Your search keyword '"data access methods"' showing total 10 results

1. Optimization of Data Access Method for Integrated Digital Management Platform under Restful Data Interface.

Author

Liu, Xin, Xu, Zhonglin, He, Tao, Xiang, Hao, Zhao, Jinhui, Jiao, Yaoyi, Hou, Dai, Hu, Junguo, Chen, Chen, Wang, Bei, and Wang, Qian

Subjects

DISASTER resilience, DATA security, DATA transmission systems, DIGITAL technology, DATA recovery

Abstract

Nowadays, many institutions have built information systems to support core businesses, and remote management, centralized management, and integrated dynamic management have become the most concerned issues for people. This article is based on the Restful representational state transfer data interface to build an integrated digital management platform micro application. RestFul enables secure data interaction between the user and server ends. Load the system in this article onto 15 different computers, with a data level disaster recovery implementation recovery point objective of no more than 5 minutes, and an recovery time objective business recovery time of no more than 4 hours. This article helps to improve the security of data transmission. [ABSTRACT FROM AUTHOR]

Published

2024

2. HyR-tree: a spatial index for hybrid flash/3D XPoint storage.

Author

Fevgas, Athanasios, Akritidis, Leonidas, Alamaniotis, Miltiadis, Tsompanopoulou, Panagiota, and Bozanis, Panayiotis

Subjects

*NONVOLATILE memory, *COMPUTER systems, *STORAGE, *FLASH memory

Abstract

Flash-based SSDs have become well established in the storage market, replacing magnetic disks in both enterprise and consumer computer systems. The performance characteristics of these new devices have prompted a considerable amount of research that aims at developing efficient data access methods. Early works attempted to reduce the expensive random writes, exploiting logging and batch write techniques, while more recent ones addressed query processing, taking advantage of the high internal parallelism of SSDs. 3D XPoint is a new nonvolatile memory technology that has emerged recently, featuring smaller access times and higher durability compared with flash. It is available both as block addressable secondary storage and as byte addressable persistent main memory. However, the high cost of 3D XPoint prevents, for the moment, its adoption in large scales. This renders hybrid storage systems utilizing NAND flash and 3D XPoint a sufficient alternative. In this work, we propose HyR-tree, a hybrid variant of R-tree that persists a part of the tree in the high performing 3D XPoint storage. HyR-tree identifies repeated access pattern to the data and uses these patterns to locate the most important nodes. The importance of a node is determined by the performance gain that derives from its placement within a 3D XPoint-based device. We experimentally evaluated HyR-tree using real devices and four different datasets. The acquired results show that our proposal achieves significant performance gains up to 40% in tree construction and up to 56% in range queries. [ABSTRACT FROM AUTHOR]

Published

2023

3. The illustris simulation: Public data release.

Author

Nelson, D., Pillepich, A., Genel, S., Vogelsberger, M., Springel, V., Torrey, P., Rodriguez-Gomez, V., Sijacki, D., Snyder, G.F., Griffen, B., Marinacci, F., Blecha, L., Sales, L., Xu, D., and Hernquist, L.

Subjects

SIMULATION methods & models, METAPHYSICAL cosmology, HYDRODYNAMICS, STELLAR winds, SUPERMASSIVE black holes

Abstract

We present the full public release of all data from the Illustris simulation project. Illustris is a suite of large volume, cosmological hydrodynamical simulations run with the moving-mesh code Arepo and including a comprehensive set of physical models critical for following the formation and evolution of galaxies across cosmic time. Each simulates a volume of (106.5 Mpc) 3 and self-consistently evolves five different types of resolution elements from a starting redshift of z = 127 to the present day, z = 0 . These components are: dark matter particles, gas cells, passive gas tracers, stars and stellar wind particles, and supermassive black holes. This data release includes the snapshots at all 136 available redshifts, halo and subhalo catalogs at each snapshot, and two distinct merger trees. Six primary realizations of the Illustris volume are released, including the flagship Illustris-1 run. These include three resolution levels with the fiducial “full” baryonic physics model, and a dark matter only analog for each. In addition, we provide four distinct, high time resolution, smaller volume “subboxes”. The total data volume is ∼ 265 TB, including ∼ 800 full volume snapshots and ∼ 30,000 subbox snapshots. We describe the released data products as well as tools we have developed for their analysis. All data may be directly downloaded in its native HDF5 format. Additionally, we release a comprehensive, web-based API which allows programmatic access to search and data processing tasks. In both cases we provide example scripts and a getting-started guide in several languages: currently, IDL, Python, and Matlab. This paper addresses scientific issues relevant for the interpretation of the simulations, serves as a pointer to published and on-line documentation of the project, describes planned future additional data releases, and discusses technical aspects of the release. [ABSTRACT FROM AUTHOR]

Published

2015

4. The IllustrisTNG simulations: public data release

Author

Nelson, Dylan, Springel, Volker, Pillepich, Annalisa, Rodriguez-Gomez, Vicente, Torrey, Paul, Genel, Shy, Vogelsberger, Mark, Pakmor, Ruediger, Marinacci, Federico, Weinberger, Rainer, Kelley, Luke, Lovell, Mark, Diemer, Benedikt, and Hernquist, Lars

Published

2019

5. XQuery as a retrieval mechanism for longitudinal multiscale forest resource data

Author

Rasinmäki, Jussi

Subjects

*QUERY languages (Computer science), *FOREST management, *TAIGAS, *INFORMATION retrieval, *XML (Extensible Markup Language), *DATA analysis, *INFORMATION resources management

Abstract

Abstract: In most forested environments, boreal forest in particular, monitoring and evaluation of management activities would be facilitated by storage of multiscale data sets spanning long time periods. For this study, such a data repository based on a generic spatio-temporal conceptual data model was created using XML. The data repository containing changes in data content for a 1000ha forest estate between 1871 and 1994 was used to evaluate the data retrieval capabilities of XQuery. The data retrieval operations consisted of pivoting, sequencing, and aggregation. Pivoting transforms the generic attribute storage used in the data model into a more compact column-wise format. Sequencing is used to return a temporal sequence of values, and for the traversal of the object hierarchy. Aggregation aggregates the values of a variable over a grouping variable. The combinations of the basic retrieval operations were also investigated as well as the effect of time and object hierarchy on the retrieval operations. The conceptual match between the generic spatio-temporal data model and the XML data model was apparent at the data retrieval operations. The key properties of XQuery for the implementation of the retrieval operations were extendability, support for nested structures, and data transformation functionality. [Copyright &y& Elsevier]

Published

2009

6. Rucio: Scientific data management

Author

Jaroslav Guenther, Joaquin Bogado, V Garonne, Armin Michael Nairz, Wen Guan, Petya Vasileva, Graeme Stewart, Gancho Dimitrov, Farid Ould-Saada, Fernando Esteban Mariano López, Diego Ciangottini, Cedric Serfon, Ralph Vigne, Thomas Beermann, Stefan Prenner, Brian Bockelman, Frank Berghaus, Mario Lassnig, Tobias Wegner, D. Kuhn, L. Goossens, Alessandro Di Girolamo, Markus Elsing, Nicolo Magini, Dimitrios Christidis, David Cameron, Eric Wayne Vaandering, Angelos Molfetas, Martin Barisits, and Tomas Javurek

Subjects

FOS: Computer and information sciences, Informática, Nuclear and High Energy Physics, business.industry, Computer science, Scale (chemistry), Data management, Data access methods, computer.software_genre, Data science, Data organization, Distributed computing models, Computing and Computers, Software framework, Exascale, Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science (miscellaneous), Distributed, Parallel, and Cluster Computing (cs.DC), Architecture, business, computer, Software, Data management systems

Abstract

Rucio is an open-source software framework that provides scientific collaborations with the functionality to organize, manage, and access their data at scale. The data can be distributed across heterogeneous data centers at widely distributed locations. Rucio was originally developed to meet the requirements of the high-energy physics experiment ATLAS, and now is continuously extended to support the LHC experiments and other diverse scientific communities. In this article, we detail the fundamental concepts of Rucio, describe the architecture along with implementation details, and give operational experience from production usage., Comment: 21 pages, 11 figures

Published

2019

7. The IllustrisTNG simulations: public data release

Author

Paul Torrey, Annalisa Pillepich, Benedikt Diemer, Federico Marinacci, Mark Vogelsberger, Lars Hernquist, Dylan Nelson, Mark R. Lovell, Luke Zoltan Kelley, Ruediger Pakmor, Volker Springel, Rainer Weinberger, Shy Genel, Vicente Rodriguez-Gomez, Nelson, Dylan, Springel, Volker, Pillepich, Annalisa, Rodriguez-Gomez, Vicente, Torrey, Paul, Genel, Shy, Vogelsberger, Mark, Pakmor, Ruediger, Marinacci, Federico, Weinberger, Rainer, Kelley, Luke, Lovell, Mark, Diemer, Benedikt, and Hernquist, Lars

Subjects

Cosmology and Nongalactic Astrophysics (astro-ph.CO), Computer science, lcsh:Astronomy, Dark matter, FOS: Physical sciences, Data management system, Distributed architectures, lcsh:Astrophysics, lcsh:Analysis, Galaxies: formation, Computational science, lcsh:QB1-991, Data access method, Methods: data analysis, lcsh:QB460-466, Galaxy formation and evolution, lcsh:Science, 520 Astronomy and allied sciences, Instrumentation and Methods for Astrophysics (astro-ph.IM), Data management systems, General Environmental Science, computer.programming_language, Supermassive black hole, COSMIC cancer database, Methods: numerical, lcsh:Mathematics, Galaxies: evolution, Data access methods, lcsh:QA299.6-433, Python (programming language), lcsh:QA1-939, Astrophysics - Astrophysics of Galaxies, Galaxy, Visualization, Data access, Astrophysics of Galaxies (astro-ph.GA), General Earth and Planetary Sciences, lcsh:Q, Astrophysics - Instrumentation and Methods for Astrophysics, computer, Methods: data analysi, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We present the full public release of all data from the TNG50, TNG100 and TNG300 simulations of the IllustrisTNG project. IllustrisTNG is a suite of large volume, cosmological, gravo-magnetohydrodynamical simulations run with the moving-mesh code Arepo. TNG includes a comprehensive model for galaxy formation physics, and each TNG simulation self-consistently solves for the coupled evolution of dark matter, cosmic gas, luminous stars, and supermassive blackholes from early time to the present day, z=0. Each of the flagship runs -- TNG50, TNG100, and TNG300 -- are accompanied by lower-resolution and dark-matter only counterparts, and we discuss scientific and numerical cautions and caveats relevant when using TNG. Full volume snapshots are available at 100 redshifts; halo and subhalo catalogs at each snapshot and merger trees are also released. The data volume now directly accessible online is ~1.1 PB, including 2,000 full volume snapshots and ~110,000 high time-resolution subbox snapshots. Data access and analysis examples are available in IDL, Python, and Matlab. We describe improvements and new functionality in the web-based API, including on-demand visualization and analysis of galaxies and halos, exploratory plotting of scaling relations and other relationships between galactic and halo properties, and a new JupyterLab interface. This provides an online, browser-based, near-native data analysis platform which supports user computation with fully local access to TNG data, alleviating the need to download large simulated datasets., TNG50 joins TNG100 and TNG300 in public release (1 Feb 2021) at http://www.tng-project.org/data

Published

2019

8. РЕАЛИЗАЦИЯ ПАРАЛЛЕЛЬНОЙ ОБРАБОТКИ ДАННЫХ В ОБЛАЧНЫХ СИСТЕМАХ

Author

Munerman, V.I.

Subjects

параллельная обработка данных, методы доступа, parallel data processing, massively data processing, архитектура программно-аппаратных комплексов, data access methods, Cloud systems and computing, Облачные системы и вычисления, массовая обработка данных, software- hardware complexes architecture

Abstract

Рассмотрены методы использования технологии облачных вычислений для разработки программного обеспечения, реализующего параллельную обработку распределенных данных. Рассмотрен метод параллельной реализации операции JOIN на основе принципа симметричного горизонтального распределения. Даны описания виртуальных программно-аппаратных комплексов, которые реализуют распараллеливание на уровне обработки запросов и на уровне операции JOIN средствами Microsoft Azure. Приведены экспериментальные данные, подтверждающие эффективность предложенного подхода., The methods of using cloud computing technology for the development of software that implements parallel processing of distributed data are considered. The method of parallel implementation of the JOIN operation based on the symmetric horizontal distribution principle is considered. There are descriptions of virtual software and hardware systems that implement parallelization at the level of processing requests and at the level of the JOIN operation using Microsoft Azure. Experimental data confirming the effectiveness of the proposed approach are presented., Международный научный журнал "Современные информационные технологии и ИТ-образование", № (2017)

Published

2017

9. Astro-TS3: Time-series Subimage Search Engine for archived astronomical data.

Author

Kang, Q., Yu, C., Zhang, Y., Cui, C., Sun, C., Xiao, J., and Tang, S.

Subjects

SEARCH engines, INFORMATION retrieval, DATA libraries, DOWNLOADING, ASTRONOMICAL observations, DATA transmission systems

Abstract

Efficiently retrieving a subset of time series data in a specific sky region from large-scale astronomical observation data is important for some time-domain studies in astronomy, especially for research on long-term variable sources. Considering that the field of view of a telescope is generally larger than the effective sky region, the retrieval method at the full image level is relatively inefficient in terms of data transmission and storage. Therefore, this paper proposes a search engine dedicated to the efficient retrieval of time-series subimages in observed image data archives (Astro-TS3, Astro nomical T ime- S eries S ubimage S earch Engine). An in situ and resilient indexing scheme is proposed, and it can build indexes for archived image data without any modification of the original files and support incremental updating with newly archived data. A subimage cutting tool is implemented to extract a part of the image according to the range specified by the user and generate a new Flexible Image Transport System (FITS) file for the extracted subimage. With Astro-TS3, users only need to submit requests including the ranges of the time and sky region to retrieve the required data and then download the time-series subimages after the preview. The evaluation of Astro-TS3 is performed using actual archived data from three Antarctic Survey Telescopes (AST3). The experimental data show that the time for the index establishment and incremental update increases approximately linearly relative to the number of data files. For retrieval, the response time of the data retrieval is approximately linearly related to the number and size of the subimages. [ABSTRACT FROM AUTHOR]

Published

2021

10. On a model of indexability and its bounds for range queries

Author

Joseph M. Hellerstein, Daniel P. Miranker, Vasilis Samoladas, Christos H. Papadimitriou, and Elias Koutsoupias

Subjects

Data structures, Theoretical computer science, Search engine indexing, Data access methods, Workload, Upper and lower bounds, Data set, Set (abstract data type), Index (publishing), Artificial Intelligence, Hardware and Architecture, Control and Systems Engineering, Redundancy (engineering), Information systems, Overhead (computing), Data management systems, Software, Information Systems, Mathematics

Abstract

We develop a theoretical framework to characterize the hardness of indexing data sets on block-access memory devices like hard disks. We define an indexing workload by a data set and a set of potential queries. For a workload, we can construct an indexing scheme, which is a collection of fixed-sized subsets of the data. We identify two measures of efficiency for an indexing scheme on a workload: storage redundancy, r (how many times each item in the data set is stored), and access overhead, A (how many times more blocks than necessary does a query retrieve).For many interesting families of workloads, there exists a trade-off between storage redundancy and access overhead. Given a desired access overhead A , there is a minimum redundancy that any indexing scheme must exhibit. We prove a lower-bound theorem for deriving the minimum redundancy. By applying this theorem, we show interesting upper and lower bounds and trade-offs between A and r in the case of multidimensional range queries and set queries.

Published

2002