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This space is Under Construction. The layout is entirely notional at present. |
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The Pandeia ETC engine is released to the community to support users who wish to script their calculations, run more extensive parameter space studies, and have more direct control of their scenes.We also recognize that the community has developed more extensive wrappers and public tools that depend on the Pandeia engine.
This page is intended to facilitate communication with developers in the community with Pandeia engine dependencies.
The latest release of the Pandeia engine is 1.5.1.
- Get the latest engine release software, installable with pip
- See its installation instructions (presently Webb-specific)
- Get the optional data files that support certain target spectra manipulations
- Get the required mission-specific items:
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The Pandeia ETC engine is released to the community to support users who wish to script their calculations, run more extensive parameter space studies, and have more direct control of their scenes.We also recognize that the community has developed more extensive wrappers and public tools that depend on the Pandeia engine.
This page is intended to facilitate communication with developers in the community with Pandeia engine dependencies.Next Planned Release
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Version 1.5.2 is planned to release in late August 2020.
Highlights include:
- Users will no longer need the pysynphot data files to specify sources normalized in Vegamags
- Additional readout pattern for the NIRSpec Target Acquisition mode
Click here for draft engine release notes
question: do we need a separate fields for engine release notes & engine known issues? so far we have been doing laborious manual work to do this at release time. Yes, we think we do.
What support is available?
Nice carefully crafted statement about level of support
What is the Pandeia Engine?
The Pandeia engine uses a pixel-based 3-dimensional approach to perform calculations on small (typically a few arcseconds) 2-dimensional user-created astronomical scenes. It models both the spatial and the wavelength dimensions, using realistic point spread functions (produced using WebbPSF) for each instrument mode. It natively handles correlated read noise, inter-pixel capacitance, and saturation. Since the signal and noise are modeled for individual detector pixels, the ETC is able to replicate many of the steps that observers will perform when calibrating and reducing their JWST data. This simplifies interpretation of the extracted signal-to-noise ratio (SNR) calculated by the ETC.
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While the JWST ETC includes many effects not typically included in other ETCs, it is not an observation simulator. It does not simulate the full detector, nor does it include 2-dimensional effects such as distortion. |
Details on the algorithms used to compute signal and noise on the detector and the strategies used to compute the extracted products can be found in Pontoppidan et al. 2016.