libslow5lib 0.7.0+dfsg-2.1 source package in Ubuntu

Changelog

libslow5lib (0.7.0+dfsg-2.1) unstable; urgency=medium

  * Non-maintainer upload.
  * Rename libraries for 64-bit time_t transition.  Closes: #1063136

 -- Benjamin Drung <email address hidden>  Fri, 01 Mar 2024 12:28:36 +0000

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Uploaded by:
Debian Med
Uploaded to:
Sid
Original maintainer:
Debian Med
Architectures:
any
Section:
misc
Urgency:
Medium Urgency

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libslow5lib_0.7.0+dfsg-2.1.dsc 2.3 KiB bddda1158bc03888dfe5a34f75baef0d2506ca43ebf405cf96d838e351264ffa
libslow5lib_0.7.0+dfsg.orig.tar.xz 1.9 MiB 8a60fc89a8a641bb49c6ad3c308371d7152c61756aa67c1946b3d87f49364d3d
libslow5lib_0.7.0+dfsg-2.1.debian.tar.xz 8.0 KiB 686196f4eda60d90215399bf006e1e379616014fb9eaeb8127c68886e1e585b9

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Binary packages built by this source

libslow5-0t64: library for reading & writing SLOW5 files

 Slow5lib is a software library for reading & writing SLOW5 files.
 Slow5lib is designed to facilitate use of data in SLOW5 format by third-
 party software packages. Existing packages that read/write data in FAST5
 format can be easily modified to support SLOW5.
 .
 SLOW5 is a new file format for storing signal data from Oxford Nanopore
 Technologies (ONT) devices. SLOW5 was developed to overcome inherent
 limitations in the standard FAST5 signal data format that prevent
 efficient, scalable analysis and cause many headaches for developers.
 SLOW5 can be encoded in human-readable ASCII format, or a more compact
 and efficient binary format (BLOW5) - this is analogous to the seminal
 SAM/BAM format for storing DNA sequence alignments. The BLOW5 binary
 format supports *zlib* (DEFLATE) compression, or other compression
 methods, thereby minimising the data storage footprint while still
 permitting efficient parallel access. Detailed benchmarking experiments
 have shown that SLOW5 format is an order of magnitude faster and
 significantly smaller than FAST5.

libslow5-0t64-dbgsym: debug symbols for libslow5-0t64
libslow5-dev: header and static library for reading & writing SLOW5 files

 Slow5lib is a software library for reading & writing SLOW5 files.
 Slow5lib is designed to facilitate use of data in SLOW5 format by third-
 party software packages. Existing packages that read/write data in FAST5
 format can be easily modified to support SLOW5.
 .
 SLOW5 is a new file format for storing signal data from Oxford Nanopore
 Technologies (ONT) devices. SLOW5 was developed to overcome inherent
 limitations in the standard FAST5 signal data format that prevent
 efficient, scalable analysis and cause many headaches for developers.
 SLOW5 can be encoded in human-readable ASCII format, or a more compact
 and efficient binary format (BLOW5) - this is analogous to the seminal
 SAM/BAM format for storing DNA sequence alignments. The BLOW5 binary
 format supports *zlib* (DEFLATE) compression, or other compression
 methods, thereby minimising the data storage footprint while still
 permitting efficient parallel access. Detailed benchmarking experiments
 have shown that SLOW5 format is an order of magnitude faster and
 significantly smaller than FAST5.
 .
 This is the development package containing headers and static library.

python3-slow5: Python3 modul for reading & writing SLOW5 files

 Slow5lib is a software library for reading & writing SLOW5 files.
 Slow5lib is designed to facilitate use of data in SLOW5 format by third-
 party software packages. Existing packages that read/write data in FAST5
 format can be easily modified to support SLOW5.
 .
 SLOW5 is a new file format for storing signal data from Oxford Nanopore
 Technologies (ONT) devices. SLOW5 was developed to overcome inherent
 limitations in the standard FAST5 signal data format that prevent
 efficient, scalable analysis and cause many headaches for developers.
 SLOW5 can be encoded in human-readable ASCII format, or a more compact
 and efficient binary format (BLOW5) - this is analogous to the seminal
 SAM/BAM format for storing DNA sequence alignments. The BLOW5 binary
 format supports *zlib* (DEFLATE) compression, or other compression
 methods, thereby minimising the data storage footprint while still
 permitting efficient parallel access. Detailed benchmarking experiments
 have shown that SLOW5 format is an order of magnitude faster and
 significantly smaller than FAST5.
 .
 This is the Python3 module.

python3-slow5-dbgsym: debug symbols for python3-slow5