Result for 35CCA544741152E719F7534C75FEC17C9C953AC8

Query result

Key Value
FileName./opt/rh/sclo-cassandra3/root/usr/share/doc/sclo-cassandra3-lz4-java-1.3.0/README.md
FileSize6083
MD55DEE5CA53C13961B29DB9BC274F88CF4
SHA-135CCA544741152E719F7534C75FEC17C9C953AC8
SHA-2560EC6F2667A9365A416B07E4B827F3B4182CDC3423D7B8245A50881F3691C70BC
SSDEEP96:Ta4xw2GrkunK+6HHq0Ljq4eLj+pqFSLPH6LWZDrox4NGn+h+0TKSHtb+6WVk4B:+4xkrkuK3HH64kapqFSLv6LyoxkRkMKR
TLSHT1F0C1B53B330802B1198A47610F5AD4EC6377E265F70014DAE04F499C2B2DEED5BFA2E8
hashlookup:parent-total10
hashlookup:trust100

Network graph view

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
MD558C4B44DD05937BF8206A282F52F7F57
PackageArchx86_64
PackageDescriptionLZ4 compression for Java, based on Yann Collet's work. This library provides access to two compression methods that both generate a valid LZ4 stream: * fast scan (LZ4): ° low memory footprint (~ 16 KB), ° very fast (fast scan with skipping heuristics in case the input looks incompressible), ° reasonable compression ratio (depending on the redundancy of the input). * high compression (LZ4 HC): ° medium memory footprint (~ 256 KB), ° rather slow (~ 10 times slower than LZ4), ° good compression ratio (depending on the size and the redundancy of the input). The streams produced by those 2 compression algorithms use the same compression format, are very fast to decompress and can be decompressed by the same decompressor instance.
PackageMaintainerFedora Project
PackageNamelz4-java
PackageRelease13.fc32
PackageVersion1.3.0
SHA-18F1095D79FA7E97C847497866A2D82B5D4316521
SHA-256150F2F6DDC944B456B423A8DCEFC61A15669577F32261414CE9E83106F91D753
Key Value
MD5CE23BA4E28E9B38744B241C0DDC40F8B
PackageArchx86_64
PackageDescriptionLZ4 compression for Java, based on Yann Collet's work. This library provides access to two compression methods that both generate a valid LZ4 stream: * fast scan (LZ4): ° low memory footprint (~ 16 KB), ° very fast (fast scan with skipping heuristics in case the input looks incompressible), ° reasonable compression ratio (depending on the redundancy of the input). * high compression (LZ4 HC): ° medium memory footprint (~ 256 KB), ° rather slow (~ 10 times slower than LZ4), ° good compression ratio (depending on the size and the redundancy of the input). The streams produced by those 2 compression algorithms use the same compression format, are very fast to decompress and can be decompressed by the same decompressor instance.
PackageMaintainerdaviddavid <daviddavid>
PackageNamelz4-java
PackageRelease1.mga7
PackageVersion1.3.0
SHA-1CDA3D58C98073B537CCD22029848B1FAA3F7DC56
SHA-256A645BFBD1279BC8F91160159390A2FD9DEA8FE050F096A61303997E9AF1DED33
Key Value
MD51698DA3E7BEC8AA1F117DA67F484D7A6
PackageArchaarch64
PackageDescriptionLZ4 compression for Java, based on Yann Collet's work. This library provides access to two compression methods that both generate a valid LZ4 stream: * fast scan (LZ4): ° low memory footprint (~ 16 KB), ° very fast (fast scan with skipping heuristics in case the input looks incompressible), ° reasonable compression ratio (depending on the redundancy of the input). * high compression (LZ4 HC): ° medium memory footprint (~ 256 KB), ° rather slow (~ 10 times slower than LZ4), ° good compression ratio (depending on the size and the redundancy of the input). The streams produced by those 2 compression algorithms use the same compression format, are very fast to decompress and can be decompressed by the same decompressor instance.
PackageMaintainerFedora Project
PackageNamelz4-java
PackageRelease13.fc32
PackageVersion1.3.0
SHA-1BFA634FEF5E77AE7B4D5980DC61DEB61F07B33F1
SHA-25631640EDCA4E97757D258B3F19C857183C49EC99743CBBF0277603FBC6FB8D148
Key Value
MD5814FCEE7480CED31E1333973AC08337B
PackageArchaarch64
PackageDescriptionLZ4 compression for Java, based on Yann Collet's work. This library provides access to two compression methods that both generate a valid LZ4 stream: * fast scan (LZ4): ° low memory footprint (~ 16 KB), ° very fast (fast scan with skipping heuristics in case the input looks incompressible), ° reasonable compression ratio (depending on the redundancy of the input). * high compression (LZ4 HC): ° medium memory footprint (~ 256 KB), ° rather slow (~ 10 times slower than LZ4), ° good compression ratio (depending on the size and the redundancy of the input). The streams produced by those 2 compression algorithms use the same compression format, are very fast to decompress and can be decompressed by the same decompressor instance.
PackageMaintainerdaviddavid <daviddavid>
PackageNamelz4-java
PackageRelease1.mga7
PackageVersion1.3.0
SHA-1DECB50C4720D8BA329FD8F29436EDCFD302F29A0
SHA-256E0B688DB75DD65C05F1275D3292C63EDE5B7E8DEC791E4C010D8EFAA2900D18D
Key Value
MD55C2A2BDB8D35CEE592A87DF75A817BCD
PackageArchi586
PackageDescriptionLZ4 compression for Java, based on Yann Collet's work. This library provides access to two compression methods that both generate a valid LZ4 stream: * fast scan (LZ4): ° low memory footprint (~ 16 KB), ° very fast (fast scan with skipping heuristics in case the input looks incompressible), ° reasonable compression ratio (depending on the redundancy of the input). * high compression (LZ4 HC): ° medium memory footprint (~ 256 KB), ° rather slow (~ 10 times slower than LZ4), ° good compression ratio (depending on the size and the redundancy of the input). The streams produced by those 2 compression algorithms use the same compression format, are very fast to decompress and can be decompressed by the same decompressor instance.
PackageMaintainerdaviddavid <daviddavid>
PackageNamelz4-java
PackageRelease1.mga7
PackageVersion1.3.0
SHA-12216D44BC62DB52C7C76A71A17EA0348C57256FE
SHA-256296DFC98025D21EB356C55310AD889E38D9ED7A93FB94611280CB72F13F56897
Key Value
MD5ABD40886CB4A9009881AFAD1A8CB99C9
PackageArchppc64
PackageDescriptionLZ4 compression for Java, based on Yann Collet's work. This library provides access to two compression methods that both generate a valid LZ4 stream: * fast scan (LZ4): ° low memory footprint (~ 16 KB), ° very fast (fast scan with skipping heuristics in case the input looks incompressible), ° reasonable compression ratio (depending on the redundancy of the input). * high compression (LZ4 HC): ° medium memory footprint (~ 256 KB), ° rather slow (~ 10 times slower than LZ4), ° good compression ratio (depending on the size and the redundancy of the input). The streams produced by those 2 compression algorithms use the same compression format, are very fast to decompress and can be decompressed by the same decompressor instance.
PackageMaintainerFedora Project
PackageNamelz4-java
PackageRelease2.fc24
PackageVersion1.3.0
SHA-1C33530B817B3915ADFED265D8B80D6AD0E838B18
SHA-2563D230CF756ACFA6B8E162F4AECBC28B0271979783CE79F3583CCB733A02E799C
Key Value
MD52EA42E9B9BF53F9BB0A9DC06A91B2F1A
PackageArcharmv7hl
PackageDescriptionLZ4 compression for Java, based on Yann Collet's work. This library provides access to two compression methods that both generate a valid LZ4 stream: * fast scan (LZ4): ° low memory footprint (~ 16 KB), ° very fast (fast scan with skipping heuristics in case the input looks incompressible), ° reasonable compression ratio (depending on the redundancy of the input). * high compression (LZ4 HC): ° medium memory footprint (~ 256 KB), ° rather slow (~ 10 times slower than LZ4), ° good compression ratio (depending on the size and the redundancy of the input). The streams produced by those 2 compression algorithms use the same compression format, are very fast to decompress and can be decompressed by the same decompressor instance.
PackageMaintainerFedora Project
PackageNamelz4-java
PackageRelease13.fc32
PackageVersion1.3.0
SHA-1A4E62EABEDE14CBDF269CF967F2F8232757161F6
SHA-256FD7D8DE5DA8FB1DC6C0925A68FA9D5EA382F314F1E3F0B9E1B564D732B4A271F
Key Value
MD5DB29DA10BD3A52E93B45BDFCBEA3C081
PackageArchaarch64
PackageDescriptionLZ4 compression for Java, based on Yann Collet's work. This library provides access to two compression methods that both generate a valid LZ4 stream: * fast scan (LZ4): ° low memory footprint (~ 16 KB), ° very fast (fast scan with skipping heuristics in case the input looks incompressible), ° reasonable compression ratio (depending on the redundancy of the input). * high compression (LZ4 HC): ° medium memory footprint (~ 256 KB), ° rather slow (~ 10 times slower than LZ4), ° good compression ratio (depending on the size and the redundancy of the input). The streams produced by those 2 compression algorithms use the same compression format, are very fast to decompress and can be decompressed by the same decompressor instance.
PackageMaintainerFedora Project
PackageNamelz4-java
PackageRelease2.fc24
PackageVersion1.3.0
SHA-115417EC3A861530C8A5FF456F30BC729E1A0F736
SHA-2567006DAE6EC88D357B137414D92BD90DBC9D6943F7E32F773409251BE75B9F71F
Key Value
MD513E317139248D3977C6670BC75371445
PackageArchx86_64
PackageDescriptionLZ4 compression for Java, based on Yann Collet's work. This library provides access to two compression methods that both generate a valid LZ4 stream: * fast scan (LZ4): ° low memory footprint (~ 16 KB), ° very fast (fast scan with skipping heuristics in case the input looks incompressible), ° reasonable compression ratio (depending on the redundancy of the input). * high compression (LZ4 HC): ° medium memory footprint (~ 256 KB), ° rather slow (~ 10 times slower than LZ4), ° good compression ratio (depending on the size and the redundancy of the input). The streams produced by those 2 compression algorithms use the same compression format, are very fast to decompress and can be decompressed by the same decompressor instance.
PackageMaintainerCBS <cbs@centos.org>
PackageNamesclo-cassandra3-lz4-java
PackageRelease7.el7
PackageVersion1.3.0
SHA-10CF696DB8EB9BFC73C84F22AC786A83BFF1F052C
SHA-2564434CC6A4F5B03024E7B3E753C81180B36F878EED10724B8DB0ED7FE6C19AA44
Key Value
MD53D2AEC5C113DE141A73DED5DAF6AEDED
PackageArcharmv7hl
PackageDescriptionLZ4 compression for Java, based on Yann Collet's work. This library provides access to two compression methods that both generate a valid LZ4 stream: * fast scan (LZ4): ° low memory footprint (~ 16 KB), ° very fast (fast scan with skipping heuristics in case the input looks incompressible), ° reasonable compression ratio (depending on the redundancy of the input). * high compression (LZ4 HC): ° medium memory footprint (~ 256 KB), ° rather slow (~ 10 times slower than LZ4), ° good compression ratio (depending on the size and the redundancy of the input). The streams produced by those 2 compression algorithms use the same compression format, are very fast to decompress and can be decompressed by the same decompressor instance.
PackageMaintainerdaviddavid <daviddavid>
PackageNamelz4-java
PackageRelease1.mga7
PackageVersion1.3.0
SHA-159E37C3C8919CC01EDFD7263A26787F7EBCD1B8E
SHA-256D82623B5351E6D09D4F15398BF71F090A0C6E3DF77B45E16F8F91D01E5A22650