pynwb 0.5.1-1 source package in Ubuntu

Changelog

pynwb (0.5.1-1) unstable; urgency=low

  * Initial source package automatically created by stdeb 0.8.5
    (Closes: #908531)
  * Upstream sources generated from git repository until tests are
    included in source release
    (see https://github.com/NeurodataWithoutBorders/pynwb/pull/622)

 -- Yaroslav Halchenko <email address hidden>  Thu, 20 Sep 2018 01:19:06 -0400

Upload details

Uploaded by:
Yaroslav Halchenko on 2018-09-22
Uploaded to:
Sid
Original maintainer:
Yaroslav Halchenko
Architectures:
all
Section:
misc
Urgency:
Low Urgency

See full publishing history Publishing

Series Pocket Published Component Section
Disco release on 2018-11-10 universe misc

Builds

Disco: [FULLYBUILT] amd64

Downloads

File Size SHA-256 Checksum
pynwb_0.5.1-1.dsc 2.1 KiB 4d6789de965e90fac480cdb9b2aaaef1247c00acd2b6c55f82dc05a583072a12
pynwb_0.5.1.orig.tar.gz 20.9 MiB c2e33a44954237e9af614bcff067c27fad0e65866af48ae607e2906c87cab79d
pynwb_0.5.1-1.debian.tar.xz 3.3 KiB f412cedcbf00b2f7063e80d11b4fbfcd89a29c5eace855d7c5bd6219530d163a

No changes file available.

Binary packages built by this source

python-pynwb: Python library for working with Neurodata in the NWB format

 PyNWB is a Python package for working with NWB files. It provides a
 high-level API for efficiently working with Neurodata stored in the
 NWB format.
 .
 Neurodata Without Borders: Neurophysiology (NWB:N) is a project to
 develop a unified data format for cellular-based neurophysiology
 data, focused on the dynamics of groups of neurons measured under a
 large range of experimental conditions.

python3-pynwb: Python library for working with Neurodata in the NWB format

 PyNWB is a Python package for working with NWB files. It provides a
 high-level API for efficiently working with Neurodata stored in the
 NWB format.
 .
 Neurodata Without Borders: Neurophysiology (NWB:N) is a project to
 develop a unified data format for cellular-based neurophysiology
 data, focused on the dynamics of groups of neurons measured under a
 large range of experimental conditions.