Summary
Bugs of task
highenergy-physics
Total bugs:
3
Open bugs:
3
Fixed bugs:
0
Brain-computer interface 0 (0)
Biology 12 (148)
Chemistry 84 (805)
Data acquisition 65 (415)
Data acquisition development 21 (231)
Data management 63 (548)
Devices 15 (114)
Distributed computing 78 (742)
Economics 30 (154)
Electrophysiology 11 (37)
Engineering 87 (806)
Engineering-dev 73 (609)
Financial engineering 5 (0)
Geography 92 (683)
Geometry 8 (41)
High energy physics 3 (21)
High energy physics (devel) 14 (96)
Image analysis 6 (36)
Image analysis development 31 (179)
Linguistics 91 (401)
Logic 38 (222)
Machine learning 45 (439)
Mathematics 255 (2068)
Mathematics-dev 192 (1650)
Meteorology 97 (569)
Meteorology-dev 200 (784)
Nanoscale physics 325 (2538)
Nanoscale physics development 124 (1097)
Cognitive neuroscience 20 (156)
Neuroscience datasets 0 (0)
Modeling of neural systems 5 (18)
Numerical computation 143 (1263)
Physics 80 (777)
Physics-dev 33 (293)
Presentation 77 (624)
Psychophysics 6 (61)
Robotics 104 (399)
Robotics-dev 28 (201)
Simulations 40 (385)
Social 0 (0)
Statistics 52 (305)
Tools 13 (83)
Typesetting 263 (1731)
Viewing 309 (1935)
Viewing-dev 67 (632)
Workflow 37 (266)
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Summary bugs page of task High energy physicsTask is in good shape*
Open bugs in dependent packages
2 normal, 1 minor
Open bugs in suggested packagesDone bugs
*To estimate the overall status of the packages in the dependencies of
a metapackage a weighted severity is calculated. Done bugs are ignored and bugs in dependent and
recommended packages are weighted by factor three compared to suggested packages. Release critical
bugs have a much larger weight than important, while the contribution of normal bugs is even smaller
and minor bugs have a very small weight. Wishlist bugs are ignored in this calculation. The resulting
sum is compared to some boundaries to find a verbal form. The actual numbers need some adjustment
to make real sense - this evaluation method is in testing phase.
The severities of bugs are weighted as follows:
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