Package: imp-dev Architecture: amd64 Version: 2.18.0-1 Priority: optional Section: libdevel Source: imp Maintainer: Ben Webb Installed-Size: 6904 Depends: imp (= 2.18.0-1), cmake, swig, libboost-filesystem-dev, libboost-graph-dev, libboost-iostreams-dev, libboost-program-options-dev, libboost-random-dev, libboost-regex-dev, libboost-thread-dev, libcgal-dev, libhdf5-dev, libfftw3-dev, libopencv-dev, libgsl-dev, python3-dev, libann-dev, libeigen3-dev, libprotobuf-dev Filename: jammy/imp-dev_2.18.0-1_amd64.deb Size: 934492 MD5sum: ca14c07e868477b27371a8a0ac340885 SHA1: 31cd55d40b79a896567ec5e0464a4cd6b54bce24 SHA256: 86b5916c4fa0389586c65645c19c343a4eeb8a21ec4fca6a8e65111a2b591135 SHA512: 52e4f0d2b222cf95a28b0917d2d0217eb598d99514b6a897e11f4d6008f6f63cd18cf14799dc276ec1e3124794af5332e9d950ebdff9919d6db4abd0e982a27e Homepage: https://integrativemodeling.org/ Description: The Integrative Modeling Platform Headers to compile against IMP. Package: imp-openmpi Architecture: amd64 Version: 2.18.0-1 Priority: optional Section: libs Source: imp Maintainer: Ben Webb Installed-Size: 5109 Depends: imp (= 2.18.0-1), libboost-filesystem1.74.0 (>= 1.74.0), libboost-program-options1.74.0 (>= 1.74.0), libc6 (>= 2.34), libgcc-s1 (>= 3.0), libgomp1 (>= 4.2.1), libopencv-core4.5d (>= 4.5.4+dfsg), libopencv-imgcodecs4.5d (>= 4.5.4+dfsg), libopenmpi3 (>= 4.1.2), libstdc++6 (>= 11) Filename: jammy/imp-openmpi_2.18.0-1_amd64.deb Size: 1003648 MD5sum: c1f23bb156e8fb22adb99e93582f9328 SHA1: a50bca9a72f543c95e09fc50f17d48706fe5ebb1 SHA256: 86046e7f4f8548a609994eb2ed1d95cfa9e5261e60c3466c1232685ee09e6225 SHA512: 436bd82ba5ee69a34f2724e9f21a530106ce91e44a0306883cf7d8bfeb36e766637ef67b2f5e25de60142e2cc45790e409d76e5507e7d637a351d6e788b0a02f Homepage: https://integrativemodeling.org/ Description: The Integrative Modeling Platform IMP MPI module and dependents, for openmpi. Package: imp-python2 Architecture: amd64 Version: 2.18.0-1 Priority: optional Section: libs Source: imp Maintainer: Ben Webb Installed-Size: 87810 Depends: imp (= 2.18.0-1) Filename: jammy/imp-python2_2.18.0-1_amd64.deb Size: 13796318 MD5sum: 1d154e3a6f4ecee7ebb7882e89543c65 SHA1: 5a0eaeb51b93b302aca6ddc49b011bf7e943447d SHA256: a0d5b41db12a5bdfa946242d70d503cb6af6b496b895aff18f455c106bb34f5f SHA512: 861293216a866893ae17606d9dee7b034c7e7812d63d6f251e3bf8df0af43f093cf45b96e9fa686a8212da87d2e81ec98d1301f7b756108ed1e7746d14b78f14 Homepage: https://integrativemodeling.org/ Description: The Integrative Modeling Platform Wrappers for Python 2 (the base IMP package contains Python 3 wrappers). Package: imp Architecture: amd64 Version: 2.18.0-1 Priority: optional Section: libs Maintainer: Ben Webb Installed-Size: 430745 Depends: libboost-filesystem1.74.0 (>= 1.74.0), libboost-graph1.74.0 (>= 1.74.0), libboost-iostreams1.74.0 (>= 1.74.0), libboost-program-options1.74.0 (>= 1.74.0), libboost-random1.74.0 (>= 1.74.0), libboost-serialization1.74.0 (>= 1.74.0), libc6 (>= 2.34), libfftw3-double3 (>= 3.3.5), libgcc-s1 (>= 4.0), libgmp10 (>= 2:6.2.1+dfsg), libgomp1 (>= 4.9), libgsl27 (>= 2.7.1), libhdf5-103-1, libmpfr6 (>= 3.1.3), libopencv-core4.5d (>= 4.5.4+dfsg), libopencv-imgcodecs4.5d (>= 4.5.4+dfsg), libopencv-imgproc4.5d (>= 4.5.4+dfsg), libprotobuf23 (>= 3.12.4), libstdc++6 (>= 11), python3-numpy, python3-protobuf Breaks: imp-python3 (<< 2.13.0) Replaces: imp-python3 (<< 2.13.0) Filename: jammy/imp_2.18.0-1_amd64.deb Size: 53681030 MD5sum: 39c5df6cf13bb146b399010a1a9ef11e SHA1: 6692a6d3ea98ce65334791a50deaa87bb7301ae9 SHA256: 6a47a87e9dc8520a89329b6db028a4bfdb5476d8ff84e92714f8bfa933e5bcf7 SHA512: 99f57dd0d71c0834c1f9ab15d68ba758cd1f86761bf9895fa9db9b5c76bb2f9a8282e246c4c00587902b56f6ea985217c1e05109c916edbbfaf51a29ca8a1b3b Homepage: https://integrativemodeling.org/ Description: The Integrative Modeling Platform IMP's broad goal is to contribute to a comprehensive structural characterization of biomolecules ranging in size and complexity from small peptides to large macromolecular assemblies. Detailed structural characterization of assemblies is generally impossible by any single existing experimental or computational method. This barrier can be overcome by hybrid approaches that integrate data from diverse biochemical and biophysical experiments (eg, x-ray crystallography, NMR spectroscopy, electron microscopy, immuno-electron microscopy, footprinting, chemical cross-linking, FRET spectroscopy, small angle X-ray scattering, immunoprecipitation, genetic interactions, etc...). . We formulate the hybrid approach to structure determination as an optimization problem, the solution of which requires three main components: * the representation of the assembly, * the scoring function and * the optimization method. . The ensemble of solutions to the optimization problem embodies the most accurate structural characterization given the available information. . We created IMP, the Integrative Modeling Platform, to make it easier to implement such an integrative approach to structural and dynamics problems. IMP is designed to allow mixing and matching of existing modeling components as well as easy addition of new functionality.