Package: imp-dev
Architecture: amd64
Version: 2.14.0-1
Priority: optional
Section: libdevel
Source: imp
Maintainer: Ben Webb <ben@salilab.org>
Installed-Size: 6862
Depends: imp (= 2.14.0-1), 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, libcgal-qt5-dev, libhdf5-dev, libfftw3-dev, libopencv-dev, libgsl0-dev, python3-dev, libann-dev, libeigen3-dev, libprotobuf-dev
Filename: xenial/imp-dev_2.14.0-1_amd64.deb
Size: 933632
MD5sum: 82cffc2ebd8f4990c5786113e826e138
SHA1: 15d9165ec865650d4dce7ff36b6e40945612c455
SHA256: d2a475667a15715627323d7a4a55ab637aca618a0ddfe448a823c9c8a7908bba
SHA512: 733a505db4379d3c3ce96ca13c773ab156d96031fa5fad88d5ae00db98287a1a90a044b09e2e594c30ccf4ea26cc6d20f5bd23e9d2a68524ff590764b2449a76
Homepage: https://integrativemodeling.org/
Description: The Integrative Modeling Platform
 Headers to compile against IMP.

Package: imp-python2
Architecture: amd64
Version: 2.14.0-1
Priority: optional
Section: libs
Source: imp
Maintainer: Ben Webb <ben@salilab.org>
Installed-Size: 66951
Depends: imp (= 2.14.0-1), python-numpy, python-protobuf
Filename: xenial/imp-python2_2.14.0-1_amd64.deb
Size: 9283990
MD5sum: c9d12a6109bcd4f517898205435ce77b
SHA1: 0276ed5a7e55eae7285a368ab94161a9131ae565
SHA256: 4953e41df1967d5b71944ed5951a66c50ca8b884625f607b9f4207238fa77f66
SHA512: c38a14bd17c334d75b694e142e2343d5e8d36d136259d322d936ef7fb1d8c2cb116c3e943406b24f9db9c9ff56b90f56c5080114db4cf139b296e74a885e0749
Homepage: https://integrativemodeling.org/
Description: The Integrative Modeling Platform
 Wrappers for Python 2 (the base IMP package contains Python 3 wrappers).

Package: imp-openmpi
Architecture: amd64
Version: 2.14.0-1
Priority: optional
Section: libs
Source: imp
Maintainer: Ben Webb <ben@salilab.org>
Installed-Size: 4983
Depends: imp (= 2.14.0-1), libboost-filesystem1.58.0, libboost-program-options1.58.0, libboost-system1.58.0, libc6 (>= 2.14), libgcc1 (>= 1:3.0), libgomp1 (>= 4.2.1), libopencv-core2.4v5, libopencv-highgui2.4v5, libopenmpi1.10, libstdc++6 (>= 5.2)
Filename: xenial/imp-openmpi_2.14.0-1_amd64.deb
Size: 834918
MD5sum: b07bc530050c7318059c0e21038a1331
SHA1: 51b8faa2a8f5537b13b1e1d35847ff37d3afc9c2
SHA256: a2bc0da1688c4a464d9c8961898cb03e8d47f698cf06cd626499ec8621ac7122
SHA512: d97e8e17845de2f618378ffdc84a35b153a21d21076b09b00a81f1036baa08368b2120af8e2411d5835806ad88cd08cf8ff062628096e0dea70c68c10de2caad
Homepage: https://integrativemodeling.org/
Description: The Integrative Modeling Platform
 IMP MPI module and dependents, for openmpi.

Package: imp
Architecture: amd64
Version: 2.14.0-1
Priority: optional
Section: libs
Maintainer: Ben Webb <ben@salilab.org>
Installed-Size: 415811
Depends: libboost-filesystem1.58.0, libboost-graph1.58.0, libboost-iostreams1.58.0, libboost-program-options1.58.0, libboost-random1.58.0, libboost-system1.58.0, libboost-thread1.58.0, libc6 (>= 2.14), libcgal11v5, libfftw3-double3, libgcc1 (>= 1:3.4), libgmp10, libgomp1 (>= 4.9), libgsl2, libhdf5-10, libmpfr4 (>= 3.1.3), libopencv-core2.4v5, libopencv-highgui2.4v5, libopencv-imgproc2.4v5, libprotobuf9v5, libstdc++6 (>= 5.2), python3-numpy
Breaks: imp-python3 (<< 2.13.0)
Replaces: imp-python3 (<< 2.13.0)
Filename: xenial/imp_2.14.0-1_amd64.deb
Size: 47227634
MD5sum: ce684b221766a220c7f3da98f66ecaa9
SHA1: 7b65be33636f8d759950dfd36548cf7db75d6c32
SHA256: 2e5317335fc38d4d09c2a46b29c6c6aa7785b2c60f4bcb1d4cb0df28195fbd11
SHA512: b30842086b840e8d73742b9869e3fdf54c8badd39fc9ca287962c2c6bec265100cfbc0a23611925ef3e0b1babaada73574ac153366297032b24e06f20b8e6bd2
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.