Difference between revisions of "STIX data center"
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* Support STIX operations | * Support STIX operations | ||
* Data archiving | * Data archiving | ||
| − | + | == STIX data center Architecture == | |
The data flow at STIX data center is shown in the picture below: | The data flow at STIX data center is shown in the picture below: | ||
| − | |||
[[File:Stix-data-center-flow.png|500px|none|STIX data center]] | [[File:Stix-data-center-flow.png|500px|none|STIX data center]] | ||
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NoSQL DB (MongoDB) used to stored telemetry packets, file metadata and configurations | NoSQL DB (MongoDB) used to stored telemetry packets, file metadata and configurations | ||
| − | + | == Key Algorithms == | |
| − | == Algorithms == | ||
=== Offline flare location solution === | === Offline flare location solution === | ||
Revision as of 07:45, 6 July 2021
This page is still under construction.
STIX data center is a virtual server hosted at FHNW.
Contents
1 STIX Data Center tasks
Its tasks include
- Process STIX raw data & produce high level data products
- Monitor Data quality and instrument health status
- Provide data products and data browsing tools for the Solar Physics Community
- Support STIX operations
- Data archiving
2 STIX data center Architecture
The data flow at STIX data center is shown in the picture below:
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Data processing SW mainly written in python. NoSQL DB (MongoDB) used to stored telemetry packets, file metadata and configurations
3 Key Algorithms
3.1 Offline flare location solution
3.2 Flare detection
The 4-10 keV light curves are used for flare detection. 4-sec time bins are first rebinned to 1-min time bins in order to smooth light curves. Then
4 Source code
The source code can be found at:
- Data processing pipeline: https://github.com/i4Ds/STIX_python_PUB023
- STIX data center web applications: https://github.com/i4Ds/STIX-data-center
5 Developers
- Data processing software & data processing pipeline
- Data center
