Parents (Total: 20)

The searched file hash is included in 20 parent files which include package known and seen by metalookup. A sample is included below:

Key	Value
FileSize	13192
MD5	22B9D8FC434C1BCD6BB0C5063C08B4A9
PackageDescription	determine similar regions between two strings or genomic sequences The Smith–Waterman algorithm performs local sequence alignment; that is, for determining similar regions between two strings or nucleotide or protein sequences. Instead of looking at the total sequence, the Smith–Waterman algorithm compares segments of all possible lengths and optimizes the similarity measure.
PackageMaintainer	Debian Med Packaging Team <debian-med-packaging@lists.alioth.debian.org>
PackageName	smithwaterman
PackageSection	science
PackageVersion	0.0+git20160702.2610e25-11
SHA-1	0040B5563DFDC347FECCF2374AB27FEF11705B15
SHA-256	D483E0677FD2F17B6BFF5C672A4D85E35EE97F567B82C02643138762D926BA34

Key	Value
FileSize	13736
MD5	1F5CF3032BA32F056694E1FCC7E84BEF
PackageDescription	determine similar regions between two strings or genomic sequences The Smith–Waterman algorithm performs local sequence alignment; that is, for determining similar regions between two strings or nucleotide or protein sequences. Instead of looking at the total sequence, the Smith–Waterman algorithm compares segments of all possible lengths and optimizes the similarity measure.
PackageMaintainer	Debian Med Packaging Team <debian-med-packaging@lists.alioth.debian.org>
PackageName	smithwaterman
PackageSection	science
PackageVersion	0.0+git20160702.2610e25-12
SHA-1	0935217F72CA502C15BD16155F26AD45D1D0548D
SHA-256	0C395586D3E4B9C44E8862B52F35E2B204349344EF95BF5C708829F80A3EF279

Key	Value
FileSize	12356
MD5	1069387D161956AF7D9EEC9321923B00
PackageDescription	determine similar regions between two strings or genomic sequences The Smith–Waterman algorithm performs local sequence alignment; that is, for determining similar regions between two strings or nucleotide or protein sequences. Instead of looking at the total sequence, the Smith–Waterman algorithm compares segments of all possible lengths and optimizes the similarity measure.
PackageMaintainer	Debian Med Packaging Team <debian-med-packaging@lists.alioth.debian.org>
PackageName	smithwaterman
PackageSection	science
PackageVersion	0.0+git20160702.2610e25-11
SHA-1	0E74E8985EC4ACA4DA87AD041C2E32F27A87F7EC
SHA-256	FDEB1D351233D78323987CAC7E29507A626A2525E73F76D814C948D660226CE7

Key	Value
FileSize	13496
MD5	9D245737E36F806BDB7A6645D378DB51
PackageDescription	determine similar regions between two strings or genomic sequences The Smith–Waterman algorithm performs local sequence alignment; that is, for determining similar regions between two strings or nucleotide or protein sequences. Instead of looking at the total sequence, the Smith–Waterman algorithm compares segments of all possible lengths and optimizes the similarity measure.
PackageMaintainer	Debian Med Packaging Team <debian-med-packaging@lists.alioth.debian.org>
PackageName	smithwaterman
PackageSection	science
PackageVersion	0.0+git20160702.2610e25-12
SHA-1	264537FE02D7BC2FB7A713DFEB6717C2229148F6
SHA-256	C88799B3EC945AF4210D8CC6AB0EC180FE09BFC4C5BBA65824040F69AA8C101F

Key	Value
FileSize	13616
MD5	26510BC52A089070E6B16E5B8F3B6B63
PackageDescription	determine similar regions between two strings or genomic sequences The Smith–Waterman algorithm performs local sequence alignment; that is, for determining similar regions between two strings or nucleotide or protein sequences. Instead of looking at the total sequence, the Smith–Waterman algorithm compares segments of all possible lengths and optimizes the similarity measure.
PackageMaintainer	Debian Med Packaging Team <debian-med-packaging@lists.alioth.debian.org>
PackageName	smithwaterman
PackageSection	science
PackageVersion	0.0+git20160702.2610e25-11
SHA-1	2CB845F9ADAFEC2750EC011DD20CE72636BD54E2
SHA-256	3871566D16967A7A8718A9A8B59FC9B6ABCD53A125363D16B55CE926702C282B

Key	Value
FileSize	13604
MD5	1FADC1498DBC82F7803BFA32A897787E
PackageDescription	determine similar regions between two strings or genomic sequences The Smith–Waterman algorithm performs local sequence alignment; that is, for determining similar regions between two strings or nucleotide or protein sequences. Instead of looking at the total sequence, the Smith–Waterman algorithm compares segments of all possible lengths and optimizes the similarity measure.
PackageMaintainer	Debian Med Packaging Team <debian-med-packaging@lists.alioth.debian.org>
PackageName	smithwaterman
PackageSection	science
PackageVersion	0.0+git20160702.2610e25-12
SHA-1	3CD5262EE9028CC37169141106661E0AAA9D9435
SHA-256	5A13A29422B4CBF33A0729F304A9CF84963C429A97AD27C2F0B679748C75CA37

Key	Value
FileSize	12704
MD5	DC4FB6C0456CE06BEA9C763173448472
PackageDescription	determine similar regions between two strings or genomic sequences The Smith–Waterman algorithm performs local sequence alignment; that is, for determining similar regions between two strings or nucleotide or protein sequences. Instead of looking at the total sequence, the Smith–Waterman algorithm compares segments of all possible lengths and optimizes the similarity measure.
PackageMaintainer	Debian Med Packaging Team <debian-med-packaging@lists.alioth.debian.org>
PackageName	smithwaterman
PackageSection	science
PackageVersion	0.0+git20160702.2610e25-11
SHA-1	45DC3D475CF7F371F26E5276033A951A3F1A0470
SHA-256	729FCAF27ED2C064B856D63E95CB5E86EF4624E2DD8E6061B899904F9B58FBF4

Key	Value
FileSize	12540
MD5	F752EDC1499DE8D35B51CF18E6370A2F
PackageDescription	determine similar regions between two strings or genomic sequences The Smith–Waterman algorithm performs local sequence alignment; that is, for determining similar regions between two strings or nucleotide or protein sequences. Instead of looking at the total sequence, the Smith–Waterman algorithm compares segments of all possible lengths and optimizes the similarity measure.
PackageMaintainer	Debian Med Packaging Team <debian-med-packaging@lists.alioth.debian.org>
PackageName	smithwaterman
PackageSection	science
PackageVersion	0.0+git20160702.2610e25-12
SHA-1	4B1FD261A5982D72243C96A272D6395A8338B965
SHA-256	5EBEDBA6776F12CAE6F0D3722B68235D05FE5F1209655F22551AF1CF2FDEAC84

Key	Value
FileSize	11944
MD5	3CAA3228352548D3705BC0EBF2F0283A
PackageDescription	determine similar regions between two strings or genomic sequences The Smith–Waterman algorithm performs local sequence alignment; that is, for determining similar regions between two strings or nucleotide or protein sequences. Instead of looking at the total sequence, the Smith–Waterman algorithm compares segments of all possible lengths and optimizes the similarity measure.
PackageMaintainer	Ubuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com>
PackageName	smithwaterman
PackageSection	science
PackageVersion	0.0+git20160702.2610e25-11
SHA-1	4C6BE4602A3BD91BCA997FEF2000DCB5F6178BC8
SHA-256	B529EDA4036AB3226B9A13423E443CE4ED90DCE8F6D5F5B09474FE3880FF2BD9

Key	Value
FileSize	12908
MD5	D71296E71B7B35FF079786C2B802158E
PackageDescription	determine similar regions between two strings or genomic sequences The Smith–Waterman algorithm performs local sequence alignment; that is, for determining similar regions between two strings or nucleotide or protein sequences. Instead of looking at the total sequence, the Smith–Waterman algorithm compares segments of all possible lengths and optimizes the similarity measure.
PackageMaintainer	Debian Med Packaging Team <debian-med-packaging@lists.alioth.debian.org>
PackageName	smithwaterman
PackageSection	science
PackageVersion	0.0+git20160702.2610e25-11
SHA-1	4D6AEA242D3FA63E0A56BD17B48E469279CF3438
SHA-256	650878905BBE024E6FAB03DE36510C1106A97BFC3DF81A1C22189EE189D5875E