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SHA-256 | 11E20D2F2C956C22DEF1828940C6BB47C6E3E89D45C11A6DB758DB2EB17EF507 |
SSDEEP | 192:9Z9XU9hf+CbgwKVt9Q9F7t9hh89Fb9e7DuAQML38WSAwjGc6VQCCG8UDiyh+zdEo:1oLxSA6G8ldVdFd9ff |
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hashlookup:parent-total | 3 |
hashlookup:trust | 65 |
The searched file hash is included in 3 parent files which include package known and seen by metalookup. A sample is included below:
Key | Value |
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FileSize | 158528 |
MD5 | 6096AC8B4C19013802EB2F0B4E90D905 |
PackageDescription | Documentation and examples for KIM-API The KIM API is an Application Programming Interface for atomistic simulations. The API provides a standard for exchanging information between atomistic simulation codes (molecular dynamics, molecular statics, lattice dynamics, Monte Carlo, etc.) and interatomic models (potentials or force fields). It also includes a set of library routines for using the API with bindings for: . FORTRAN 77, Fortran 90/95, Fortran 2003 C, C++ . Atomistic simulation codes that support the KIM API work seamlessly with the KIM-compliant interatomic models (KIM Models) distributed on this website. The interface is computationally efficient and often requires relatively minor changes to existing codes. . This package contains documentation and examples |
PackageMaintainer | Ubuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com> |
PackageName | libkim-api-doc |
PackageSection | libs |
PackageVersion | 2.2.1-1 |
SHA-1 | BF778A9F44F72CB2A63F4863CE1E636119E56132 |
SHA-256 | E7E8BC4F1DB452100AB6A415033BC2E0695C58F56EF4A20FEA4D9C09A2AFB0B0 |
Key | Value |
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FileSize | 158604 |
MD5 | 417E884B398A42593103652032B15FEF |
PackageDescription | Documentation and examples for KIM-API The KIM API is an Application Programming Interface for atomistic simulations. The API provides a standard for exchanging information between atomistic simulation codes (molecular dynamics, molecular statics, lattice dynamics, Monte Carlo, etc.) and interatomic models (potentials or force fields). It also includes a set of library routines for using the API with bindings for: . FORTRAN 77, Fortran 90/95, Fortran 2003 C, C++ . Atomistic simulation codes that support the KIM API work seamlessly with the KIM-compliant interatomic models (KIM Models) distributed on this website. The interface is computationally efficient and often requires relatively minor changes to existing codes. . This package contains documentation and examples |
PackageMaintainer | Debian Science Team <debian-science-maintainers@lists.alioth.debian.org> |
PackageName | libkim-api-doc |
PackageSection | libs |
PackageVersion | 2.2.1-1 |
SHA-1 | 32B6FDDF208B246D10F552ACF8486AE177C4BF93 |
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Key | Value |
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FileSize | 158632 |
MD5 | CF4B1EA1FA78B6649818F39C66ECC8D7 |
PackageDescription | Documentation and examples for KIM-API The KIM API is an Application Programming Interface for atomistic simulations. The API provides a standard for exchanging information between atomistic simulation codes (molecular dynamics, molecular statics, lattice dynamics, Monte Carlo, etc.) and interatomic models (potentials or force fields). It also includes a set of library routines for using the API with bindings for: . FORTRAN 77, Fortran 90/95, Fortran 2003 C, C++ . Atomistic simulation codes that support the KIM API work seamlessly with the KIM-compliant interatomic models (KIM Models) distributed on this website. The interface is computationally efficient and often requires relatively minor changes to existing codes. . This package contains documentation and examples |
PackageMaintainer | Debian Science Team <debian-science-maintainers@lists.alioth.debian.org> |
PackageName | libkim-api-doc |
PackageSection | libs |
PackageVersion | 2.2.1-1~bpo10+1 |
SHA-1 | FDA394F516B8DF73D0D5327470FDC17BB8C57646 |
SHA-256 | E4E1D77348E7AEBBE9DB0DEE4AF251BCA5F9DED01ED44C256F0F7A2543F64D39 |