The Experts below are selected from a list of 267 Experts worldwide ranked by ideXlab platform
Farina, Emanuele Paolo - One of the best experts on this subject based on the ideXlab platform.
-
PypeIt: The Python Spectroscopic Data Reduction Pipeline
eScholarship University of California, 2020Co-Authors: Prochaska J Xavier, Hennawi, Joseph F, Westfall, Kyle B, Cooke, Ryan J, Wang Feige, Hsyu Tiffany, Davies, Frederick B, Farina, Emanuele PaoloAbstract:PypeIt is a Python package for semi-automated reduction of astronomical, spectroscopic data. Its algorithms build on decades-long development of previous data reduction pipelines by the developers (Bernstein, Burles, & Prochaska, 2015; Bochanski et al., 2009). The reduction procedure -- including a complete list of the input parameters and available functionality -- is provided as Online Documentation hosted by Read the Docs, which is regularly updated. (https://pypeit.readthedocs.io/en/latest/). Release v1.0.3 serves the following spectrographs: Gemini/GNIRS, Gemini/GMOS, Gemini/FLAMINGOS 2, Lick/Kast, Magellan/MagE, Magellan/Fire, MDM/OSMOS, Keck/DEIMOS (600ZD, 830G, 1200G), Keck/LRIS, Keck/MOSFIRE (J and Y gratings tested), Keck/NIRES, Keck/NIRSPEC (low-dispersion), LBT/Luci-I, Luci-II, LBT/MODS (beta), NOT/ALFOSC (grism4), VLT/X-Shooter (VIS, NIR), VLT/FORS2 (300I, 300V), WHT/ISIS
-
PypeIt: The Python Spectroscopic Data Reduction Pipeline
2020Co-Authors: Prochaska J Xavier, Hennawi, Joseph F, Westfall, Kyle B, Cooke, Ryan J, Wang Feige, Hsyu Tiffany, Davies, Frederick B, Farina, Emanuele PaoloAbstract:PypeIt is a Python package for semi-automated reduction of astronomical, spectroscopic data. Its algorithms build on decades-long development of previous data reduction pipelines by the developers (Bernstein, Burles, & Prochaska, 2015; Bochanski et al., 2009). The reduction procedure -- including a complete list of the input parameters and available functionality -- is provided as Online Documentation hosted by Read the Docs, which is regularly updated. (https://pypeit.readthedocs.io/en/latest/). Release v1.0.3 serves the following spectrographs: Gemini/GNIRS, Gemini/GMOS, Gemini/FLAMINGOS 2, Lick/Kast, Magellan/MagE, Magellan/Fire, MDM/OSMOS, Keck/DEIMOS (600ZD, 830G, 1200G), Keck/LRIS, Keck/MOSFIRE (J and Y gratings tested), Keck/NIRES, Keck/NIRSPEC (low-dispersion), LBT/Luci-I, Luci-II, LBT/MODS (beta), NOT/ALFOSC (grism4), VLT/X-Shooter (VIS, NIR), VLT/FORS2 (300I, 300V), WHT/ISIS.Comment: To be submitted to JOSS (once they return to accepting submissions). Find PypeIt at: https://github.com/pypeit/PypeI
Ori Pomerantz - One of the best experts on this subject based on the ideXlab platform.
-
the linux kernel module programming guide
2000Co-Authors: Ori PomerantzAbstract:From the Publisher: So, you want to write a kernel module. You know C, you've written a number of normal programs to run as processes, and now you want to get to where the real action is, to where a single wild pointer can wipe out your file system and a core dump means a reboot. Welcome to the club. Linux Kernel Module Programming Guide is for people who want to write kernel modules. It takes a hands-on approach starting with writing a small "hello, world" program, and quickly moves from there. Far from a boring text on programming, Linux Kernel Module Programming Guide has a lively style that entertains while it educates. Linux Kernel Module Programming Guide is one of the key documents of the Linux Documentation Project, an Online compilation of freely distributed manuals and how-to guides on the popular Linux operating system. This book is a printed version of the Online Documentation, and is provided as a convenience for those who prefer printed manuals. iUniverse.com Computer Books are composed of freely available Online computer manuals, industry standard specifications, and electronically distributed computer-programming guides. They include open documents' collections of industry specifications and standards and a collection of the best open source Documentation on the Web...the most complete open source library available anywhere. Each book contains the complete, unabridged text of the original document. The on-demand publishing process gives you the actual text of the Online document in a convenient, inexpensive, easy-to-use format. And remember...iUniverse.com donates a portion of the profits from open document and open source books to support the mission of the free software community.
-
linux kernel module programming guide
2000Co-Authors: Ori PomerantzAbstract:From the Publisher: So, you want to write a kernel module. You know C, you've written a number of normal programs to run as processes, and now you want to get to where the real action is, to where a single wild pointer can wipe out your file system and a core dump means a reboot. Welcome to the club. Linux Kernel Module Programming Guide is for people who want to write kernel modules. It takes a hands-on approach starting with writing a small "hello, world" program, and quickly moves from there. Far from a boring text on programming, Linux Kernel Module Programming Guide has a lively style that entertains while it educates. Linux Kernel Module Programming Guide is one of the key documents of the Linux Documentation Project, an Online compilation of freely distributed manuals and how-to guides on the popular Linux operating system. This book is a printed version of the Online Documentation, and is provided as a convenience for those who prefer printed manuals. iUniverse.com Computer Books are composed of freely available Online computer manuals, industry standard specifications, and electronically distributed computer-programming guides. They include open documents' collections of industry specifications and standards and a collection of the best open source Documentation on the Web...the most complete open source library available anywhere. Each book contains the complete, unabridged text of the original document. The on-demand publishing process gives you the actual text of the Online document in a convenient, inexpensive, easy-to-use format. And remember...iUniverse.com donates a portion of the profits from open document and open source books to support the mission of the free software community.
M J Hafner - One of the best experts on this subject based on the ideXlab platform.
-
evaluation of Online Documentation
American Medical Informatics Association Annual Symposium, 1998Co-Authors: C M Prophet, M E Krall, Ginette K Budreau, T D Gibbs, K P Walker, J M Eyman, M J HafnerAbstract:The University of Iowa Hospitals and Clinics (UIHC) implemented an Online Documentation system for patient care orders in 1994-1996. Developed entirely in-house, the INFORMM NIS (Information Network for Online Retrieval & Medical Management Nursing Information System) features order-generated task lists, defaulted charting responses, computer-generated chart forms, and graphical data displays. To measure the impact of automation on user perceptions, and Documentation compliance, completeness, time, and location, a team of nursing and information systems representatives captured data before and after implementation. Staff surveys show more positive user perceptions. Documentation results indicate increased compliance and completeness, and a decrease or no change in time. Online Documentation occurs mainly at unit workstations.
Herbert M. Sauro - One of the best experts on this subject based on the ideXlab platform.
-
libroadrunner a high performance sbml simulation and analysis library
arXiv: Subcellular Processes, 2015Co-Authors: Endre Somogyi, Jean Marie Bouteiller, Maciej H. Swat, Matthias König, James A. Glazier, Kyle J Medley, Herbert M. SauroAbstract:This paper presents libRoadRunner, an extensible, high-performance, cross-platform, open-source software library for the simulation and analysis of models \ expressed using Systems Biology Markup Language (SBML). SBML is the most widely used standard for representing dynamic networks, especially biochemical networks. libRoadRunner supports solution of both large models and multiple replicas of a single model on desktop, mobile and cluster computers. libRoadRunner is a self-contained library, able to run both as a component inside other tools via its C++ and C bindings andnteractively through its Python interface. The Python Application Programming Interface (API) is similar to the APIs of Matlab and SciPy, making it fast and easy to learn, even for new users. libRoadRunner uses a custom Just-In-Time (JIT) compiler built on the widely-used LLVM JIT compiler framework to compile SBML-specified models directly into very fast native machine code for a variety of processors, making it appropriate for solving very large models or multiple replicas of smaller models. libRoadRunner is flexible, supporting the bulk of the SBML specification (except for delay and nOnlinear algebraic equations) and several of its extensions. It offers multiple deterministic and stochastic integrators, as well as tools for steady-state, stability analyses and flux balance analysis. We regularly update libRoadRunner binary distributions for Mac OS X, Linux and Windows and license them under Apache License Version 2.0. this http URL provides Online Documentation, full build instructions, binaries and a git source repository.
-
LibRoadRunner: A high performance SBML simulation and analysis library
Bioinformatics, 2015Co-Authors: Endre T. Somogyi, Jean Marie Bouteiller, J. Kyle Medley, Maciej H. Swat, Matthias König, James A. Glazier, Herbert M. SauroAbstract:MOTIVATION This article presents libRoadRunner, an extensible, high-performance, cross-platform, open-source software library for the simulation and analysis of models expressed using Systems Biology Markup Language (SBML). SBML is the most widely used standard for representing dynamic networks, especially biochemical networks. libRoadRunner is fast enough to support large-scale problems such as tissue models, studies that require large numbers of repeated runs and interactive simulations. RESULTS libRoadRunner is a self-contained library, able to run both as a component inside other tools via its C++ and C bindings, and interactively through its Python interface. Its Python Application Programming Interface (API) is similar to the APIs of MATLAB ( WWWMATHWORKSCOM: ) and SciPy ( HTTP//WWWSCIPYORG/: ), making it fast and easy to learn. libRoadRunner uses a custom Just-In-Time (JIT) compiler built on the widely used LLVM JIT compiler framework. It compiles SBML-specified models directly into native machine code for a variety of processors, making it appropriate for solving extremely large models or repeated runs. libRoadRunner is flexible, supporting the bulk of the SBML specification (except for delay and non-linear algebraic equations) including several SBML extensions (composition and distributions). It offers multiple deterministic and stochastic integrators, as well as tools for steady-state analysis, stability analysis and structural analysis of the stoichiometric matrix. AVAILABILITY AND IMPLEMENTATION libRoadRunner binary distributions are available for Mac OS X, Linux and Windows. The library is licensed under Apache License Version 2.0. libRoadRunner is also available for ARM-based computers such as the Raspberry Pi. http://www.libroadrunner.org provides Online Documentation, full build instructions, binaries and a git source repository. CONTACTS hsauro@u.washington.edu or somogyie@indiana.edu SUPPLEMENTARY INFORMATION Supplementary data are available at Bioinformatics Online.
Dan Connolly - One of the best experts on this subject based on the ideXlab platform.
-
hypertext markup language html a representation of textual information and metainformation for retrieval and interchange
2003Co-Authors: Tim Bernerslee, Dan ConnollyAbstract:HyperText Markup Language (HTML) can be used to represent Hypertext news, mail, Online Documentation, and collaborative hypermedia; Menus of options; Database query results; Simple structured documents with inlined graphics. Hypertext views of existing bodies of information The World Wide Web (W3) initiative links related information throughout the globe. HTML provides one simple format for Berners- Lee and Connolly 1 throughout the globe. HTML provides one simple format for providing linked information, and all W3 compatible programs are required to be capable of handling HTML. W3 uses an Internet protocol (Hypertext Transfer Protocol, HTTP), which allows transfer representations to be negotiated between client and server, the result being returned in an extended MIME message. HTML is therefore just one, but an important one, of the representations used with W3. HTML is proposed as a MIME content type. HTML refers to the URL specification of RFCxxxx. Implementations of HTML parsers and generators can be found in the various W3 servers and browsers, in the public domain W3 code, and may also be built using various public domain SGML parsers such as [SGMLS] . HTML is an SGML document type with fairly generic semantics appropriate for representing information from a wide range of applications. It is more generic than many specific SGML applications, but is still completely device- independent. IN THIS DOCUMENT This document contains the following parts: Vocabulary used in this document, degrees of imperative. HTML and MIME with discussion of character sets. HTML and SGML and the reelationship between them, and Structured text : an introduction for beginners to SGML. HTML Elements A list with description, example, and typical rendering. HTML Entities Entities used to describe characters. The HTML DTD The text of the SGML DTD for HTML Link relationship values . A provisional list. Not part of the standard. Registration Authority The authority for extending lists of ...
-
hypertext markup language html a representation of textual information and metainformation for retrieval and interchange
2003Co-Authors: Tim Bernerslee, Dan ConnollyAbstract:HyperText Markup Language (HTML) can be used to represent Hypertext news, mail, Online Documentation, and collaborative hypermedia; Menus of options; Database query results; Simple structured documents with inlined graphics. Hypertext views of existing bodies of information The World Wide Web (W3) initiative links related information throughout the globe. HTML provides one simple format for Berners- Lee and Connolly 1 throughout the globe. HTML provides one simple format for providing linked information, and all W3 compatible programs are required to be capable of handling HTML. W3 uses an Internet protocol (Hypertext Transfer Protocol, HTTP), which allows transfer representations to be negotiated between client and server, the result being returned in an extended MIME message. HTML is therefore just one, but an important one, of the representations used with W3. HTML is proposed as a MIME content type. HTML refers to the URL specification of RFCxxxx. Implementations of HTML parsers and generators can be found in the various W3 servers and browsers, in the public domain W3 code, and may also be built using various public domain SGML parsers such as [SGMLS] . HTML is an SGML document type with fairly generic semantics appropriate for representing information from a wide range of applications. It is more generic than many specific SGML applications, but is still completely device- independent. IN THIS DOCUMENT This document contains the following parts: Vocabulary used in this document, degrees of imperative. HTML and MIME with discussion of character sets. HTML and SGML and the reelationship between them, and Structured text : an introduction for beginners to SGML. HTML Elements A list with description, example, and typical rendering. HTML Entities Entities used to describe characters. The HTML DTD The text of the SGML DTD for HTML Link relationship values . A provisional list. Not part of the standard. Registration Authority The authority for extending lists of ...
