Package: imp-dev
Architecture: amd64
Version: 2.19.0-1
Priority: optional
Section: libdevel
Source: imp
Maintainer: Ben Webb <ben@salilab.org>
Installed-Size: 7004
Depends: imp (= 2.19.0-1), 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, libcereal-dev, libprotobuf-dev
Filename: jammy/imp-dev_2.19.0-1_amd64.deb
Size: 949090
MD5sum: c0ba029bdda82b2a47f825d386ed883b
SHA1: 0223e9c72da89840154bba55deb7a9cb660c8b77
SHA256: 5d3fd6c6842858d0bf66d7c76a94f182c636a03336cc529158936a1a42da7588
SHA512: f2c0302573dbce55b0525b830d893d039db0ee21f98737a43b8598427201b206928b79c72cf385f7ae32af4e891c3fcddaa6247d59091fa78ae42a66153f9391
Homepage: https://integrativemodeling.org/
Description: The Integrative Modeling Platform
 Headers to compile against IMP.

Package: imp-openmpi
Architecture: amd64
Version: 2.19.0-1
Priority: optional
Section: libs
Source: imp
Maintainer: Ben Webb <ben@salilab.org>
Installed-Size: 11973
Depends: imp (= 2.19.0-1), 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_2.19.0-1_amd64.deb
Size: 1621462
MD5sum: 0f0fe7816338c1cf33196f55f4184e63
SHA1: 0f427ff922dbdfa0a72af4ef6ba4e99f5bc828af
SHA256: 7f63419f61b731925c3418a9e7446f5ae6cef64f6e95e0807a60dc99ca7ad07f
SHA512: 94371042b64d4a3e0c1aa4bebd4d1882c86e0d8f79fca447d2fa08bd354863a591c958e7bc5229ee9f7a54c8c5d5cbd7a222cdda7751b76023636eae8a79a9c6
Homepage: https://integrativemodeling.org/
Description: The Integrative Modeling Platform
 IMP MPI module and dependents, for openmpi.

Package: imp-python2
Architecture: amd64
Version: 2.19.0-1
Priority: optional
Section: libs
Source: imp
Maintainer: Ben Webb <ben@salilab.org>
Installed-Size: 110219
Depends: imp (= 2.19.0-1)
Filename: jammy/imp-python2_2.19.0-1_amd64.deb
Size: 15713288
MD5sum: b74756700f3fdb72423fc1074d40d04a
SHA1: b5c1c79779a38c9ebb1dd2a34ae12a1205673094
SHA256: 41939acee2be09b3db7006c4d216bf144010cca7a38a606c3ade5e068d4b09fa
SHA512: 0a9cebc180021e6f82aa8dd9a7fbba69308701630d79aafebe18e5f40860e759f444b94d70430dd1984b6134251c4e09c50a5f4d11a655126a384d61ade8af77
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: 2.19.0-1
Priority: optional
Section: libs
Maintainer: Ben Webb <ben@salilab.org>
Installed-Size: 462363
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), 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_2.19.0-1_amd64.deb
Size: 56817160
MD5sum: ef54bd220d91aa216dc77232f378cb77
SHA1: f280b747eb59a922a8731380ade8e40e12d091fa
SHA256: 30f8147858c7f01f88ee11f742d9b05cfcbaca4b1b1b43cfe32b9b626cb44205
SHA512: 9809d4884e8f28156b526b80d9d8a8d6bb08134c6fb00ecaa34e1f18b26f82456dbc864670e9e38444066d57a6fca736194e8c368fc3710681fa85d74a383005
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.