Your search keyword '"Krughoff, K. Simon"' showing total 49 results

1. Software Architecture and System Design of Rubin Observatory

Author

O'Mullane, William, Economou, Frossie, Lim, Kian-Tat, Mueller, Fritz, Jenness, Tim, Dubois-Felsmann, Gregory P., Guy, Leanne P., Sullivan, Ian S., AlSayyad, Yusra, Swinbank, John D., and Krughoff, K. Simon

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Computer Science - Software Engineering

Abstract

Starting from a description of the Rubin Observatory Data Management System Architecture, and drawing on our experience with and involvement in a range of other projects including Gaia, SDSS, UKIRT, and JCMT, we derive a series of generic design patterns and lessons learned., Comment: 10 pages ADASS XXXII submission

Published

2022

2. Faro: A framework for measuring the scientific performance of petascale Rubin Observatory data products

Author

Guy, Leanne P., Bechtol, Keith, Carlin, Jeffrey L., Dennihy, Erik, Ferguson, Peter S., Krughoff, K. Simon, Lupton, Robert H., Slater, Colin T., Findeisen, Krzysztof, Kannawadi, Arun, Kelvin, Lee S., Lust, Nate B., MacArthur, Lauren A., Martinez, Michael N., Reed, Sophie L., Taranu, Dan S., and Wood-Vasey, W. Michael

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Vera C. Rubin Observatory will advance many areas of astronomy over the next decade with its unique wide-fast-deep multi-color imaging survey, the Legacy Survey of Space and Time (LSST). The LSST will produce approximately 20TB of raw data per night, which will be automatically processed by the LSST Science Pipelines to generate science-ready data products -- processed images, catalogs and alerts. To ensure that these data products enable transformative science with LSST, stringent requirements have been placed on their quality and scientific fidelity, for example on image quality and depth, astrometric and photometric performance, and object recovery completeness. In this paper we introduce faro, a framework for automatically and efficiently computing scientific performance metrics on the LSST data products for units of data of varying granularity, ranging from single-detector to full-survey summary statistics. By measuring and monitoring metrics, we are able to evaluate trends in algorithmic performance and conduct regression testing during development, compare the performance of one algorithm against another, and verify that the LSST data products will meet performance requirements by comparing to specifications. We present initial results using faro to characterize the performance of the data products produced on simulated and precursor data sets, and discuss plans to use faro to verify the performance of the LSST commissioning data products., Comment: 12 pages, 9 figues, Proc. SPIE 12189, Software and Cyberinfrastructure for Astronomy VII, Montreal, CA, July 2022

Published

2022

3. Rubin Science Platform on Google: the story so far

Author

O'Mullane, William, Economou, Frossie, Huang, Flora, Speck, Dan, Chiang, Hsin-Fang, Graham, Melissa L., Allbery, Russ, Banek, Christine, Sick, Jonathan, Thornton, Adam J., Masciarelli, Jess, Lim, Kian-Tat, Mueller, Fritz, Padolski, Sergey, Jenness, Tim, Krughoff, K. Simon, Gower, Michelle, Guy, Leanne P., and Dubois-Felsmann, Gregory P.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

We describe Rubin Observatory's experience with offering a data access facility (and associated services including our Science Platform) deployed on Google Cloud infrastructure as part of our pre-Operations Data Preview program., Comment: 4 pages 1 figure

Published

2021

4. DESC DC2 Data Release Note

Author

LSST Dark Energy Science Collaboration, Abolfathi, Bela, Armstrong, Robert, Awan, Humna, Babuji, Yadu N., Bauer, Franz Erik, Beckett, George, Biswas, Rahul, Bogart, Joanne R., Boutigny, Dominique, Chard, Kyle, Chiang, James, Cohen-Tanugi, Johann, Connolly, Andrew J., Daniel, Scott F., Digel, Seth W., Drlica-Wagner, Alex, Dubois, Richard, Gawiser, Eric, Glanzman, Thomas, Habib, Salman, Hearin, Andrew P., Heitmann, Katrin, Hernandez, Fabio, Hložek, Renée, Hollowed, Joseph, Jarvis, Mike, Jha, Saurabh W., Kalmbach, J. Bryce, Kelly, Heather M., Kovacs, Eve, Korytov, Danila, Krughoff, K. Simon, Lage, Craig S., Lanusse, François, Larsen, Patricia, Li, Nan, Longley, Emily Phillips, Lupton, Robert H., Mandelbaum, Rachel, Mao, Yao-Yuan, Marshall, Phil, Meyers, Joshua E., Park, Ji Won, Peloton, Julien, Perrefort, Daniel, Perry, James, Plaszczynski, Stéphane, Pope, Adrian, Rykoff, Eli S., Sánchez, F. Javier, Schmidt, Samuel J., Uram, Thomas D., Villarreal, Antonia, Walter, Christopher W., Wiesner, Matthew P., and Wood-Vasey, W. Michael

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

In preparation for cosmological analyses of the Vera C. Rubin Observatory Legacy Survey of Space and Time (LSST), the LSST Dark Energy Science Collaboration (LSST DESC) has created a 300 deg$^2$ simulated survey as part of an effort called Data Challenge 2 (DC2). The DC2 simulated sky survey, in six optical bands with observations following a reference LSST observing cadence, was processed with the LSST Science Pipelines (19.0.0). In this Note, we describe the public data release of the resulting object catalogs for the coadded images of five years of simulated observations along with associated truth catalogs. We include a brief description of the major features of the available data sets. To enable convenient access to the data products, we have developed a web portal connected to Globus data services. We describe how to access the data and provide example Jupyter Notebooks in Python to aid first interactions with the data. We welcome feedback and questions about the data release via a GitHub repository., Comment: 25 pages, 3 figures; 9 tables. A detailed changelog can be found in Appendix A. To obtain data, visit the DESC Data Portal at https://data.lsstdesc.org/

Published

2021

5. The LSST DESC DC2 Simulated Sky Survey

Author

LSST Dark Energy Science Collaboration, Abolfathi, Bela, Alonso, David, Armstrong, Robert, Aubourg, Éric, Awan, Humna, Babuji, Yadu N., Bauer, Franz Erik, Bean, Rachel, Beckett, George, Biswas, Rahul, Bogart, Joanne R., Boutigny, Dominique, Chard, Kyle, Chiang, James, Claver, Chuck F., Cohen-Tanugi, Johann, Combet, Céline, Connolly, Andrew J., Daniel, Scott F., Digel, Seth W., Drlica-Wagner, Alex, Dubois, Richard, Gangler, Emmanuel, Gawiser, Eric, Glanzman, Thomas, Gris, Phillipe, Habib, Salman, Hearin, Andrew P., Heitmann, Katrin, Hernandez, Fabio, Hložek, Renée, Hollowed, Joseph, Ishak, Mustapha, Ivezić, Željko, Jarvis, Mike, Jha, Saurabh W., Kahn, Steven M., Kalmbach, J. Bryce, Kelly, Heather M., Kovacs, Eve, Korytov, Danila, Krughoff, K. Simon, Lage, Craig S., Lanusse, François, Larsen, Patricia, Guillou, Laurent Le, Li, Nan, Longley, Emily Phillips, Lupton, Robert H., Mandelbaum, Rachel, Mao, Yao-Yuan, Marshall, Phil, Meyers, Joshua E., Moniez, Marc, Morrison, Christopher B., Nomerotski, Andrei, O'Connor, Paul, Park, HyeYun, Park, Ji Won, Peloton, Julien, Perrefort, Daniel, Perry, James, Plaszczynski, Stéphane, Pope, Adrian, Rasmussen, Andrew, Reil, Kevin, Roodman, Aaron J., Rykoff, Eli S., Sánchez, F. Javier, Schmidt, Samuel J., Scolnic, Daniel, Stubbs, Christopher W., Tyson, J. Anthony, Uram, Thomas D., Villarreal, Antonia, Walter, Christopher W., Wiesner, Matthew P., Wood-Vasey, W. Michael, and Zuntz, Joe

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We describe the simulated sky survey underlying the second data challenge (DC2) carried out in preparation for analysis of the Vera C. Rubin Observatory Legacy Survey of Space and Time (LSST) by the LSST Dark Energy Science Collaboration (LSST DESC). Significant connections across multiple science domains will be a hallmark of LSST; the DC2 program represents a unique modeling effort that stresses this interconnectivity in a way that has not been attempted before. This effort encompasses a full end-to-end approach: starting from a large N-body simulation, through setting up LSST-like observations including realistic cadences, through image simulations, and finally processing with Rubin's LSST Science Pipelines. This last step ensures that we generate data products resembling those to be delivered by the Rubin Observatory as closely as is currently possible. The simulated DC2 sky survey covers six optical bands in a wide-fast-deep (WFD) area of approximately 300 deg^2 as well as a deep drilling field (DDF) of approximately 1 deg^2. We simulate 5 years of the planned 10-year survey. The DC2 sky survey has multiple purposes. First, the LSST DESC working groups can use the dataset to develop a range of DESC analysis pipelines to prepare for the advent of actual data. Second, it serves as a realistic testbed for the image processing software under development for LSST by the Rubin Observatory. In particular, simulated data provide a controlled way to investigate certain image-level systematic effects. Finally, the DC2 sky survey enables the exploration of new scientific ideas in both static and time-domain cosmology., Comment: 39 pages, 19 figures, version accepted for publication in ApJS

Published

2020

6. The LSST DESC DC2 Simulated Sky Survey

Author

Abolfathi, Bela, Alonso, David, Armstrong, Robert, Aubourg, Éric, Awan, Humna, Babuji, Yadu N, Bauer, Franz Erik, Bean, Rachel, Beckett, George, Biswas, Rahul, Bogart, Joanne R, Boutigny, Dominique, Chard, Kyle, Chiang, James, Claver, Chuck F, Cohen-Tanugi, Johann, Combet, Céline, Connolly, Andrew J, Daniel, Scott F, Digel, Seth W, Drlica-Wagner, Alex, Dubois, Richard, Gangler, Emmanuel, Gawiser, Eric, Glanzman, Thomas, Gris, Phillipe, Habib, Salman, Hearin, Andrew P, Heitmann, Katrin, Hernandez, Fabio, Hložek, Renée, Hollowed, Joseph, Ishak, Mustapha, Ivezić, Željko, Jarvis, Mike, Jha, Saurabh W, Kahn, Steven M, Kalmbach, J Bryce, Kelly, Heather M, Kovacs, Eve, Korytov, Danila, Krughoff, K Simon, Lage, Craig S, Lanusse, François, Larsen, Patricia, Le Guillou, Laurent, Li, Nan, Longley, Emily Phillips, Lupton, Robert H, Mandelbaum, Rachel, Mao, Yao-Yuan, Marshall, Phil, Meyers, Joshua E, Moniez, Marc, Morrison, Christopher B, Nomerotski, Andrei, O’Connor, Paul, Park, HyeYun, Park, Ji Won, Peloton, Julien, Perrefort, Daniel, Perry, James, Plaszczynski, Stéphane, Pope, Adrian, Rasmussen, Andrew, Reil, Kevin, Roodman, Aaron J, Rykoff, Eli S, Sánchez, F Javier, Schmidt, Samuel J, Scolnic, Daniel, Stubbs, Christopher W, Tyson, J Anthony, Uram, Thomas D, Villarreal, Antonio, Walter, Christopher W, Wiesner, Matthew P, Wood-Vasey, W Michael, and Zuntz, Joe

Subjects

Astronomical Sciences, Physical Sciences, Cosmology, N-body simulations, Sky surveys, astro-ph.IM, astro-ph.CO, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural), Astronomy & Astrophysics, Astronomical sciences

Abstract

We describe the simulated sky survey underlying the second data challenge (DC2) carried out in preparation for analysis of the Vera C. Rubin Observatory Legacy Survey of Space and Time (LSST) by the LSST Dark Energy Science Collaboration (LSST DESC). Significant connections across multiple science domains will be a hallmark of LSST; the DC2 program represents a unique modeling effort that stresses this interconnectivity in a way that has not been attempted before. This effort encompasses a full end-to-end approach: starting from a large N-body simulation, through setting up LSST-like observations including realistic cadences, through image simulations, and finally processing with Rubin's LSST Science Pipelines. This last step ensures that we generate data products resembling those to be delivered by the Rubin Observatory as closely as is currently possible. The simulated DC2 sky survey covers six optical bands in a wide-fast-deep area of approximately 300 deg2, as well as a deep drilling field of approximately 1 deg2. We simulate 5 yr of the planned 10 yr survey. The DC2 sky survey has multiple purposes. First, the LSST DESC working groups can use the data set to develop a range of DESC analysis pipelines to prepare for the advent of actual data. Second, it serves as a realistic test bed for the image processing software under development for LSST by the Rubin Observatory. In particular, simulated data provide a controlled way to investigate certain image-level systematic effects. Finally, the DC2 sky survey enables the exploration of new scientific ideas in both static and time domain cosmology.

Published

2021

7. Why is the LSST Science Platform built on Kubernetes?

Author

Banek, Christine, Thornton, Adam, Economou, Frossie, Fausti, Angelo, Krughoff, K. Simon, and Sick, Jonathan

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

LSST has chosen Kubernetes as the platform for deploying and operating the LSST Science Platform. We first present the background reasoning behind this decision, including both instrument-agnostic as well as LSST-specific requirements. We then discuss the basic principles of Kubernetes and Helm, and how they are used as the deployment base for the LSST Science Platform. Furthermore, we provide an example of how an external group may use these publicly available software resources to deploy their own instance of the LSST Science Platform, and customize it to their needs. Finally, we discuss how more astronomy software can follow these patterns to gain similar benefits., Comment: 10 pages, submitted to proceedings of ADASS XXIX, Groningen, The Netherlands, to be published in ASP Conf. Series

Published

2019

8. The Zwicky Transient Facility Alert Distribution System

Author

Patterson, Maria T., Bellm, Eric C., Rusholme, Ben, Masci, Frank J., Juric, Mario, Krughoff, K. Simon, Golkhou, V. Zach, Graham, Matthew J., Kulkarni, Shrinivas R., and Helou, George

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Zwicky Transient Facility (ZTF) survey generates real-time alerts for optical transients, variables, and moving objects discovered in its wide-field survey. We describe the ZTF alert stream distribution and processing (filtering) system. The system uses existing open-source technologies developed in industry: Kafka, a real-time streaming platform, and Avro, a binary serialization format. The technologies used in this system provide a number of advantages for the ZTF use case, including (1) built-in replication, scalability, and stream rewind for the distribution mechanism; (2) structured messages with strictly enforced schemas and dynamic typing for fast parsing; and (3) a Python-based stream processing interface that is similar to batch for a familiar and user-friendly plug-in filter system, all in a modular, primarily containerized system. The production deployment has successfully supported streaming up to 1.2 million alerts or roughly 70 GB of data per night, with each alert available to a consumer within about 10 s of alert candidate production. Data transfer rates of about 80,000 alerts/minute have been observed. In this paper, we discuss this alert distribution and processing system, the design motivations for the technology choices for the framework, performance in production, and how this system may be generally suitable for other alert stream use cases, including the upcoming Large Synoptic Survey Telescope., Comment: Published in PASP Focus Issue on the Zwicky Transient Facility (doi: 10.1088/1538-3873/aae904). 9 Pages, 2 Figures

Published

2019

9. An Overview of the LSST Image Processing Pipelines

Author

Bosch, James, AlSayyad, Yusra, Armstrong, Robert, Bellm, Eric, Chiang, Hsin-Fang, Eggl, Siegfried, Findeisen, Krzysztof, Fisher-Levine, Merlin, Guy, Leanne P., Guyonnet, Augustin, Ivezić, Željko, Jenness, Tim, Kovács, Gábor, Krughoff, K. Simon, Lupton, Robert H., Lust, Nate B., MacArthur, Lauren A., Meyers, Joshua, Moolekamp, Fred, Morrison, Christopher B., Morton, Timothy D., O'Mullane, William, Parejko, John K., Plazas, Andrés A., Price, Paul A., Rawls, Meredith L., Reed, Sophie L., Schellart, Pim, Slater, Colin T., Sullivan, Ian, Swinbank, John. D., Taranu, Dan, Waters, Christopher Z., and Wood-Vasey, W. M.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Large Synoptic Survey Telescope (LSST) is an ambitious astronomical survey with a similarly ambitious Data Management component. Data Management for LSST includes processing on both nightly and yearly cadences to generate transient alerts, deep catalogs of the static sky, and forced photometry light-curves for billions of objects at hundreds of epochs, spanning at least a decade. The algorithms running in these pipelines are individually sophisticated and interact in subtle ways. This paper provides an overview of those pipelines, focusing more on those interactions than the details of any individual algorithm., Comment: Submitted to proceedings for ADASS XXVIII

Published

2018

10. DESCQA: An Automated Validation Framework for Synthetic Sky Catalogs

Author

Mao, Yao-Yuan, Kovacs, Eve, Heitmann, Katrin, Uram, Thomas D., Benson, Andrew J., Campbell, Duncan, Cora, Sofía A., DeRose, Joseph, Di Matteo, Tiziana, Habib, Salman, Hearin, Andrew P., Kalmbach, J. Bryce, Krughoff, K. Simon, Lanusse, François, Lukić, Zarija, Mandelbaum, Rachel, Newman, Jeffrey A., Padilla, Nelson, Paillas, Enrique, Pope, Adrian, Ricker, Paul M., Ruiz, Andrés N., Tenneti, Ananth, Vega-Martínez, Cristian, Wechsler, Risa H., Zhou, Rongpu, and Zu, Ying

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

The use of high-quality simulated sky catalogs is essential for the success of cosmological surveys. The catalogs have diverse applications, such as investigating signatures of fundamental physics in cosmological observables, understanding the effect of systematic uncertainties on measured signals and testing mitigation strategies for reducing these uncertainties, aiding analysis pipeline development and testing, and survey strategy optimization. The list of applications is growing with improvements in the quality of the catalogs and the details that they can provide. Given the importance of simulated catalogs, it is critical to provide rigorous validation protocols that enable both catalog providers and users to assess the quality of the catalogs in a straightforward and comprehensive way. For this purpose, we have developed the DESCQA framework for the Large Synoptic Survey Telescope Dark Energy Science Collaboration as well as for the broader community. The goal of DESCQA is to enable the inspection, validation, and comparison of an inhomogeneous set of synthetic catalogs via the provision of a common interface within an automated framework. In this paper, we present the design concept and first implementation of DESCQA. In order to establish and demonstrate its full functionality we use a set of interim catalogs and validation tests. We highlight several important aspects, both technical and scientific, that require thoughtful consideration when designing a validation framework, including validation metrics and how these metrics impose requirements on the synthetic sky catalogs., Comment: 16+4 pages, 9 figures, 2+1 tables. Published in the ApJ Supplement. Code repository at https://github.com/LSSTDESC/descqa

Published

2017

11. The Hyper Suprime-Cam Software Pipeline

Author

Bosch, James, Armstrong, Robert, Bickerton, Steven, Furusawa, Hisanori, Ikeda, Hiroyuki, Koike, Michitaro, Lupton, Robert, Mineo, Sogo, Price, Paul, Takata, Tadafumi, Tanaka, Masayuki, Yasuda, Naoki, AlSayyad, Yusra, Becker, Andrew C., Coulton, William, Coupon, Jean, Garmilla, Jose, Huang, Song, Krughoff, K. Simon, Lang, Dustin, Leauthaud, Alexie, Lim, Kian-Tat, Lust, Nate B., MacArthur, Lauren A., Mandelbaum, Rachel, Miyatake, Hironao, Miyazaki, Satoshi, Murata, Ryoma, More, Surhud, Okura, Yuki, Owen, Russell, Swinbank, John D., Strauss, Michael A., Yamada, Yoshihiko, and Yamanoi, Hitomi

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

In this paper, we describe the optical imaging data processing pipeline developed for the Subaru Telescope's Hyper Suprime-Cam (HSC) instrument. The HSC Pipeline builds on the prototype pipeline being developed by the Large Synoptic Survey Telescope's Data Management system, adding customizations for HSC, large-scale processing capabilities, and novel algorithms that have since been reincorporated into the LSST codebase. While designed primarily to reduce HSC Subaru Strategic Program (SSP) data, it is also the recommended pipeline for reducing general-observer HSC data. The HSC pipeline includes high level processing steps that generate coadded images and science-ready catalogs as well as low-level detrending and image characterizations., Comment: 39 pages, 21 figures, 2 tables. Submitted to Publications of the Astronomical Society of Japan

Published

2017

12. DESCQA: An Automated Validation Framework for Synthetic Sky Catalogs

Author

Mao, Yao-Yuan, Kovacs, Eve, Heitmann, Katrin, Uram, Thomas D, Benson, Andrew J, Campbell, Duncan, Cora, Sofía A, DeRose, Joseph, Di Matteo, Tiziana, Habib, Salman, Hearin, Andrew P, Kalmbach, J Bryce, Krughoff, K Simon, Lanusse, François, Lukić, Zarija, Mandelbaum, Rachel, Newman, Jeffrey A, Padilla, Nelson, Paillas, Enrique, Pope, Adrian, Ricker, Paul M, Ruiz, Andrés N, Tenneti, Ananth, Vega-Martínez, Cristian A, Wechsler, Risa H, Zhou, Rongpu, and Zu, Ying

Subjects

astro-ph.IM, astro-ph.CO, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural), Astronomy & Astrophysics

Abstract

The use of high-quality simulated sky catalogs is essential for the success of cosmological surveys. The catalogs have diverse applications, such as investigating signatures of fundamental physics in cosmological observables, understanding the effect of systematic uncertainties on measured signals and testing mitigation strategies for reducing these uncertainties, aiding analysis pipeline development and testing, and survey strategy optimization. The list of applications is growing with improvements in the quality of the catalogs and the details that they can provide. Given the importance of simulated catalogs, it is critical to provide rigorous validation protocols that enable both catalog providers and users to assess the quality of the catalogs in a straightforward and comprehensive way. For this purpose, we have developed the DESCQA framework for the Large Synoptic Survey Telescope Dark Energy Science Collaboration as well as for the broader community. The goal of DESCQA is to enable the inspection, validation, and comparison of an inhomogeneous set of synthetic catalogs via the provision of a common interface within an automated framework. In this paper, we present the design concept and first implementation of DESCQA. In order to establish and demonstrate its full functionality we use a set of interim catalogs and validation tests. We highlight several important aspects, both technical and scientific, that require thoughtful consideration when designing a validation framework, including validation metrics and how these metrics impose requirements on the synthetic sky catalogs.

Published

2018

13. The LSST Data Management System

Author

Jurić, Mario, Kantor, Jeffrey, Lim, K-T, Lupton, Robert H., Dubois-Felsmann, Gregory, Jenness, Tim, Axelrod, Tim S., Aleksić, Jovan, Allsman, Roberta A., AlSayyad, Yusra, Alt, Jason, Armstrong, Robert, Basney, Jim, Becker, Andrew C., Becla, Jacek, Bickerton, Steven J., Biswas, Rahul, Bosch, James, Boutigny, Dominique, Kind, Matias Carrasco, Ciardi, David R., Connolly, Andrew J., Daniel, Scott F., Daues, Gregory E., Economou, Frossie, Chiang, Hsin-Fang, Fausti, Angelo, Fisher-Levine, Merlin, Freemon, D. Michael, Gee, Perry, Gris, Philippe, Hernandez, Fabio, Hoblitt, Joshua, Ivezić, Željko, Jammes, Fabrice, Jevremović, Darko, Jones, R. Lynne, Kalmbach, J. Bryce, Kasliwal, Vishal P., Krughoff, K. Simon, Lang, Dustin, Lurie, John, Lust, Nate B., Mullally, Fergal, MacArthur, Lauren A., Melchior, Peter, Moeyens, Joachim, Nidever, David L., Owen, Russell, Parejko, John K, Peterson, J. Matt, Petravick, Donald, Pietrowicz, Stephen R., Price, Paul A., Reiss, David J., Shaw, Richard A., Sick, Jonathan, Slater, Colin T., Strauss, Michael A., Sullivan, Ian S., Swinbank, John D., Van Dyk, Schuyler, Vujčić, Veljko, Withers, Alexander, and Yoachim, Peter

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Large Synoptic Survey Telescope (LSST) is a large-aperture, wide-field, ground-based survey system that will image the sky in six optical bands from 320 to 1050 nm, uniformly covering approximately $18,000$deg$^2$ of the sky over 800 times. The LSST is currently under construction on Cerro Pach\'on in Chile, and expected to enter operations in 2022. Once operational, the LSST will explore a wide range of astrophysical questions, from discovering "killer" asteroids to examining the nature of Dark Energy. The LSST will generate on average 15 TB of data per night, and will require a comprehensive Data Management system to reduce the raw data to scientifically useful catalogs and images with minimum human intervention. These reductions will result in a real-time alert stream, and eleven data releases over the 10-year duration of LSST operations. To enable this processing, the LSST project is developing a new, general-purpose, high-performance, scalable, well documented, open source data processing software stack for O/IR surveys. Prototypes of this stack are already capable of processing data from existing cameras (e.g., SDSS, DECam, MegaCam), and form the basis of the Hyper-Suprime Cam (HSC) Survey data reduction pipeline., Comment: 10 pages, 3 figures, to appear in the Proceedings of ADASS XXV

Published

2015

14. OSSOS. XVII. An upper limit on the number of distant planetary objects in the Solar System

Author

Ashton, Edward, Gladman, Brett, Kavelaars, J.J., Jones, R. Lynne, Krughoff, K. Simon, Alexandersen, Mike, Bannister, Michele T., Chen, Ying-Tung, Gwyn, Stephen, Petit, Jean-Marc, and Volk, Kathryn

Published

2021

15. Improving the LSST dithering pattern and cadence for dark energy studies

Author

Carroll, Christopher M., Gawiser, Eric, Kurczynski, Peter L., Bailey, Rachel A., Biswas, Rahul, Cinabro, David, Jha, Saurabh W., Jones, R. Lynne, Krughoff, K. Simon, Sonawalla, Aneesa, and Wood-Vasey, W. Michael

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Large Synoptic Survey Telescope (LSST) will explore the entire southern sky over 10 years starting in 2022 with unprecedented depth and time sampling in six filters, $ugrizy$. Artificial power on the scale of the 3.5 deg LSST field-of-view will contaminate measurements of baryonic acoustic oscillations (BAO), which fall at the same angular scale at redshift $z \sim 1$. Using the HEALPix framework, we demonstrate the impact of an "un-dithered" survey, in which $17\%$ of each LSST field-of-view is overlapped by neighboring observations, generating a honeycomb pattern of strongly varying survey depth and significant artificial power on BAO angular scales. We find that adopting large dithers (i.e., telescope pointing offsets) of amplitude close to the LSST field-of-view radius reduces artificial structure in the galaxy distribution by a factor of $\sim$10. We propose an observing strategy utilizing large dithers within the main survey and minimal dithers for the LSST Deep Drilling Fields. We show that applying various magnitude cutoffs can further increase survey uniformity. We find that a magnitude cut of $r < 27.3$ removes significant spurious power from the angular power spectrum with a minimal reduction in the total number of observed galaxies over the ten-year LSST run. We also determine the effectiveness of the observing strategy for Type Ia SNe and predict that the main survey will contribute $\sim$100,000 Type Ia SNe. We propose a concentrated survey where LSST observes one-third of its main survey area each year, increasing the number of main survey Type Ia SNe by a factor of $\sim$1.5, while still enabling the successful pursuit of other science drivers., Comment: 9 pages, 6 figures, published in SPIE proceedings; corrected typo in equation 2

Published

2015

16. Spectroscopic Determination of the Low Redshift Type Ia Supernova Rate from the Sloan Digital Sky Survey

Author

Krughoff, K. Simon, Connolly, Andrew, Frieman, Joshua, SubbaRao, Mark, Kilper, Gary, and Schneider, Donald

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Supernova rates are directly coupled to high mass stellar birth and evolution. As such, they are one of the few direct measures of the history of cosmic stellar evolution. In this paper we describe an probabilistic technique for identifying supernovae within spectroscopic samples of galaxies. We present a study of 52 type Ia supernovae ranging in age from -14 days to +40 days extracted from a parent sample of \simeq 50,000 spectra from the SDSS DR5. We find a Supernova Rate (SNR) of 0.472^{+0.048}_{-0.039}(Systematic)^{+0.081}_{-0.071}(Statistical)SNu at a redshift of = 0.1. This value is higher than other values at low redshift at the 1{\sigma}, but is consistent at the 3{\sigma} level. The 52 supernova candidates used in this study comprise the third largest sample of supernovae used in a type Ia rate determination to date. In this paper we demonstrate the potential for the described approach for detecting supernovae in future spectroscopic surveys., Comment: 16 pages, 16 figures Accepted ApJ

Published

2011

17. LSST Science Book, Version 2.0

Author

LSST Science Collaboration, Abell, Paul A., Allison, Julius, Anderson, Scott F., Andrew, John R., Angel, J. Roger P., Armus, Lee, Arnett, David, Asztalos, S. J., Axelrod, Tim S., Bailey, Stephen, Ballantyne, D. R., Bankert, Justin R., Barkhouse, Wayne A., Barr, Jeffrey D., Barrientos, L. Felipe, Barth, Aaron J., Bartlett, James G., Becker, Andrew C., Becla, Jacek, Beers, Timothy C., Bernstein, Joseph P., Biswas, Rahul, Blanton, Michael R., Bloom, Joshua S., Bochanski, John J., Boeshaar, Pat, Borne, Kirk D., Bradac, Marusa, Brandt, W. N., Bridge, Carrie R., Brown, Michael E., Brunner, Robert J., Bullock, James S., Burgasser, Adam J., Burge, James H., Burke, David L., Cargile, Phillip A., Chandrasekharan, Srinivasan, Chartas, George, Chesley, Steven R., Chu, You-Hua, Cinabro, David, Claire, Mark W., Claver, Charles F., Clowe, Douglas, Connolly, A. J., Cook, Kem H., Cooke, Jeff, Cooray, Asantha, Covey, Kevin R., Culliton, Christopher S., de Jong, Roelof, de Vries, Willem H., Debattista, Victor P., Delgado, Francisco, Dell'Antonio, Ian P., Dhital, Saurav, Di Stefano, Rosanne, Dickinson, Mark, Dilday, Benjamin, Djorgovski, S. G., Dobler, Gregory, Donalek, Ciro, Dubois-Felsmann, Gregory, Durech, Josef, Eliasdottir, Ardis, Eracleous, Michael, Eyer, Laurent, Falco, Emilio E., Fan, Xiaohui, Fassnacht, Christopher D., Ferguson, Harry C., Fernandez, Yanga R., Fields, Brian D., Finkbeiner, Douglas, Figueroa, Eduardo E., Fox, Derek B., Francke, Harold, Frank, James S., Frieman, Josh, Fromenteau, Sebastien, Furqan, Muhammad, Galaz, Gaspar, Gal-Yam, A., Garnavich, Peter, Gawiser, Eric, Geary, John, Gee, Perry, Gibson, Robert R., Gilmore, Kirk, Grace, Emily A., Green, Richard F., Gressler, William J., Grillmair, Carl J., Habib, Salman, Haggerty, J. S., Hamuy, Mario, Harris, Alan W., Hawley, Suzanne L., Heavens, Alan F., Hebb, Leslie, Henry, Todd J., Hileman, Edward, Hilton, Eric J., Hoadley, Keri, Holberg, J. B., Holman, Matt J., Howell, Steve B., Infante, Leopoldo, Ivezic, Zeljko, Jacoby, Suzanne H., Jain, Bhuvnesh, Jedicke, Jee, M. James, Jernigan, J. Garrett, Jha, Saurabh W., Johnston, Kathryn V., Jones, R. Lynne, Juric, Mario, Kaasalainen, Mikko, Styliani, Kafka, Kahn, Steven M., Kaib, Nathan A., Kalirai, Jason, Kantor, Jeff, Kasliwal, Mansi M., Keeton, Charles R., Kessler, Richard, Knezevic, Zoran, Kowalski, Adam, Krabbendam, Victor L., Krughoff, K. Simon, Kulkarni, Shrinivas, Kuhlman, Stephen, Lacy, Mark, Lepine, Sebastien, Liang, Ming, Lien, Amy, Lira, Paulina, Long, Knox S., Lorenz, Suzanne, Lotz, Jennifer M., Lupton, R. H., Lutz, Julie, Macri, Lucas M., Mahabal, Ashish A., Mandelbaum, Rachel, Marshall, Phil, May, Morgan, McGehee, Peregrine M., Meadows, Brian T., Meert, Alan, Milani, Andrea, Miller, Christopher J., Miller, Michelle, Mills, David, Minniti, Dante, Monet, David, Mukadam, Anjum S., Nakar, Ehud, Neill, Douglas R., Newman, Jeffrey A., Nikolaev, Sergei, Nordby, Martin, O'Connor, Paul, Oguri, Masamune, Oliver, John, Olivier, Scot S., Olsen, Julia K., Olsen, Knut, Olszewski, Edward W., Oluseyi, Hakeem, Padilla, Nelson D., Parker, Alex, Pepper, Joshua, Peterson, John R., Petry, Catherine, Pinto, Philip A., Pizagno, James L., Popescu, Bogdan, Prsa, Andrej, Radcka, Veljko, Raddick, M. Jordan, Rasmussen, Andrew, Rau, Arne, Rho, Jeonghee, Rhoads, James E., Richards, Gordon T., Ridgway, Stephen T., Robertson, Brant E., Roskar, Rok, Saha, Abhijit, Sarajedini, Ata, Scannapieco, Evan, Schalk, Terry, Schindler, Rafe, Schmidt, Samuel, Schmidt, Sarah, Schneider, Donald P., Schumacher, German, Scranton, Ryan, Sebag, Jacques, Seppala, Lynn G., Shemmer, Ohad, Simon, Joshua D., Sivertz, M., Smith, Howard A., Smith, J. Allyn, Smith, Nathan, Spitz, Anna H., Stanford, Adam, Stassun, Keivan G., Strader, Jay, Strauss, Michael A., Stubbs, Christopher W., Sweeney, Donald W., Szalay, Alex, Szkody, Paula, Takada, Masahiro, Thorman, Paul, Trilling, David E., Trimble, Virginia, Tyson, Anthony, Van Berg, Richard, Berk, Daniel Vanden, VanderPlas, Jake, Verde, Licia, Vrsnak, Bojan, Walkowicz, Lucianne M., Wandelt, Benjamin D., Wang, Sheng, Wang, Yun, Warner, Michael, Wechsler, Risa H., West, Andrew A., Wiecha, Oliver, Williams, Benjamin F., Willman, Beth, Wittman, David, Wolff, Sidney C., Wood-Vasey, W. Michael, Wozniak, Przemek, Young, Patrick, Zentner, Andrew, and Zhan, Hu

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Extragalactic Astrophysics, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Galaxy Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

A survey that can cover the sky in optical bands over wide fields to faint magnitudes with a fast cadence will enable many of the exciting science opportunities of the next decade. The Large Synoptic Survey Telescope (LSST) will have an effective aperture of 6.7 meters and an imaging camera with field of view of 9.6 deg^2, and will be devoted to a ten-year imaging survey over 20,000 deg^2 south of +15 deg. Each pointing will be imaged 2000 times with fifteen second exposures in six broad bands from 0.35 to 1.1 microns, to a total point-source depth of r~27.5. The LSST Science Book describes the basic parameters of the LSST hardware, software, and observing plans. The book discusses educational and outreach opportunities, then goes on to describe a broad range of science that LSST will revolutionize: mapping the inner and outer Solar System, stellar populations in the Milky Way and nearby galaxies, the structure of the Milky Way disk and halo and other objects in the Local Volume, transient and variable objects both at low and high redshift, and the properties of normal and active galaxies at low and high redshift. It then turns to far-field cosmological topics, exploring properties of supernovae to z~1, strong and weak lensing, the large-scale distribution of galaxies and baryon oscillations, and how these different probes may be combined to constrain cosmological models and the physics of dark energy., Comment: 596 pages. Also available at full resolution at http://www.lsst.org/lsst/scibook

Published

2009

18. LSST: from Science Drivers to Reference Design and Anticipated Data Products

Author

Ivezić, Željko, Kahn, Steven M., Tyson, J. Anthony, Abel, Bob, Acosta, Emily, Allsman, Robyn, Alonso, David, AlSayyad, Yusra, Anderson, Scott F., Andrew, John, Angel, James Roger P., Angeli, George Z., Ansari, Reza, Antilogus, Pierre, Araujo, Constanza, Armstrong, Robert, Arndt, Kirk T., Astier, Pierre, Aubourg, Éric, Auza, Nicole, Axelrod, Tim S., Bard, Deborah J., Barr, Jeff D., Barrau, Aurelian, Bartlett, James G., Bauer, Amanda E., Bauman, Brian J., Baumont, Sylvain, Becker, Andrew C., Becla, Jacek, Beldica, Cristina, Bellavia, Steve, Bianco, Federica B., Biswas, Rahul, Blanc, Guillaume, Blazek, Jonathan, Blandford, Roger D., Bloom, Josh S., Bogart, Joanne, Bond, Tim W., Borgland, Anders W., Borne, Kirk, Bosch, James F., Boutigny, Dominique, Brackett, Craig A., Bradshaw, Andrew, Brandt, William Nielsen, Brown, Michael E., Bullock, James S., Burchat, Patricia, Burke, David L., Cagnoli, Gianpietro, Calabrese, Daniel, Callahan, Shawn, Callen, Alice L., Chandrasekharan, Srinivasan, Charles-Emerson, Glenaver, Chesley, Steve, Cheu, Elliott C., Chiang, Hsin-Fang, Chiang, James, Chirino, Carol, Chow, Derek, Ciardi, David R., Claver, Charles F., Cohen-Tanugi, Johann, Cockrum, Joseph J., Coles, Rebecca, Connolly, Andrew J., Cook, Kem H., Cooray, Asantha, Covey, Kevin R., Cribbs, Chris, Cui, Wei, Cutri, Roc, Daly, Philip N., Daniel, Scott F., Daruich, Felipe, Daubard, Guillaume, Daues, Greg, Dawson, William, Delgado, Francisco, Dellapenna, Alfred, de Peyster, Robert, de Val-Borro, Miguel, Digel, Seth W., Doherty, Peter, Dubois, Richard, Dubois-Felsmann, Gregory P., Durech, Josef, Economou, Frossie, Eracleous, Michael, Ferguson, Henry, Figueroa, Enrique, Fisher-Levine, Merlin, Focke, Warren, Foss, Michael D., Frank, James, Freemon, Michael D., Gangler, Emmanuel, Gawiser, Eric, Geary, John C., Gee, Perry, Geha, Marla, Gessner, Charles J. B., Gibson, Robert R., Gilmore, D. Kirk, Glanzman, Thomas, Glick, William, Goldina, Tatiana, Goldstein, Daniel A., Goodenow, Iain, Graham, Melissa L., Gressler, William J., Gris, Philippe, Guy, Leanne P., Guyonnet, Augustin, Haller, Gunther, Harris, Ron, Hascall, Patrick A., Haupt, Justine, Hernandez, Fabio, Herrmann, Sven, Hileman, Edward, Hoblitt, Joshua, Hodgson, John A., Hogan, Craig, Huang, Dajun, Huffer, Michael E., Ingraham, Patrick, Innes, Walter R., Jacoby, Suzanne H., Jain, Bhuvnesh, Jammes, Fabrice, Jee, James, Jenness, Tim, Jernigan, Garrett, Jevremović, Darko, Johns, Kenneth, Johnson, Anthony S., Johnson, Margaret W. G., Jones, R. Lynne, Juramy-Gilles, Claire, Jurić, Mario, Kalirai, Jason S., Kallivayalil, Nitya J., Kalmbach, Bryce, Kantor, Jeffrey P., Karst, Pierre, Kasliwal, Mansi M., Kelly, Heather, Kessler, Richard, Kinnison, Veronica, Kirkby, David, Knox, Lloyd, Kotov, Ivan V., Krabbendam, Victor L., Krughoff, K. Simon, Kubánek, Petr, Kuczewski, John, Kulkarni, Shri, Ku, John, Kurita, Nadine R., Lage, Craig S., Lambert, Ron, Lange, Travis, Langton, J. Brian, Guillou, Laurent Le, Levine, Deborah, Liang, Ming, Lim, Kian-Tat, Lintott, Chris J., Long, Kevin E., Lopez, Margaux, Lotz, Paul J., Lupton, Robert H., Lust, Nate B., MacArthur, Lauren A., Mahabal, Ashish, Mandelbaum, Rachel, Marsh, Darren S., Marshall, Philip J., Marshall, Stuart, May, Morgan, McKercher, Robert, McQueen, Michelle, Meyers, Joshua, Migliore, Myriam, Miller, Michelle, Mills, David J., Miraval, Connor, Moeyens, Joachim, Monet, David G., Moniez, Marc, Monkewitz, Serge, Montgomery, Christopher, Mueller, Fritz, Muller, Gary P., Arancibia, Freddy Muñoz, Neill, Douglas R., Newbry, Scott P., Nief, Jean-Yves, Nomerotski, Andrei, Nordby, Martin, O'Connor, Paul, Oliver, John, Olivier, Scot S., Olsen, Knut, O'Mullane, William, Ortiz, Sandra, Osier, Shawn, Owen, Russell E., Pain, Reynald, Palecek, Paul E., Parejko, John K., Parsons, James B., Pease, Nathan M., Peterson, J. Matt, Peterson, John R., Petravick, Donald L., Petrick, M. E. Libby, Petry, Cathy E., Pierfederici, Francesco, Pietrowicz, Stephen, Pike, Rob, Pinto, Philip A., Plante, Raymond, Plate, Stephen, Price, Paul A., Prouza, Michael, Radeka, Veljko, Rajagopal, Jayadev, Rasmussen, Andrew P., Regnault, Nicolas, Reil, Kevin A., Reiss, David J., Reuter, Michael A., Ridgway, Stephen T., Riot, Vincent J., Ritz, Steve, Robinson, Sean, Roby, William, Roodman, Aaron, Rosing, Wayne, Roucelle, Cecille, Rumore, Matthew R., Russo, Stefano, Saha, Abhijit, Sassolas, Benoit, Schalk, Terry L., Schellart, Pim, Schindler, Rafe H., Schmidt, Samuel, Schneider, Donald P., Schneider, Michael D., Schoening, William, Schumacher, German, Schwamb, Megan E., Sebag, Jacques, Selvy, Brian, Sembroski, Glenn H., Seppala, Lynn G., Serio, Andrew, Serrano, Eduardo, Shaw, Richard A., Shipsey, Ian, Sick, Jonathan, Silvestri, Nicole, Slater, Colin T., Smith, J. Allyn, Smith, R. Chris, Sobhani, Shahram, Soldahl, Christine, Storrie-Lombardi, Lisa, Stover, Edward, Strauss, Michael A., Street, Rachel A., Stubbs, Christopher W., Sullivan, Ian S., Sweeney, Donald, Swinbank, John D., Szalay, Alexander, Takacs, Peter, Tether, Stephen A., Thaler, Jon J., Thayer, John Gregg, Thomas, Sandrine, Thukral, Vaikunth, Tice, Jeffrey, Trilling, David E., Turri, Max, Van Berg, Richard, Berk, Daniel Vanden, Vetter, Kurt, Virieux, Francoise, Vucina, Tomislav, Wahl, William, Walkowicz, Lucianne, Walsh, Brian, Walter, Christopher W., Wang, Daniel L., Wang, Shin-Yawn, Warner, Michael, Wiecha, Oliver, Willman, Beth, Winters, Scott E., Wittman, David, Wolff, Sidney C., Wood-Vasey, W. Michael, Wu, Xiuqin, Xin, Bo, Yoachim, Peter, and Zhan, Hu

Subjects

Astrophysics

Abstract

(Abridged) We describe here the most ambitious survey currently planned in the optical, the Large Synoptic Survey Telescope (LSST). A vast array of science will be enabled by a single wide-deep-fast sky survey, and LSST will have unique survey capability in the faint time domain. The LSST design is driven by four main science themes: probing dark energy and dark matter, taking an inventory of the Solar System, exploring the transient optical sky, and mapping the Milky Way. LSST will be a wide-field ground-based system sited at Cerro Pach\'{o}n in northern Chile. The telescope will have an 8.4 m (6.5 m effective) primary mirror, a 9.6 deg$^2$ field of view, and a 3.2 Gigapixel camera. The standard observing sequence will consist of pairs of 15-second exposures in a given field, with two such visits in each pointing in a given night. With these repeats, the LSST system is capable of imaging about 10,000 square degrees of sky in a single filter in three nights. The typical 5$\sigma$ point-source depth in a single visit in $r$ will be $\sim 24.5$ (AB). The project is in the construction phase and will begin regular survey operations by 2022. The survey area will be contained within 30,000 deg$^2$ with $\delta<+34.5^\circ$, and will be imaged multiple times in six bands, $ugrizy$, covering the wavelength range 320--1050 nm. About 90\% of the observing time will be devoted to a deep-wide-fast survey mode which will uniformly observe a 18,000 deg$^2$ region about 800 times (summed over all six bands) during the anticipated 10 years of operations, and yield a coadded map to $r\sim27.5$. The remaining 10\% of the observing time will be allocated to projects such as a Very Deep and Fast time domain survey. The goal is to make LSST data products, including a relational database of about 32 trillion observations of 40 billion objects, available to the public and scientists around the world., Comment: 57 pages, 32 color figures, version with high-resolution figures available from https://www.lsst.org/overview

Published

2008

19. Inter-cluster filaments in a $\Lambda$CDM Universe

Author

Colberg, Joerg M., Krughoff, K. Simon, and Connolly, Andrew J.

Subjects

Astrophysics

Abstract

The large--scale structure (LSS) in the Universe comprises a complicated filamentary network of matter. We study this network using a high--resolution simulation of structure formation of a $\Lambda$ Cold Dark Matter cosmology. We investigate the distribution of matter between neighbouring large haloes whose masses are comparable to massive clusters of galaxies. We identify a total of 228 filaments between neighbouring clusters. Roughly half of the filaments are either warped or lie off the cluster--cluster axis. We find that straight filaments on the average are shorter than warped ones. More massive clusters are connected to more filaments than less massive ones on average. This finding indicates that the most massive clusters form at the intersections of the filamentary backbone of LSS. For straight filaments, we compute mass profiles. Radial profiles show a fairly well--defined radius, $r_s$, beyond which the profiles follow an $r^{-2}$ power law fairly closely. For the majority of filaments, $r_s$ lies between 1.5 $h^{-1}$ Mpc and 2.0 $h^{-1}$ Mpc. The enclosed overdensity inside $r_s$ varies between a few times up to 25 times mean density, independent of the length of the filaments. Along the filaments' axes, material is not distributed uniformly. Towards the clusters, the density rises, indicating the presence of the cluster infall regions. In addition, we also find some sheet--like connections between clusters. In roughly a fifth of all cluster--cluster connections where we could not identify a filament or sheet, projection effects lead to filamentary structures in the projected mass distribution. (abridged), Comment: 10 pages, 18 figures; submitted to MNRAS; updated: final version, accepted for publication

Published

2004

20. Rubin Science Platform on Google: the story so far.

Author

O'Mullane, William, Economou, Frossie, Huang, Flora, Speck, Dan, Hsin-Fang Chiang, Graham, Melissa L., Allbery, Russ, Banek, Christine, Sick, Jonathan, Thornton, Adam J., Masciarelli, Jess, Lim, Kian-Tat, Mueller, Fritz, Padolski, Sergey, Jenness, Tim, Krughoff, K. Simon, Gower, Michelle, Guy, Leanne P., and Dubois-Felsmann, Gregory P.

Published

2024

21. Towards Efficient and Precise Queries over Ten Million Asteroid Trajectory Models

Author

AlSayyad, Yusra, Krughoff, K. Simon, Howe, Bill, Connolly, Andrew J., Balazinska, Magdalena, Jones, Lynne, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Nierstrasz, Oscar, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Sudan, Madhu, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Vardi, Moshe Y., Series editor, Weikum, Gerhard, Series editor, Bayard Cushing, Judith, editor, French, James, editor, and Bowers, Shawn, editor

Published

2011

22. Faro: a framework for measuring the scientific performance of petascale Rubin Observatory data products

Author

Guy, Leanne P., primary, Bechtol, Keith, additional, Carlin, Jeffrey L., additional, Dennihy, Erik, additional, Ferguson, Peter S., additional, Krughoff, K. Simon, additional, Lupton, Robert H., additional, Slater, Colin T., additional, Findeisen, Krzysztof P., additional, Kannawadi, Arun, additional, Kelvin, Lee S., additional, Lust, Nate B., additional, MacArthur, Lauren A., additional, Martinez, Michael N., additional, Reed, Sophie L., additional, Taranu, Dan S., additional, and Wood-Vasey, W. Michael, additional

Published

2022

23. Rubin Observatory Commissioning Camera: summit integration

Author

Stalder, Brian, primary, Reil, Kevin, additional, Aguilar, Christian, additional, Araya, Claudio, additional, Borstad, Anthony, additional, Bowdish, Boyd, additional, Cho, Myung, additional, Cisneros, Stephen, additional, Claver, Chuck, additional, Constanzo, Julio, additional, Corvetto, Giovanni, additional, Drass, Holger, additional, Economou, Frossie, additional, Dennihy, Erik, additional, Eisner, Alan, additional, Fabrega, Juan, additional, Fausti Neto, Angelo, additional, Fisher-Levine, Merlin, additional, Gonzalez, Ivan, additional, Harris, Ronald, additional, Hascall, Diane, additional, Haupt, Justine, additional, Hoblitt, Josh, additional, Howard, James, additional, Huffer, Mike, additional, Jenness, Tim, additional, Jiménez Mejías, David, additional, Johnson, Brian, additional, Johnson, Tony, additional, Krughoff, K. Simon, additional, Lage, Craig, additional, Lange, Travis, additional, Liang, Ming, additional, Lopez, Juan, additional, Lopez, Margaux, additional, Lupton, Robert, additional, Maulen, Guido, additional, Menanteau, Felipe, additional, Mills, Neill, additional, Morris, Glenn, additional, Munoz, Freddy, additional, Neal, Homer, additional, Neill, Douglas R., additional, Newbry, Scott, additional, Nomerotski, Andrei, additional, Onoprienko, Dmitry, additional, Ordenes, Ian, additional, Orellana, Juan, additional, Osier, Shawn, additional, Park, HyeYun, additional, Pietrowicz, Stephen, additional, Plazas Malagón, Andrés Alejandro, additional, Poczulp, Gary, additional, Qiu, Brian, additional, Quint, Bruno, additional, Reinking, Heinrich, additional, Reuter, Michael, additional, Ribeiro, Tiago, additional, Rojas, Rodrigo, additional, Romero, Sandra, additional, Schindler, Rafe, additional, Schoening, Bill, additional, Sebag, Jacques, additional, Shugart, Alysha, additional, Silva, Cristian, additional, Sotuela, Ioana, additional, Tache, Anthony, additional, Tapia, Diego, additional, Thayer, John G., additional, Thomas, Sandrine, additional, Tighe, Roberto, additional, Tsai, Tei-Wei, additional, Turri, Max, additional, Tyson, Anthony, additional, Vergara, Luis, additional, Walter, Christopher, additional, Wiecha, Oliver, additional, and Xiong, Van, additional

Published

2022

24. Rubin Observatory Commissioning Camera: summit integration

Author

Evans, Christopher J., Bryant, Julia J., Motohara, Kentaro, Stalder, Brian, Reil, Kevin, Aguilar, Christian, Araya, Claudio, Borstad, Anthony, Bowdish, Boyd, Cho, Myung, Cisneros, Stephen, Claver, Chuck, Constanzo, Julio, Corvetto, Giovanni, Drass, Holger, Economou, Frossie, Dennihy, Erik, Eisner, Alan, Fabrega, Juan, Fausti Neto, Angelo, Fisher-Levine, Merlin, Gonzalez, Ivan, Harris, Ronald, Hascall, Diane, Haupt, Justine, Hoblitt, Josh, Howard, James, Huffer, Mike, Jenness, Tim, Jiménez Mejías, David, Johnson, Brian, Johnson, Tony, Krughoff, K. Simon, Lage, Craig, Lange, Travis, Liang, Ming, Lopez, Juan, Lopez, Margaux, Lupton, Robert, Maulen, Guido, Menanteau, Felipe, Mills, Neill, Morris, Glenn R., Munoz, Freddy, Neal, Homer, Neill, Douglas R., Newbry, Scott, Nomerotski, Andrei, Onoprienko, Dmitry, Ordenes, Ian, Orellana, Juan, Osier, Shawn, Park, HyeYun, Pietrowicz, Steve, Plazas, Andres, Poczulp, Gary, Qiu, Brian, Quint, Bruno, Reinking, Heinrich, Reuter, Michael, Ribeiro, Tiago, Rojas, Rodrigo, Romero, Sandra, Schindler, Rafe, Schoening, Bill, Sebag, Jacques, Shugart, Alysha, Silva, Cristian, Sotuela, Ioana, Tache, Anthony, Tapia, Diego, Thayer, John G., Thomas, Sandrine, Tighe, Roberto, Tsai, Tei-Wei, Turri, Max, Tyson, Tony, Vergara, Luis, Walter, Christopher, Wiecha, Oliver, and Xiong, Van

Published

2022

25. Faro: a framework for measuring the scientific performance of petascale Rubin Observatory data products

Author

Ibsen, Jorge, Chiozzi, Gianluca, Guy, Leanne P., Bechtol, Keith, Carlin, Jeffrey L., Dennihy, Erik, Ferguson, Peter S., Krughoff, K. Simon, Lupton, Robert H., Slater, Colin T., Findeisen, Krzysztof, Kannawadi, Arun, Kelvin, Lee S., Lust, Nate B., MacArthur, Lauren A., Martinez, Michael N., Reed, Sophie L., Taranu, Dan S., and Wood-Vasey, W. Michael

Published

2022

26. Why Is The LSST Science Platform Built on Kubernetes?

Author

Banek, Christine, Thornton, Adam, Economou, Frossie, Fausti, Angelo, Krughoff, K. Simon, and Sick, Jonathan

Published

2020

27. A prototype architecture for alert stream processing at LSST scale

Author

Patterson, Maria, Bellm, Eric, Connolly, Andrew, Krughoff, K. Simon, and Slater, Colin

Subjects

lsst, ztf, streaming data

Abstract

The Large Synoptic Survey Telescope (LSST) plans to produce a live stream of its detections of transient astronomical events within 60 seconds of observation at an expected rate of about 10,000 alerts per visit and 10 million per night. Complementary observations of astronomical objects by different types of telescopes and instruments at a range of wavelengths is essential for our understanding of these astrophysical phenomena. Traditionally, a major limiting factor in transient science has been the lack of complementary observations of transient events given the timescale of distribution of alert information from the initial detection of an object by one telescope to another telescope relative to the short duration of the event. The use of distribution mechanisms such as the online Astronomer’s Telegram (ATel) and services relaying Virtual Observatory Event (VOEvent) messages have significantly alleviated the dissemination bottleneck, but in the LSST big data era, the bottleneck to discovery will likely shift from distribution to the ability to quickly isolate and prioritize detections of interest amid the flood of alert events. Real-time processing capabilities for automated filtering and analysis of these alerts and subsequent integration capabilities with distribution mechanisms is critical for enabling fast follow-up action and observations of time sensitive astronomical activity. For LSST Project internal pipeline needs, we are prototyping a modular system for alert stream distribution and also processing (filtering) using existing open source technologies specifically for streaming data. This system is also planned to be adapted for use for the upcoming Zwicky Transient Facility (ZTF) survey. The technologies used in this system provide a number of advantages for the LSST use case, including 1) built-in replication, scalability, and stream “rewind” for the distribution mechanism, 2) structured messages with strictly enforced schemas and dynamic typing for fast parsing, and 3) a stream processing interface that is similar to batch for a familiar and user-friendly plug-in filter system, all in a modular, primarily containerized system. In this presentation, we will discuss this internal alert distribution and processing prototype system, the design motivations around the technology choices for the framework, and how this system may be generally suitable for other alert stream use cases.

Published

2017

28. LSST: From Science Drivers to Reference Design and Anticipated Data Products

Author

Ivezić, Željko, primary, Kahn, Steven M., additional, Tyson, J. Anthony, additional, Abel, Bob, additional, Acosta, Emily, additional, Allsman, Robyn, additional, Alonso, David, additional, AlSayyad, Yusra, additional, Anderson, Scott F., additional, Andrew, John, additional, P. Angel, James Roger, additional, Angeli, George Z., additional, Ansari, Reza, additional, Antilogus, Pierre, additional, Araujo, Constanza, additional, Armstrong, Robert, additional, Arndt, Kirk T., additional, Astier, Pierre, additional, Aubourg, Éric, additional, Auza, Nicole, additional, Axelrod, Tim S., additional, Bard, Deborah J., additional, Barr, Jeff D., additional, Barrau, Aurelian, additional, Bartlett, James G., additional, Bauer, Amanda E., additional, Bauman, Brian J., additional, Baumont, Sylvain, additional, Bechtol, Ellen, additional, Bechtol, Keith, additional, Becker, Andrew C., additional, Becla, Jacek, additional, Beldica, Cristina, additional, Bellavia, Steve, additional, Bianco, Federica B., additional, Biswas, Rahul, additional, Blanc, Guillaume, additional, Blazek, Jonathan, additional, Blandford, Roger D., additional, Bloom, Josh S., additional, Bogart, Joanne, additional, Bond, Tim W., additional, Booth, Michael T., additional, Borgland, Anders W., additional, Borne, Kirk, additional, Bosch, James F., additional, Boutigny, Dominique, additional, Brackett, Craig A., additional, Bradshaw, Andrew, additional, Brandt, William Nielsen, additional, Brown, Michael E., additional, Bullock, James S., additional, Burchat, Patricia, additional, Burke, David L., additional, Cagnoli, Gianpietro, additional, Calabrese, Daniel, additional, Callahan, Shawn, additional, Callen, Alice L., additional, Carlin, Jeffrey L., additional, Carlson, Erin L., additional, Chandrasekharan, Srinivasan, additional, Charles-Emerson, Glenaver, additional, Chesley, Steve, additional, Cheu, Elliott C., additional, Chiang, Hsin-Fang, additional, Chiang, James, additional, Chirino, Carol, additional, Chow, Derek, additional, Ciardi, David R., additional, Claver, Charles F., additional, Cohen-Tanugi, Johann, additional, Cockrum, Joseph J., additional, Coles, Rebecca, additional, Connolly, Andrew J., additional, Cook, Kem H., additional, Cooray, Asantha, additional, Covey, Kevin R., additional, Cribbs, Chris, additional, Cui, Wei, additional, Cutri, Roc, additional, Daly, Philip N., additional, Daniel, Scott F., additional, Daruich, Felipe, additional, Daubard, Guillaume, additional, Daues, Greg, additional, Dawson, William, additional, Delgado, Francisco, additional, Dellapenna, Alfred, additional, Peyster, Robert de, additional, Val-Borro, Miguel de, additional, Digel, Seth W., additional, Doherty, Peter, additional, Dubois, Richard, additional, Dubois-Felsmann, Gregory P., additional, Durech, Josef, additional, Economou, Frossie, additional, Eifler, Tim, additional, Eracleous, Michael, additional, Emmons, Benjamin L., additional, Neto, Angelo Fausti, additional, Ferguson, Henry, additional, Figueroa, Enrique, additional, Fisher-Levine, Merlin, additional, Focke, Warren, additional, Foss, Michael D., additional, Frank, James, additional, Freemon, Michael D., additional, Gangler, Emmanuel, additional, Gawiser, Eric, additional, Geary, John C., additional, Gee, Perry, additional, Geha, Marla, additional, Gessner, Charles J. B., additional, Gibson, Robert R., additional, Gilmore, D. Kirk, additional, Glanzman, Thomas, additional, Glick, William, additional, Goldina, Tatiana, additional, Goldstein, Daniel A., additional, Goodenow, Iain, additional, Graham, Melissa L., additional, Gressler, William J., additional, Gris, Philippe, additional, Guy, Leanne P., additional, Guyonnet, Augustin, additional, Haller, Gunther, additional, Harris, Ron, additional, Hascall, Patrick A., additional, Haupt, Justine, additional, Hernandez, Fabio, additional, Herrmann, Sven, additional, Hileman, Edward, additional, Hoblitt, Joshua, additional, Hodgson, John A., additional, Hogan, Craig, additional, Howard, James D., additional, Huang, Dajun, additional, Huffer, Michael E., additional, Ingraham, Patrick, additional, Innes, Walter R., additional, Jacoby, Suzanne H., additional, Jain, Bhuvnesh, additional, Jammes, Fabrice, additional, Jee, James, additional, Jenness, Tim, additional, Jernigan, Garrett, additional, Jevremović, Darko, additional, Johns, Kenneth, additional, Johnson, Anthony S., additional, Johnson, Margaret W. G., additional, Jones, R. Lynne, additional, Juramy-Gilles, Claire, additional, Jurić, Mario, additional, Kalirai, Jason S., additional, Kallivayalil, Nitya J., additional, Kalmbach, Bryce, additional, Kantor, Jeffrey P., additional, Karst, Pierre, additional, Kasliwal, Mansi M., additional, Kelly, Heather, additional, Kessler, Richard, additional, Kinnison, Veronica, additional, Kirkby, David, additional, Knox, Lloyd, additional, Kotov, Ivan V., additional, Krabbendam, Victor L., additional, Krughoff, K. Simon, additional, Kubánek, Petr, additional, Kuczewski, John, additional, Kulkarni, Shri, additional, Ku, John, additional, Kurita, Nadine R., additional, Lage, Craig S., additional, Lambert, Ron, additional, Lange, Travis, additional, Langton, J. Brian, additional, Guillou, Laurent Le, additional, Levine, Deborah, additional, Liang, Ming, additional, Lim, Kian-Tat, additional, Lintott, Chris J., additional, Long, Kevin E., additional, Lopez, Margaux, additional, Lotz, Paul J., additional, Lupton, Robert H., additional, Lust, Nate B., additional, MacArthur, Lauren A., additional, Mahabal, Ashish, additional, Mandelbaum, Rachel, additional, Markiewicz, Thomas W., additional, Marsh, Darren S., additional, Marshall, Philip J., additional, Marshall, Stuart, additional, May, Morgan, additional, McKercher, Robert, additional, McQueen, Michelle, additional, Meyers, Joshua, additional, Migliore, Myriam, additional, Miller, Michelle, additional, Mills, David J., additional, Miraval, Connor, additional, Moeyens, Joachim, additional, Moolekamp, Fred E., additional, Monet, David G., additional, Moniez, Marc, additional, Monkewitz, Serge, additional, Montgomery, Christopher, additional, Morrison, Christopher B., additional, Mueller, Fritz, additional, Muller, Gary P., additional, Arancibia, Freddy Muñoz, additional, Neill, Douglas R., additional, Newbry, Scott P., additional, Nief, Jean-Yves, additional, Nomerotski, Andrei, additional, Nordby, Martin, additional, O’Connor, Paul, additional, Oliver, John, additional, Olivier, Scot S., additional, Olsen, Knut, additional, O’Mullane, William, additional, Ortiz, Sandra, additional, Osier, Shawn, additional, Owen, Russell E., additional, Pain, Reynald, additional, Palecek, Paul E., additional, Parejko, John K., additional, Parsons, James B., additional, Pease, Nathan M., additional, Peterson, J. Matt, additional, Peterson, John R., additional, Petravick, Donald L., additional, Petrick, M. E. Libby, additional, Petry, Cathy E., additional, Pierfederici, Francesco, additional, Pietrowicz, Stephen, additional, Pike, Rob, additional, Pinto, Philip A., additional, Plante, Raymond, additional, Plate, Stephen, additional, Plutchak, Joel P., additional, Price, Paul A., additional, Prouza, Michael, additional, Radeka, Veljko, additional, Rajagopal, Jayadev, additional, Rasmussen, Andrew P., additional, Regnault, Nicolas, additional, Reil, Kevin A., additional, Reiss, David J., additional, Reuter, Michael A., additional, Ridgway, Stephen T., additional, Riot, Vincent J., additional, Ritz, Steve, additional, Robinson, Sean, additional, Roby, William, additional, Roodman, Aaron, additional, Rosing, Wayne, additional, Roucelle, Cecille, additional, Rumore, Matthew R., additional, Russo, Stefano, additional, Saha, Abhijit, additional, Sassolas, Benoit, additional, Schalk, Terry L., additional, Schellart, Pim, additional, Schindler, Rafe H., additional, Schmidt, Samuel, additional, Schneider, Donald P., additional, Schneider, Michael D., additional, Schoening, William, additional, Schumacher, German, additional, Schwamb, Megan E., additional, Sebag, Jacques, additional, Selvy, Brian, additional, Sembroski, Glenn H., additional, Seppala, Lynn G., additional, Serio, Andrew, additional, Serrano, Eduardo, additional, Shaw, Richard A., additional, Shipsey, Ian, additional, Sick, Jonathan, additional, Silvestri, Nicole, additional, Slater, Colin T., additional, Smith, J. Allyn, additional, Smith, R. Chris, additional, Sobhani, Shahram, additional, Soldahl, Christine, additional, Storrie-Lombardi, Lisa, additional, Stover, Edward, additional, Strauss, Michael A., additional, Street, Rachel A., additional, Stubbs, Christopher W., additional, Sullivan, Ian S., additional, Sweeney, Donald, additional, Swinbank, John D., additional, Szalay, Alexander, additional, Takacs, Peter, additional, Tether, Stephen A., additional, Thaler, Jon J., additional, Thayer, John Gregg, additional, Thomas, Sandrine, additional, Thornton, Adam J., additional, Thukral, Vaikunth, additional, Tice, Jeffrey, additional, Trilling, David E., additional, Turri, Max, additional, Berg, Richard Van, additional, Berk, Daniel Vanden, additional, Vetter, Kurt, additional, Virieux, Francoise, additional, Vucina, Tomislav, additional, Wahl, William, additional, Walkowicz, Lucianne, additional, Walsh, Brian, additional, Walter, Christopher W., additional, Wang, Daniel L., additional, Wang, Shin-Yawn, additional, Warner, Michael, additional, Wiecha, Oliver, additional, Willman, Beth, additional, Winters, Scott E., additional, Wittman, David, additional, Wolff, Sidney C., additional, Wood-Vasey, W. Michael, additional, Wu, Xiuqin, additional, Xin, Bo, additional, Yoachim, Peter, additional, and Zhan, Hu, additional

Published

2019

29. LSST data management software development practices and tools

Author

Jenness, Timothy, primary, Economou, Frossie, primary, O'Mullane, William, primary, Lim, K-T, primary, Hoblitt, Joshua C., primary, Sick, Jonathan, primary, Thornton, Adam, primary, Hernandez, Fabio, primary, Findeisen, Krzysztof, primary, Pietrowicz, Stephen R., primary, Schellart, Pim, primary, Owen, Russell, primary, Krughoff, K. Simon, primary, Lupton, Robert H., primary, Bosch, James, primary, Mueller, Fritz, primary, Swinbank, John, primary, Kantor, Jeffrey, primary, Parejko, John K., primary, Price, Paul, primary, and van Klaveren, Brian, primary

Published

2018

30. The Hyper Suprime-Cam software pipeline

Author

Bosch, James, primary, Armstrong, Robert, additional, Bickerton, Steven, additional, Furusawa, Hisanori, additional, Ikeda, Hiroyuki, additional, Koike, Michitaro, additional, Lupton, Robert, additional, Mineo, Sogo, additional, Price, Paul, additional, Takata, Tadafumi, additional, Tanaka, Masayuki, additional, Yasuda, Naoki, additional, AlSayyad, Yusra, additional, Becker, Andrew C, additional, Coulton, William, additional, Coupon, Jean, additional, Garmilla, Jose, additional, Huang, Song, additional, Krughoff, K Simon, additional, Lang, Dustin, additional, Leauthaud, Alexie, additional, Lim, Kian-Tat, additional, Lust, Nate B, additional, MacArthur, Lauren A, additional, Mandelbaum, Rachel, additional, Miyatake, Hironao, additional, Miyazaki, Satoshi, additional, Murata, Ryoma, additional, More, Surhud, additional, Okura, Yuki, additional, Owen, Russell, additional, Swinbank, John D, additional, Strauss, Michael A, additional, Yamada, Yoshihiko, additional, and Yamanoi, Hitomi, additional

Published

2017

31. Vera C. Rubin Observatory auxiliary telescope commissioning as a control system pathfinder

Author

Guzman, Juan C., Ibsen, Jorge, Ingraham, Patrick, Clements, Andy W., Ribeiro, Tiago, Reuter, Michael A., Fisher-Levine, Merlin, Hoblitt, Joshua, Lupton, Robert H., Thomas, Sandrine, Stubbs, Christopher W., Arndt, Kirk T., Callahan, Nick, Claver, Charles F., Colleoni, Franco, Corral, Luis, Doherty, Peter, Economou, Frossie, Fausti Neto, Angel, Jeness, Tim, Khine, Htut, Krughoff, K. Simon, Mondrik, Nicholas, Menanteau, Felipe, Mills, David J., O'Mullane, William, Reil, Kevin A., Rivera, Mario, Stalder, Brian, Sebag, Jacques, Shipsey, Ian, Tighe, Roberto, Thornton, Adam J., Villalobos, Andres, and Wiecha, Oliver

Published

2020

32. LSST Data Management Software Development Practices and Tools.

Author

Jenness, Tim, Economou, Frossie, Findeisen, Krzysztof, Hernandez, Fabio, Hoblitt, Josh, Krughoff, K. Simon, Kian-Tat Lim, Lupton, Robert H., Mueller, Fritz, O'Mullane, William, Owen, Russell, Pietrowicz, Stephen R., Schellart, Pim, Sick, Jonathan, Swinbank, John, Thornton, Adam, Bosch, James, Kantor, Jeffrey, Parejko, John K., and Price, Paul

Published

2018

33. Image Differencing for LSST

Author

Krughoff, K. Simon

Subjects

LSST, Astronomy, Algorithms

Abstract

An overview of the image differencing approach being developed for the Large Synoptic Survey Telescope.

Published

2014

34. Investigating interoperability of the LSST Data Management software stack with Astropy

Author

Chiozzi, Gianluca, Guzman, Juan C., Jenness, Tim, Bosch, James, Owen, Russell, Parejko, John, Sick, Jonathan, Swinbank, John, de Val-Borro, Miguel, Dubois-Felsmann, Gregory, Lim, K. T., Lupton, Robert H., Schellart, Pim, Krughoff, K. Simon, Tollerud, Erik J., Chiozzi, Gianluca, Guzman, Juan C., Jenness, Tim, Bosch, James, Owen, Russell, Parejko, John, Sick, Jonathan, Swinbank, John, de Val-Borro, Miguel, Dubois-Felsmann, Gregory, Lim, K. T., Lupton, Robert H., Schellart, Pim, Krughoff, K. Simon, and Tollerud, Erik J.

Abstract

The Large Synoptic Survey Telescope (LSST) will be an 8.4m optical survey telescope sited in Chile and capable of imaging the entire sky twice a week. The data rate of approximately 15TB per night and the requirements to both issue alerts on transient sources within 60 seconds of observing and create annual data releases means that automated data management systems and data processing pipelines are a key deliverable of the LSST construction project. The LSST data management software has been in development since 2004 and is based on a C++ core with a Python control layer. The software consists of nearly a quarter of a million lines of code covering the system from fundamental WCS and table libraries to pipeline environments and distributed process execution. The Astropy project began in 2011 as an attempt to bring together disparate open source Python projects and build a core standard infrastructure that can be used and built upon by the astronomy community. This project has been phenomenally successful in the years since it has begun and has grown to be the de facto standard for Python software in astronomy. Astropy brings with it considerable expectations from the community on how astronomy Python software should be developed and it is clear that by the time LSST is fully operational in the 2020s many of the prospective users of the LSST software stack will expect it to be fully interoperable with Astropy. In this paper we describe the overlap between the LSST science pipeline software and Astropy software and investigate areas where the LSST software provides new functionality. We also discuss the possibilities of re-engineering the LSST science pipeline software to build upon Astropy, including the option of contributing affliated packages.

Published

2016

35. Agile software development in an earned value world: a survival guide

Author

Angeli, George Z., Dierickx, Philippe, Kantor, Jeffrey, Long, Kevin, Becla, Jacek, Economou, Frossie, Gelman, Margaret, Juric, Mario, Lambert, Ron, Krughoff, K. Simon, Swinbank, John D., Wu, Xiuqin, Angeli, George Z., Dierickx, Philippe, Kantor, Jeffrey, Long, Kevin, Becla, Jacek, Economou, Frossie, Gelman, Margaret, Juric, Mario, Lambert, Ron, Krughoff, K. Simon, Swinbank, John D., and Wu, Xiuqin

Abstract

Agile methodologies are current best practice in software development. They are favored for, among other reasons, preventing premature optimization by taking a somewhat short-term focus, and allowing frequent replans/reprioritizations of upcoming development work based on recent results and current backlog. At the same time, funding agencies prescribe earned value management accounting for large projects which, these days, inevitably include substantial software components. Earned Value approaches emphasize a more comprehensive and typically longer-range plan, and tend to characterize frequent replans and reprioritizations as indicative of problems. Here we describe the planning, execution and reporting framework used by the LSST Data Management team, that navigates these opposite tensions.

Published

2016

36. The Hyper Suprime-Cam software pipeline.

Author

BOSCH, James, ARMSTRONG, Robert, BICKERTON, Steven, Hisanori FURUSAWA, Hiroyuki IKEDA, Michitaro KOIKE, LUPTON, Robert, Sogo MINEO, Paul PRICE, Tadafumi TAKATA, Masayuki TANAKA, Naoki YASUDA, Yusra ALSAYYAD, BECKER, Andrew C., William COULTON, Jean COUPON, GARMILLA, Jose, Song HUANG, KRUGHOFF, K. Simon, and Dustin LANG

Subjects

IMAGING systems in astronomy, OPTICAL imaging sensors, ASTRONOMICAL surveys, ASTRONOMY, TELESCOPES

Abstract

In this paper, we describe the optical imaging data processing pipeline developed for the Subaru Telescope's Hyper Suprime-Cam (HSC) instrument. The HSC Pipeline builds on the prototype pipeline being developed by the Large Synoptic Survey Telescope's Data Management system, adding customizations for HSC, large-scale processing capabilities, and novel algorithms that have since been reincorporated into the LSST codebase. While designed primarily to reduce HSC Subaru Strategic Program (SSP) data, it is also the recommended pipeline for reducing general-observer HSC data. The HSC pipeline includes high level processing steps that generate coadded images and science-ready catalogs as well as low-level detrending and image characterizations. [ABSTRACT FROM AUTHOR]

Published

2018

37. Improving the LSST dithering pattern and cadence for dark energy studies

Author

Carroll, Christopher M., additional, Gawiser, Eric, additional, Kurczynski, Peter L., additional, Bailey, Rachel A., additional, Biswas, Rahul, additional, Cinabro, David, additional, Jha, Saurabh W., additional, Jones, R. Lynne, additional, Krughoff, K. Simon, additional, Sonawalla, Aneesa, additional, and Wood-Vasey, W. Michael, additional

Published

2014

38. An end-to-end simulation framework for the Large Synoptic Survey Telescope

Author

Connolly, Andrew J., additional, Angeli, George Z., additional, Chandrasekharan, Srinivasan, additional, Claver, Charles F., additional, Cook, Kem, additional, Ivezic, Zeljko, additional, Jones, R. Lynne, additional, Krughoff, K. Simon, additional, Peng, En-Hsin, additional, Peterson, John, additional, Petry, Catherine, additional, Rasmussen, Andrew P., additional, Ridgway, Stephen T., additional, Saha, Abhijit, additional, Sembroski, Glenn, additional, vanderPlas, Jacob, additional, and Yoachim, Peter, additional

Published

2014

39. White Dwarf Pulsations in LSST.

Author

Bell, Keaton J., Claver, Chuck F., Krughoff, K. Simon, Montgomery, M. H., Mukadam, Anjum S., and Winget, D. E.

Published

2015

40. Measuring the effectiveness of simulated LSST observing programs

Author

Ridgway, Stephen T., primary, Chandrasekharan, Srinivasan, additional, Cook, Kem H., additional, Jones, R. Lynne, additional, Krughoff, K. Simon, additional, Petry, Catherine, additional, and Ivezić, Željko, additional

Published

2012

41. SIMULATED LSST SURVEY OF RR LYRAE STARS THROUGHOUT THE LOCAL GROUP

Author

Oluseyi, Hakeem M., primary, Becker, Andrew C., additional, Culliton, Christopher, additional, Furqan, Muhammad, additional, Hoadley, Keri L., additional, Regencia, Paul, additional, Wells, Akeem J., additional, Ivezic˘, Željko, additional, Jones, R. Lynne, additional, Krughoff, K. Simon, additional, Sesar, Branimir, additional, Jacoby, Suzanne, additional, and Allison, Idatonye J., additional

Published

2012

42. SPECTROSCOPIC DETERMINATION OF THE LOW-REDSHIFT TYPE Ia SUPERNOVA RATE FROM THE SLOAN DIGITAL SKY SURVEY

Author

Krughoff, K. Simon, primary, Connolly, Andrew J., additional, Frieman, Joshua, additional, SubbaRao, Mark, additional, Kilper, Gary, additional, and Schneider, Donald P., additional

Published

2011

43. The MX Northern Abell Cluster Survey II: The Abell/ACO Cluster Redshifts and Spatial Analyses

Author

Miller, Christopher J., primary, Krughoff, K. Simon, additional, Batuski, David J., additional, and Hill, John M., additional

Published

2002

44. Intercluster filaments in aΛCDM Universe.

Author

Colberg, Jörg M., Krughoff, K. Simon, and Connolly, Andrew J.

Subjects

DARK matter, GALAXY clusters, METAPHYSICAL cosmology, INTERSTELLAR medium, EXPANDING universe, ASTRONOMY

Abstract

The large-scale structure (LSS) in the Universe comprises a complicated filamentary network of matter. We study this network using a high-resolution simulation of structure formation in aΛ Cold Dark Matter cosmology. We investigate the distribution of matter between neighbouring large haloes whose masses are comparable to massive clusters of galaxies. We identify a total of 228 filaments between neighbouring clusters. Roughly half of the filaments are either warped or lie off the cluster–cluster axis. We find that straight filaments, on the average, are shorter than warped ones. Close cluster pairs with separation ofor less are always connected by a filament. At separations between 15 and 20h−1 Mpc, about a third of cluster pairs are connected by a filament. On average, more-massive clusters are connected to more filaments than less-massive ones. This finding indicates that the most-massive clusters form at the intersections of the filamentary backbone of LSS. For straight filaments, we compute mass profiles. Radial profiles show a fairly well-defined radius,rs, beyond which the profiles follow anr−2 power law fairly closely. For the majority of filaments,rs lies between 1.5 and 2.0h−1 Mpc. The enclosed overdensity insiders varies from a few times up to 25 times the mean density, independent of the length of the filament. Along the filaments' axes, material is not distributed uniformly. Towards the clusters, the density rises, indicating the presence of the cluster infall regions. Filaments have been suggested to cause possible alignments between neighbouring clusters. Looking at the nearest neighbour for each cluster, we find that, up to a separation of about 15h−1 Mpc, there is a filament present that could account for alignment. In addition, we also find some sheet-like connections between clusters. In roughly a fifth of all cluster–cluster connections where we could not identify a filament or sheet, projection effects lead to filamentary structures in the projected mass distribution. [ABSTRACT FROM AUTHOR]

Published

2005

45. Improving the LSST dithering pattern and cadence for dark energy studies

Author

Peck, Alison B., Benn, Chris R., Seaman, Robert L., Carroll, Christopher M., Gawiser, Eric, Kurczynski, Peter L., Bailey, Rachel A., Biswas, Rahul, Cinabro, David, Jha, Saurabh W., Jones, R. Lynne, Krughoff, K. Simon, Sonawalla, Aneesa, and Wood-Vasey, W. Michael

Published

2014

46. The LSST Data Management System

Author

Jurić, Mario, Kantor, Jeffrey, Lim, K-T, Lupton, Robert H., Dubois-Felsmann, Gregory, Jenness, Tim, Axelrod, Tim S., Aleksić, Jovan, Allsman, Roberta A., Alsayyad, Yusra, Alt, Jason, Armstrong, Robert, Basney, Jim, Becker, Andrew C., Becla, Jacek, Bickerton, Steven J., Biswas, Rahul, Bosch, James, Boutigny, Dominique, Matias Carrasco Kind, Ciardi, David R., Connolly, Andrew J., Daniel, Scott F., Daues, Gregory E., Economou, Frossie, Chiang, Hsin-Fang, Fausti, Angelo, Fisher-Levine, Merlin, Freemon, D. Michael, Gee, Perry, Gris, Philippe, Hernandez, Fabio, Hoblitt, Joshua, Ivezić, Željko, Jammes, Fabrice, Jevremović, Darko, Jones, R. Lynne, Bryce Kalmbach, J., Kasliwal, Vishal P., Krughoff, K. Simon, Lang, Dustin, Lurie, John, Lust, Nate B., Mullally, Fergal, Macarthur, Lauren A., Melchior, Peter, Moeyens, Joachim, Nidever, David L., Owen, Russell, Parejko, John K., Peterson, J. Matt, Petravick, Donald, Pietrowicz, Stephen R., Price, Paul A., Reiss, David J., Shaw, Richard A., Sick, Jonathan, Slater, Colin T., Strauss, Michael A., Sullivan, Ian S., Swinbank, John D., Dyk, Schuyler, Vujčić, Veljko, Withers, Alexander, Yoachim, Peter, and Lsst Project, For The

47. LSST Science Book, Version 2.0

Author

Lsst, Science Collaboration, Abell, Paul A., Allison, Julius, Anderson, Scott F., Andrew, John R., Angel, J. Roger P., Armus, Lee, Arnett, David, Asztalos, S. J., Axelrod, Tim S., Bailey, Stephen, Ballantyne, D. R., Bankert, Justin R., Barkhouse, Wayne A., Barr, Jeffrey D., Barrientos, L. Felipe, Barth, Aaron J., Bartlett, James G., Becker, Andrew C., Becla, Jacek, Beers, Timothy C., Bernstein, Joseph P., Biswas, Rahul, Blanton, Michael R., Bloom, Joshua S., Bochanski, John J., Boeshaar, Pat, Borne, Kirk D., Bradac, Marusa, Brandt, W. N., Bridge, Carrie R., Brown, Michael E., Brunner, Robert J., Bullock, James S., Burgasser, Adam J., Burge, James H., Burke, David L., Cargile, Phillip A., Chandrasekharan, Srinivasan, Chartas, George, Chesley, Steven R., Chu, You-Hua, Cinabro, David, Claire, Mark W., Claver, Charles F., Clowe, Douglas, Connolly, A. J., Cook, Kem H., Cooke, Jeff, Cooray, Asantha, Covey, Kevin R., Culliton, Christopher S., Jong, Roelof, Vries, Willem H., Debattista, Victor P., Delgado, Francisco, Antonio, Ian P., Dhital, Saurav, Di Stefano, Rosanne, Dickinson, Mark, Dilday, Benjamin, Djorgovski, S. G., Dobler, Gregory, Donalek, Ciro, Dubois-Felsmann, Gregory, Durech, Josef, Eliasdottir, Ardis, Eracleous, Michael, Eyer, Laurent, Falco, Emilio E., Fan, Xiaohui, Fassnacht, Christopher D., Ferguson, Harry C., Fernandez, Yanga R., Fields, Brian D., Finkbeiner, Douglas, Figueroa, Eduardo E., Fox, Derek B., Francke, Harold, Frank, James S., Frieman, Josh, Fromenteau, Sebastien, Furqan, Muhammad, Galaz, Gaspar, Gal-Yam, A., Garnavich, Peter, Gawiser, Eric, Geary, John, Gee, Perry, Gibson, Robert R., Gilmore, Kirk, Grace, Emily A., Green, Richard F., Gressler, William J., Grillmair, Carl J., Habib, Salman, Haggerty, J. S., Hamuy, Mario, Harris, Alan W., Hawley, Suzanne L., Heavens, Alan F., Hebb, Leslie, Henry, Todd J., Hileman, Edward, Hilton, Eric J., Hoadley, Keri, Holberg, J. B., Holman, Matt J., Howell, Steve B., Infante, Leopoldo, Ivezic, Zeljko, Jacoby, Suzanne H., Jain, Bhuvnesh, R, Jedicke, Jee, M. James, Garrett Jernigan, J., Jha, Saurabh W., Johnston, Kathryn V., Jones, R. Lynne, Juric, Mario, Kaasalainen, Mikko, Styliani, Kafka, Kahn, Steven M., Kaib, Nathan A., Kalirai, Jason, Kantor, Jeff, Kasliwal, Mansi M., Keeton, Charles R., Kessler, Richard, Knezevic, Zoran, Kowalski, Adam, Krabbendam, Victor L., Krughoff, K. Simon, Kulkarni, Shrinivas, Kuhlman, Stephen, Lacy, Mark, Lepine, Sebastien, Liang, Ming, Lien, Amy, Lira, Paulina, Long, Knox S., Lorenz, Suzanne, Lotz, Jennifer M., Lupton, R. H., Lutz, Julie, Macri, Lucas M., Mahabal, Ashish A., Mandelbaum, Rachel, Marshall, Phil, May, Morgan, Mcgehee, Peregrine M., Meadows, Brian T., Meert, Alan, Milani, Andrea, Miller, Christopher J., Miller, Michelle, Mills, David, Minniti, Dante, Monet, David, Mukadam, Anjum S., Nakar, Ehud, Neill, Douglas R., Newman, Jeffrey A., Nikolaev, Sergei, Nordby, Martin, O Connor, Paul, Oguri, Masamune, Oliver, John, Olivier, Scot S., Olsen, Julia K., Olsen, Knut, Olszewski, Edward W., Oluseyi, Hakeem, Padilla, Nelson D., Parker, Alex, Pepper, Joshua, Peterson, John R., Petry, Catherine, Pinto, Philip A., Pizagno, James L., Popescu, Bogdan, Prsa, Andrej, Radcka, Veljko, Raddick, M. Jordan, Rasmussen, Andrew, Rau, Arne, Rho, Jeonghee, Rhoads, James E., Richards, Gordon T., Ridgway, Stephen T., Robertson, Brant E., Roskar, Rok, Saha, Abhijit, Sarajedini, Ata, Scannapieco, Evan, Schalk, Terry, Schindler, Rafe, Schmidt, Samuel, Schmidt, Sarah, Schneider, Donald P., Schumacher, German, Scranton, Ryan, Sebag, Jacques, Seppala, Lynn G., Ohad Shemmer, Simon, Joshua D., Sivertz, M., Smith, Howard A., Allyn Smith, J., Smith, Nathan, Spitz, Anna H., Stanford, Adam, Stassun, Keivan G., Strader, Jay, Strauss, Michael A., Stubbs, Christopher W., Sweeney, Donald W., Szalay, Alex, Szkody, Paula, Takada, Masahiro, Thorman, Paul, Trilling, David E., Trimble, Virginia, Tyson, Anthony, Berg, Richard, Vanden Berk, Daniel, Vanderplas, Jake, Verde, Licia, Vrsnak, Bojan, Walkowicz, Lucianne M., Wandelt, Benjamin D., Wang, Sheng, Wang, Yun, Warner, Michael, Wechsler, Risa H., West, Andrew A., Wiecha, Oliver, Williams, Benjamin F., Willman, Beth, Wittman, David, Wolff, Sidney C., Wood-Vasey, W. Michael, Wozniak, Przemek, Young, Patrick, Zentner, Andrew, Zhan, Hu, APC - Cosmologie, AstroParticule et Cosmologie (APC (UMR_7164)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), LSST, Bartlett, James, Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Physique Corpusculaire et Cosmologie - Collège de France (PCC), Collège de France (CdF)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Collège de France (CdF)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-AstroParticule et Cosmologie (APC (UMR_7164)), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Observatoire de Paris, PSL Research University (PSL)-PSL Research University (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Observatoire de Paris, and PSL Research University (PSL)-PSL Research University (PSL)-Université Paris Diderot - Paris 7 (UPD7)

Subjects

Active galactic nucleus, Cosmology and Nongalactic Astrophysics (astro-ph.CO), [SDU.ASTR.CO]Sciences of the Universe [physics]/Astrophysics [astro-ph]/Cosmology and Extra-Galactic Astrophysics [astro-ph.CO], media_common.quotation_subject, Milky Way, FOS: Physical sciences, Large Synoptic Survey Telescope, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics, 01 natural sciences, [PHYS.ASTR.CO]Physics [physics]/Astrophysics [astro-ph]/Cosmology and Extra-Galactic Astrophysics [astro-ph.CO], 0103 physical sciences, Solar and Stellar Astrophysics, 010303 astronomy & astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), Weak gravitational lensing, Solar and Stellar Astrophysics (astro-ph.SR), Astrophysics::Galaxy Astrophysics, media_common, Physics, Earth and Planetary Astrophysics (astro-ph.EP), [SDU.ASTR.CO] Sciences of the Universe [physics]/Astrophysics [astro-ph]/Cosmology and Extra-Galactic Astrophysics [astro-ph.CO], 010308 nuclear & particles physics, Astrophysics::Instrumentation and Methods for Astrophysics, Astronomy, Cosmology and Extragalactic Astrophysics, Astrophysics - Astrophysics of Galaxies, Redshift, Galaxy, Astrophysics - Solar and Stellar Astrophysics, Sky, [PHYS.ASTR.CO] Physics [physics]/Astrophysics [astro-ph]/Cosmology and Extra-Galactic Astrophysics [astro-ph.CO], Astrophysics of Galaxies (astro-ph.GA), Dark energy, Instrumentation and Methods for Astrophysics, Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Galaxy Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

A survey that can cover the sky in optical bands over wide fields to faint magnitudes with a fast cadence will enable many of the exciting science opportunities of the next decade. The Large Synoptic Survey Telescope (LSST) will have an effective aperture of 6.7 meters and an imaging camera with field of view of 9.6 deg^2, and will be devoted to a ten-year imaging survey over 20,000 deg^2 south of +15 deg. Each pointing will be imaged 2000 times with fifteen second exposures in six broad bands from 0.35 to 1.1 microns, to a total point-source depth of r~27.5. The LSST Science Book describes the basic parameters of the LSST hardware, software, and observing plans. The book discusses educational and outreach opportunities, then goes on to describe a broad range of science that LSST will revolutionize: mapping the inner and outer Solar System, stellar populations in the Milky Way and nearby galaxies, the structure of the Milky Way disk and halo and other objects in the Local Volume, transient and variable objects both at low and high redshift, and the properties of normal and active galaxies at low and high redshift. It then turns to far-field cosmological topics, exploring properties of supernovae to z~1, strong and weak lensing, the large-scale distribution of galaxies and baryon oscillations, and how these different probes may be combined to constrain cosmological models and the physics of dark energy., 596 pages. Also available at full resolution at http://www.lsst.org/lsst/scibook

48. LSST data management software development practices and tools

Author

Guzman, Juan C., Ibsen, Jorge, Jenness, Tim, Economou, Frossie, Findeisen, Krzysztof, Hernandez, Fabio, Hoblitt, Josh, Krughoff, K. Simon, Lim, K-T, Lupton, Robert H., Mueller, Fritz, O'Mullane, William, Owen, Russell, Pietrowicz, Stephen R., Schellart, Pim, Sick, Jonathan, Swinbank, John, Thornton, Adam, Bosch, James, Kantor, Jeffrey, Parejko, John K., Price, Paul, and van Klaveren, Brian

Published

2018

49. An end-to-end simulation framework for the Large Synoptic Survey Telescope

Author

Angeli, George Z., Dierickx, Philippe, Connolly, Andrew J., Angeli, George Z., Chandrasekharan, Srinivasan, Claver, Charles F., Cook, Kem, Ivezic, Zeljko, Jones, R. Lynne, Krughoff, K. Simon, Peng, En-Hsin, Peterson, John, Petry, Catherine, Rasmussen, Andrew P., Ridgway, Stephen T., Saha, Abhijit, Sembroski, Glenn, vanderPlas, Jacob, and Yoachim, Peter

Published

2014