Parents (Total: 10)

The searched file hash is included in 10 parent files which include package known and seen by metalookup. A sample is included below:

Key	Value
FileName	12132
FileSize	10687080
MD5	58625686001E60320E8936F62E3622F2
PackageDescription	simulations of chemical reactions Cain performs stochastic and deterministic simulations of chemical reactions. It can spawn multiple simulation processes to utilize multi-core computers. It stores models, methods, and simulation output (populations and reaction counts) in an XML format. In addition, SBML models can be imported and exported. The models and methods can be read from input files or edited within the program. . The GUI (Graphical User Interface) is written in Python and uses the wxPython toolkit. Most of the solvers are implemented as command line executables, written in C++, which are driven by Cain. This makes it easy to launch batch jobs. It also simplifies the process of adding new solvers. Cain offers a variety of solvers: * Gillespie's direct method. * Gillespie's first reaction method. * Gibson and Bruck's next reaction method. * Tau-leaping. * Hybrid direct/tau-leaping. * ODE integration. . This package provides the architecture independent files for cain
PackageMaintainer	Ubuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com>
PackageName	cain
PackageSection	science
PackageVersion	1.10+dfsg-2
RDS:package_id	182052
SHA-1	D200067C5FF996AAE73BAA2F0BFF2CB210645E68
SHA-256	A9FB402BA20EEE1FD5FA8068484535965618662CB5398F8E235845D91A0837DB
insert-timestamp	1679408381.260728
source	RDS.db

Key	Value
FileSize	10756446
MD5	041ABDAF4E18B67F392C5529E6CA9748
PackageDescription	simulations of chemical reactions Cain performs stochastic and deterministic simulations of chemical reactions. It can spawn multiple simulation processes to utilize multi-core computers. It stores models, methods, and simulation output (populations and reaction counts) in an XML format. In addition, SBML models can be imported and exported. The models and methods can be read from input files or edited within the program. . The GUI (Graphical User Interface) is written in Python and uses the wxPython toolkit. Most of the solvers are implemented as command line executables, written in C++, which are driven by Cain. This makes it easy to launch batch jobs. It also simplifies the process of adding new solvers. Cain offers a variety of solvers: * Gillespie's direct method. * Gillespie's first reaction method. * Gibson and Bruck's next reaction method. * Tau-leaping. * Hybrid direct/tau-leaping. * ODE integration. . This package provides the architecture independent files for cain
PackageMaintainer	Debian Med Packaging Team <debian-med-packaging@lists.alioth.debian.org>
PackageName	cain
PackageSection	science
PackageVersion	1.10+dfsg-2
SHA-1	65B5E6B3669CC005D83E18366C53474EE40F35E1
SHA-256	9A3EDEA5D81260518B646ACC2C55D874D88A6203EC7464CC499418E6A1B5ECE6

Key	Value
CRC32	40506674
FileName	15577
FileSize	10716870
MD5	61CD1890131EB64FF7518CA00448F4EA
OpSystemCode	362
PackageDescription	simulations of chemical reactions Cain performs stochastic and deterministic simulations of chemical reactions. It can spawn multiple simulation processes to utilize multi-core computers. It stores models, methods, and simulation output (populations and reaction counts) in an XML format. In addition, SBML models can be imported and exported. The models and methods can be read from input files or edited within the program. . The GUI (Graphical User Interface) is written in Python and uses the wxPython toolkit. Most of the solvers are implemented as command line executables, written in C++, which are driven by Cain. This makes it easy to launch batch jobs. It also simplifies the process of adding new solvers. Cain offers a variety of solvers: * Gillespie's direct method. * Gillespie's first reaction method. * Gibson and Bruck's next reaction method. * Tau-leaping. * Hybrid direct/tau-leaping. * ODE integration. . This package provides the architecture independent files for cain
PackageMaintainer	Ubuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com>
PackageName	cain
PackageSection	science
PackageVersion	1.10+dfsg-1
ProductCode	184813
RDS:package_id	184813
SHA-1	98AC0535CF87B9738B5DAD40ADD57F696B249161
SHA-256	FA67B214A7507B5DCBCC1B7B953ED99A9E2DC8EC04967F5D55CAB441B2E4073A
SpecialCode
db	nsrl_legacy
insert-timestamp	1648755886.218963
source	RDS_2022.03.1_legacy.db

Key	Value
FileSize	10718040
MD5	5B23C5B020464C183BBFF41F2E9F2167
PackageDescription	simulations of chemical reactions Cain performs stochastic and deterministic simulations of chemical reactions. It can spawn multiple simulation processes to utilize multi-core computers. It stores models, methods, and simulation output (populations and reaction counts) in an XML format. In addition, SBML models can be imported and exported. The models and methods can be read from input files or edited within the program. . The GUI (Graphical User Interface) is written in Python and uses the wxPython toolkit. Most of the solvers are implemented as command line executables, written in C++, which are driven by Cain. This makes it easy to launch batch jobs. It also simplifies the process of adding new solvers. Cain offers a variety of solvers: * Gillespie's direct method. * Gillespie's first reaction method. * Gibson and Bruck's next reaction method. * Tau-leaping. * Hybrid direct/tau-leaping. * ODE integration. . This package provides the architecture independent files for cain
PackageMaintainer	Ubuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com>
PackageName	cain
PackageSection	science
PackageVersion	1.9-6
SHA-1	31542295AB8420FBD73E349B64E7A45FB610D25F
SHA-256	BB436E6E9C0801C7C5190EBD65822F95B233277CF39FE363B22E3A21E2637BA4

Key	Value
FileSize	10753368
MD5	1973F8FD9FA1CB60078DF48B6DF04C19
PackageDescription	simulations of chemical reactions Cain performs stochastic and deterministic simulations of chemical reactions. It can spawn multiple simulation processes to utilize multi-core computers. It stores models, methods, and simulation output (populations and reaction counts) in an XML format. In addition, SBML models can be imported and exported. The models and methods can be read from input files or edited within the program. . The GUI (Graphical User Interface) is written in Python and uses the wxPython toolkit. Most of the solvers are implemented as command line executables, written in C++, which are driven by Cain. This makes it easy to launch batch jobs. It also simplifies the process of adding new solvers. Cain offers a variety of solvers: * Gillespie's direct method. * Gillespie's first reaction method. * Gibson and Bruck's next reaction method. * Tau-leaping. * Hybrid direct/tau-leaping. * ODE integration. . This package provides the architecture independent files for cain
PackageMaintainer	Debian Med Packaging Team <debian-med-packaging@lists.alioth.debian.org>
PackageName	cain
PackageSection	science
PackageVersion	1.10+dfsg-3
SHA-1	234082557F41EDC427FBAE00BF5A3FDF178BF67C
SHA-256	AD72765C99C8B362C9CF737A9258572834B39C73C3135F5E248D55A7C24B142B

Key	Value
FileSize	10798584
MD5	156C7F685059841A0EE8B62EEE432909
PackageDescription	simulations of chemical reactions Cain performs stochastic and deterministic simulations of chemical reactions. It can spawn multiple simulation processes to utilize multi-core computers. It stores models, methods, and simulation output (populations and reaction counts) in an XML format. In addition, SBML models can be imported and exported. The models and methods can be read from input files or edited within the program. . The GUI (Graphical User Interface) is written in Python and uses the wxPython toolkit. Most of the solvers are implemented as command line executables, written in C++, which are driven by Cain. This makes it easy to launch batch jobs. It also simplifies the process of adding new solvers. Cain offers a variety of solvers: * Gillespie's direct method. * Gillespie's first reaction method. * Gibson and Bruck's next reaction method. * Tau-leaping. * Hybrid direct/tau-leaping. * ODE integration. . This package provides the architecture independent files for cain
PackageMaintainer	Debian Med Packaging Team <debian-med-packaging@lists.alioth.debian.org>
PackageName	cain
PackageSection	science
PackageVersion	1.9-8
SHA-1	3151B6B6F196F84B7E400258067C1CDDC8A85E4D
SHA-256	9A36B5153115414B91073011E6256F7B3EC80C227DA3B3DD3EDC77E9AEDAD539

Key	Value
FileSize	10698342
MD5	44A6B8190C2FD8DFB7574233C647DC03
PackageDescription	simulations of chemical reactions Cain performs stochastic and deterministic simulations of chemical reactions. It can spawn multiple simulation processes to utilize multi-core computers. It stores models, methods, and simulation output (populations and reaction counts) in an XML format. In addition, SBML models can be imported and exported. The models and methods can be read from input files or edited within the program. . The GUI (Graphical User Interface) is written in Python and uses the wxPython toolkit. Most of the solvers are implemented as command line executables, written in C++, which are driven by Cain. This makes it easy to launch batch jobs. It also simplifies the process of adding new solvers. Cain offers a variety of solvers: * Gillespie's direct method. * Gillespie's first reaction method. * Gibson and Bruck's next reaction method. * Tau-leaping. * Hybrid direct/tau-leaping. * ODE integration. . This package provides the architecture independent files for cain
PackageMaintainer	Ubuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com>
PackageName	cain
PackageSection	science
PackageVersion	1.9-8
SHA-1	162AE7EA7D89664C85B0ABCA1EE4384225B367E7
SHA-256	677199E5C82A3833174ABD12F76867C6FCABA0D960FCDEF5100EA206846E5004

Key	Value
FileSize	10683928
MD5	CB9332CA7B7BC0B25D21FCEB95002285
PackageDescription	simulations of chemical reactions Cain performs stochastic and deterministic simulations of chemical reactions. It can spawn multiple simulation processes to utilize multi-core computers. It stores models, methods, and simulation output (populations and reaction counts) in an XML format. In addition, SBML models can be imported and exported. The models and methods can be read from input files or edited within the program. . The GUI (Graphical User Interface) is written in Python and uses the wxPython toolkit. Most of the solvers are implemented as command line executables, written in C++, which are driven by Cain. This makes it easy to launch batch jobs. It also simplifies the process of adding new solvers. Cain offers a variety of solvers: * Gillespie's direct method. * Gillespie's first reaction method. * Gibson and Bruck's next reaction method. * Tau-leaping. * Hybrid direct/tau-leaping. * ODE integration. . This package provides the architecture independent files for cain
PackageMaintainer	Ubuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com>
PackageName	cain
PackageSection	science
PackageVersion	1.10+dfsg-3
SHA-1	6BAB4F37CBE7D444F78DCA52C32425A891DADAB8
SHA-256	1402541D5D713FA0C28FDDE7F69ECCD3CF4D903D5F555C9DB40C7B8080A1D5CB

Key	Value
FileSize	10697398
MD5	164FD0EE2AE871163DC28D366D62DA88
PackageDescription	simulations of chemical reactions Cain performs stochastic and deterministic simulations of chemical reactions. It can spawn multiple simulation processes to utilize multi-core computers. It stores models, methods, and simulation output (populations and reaction counts) in an XML format. In addition, SBML models can be imported and exported. The models and methods can be read from input files or edited within the program. . The GUI (Graphical User Interface) is written in Python and uses the wxPython toolkit. Most of the solvers are implemented as command line executables, written in C++, which are driven by Cain. This makes it easy to launch batch jobs. It also simplifies the process of adding new solvers. Cain offers a variety of solvers: * Gillespie's direct method. * Gillespie's first reaction method. * Gibson and Bruck's next reaction method. * Tau-leaping. * Hybrid direct/tau-leaping. * ODE integration. . This package provides the architecture independent files for cain
PackageMaintainer	Ubuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com>
PackageName	cain
PackageSection	science
PackageVersion	1.9-7
SHA-1	E19F2D1F89CB67414C96D579CD0668016892C5FC
SHA-256	2E61773079F90F2598889171B816D5A9B23D69FD19239F588D6E6635007A7830

Key	Value
FileSize	16622470
MD5	7CCEE815F28B86F2855024A383DE9B66
PackageDescription	simulations of chemical reactions Cain performs stochastic and deterministic simulations of chemical reactions. It can spawn multiple simulation processes to utilize multi-core computers. It stores models, methods, and simulation output (populations and reaction counts) in an XML format. In addition, SBML models can be imported and exported. The models and methods can be read from input files or edited within the program. . The GUI (Graphical User Interface) is written in Python and uses the wxPython toolkit. Most of the solvers are implemented as command line executables, written in C++, which are driven by Cain. This makes it easy to launch batch jobs. It also simplifies the process of adding new solvers. Cain offers a variety of solvers: * Gillespie's direct method. * Gillespie's first reaction method. * Gibson and Bruck's next reaction method. * Tau-leaping. * Hybrid direct/tau-leaping. * ODE integration. . This package provides the architecture independent files for cain
PackageMaintainer	Ubuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com>
PackageName	cain
PackageSection	science
PackageVersion	1.9-2
SHA-1	B170248E5841EDDFB39AC5F23655674D4033FE2C
SHA-256	55BC742B818EB6148843A7E35874C90DFB7C437A762B5CCD028D74A6A60C41DD