Query result

Key	Value
FileName	./usr/lib/libderiv.so.1.0.0
FileSize	6488384
MD5	CC1C31F70EDCD694DC9316E52AE1A9E8
SHA-1	24E099D465BEA2282D891B2D94A414A9B19193CE
SHA-256	A8087C8CE0DC95052B260B146AB723B2C1CA8B992470884BBA0FB3320719838B
SSDEEP	49152:glA8zK2Tl/OaQFpn5EHBfA6rj8Gzf+nKoKzwN09bMpRg4Zk:glAsl2at
TLSH	T193663FB50F0CCD93B6F1DCB4554ACA32106F1FCA23D89A28E226578A75887577B4F89C
hashlookup:parent-total	1
hashlookup:trust	55

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The searched file hash is included in 1 parent files which include package known and seen by metalookup. A sample is included below:

Key	Value
FileSize	2732856
MD5	FC22B4E83CDFABD9DB3B512BE7EC988D
PackageDescription	Evaluate the integrals in modern atomic and molecular theory The LIBINT library is used to evaluate the traditional (electron repulsion) and certain novel two-body matrix elements (integrals) over Cartesian Gaussian functions used in modern atomic and molecular theory. The idea of the library is to let computer write optimized code for computing such integrals. There are two primary advantages to this: much less human effort is required to write code for computing new integrals, and code can be optimized specifically for a particular computer architecture (e.g., vector processor). . LIBINT has been utilized to implement methods such as Hartree-Fock (HF) and Kohn-Sham density functional theory (KS DFT), second-order Moeller-Plesset perturbation theory (MP2), coupled cluster singles and doubles (CCSD) method, as well as explicitly correlated R12 methods. . This package contains the shared library.
PackageMaintainer	Debichem Team <debichem-devel@lists.alioth.debian.org>
PackageName	libint1
PackageSection	libs
PackageVersion	1.2.1-2
SHA-1	8C2B750B9A6054E6B8DA382272270699ACC978D4
SHA-256	D7100079DB6B4AB15D95879FB8FD16F2512FD993B9AF0E1A8C4695E07C1F84B5