Package: imp-dev
Architecture: amd64
Version: 2.16.0-1
Priority: optional
Section: libdevel
Source: imp
Maintainer: Ben Webb <ben@salilab.org>
Installed-Size: 6832
Depends: imp (= 2.16.0-1), 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: bionic/imp-dev_2.16.0-1_amd64.deb
Size: 907084
MD5sum: a1eeb8caffc5407d87e2befafc2b1e5e
SHA1: 98beb1971fe14a8c2c5ffcc33a879de1ad169f07
SHA256: dbb81269d71b2c4e2672b00380dbe44fc94b72732bbc69d47198caf63cc10d9e
SHA512: 8b48011429a10042afdf2af82574e292d7901c2953bb38479244a67b7fb0c0999a9f32c5a787f1a3be578e00a25f5c018fd5e888ce0ed01ea11af5cdebe454f9
Homepage: https://integrativemodeling.org/
Description: The Integrative Modeling Platform
 Headers to compile against IMP.

Package: imp-openmpi
Architecture: amd64
Version: 2.16.0-1
Priority: optional
Section: libs
Source: imp
Maintainer: Ben Webb <ben@salilab.org>
Installed-Size: 4746
Depends: imp (= 2.16.0-1), libboost-filesystem1.65.1, libboost-program-options1.65.1, libboost-system1.65.1, libc6 (>= 2.14), libgcc1 (>= 1:3.0), libgomp1 (>= 4.2.1), libopencv-core3.2, libopencv-imgcodecs3.2, libopenmpi2, libstdc++6 (>= 5.2)
Filename: bionic/imp-openmpi_2.16.0-1_amd64.deb
Size: 806336
MD5sum: 5d8172b484baa640dba970116acc11d0
SHA1: c1849540dd676035686ad2b67fee1418c1780adb
SHA256: 62337c45475dc6d0d27c7227f31105e32034dea7f076ed00f3228ea247b09be3
SHA512: 3fa26d5ed438a54770f879fdcd5614e0d58c91c548f8355c4d62b8e7515f1c717443b9fa35b62520dd628918b65cdd8666b2a566d592cb15a974b59a86e3aa8b
Homepage: https://integrativemodeling.org/
Description: The Integrative Modeling Platform
 IMP MPI module and dependents, for openmpi.

Package: imp-python2
Architecture: amd64
Version: 2.16.0-1
Priority: optional
Section: libs
Source: imp
Maintainer: Ben Webb <ben@salilab.org>
Installed-Size: 66878
Depends: imp (= 2.16.0-1), python-numpy, python-protobuf
Filename: bionic/imp-python2_2.16.0-1_amd64.deb
Size: 9449212
MD5sum: f849b5c9fda4613bd8fa5acf546cef6c
SHA1: 68dcb310556fbed3d1497169302c9ec9e7078c2a
SHA256: aa0c928ef04cebd50c9dcdd46e568a421153ef99523f1c1bcff1ea45aab188e8
SHA512: fed7e3aae750c0d1cd52cebe8c5fe901fd2a6e2ef228284218122d0357caab23fe1e81007ae88ea812605bc87b9bdd14cf259fc8d617202ca5f53cdbab4d4ec0
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: 2.16.0-1
Priority: optional
Section: libs
Maintainer: Ben Webb <ben@salilab.org>
Installed-Size: 416788
Depends: libboost-filesystem1.65.1, libboost-graph1.65.1, libboost-iostreams1.65.1, libboost-program-options1.65.1, libboost-random1.65.1, libboost-system1.65.1, libc6 (>= 2.27), libcgal13, libfftw3-double3 (>= 3.3.5), libgcc1 (>= 1:4.0), libgmp10, libgomp1 (>= 4.9), libgsl23, libgslcblas0, libhdf5-100, libmpfr6 (>= 3.1.3), libopencv-core3.2, libopencv-imgcodecs3.2, libopencv-imgproc3.2, libprotobuf10, libstdc++6 (>= 5.2), python3-numpy, python3-protobuf
Breaks: imp-python3 (<< 2.13.0)
Replaces: imp-python3 (<< 2.13.0)
Filename: bionic/imp_2.16.0-1_amd64.deb
Size: 46120604
MD5sum: 018367dfc68c8178352791ecf6f087fc
SHA1: bf6ad75d977b6fac3bead94f748878db4cb70bde
SHA256: 8661c97be6e155cdeeab470acdd6c992a4f0e68d730e7b8024f10d5142d2b9ef
SHA512: 28b9ca6daa0a74310f2d694885ac6344b3379478624783691531fa1745f9086cc4d2e8a3df3509e4f6d56920d639323ccecddb4368cdeab615800f2c6e82509f
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.