Nicholas Sofroniew
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View article: napari/napari: 0.4.12rc2
napari/napari: 0.4.12rc2 Open
pre-release 0.4.12rc2
View article: napari/napari: 0.4.12rc0
napari/napari: 0.4.12rc0 Open
pre-release 0.4.12rc0
View article: napari/napari: 0.4.11rc4
napari/napari: 0.4.11rc4 Open
pre-release 0.4.11rc4
Next Generation File Formats and Platforms Open
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View article: napari/napari: 0.4.3rc3
napari/napari: 0.4.3rc3 Open
pre-release 0.4.3rc3
View article: napari/napari: 0.3.0
napari/napari: 0.3.0 Open
napari 0.3.0 We're happy to announce the release of napari 0.3.0! napari is a fast, interactive, multi-dimensional image viewer for Python. It's designed for browsing, annotating, and analyzing large multi-dimensional images. It's built on…
View article: napari/napari: 0.2.9
napari/napari: 0.2.9 Open
Announcement: napari 0.2.9 We're happy to announce the release of napari 0.2.9! napari is a fast, interactive, multi-dimensional image viewer for Python. It's designed for browsing, annotating, and analyzing large multi-dimensional images.…
A large field of view two-photon mesoscope with subcellular resolution for in vivo imaging Open
Imaging is used to map activity across populations of neurons. Microscopes with cellular resolution have small (<1 millimeter) fields of view and cannot simultaneously image activity distributed across multiple brain areas. Typical large f…
A large field of view two-photon mesoscope with subcellular resolution for in vivo imaging Open
Imaging is used to map activity across populations of neurons. Microscopes with cellular resolution have small (< 1 millimeter) fields of view and cannot simultaneously image activity distributed across multiple brain areas. Typical large …