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15:00
|
Introduction
()
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15:05
|
The high-level, high-performace promise
(until 15:55)
()
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15:05
|
Why Julia? - motivation and comparison to other languages.
-
Oliver Schulz
(Max Planck Society (DE))
()
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15:15
|
Report on performance tests
-
Philippe Gras
(Université Paris-Saclay (FR))
()
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15:20
|
Case study: Julia in a workgroup and a collaboration.
-
Oliver Schulz
(Max Planck Society (DE))
()
|
|
15:30
|
Julia and the first observation of Ω⁻_b → Ξ⁺_c K⁻ π⁻
-
Mikhail Mikhasenko
(Excellence Cluster ORIGINS)
()
|
|
15:35
|
Discussion on usage of Julia as high-level language in HEP analysis and questions that need further investigations
()
|
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15:55
|
Julia beyond last-step of Physics analysis: event generation simulation and reconstruction
(until 16:35)
()
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15:55
|
Julia for large HEP experiment software framework. Points to be investigated.
-
Stefan Kluth
(Max Planck Society (DE))
()
|
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16:15
|
Julia for phenomenology and event generators
-
Alexander Moreno Briceño
(Universidad Antonio Nariño)
()
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16:35
|
--- Make-your-own-tea break ---
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16:45
|
Interface with other languages and HEP legacy
(until 18:15)
()
|
|
16:45
|
Interface of Julia with C++
-
Vasil Georgiev Vasilev
(Princeton University (US))
Oliver Schulz
(Max Planck Society (DE))
()
|
|
17:00
|
ROOT I/O, past and future
-
Jakob Blomer
(CERN)
()
|
|
17:20
|
UnROOT.jl and some other HEP-specific libraries
-
Tamas Gal
(University of Erlangen / Erlangen Centre for Astroparticle Physics)
Jerry 🦑 Ling
(Harvard University (US))
()
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17:30
|
How an Awkward Array/Julia bridge can introduce HEP to Julia.
-
Jim Pivarski
(Princeton University)
()
|
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17:45
|
Discussion on interfacing with legacy code and HEP data formats.
()
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18:15
|
Review of the report outline and next steps
()
|
