper ( >= 8.1.3~), libqt4-dev ( >= 4:4.6 ), Standards-Version: 3.9.2 Homepage: http://www.feynarts.de/cuba/ Package: libcuba3 Architecture: any Multi-Arch: same Depends: ${shlibs:Depends}, ${misc:Depends} Pre-Depends: ${misc:Pre-Depends} Description: library for multidimensional numerical integration The Cuba library offers a choice of four independent routines for multidimensional numerical integration: Vegas, Suave, Divonne, and Cuhre. They work by very different methods, first three are Monte Carlo based. All four have a C/C++, Fortran interface and can integrate vector integrands. Their invocation is very similar, so it is easy to substitute one method by another for cross-checking. For further safeguarding, the output is supplemented by a chi-square probability which quantifies the reliability of the error estimate. . This package provides the shared libraries required to run programs compiled with Cuba. To compile your own programs you also need to install libuba3-dev. Package: libcuba3-dev Section: libdevel Architecture: any Provides: libcuba-dev Depends: libcuba3 ( = ${binary:Version}), ${misc:Depends} Suggests: libcuba-doc, cuba-partview Description: library for multidimensional numerical integration: development files The Cuba library offers a choice of four independent routines for multidimensional numerical integration: Vegas, Suave, Divonne, and Cuhre. They work by very different methods, first three are Monte Carlo based. All four have a C/C++, Fortran interface and can integrate vector integrands. Their invocation is very similar, so it is easy to substitute one method by another for cross-checking. For further safeguarding, the output is supplemented by a chi-square probability which quantifies the reliability of the error estimate. . This package contains the header file, static library and symbolic links that developers using Cuba will need. Package: cuba-partview Architecture: any Depends: ${shlibs:Depends}, ${misc:Depends} Description: partition viewer for the Cuba library Partview reads Cuba's verbose output from stdin and displays the specified planes of the tessellation on screen. Each pair of dimensions is shown in a separate tab. . The Cuba library offers a choice of four independent routines for multidimensional numerical integration: Vegas, Suave, Divonne, and Cuhre. They work by very different methods, first three are Monte Carlo based. All four have a C/C++, Fortran interface and can integrate vector integrands. Their invocation is very similar, so it is easy to substitute one method by another for cross-checking. For further safeguarding, the output is supplemented by a chi-square probability which quantifies the reliability of the error estimate. Package: libcuba3-dbg Priority: extra Section: debug Architecture: any Provides: libcuba-dbg Depends: libcuba3 ( = ${binary:Version}), ${misc:Depends} Description: library for multidimensional numerical integration: debug symbols The Cuba library offers a choice of four independent routines for multidimensional numerical integration: Vegas, Suave, Divonne, and Cuhre. They work by very different methods, first three are Monte Carlo based. All four have a C/C++, Fortran interface and can integrate vector integrands. Their invocation is very similar, so it is easy to substitute one method by another for cross-checking. For further safeguarding, the output is supplemented by a chi-square probability which quantifies the reliability of the error estimate. . This package contains debugging symbols for libcuba3. Package: libcuba-doc Architecture: all Section: doc Depends: ${misc:Depends} Description: library for multidimensional numerical integration: documentation The Cuba library offers a choice of four independent routines for multidimensional numerical integration: Vegas, Suave, Divonne, and Cuhre. They work by very different methods, first three are Monte Carlo based. All four have a C/C++, Fortran interface and can integrate vector integrands. Their invocation is very similar, so it is easy to substitute one method by another for cross-checking. For further safeguarding, the output is supplemented by a chi-square probability which quantifies the reliability of the error estimate. . This package includes documentation and examples for the Cuba library.