Your search keyword '"Database tuning"' showing total 2,068 results

1. Towards flexibility and robustness of LSM trees.

Author

Huynh, Andy, Chaudhari, Harshal A., Terzi, Evimaria, and Athanassoulis, Manos

Abstract

Log-structured merge trees (LSM trees) are increasingly used as part of the storage engine behind several data systems, and are frequently deployed in the cloud. As the number of applications relying on LSM-based storage backends increases, the problem of performance tuning of LSM trees receives increasing attention. We consider both nominal tunings—where workload and execution environment are accurately known a priori—and robust tunings—which consider uncertainty in the workload knowledge. This type of workload uncertainty is common in modern applications, notably in shared infrastructure environments like the public cloud. To address this problem, we introduce Endure, a new paradigm for tuning LSM trees in the presence of workload uncertainty. Specifically, we focus on the impact of the choice of compaction policy, size ratio, and memory allocation on the overall performance. Endure considers a robust formulation of the throughput maximization problem and recommends a tuning that offers near-optimal throughput when the executed workload is not the same, instead in a neighborhood of the expected workload. Additionally, we explore the robustness of flexible LSM designs by proposing a new unified design called K-LSM that encompasses existing designs. We deploy our robust tuning system, Endure, on a state-of-the-art key-value store, RocksDB, and demonstrate throughput improvements of up to 5 × in the presence of uncertainty. Our results indicate that the tunings obtained by Endure are more robust than tunings obtained under our expanded LSM design space. This indicates that robustness may not be inherent to a design, instead, it is an outcome of a tuning process that explicitly accounts for uncertainty. [ABSTRACT FROM AUTHOR]

Published

2024

2. LATuner: An LLM-Enhanced Database Tuning System Based on Adaptive Surrogate Model

Author

Fan, Chongjiong, Pan, Zhicheng, Sun, Wenwen, Yang, Chengcheng, Chen, Wei-Neng, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Bifet, Albert, editor, Davis, Jesse, editor, Krilavičius, Tomas, editor, Kull, Meelis, editor, Ntoutsi, Eirini, editor, and Žliobaitė, Indrė, editor

Published

2024

3. FASTune: Towards Fast and Stable Database Tuning System with Reinforcement Learning.

Author

Shi, Lei, Li, Tian, Wei, Lin, Tao, Yongcai, Li, Cuixia, and Gao, Yufei

Subjects

DATABASES, REINFORCEMENT learning, VIRTUAL reality, INSTRUCTIONAL systems, PERFORMANCE management, MICROSOFT Azure (Computing platform)

Abstract

Configuration tuning is vital to achieving high performance for a database management system (DBMS). Recently, automatic tuning methods using Reinforcement Learning (RL) have been explored to find better configurations compared with database administrators (DBAs) and heuristics. However, existing RL-based methods still have several limitations: (1) Excessive overhead due to reliance on cloned databases; (2) trial-and-error strategy may produce dangerous configurations that lead to database failure; (3) lack the ability to handle dynamic workload. To address the above challenges, a fast and stable RL-based database tuning system, FASTune, is proposed. A virtual environment is proposed to evaluate configurations which is an equivalent yet more efficient scheme than the cloned database. To ensure stability during tuning, FASTune adopts an environment proxy to avoid dangerous configurations. In addition, a Multi-State Soft Actor–Critic (MS-SAC) model is proposed to handle dynamic workloads, which utilizes the soft actor–critic network to tune the database according to workload and database states. The experimental results indicate that, compared with the state-of-the-art methods, FASTune can achieve improvements in performance while maintaining stability in the tuning. [ABSTRACT FROM AUTHOR]

Published

2023

4. Survey on performance optimization for database systems.

Author

Huang, Shiyue, Qin, Yanzhao, Zhang, Xinyi, Tu, Yaofeng, Li, Zhongliang, and Cui, Bin

Abstract

The performance optimization of database systems has been widely studied for years. From the perspective of the operation and maintenance personnel, it mainly includes three topics: prediction, diagnosis, and tuning. The prediction of future performance can guide the adjustment of configurations and resources. The diagnosis of anomalies can determine the root cause of performance regression. Tuning operations improve performance by adjusting influencing factors, e.g., knobs, indexes, views, resources, and structured query language (SQL) design. In this review, we focus on the performance optimization of database systems and review notable research work on the topics of prediction, diagnosis, and tuning. For prediction, we summarize the techniques, strengths, and limitations of several proposed systems for single and concurrent queries. For diagnosis, we categorize the techniques by the input data, i.e., monitoring metrics, logs, or time metrics, and analyze their abilities. For tuning, we focus on the approaches commonly adopted by the operation and maintenance personnel, i.e., knob tuning, index selection, view materialization, elastic resource, storage management, and SQL antipattern detection. Finally, we discuss some challenges and future work. [ABSTRACT FROM AUTHOR]

Published

2023

5. Dynamic Index Construction with Deep Reinforcement Learning.

Author

Wu, Sai, Li, Ying, Zhu, Haoqi, Zhao, Junbo, and Chen, Gang

Subjects

ARTIFICIAL intelligence

Abstract

Thanks to the rapid advances in artificial intelligence, a brand new venue for database performance optimization is through deep neural networks and the reinforcement learning paradigm. Alongside the long literature in this regime, an iconic and crucial problem is the index structure building. For this problem, the prior works have largely adopted a pure learning-based solution replacing the traditional methods such as a B-tree and Hashing. While this line of research has drawn much attention in the field, they ubiquitously abandon the semantic guarantees and also suffer from performance loss in certain scenarios. In this work, we propose the Neural Index Search (NIS) framework. The core to this framework is to train a search policy to find a near optimal combination plan over the existing index structures, together with the required configuration parameters associated with each index structure in the plan. We argue that compared against the pure learning approaches, NIS enjoys the advantages brought by the chosen conventional index structures and further robustly enhances the performance from any singular index structure. Extensive empirical results demonstrate that our framework achieves state-of-the-art performances on several benchmarks. [ABSTRACT FROM AUTHOR]

Published

2022

6. An Ontological Perspective for Database Tuning Heuristics

Author

Almeida, Ana Carolina, Campos, Maria Luiza M., Baião, Fernanda, Lifschitz, Sergio, de Oliveira, Rafael P., Schwabe, Daniel, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Laender, Alberto H. F., editor, Pernici, Barbara, editor, Lim, Ee-Peng, editor, and de Oliveira, José Palazzo M., editor

Published

2019

7. Database Performance Tuning and Query Optimization

Author

Kamatkar, Sadhana J., Kamble, Ajit, Viloria, Amelec, Hernández-Fernandez, Lissette, Cali, Ernesto García, 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, Pandu Rangan, C., Series Editor, Steffen, Bernhard, Series Editor, Terzopoulos, Demetri, Series Editor, Tygar, Doug, Series Editor, Weikum, Gerhard, Series Editor, Tan, Ying, editor, Shi, Yuhui, editor, and Tang, Qirong, editor

Published

2018

8. An Adaptive Eviction Framework for Anti-caching Based In-Memory Databases

Author

Huang, Kaixin, Zheng, Shengan, Shen, Yanyan, Zhu, Yanmin, Huang, Linpeng, Hutchison, David, Editorial Board Member, Kanade, Takeo, Editorial Board Member, Kittler, Josef, Editorial Board Member, Kleinberg, Jon M., Editorial Board Member, Mattern, Friedemann, Editorial Board Member, Mitchell, John C., Editorial Board Member, Naor, Moni, Editorial Board Member, Pandu Rangan, C., Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Terzopoulos, Demetri, Editorial Board Member, Tygar, Doug, Editorial Board Member, Weikum, Gerhard, Series Editor, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Pei, Jian, editor, Manolopoulos, Yannis, editor, Sadiq, Shazia, editor, and Li, Jianxin, editor

Published

2018

9. A Study of Several Matrix-Clustering Vertical Partitioning Algorithms in a Disk-Based Environment

Author

Galaktionov, Viacheslav, Chernishev, George, Smirnov, Kirill, Novikov, Boris, Grigoriev, Dmitry A., Chen, Phoebe, Series editor, Du, Xiaoyong, Series editor, Filipe, Joaquim, Series editor, Kara, Orhun, Series editor, Kotenko, Igor, Series editor, Liu, Ting, Series editor, Sivalingam, Krishna M., Series editor, Washio, Takashi, Series editor, Kalinichenko, Leonid, editor, Kuznetsov, Sergei O., editor, and Manolopoulos, Yannis, editor

Published

2017

10. Wait Event Tuning in Database Engine

Author

Myalapalli, Vamsi Krishna, Chakrabarti, Amlan, editor, Sharma, Neha, editor, and Balas, Valentina Emilia, editor

Published

2016

11. Database Tuning using Evolutionary and Search Algorithms

Author

Raneblad, Erica and Raneblad, Erica

Abstract

Achieving optimal performance of a database can be crucial for many businesses, and tuning its configuration parameters is a necessary step in this process. Many existing tuning methods involve complex machine learning algorithms and require large amounts of historical data from the system being tuned. However, training machine learning models can be problematic if a considerable amount of computational resources and data storage is required. This paper investigates the possibility of using less complex search algorithms or evolutionary algorithms to tune database configuration parameters, and presents a framework that employs Hill Climbing and Particle Swarm Optimization. The performance of the algorithms are tested on a PostgreSQL database using read-only workloads. Particle Swarm Optimization displayed the largest improvement in query response time, improving it by 26.09% compared to using the configuration parameters' default values. Given the improvement shown by Particle Swarm Optimization, evolutionary algorithms may be promising in the field of database tuning.

Published

2023

12. An algorithmic approach for performance tuning of a relational database system using dynamic SGA parameters

Author

Sharma, Hitesh Kumar, Choudhury, Tanupriya, Tomar, Ravi, Patni, J. C., and Um, Jung-Sup

Published

2021

13. FASTune: Towards Fast and Stable Database Tuning System with Reinforcement Learning

Author

Lei Shi, Tian Li, Lin Wei, Yongcai Tao, Cuixia Li, and Yufei Gao

Subjects

Computer Networks and Communications, Hardware and Architecture, Control and Systems Engineering, database tuning, reinforcement learning, decision making, deep learning, Signal Processing, Electrical and Electronic Engineering

Abstract

Configuration tuning is vital to achieving high performance for a database management system (DBMS). Recently, automatic tuning methods using Reinforcement Learning (RL) have been explored to find better configurations compared with database administrators (DBAs) and heuristics. However, existing RL-based methods still have several limitations: (1) Excessive overhead due to reliance on cloned databases; (2) trial-and-error strategy may produce dangerous configurations that lead to database failure; (3) lack the ability to handle dynamic workload. To address the above challenges, a fast and stable RL-based database tuning system, FASTune, is proposed. A virtual environment is proposed to evaluate configurations which is an equivalent yet more efficient scheme than the cloned database. To ensure stability during tuning, FASTune adopts an environment proxy to avoid dangerous configurations. In addition, a Multi-State Soft Actor–Critic (MS-SAC) model is proposed to handle dynamic workloads, which utilizes the soft actor–critic network to tune the database according to workload and database states. The experimental results indicate that, compared with the state-of-the-art methods, FASTune can achieve improvements in performance while maintaining stability in the tuning.

Published

2023

14. Application of 3D-HEVC fast coding by Internet of Things data in intelligent decision

Author

Xiaolan Wang

Subjects

Bayes estimator, Computer science, Concurrency, Real-time computing, Database tuning, Theoretical Computer Science, law.invention, Reference data, Hardware and Architecture, Depth map, law, Software, Remote control, Information Systems, Data transmission, Coding (social sciences)

Abstract

This research aims to further promote the popularization and application of agricultural Internet of Things (IoT) and solve the practical problems of low transmission efficiency in agricultural data transmission. The targeted study is conducted on the video coding in agricultural IoT system to further promote the development of agricultural IoT system and improve the application effect of video surveillance technology. Firstly, an intelligent decision management platform is designed based on agricultural IoT system, consisting of the remote control module and video surveillance module. Meanwhile, a three-dimensional High Efficiency Video Coding (3D-HEVC) fast algorithm based on Bayesian Decision Theory is designed aiming to optimize the 3D-HEVC technology. Experiments are also performed to investigate the performance of intelligent management platform and 3D-HEVC fast algorithm based on Bayesian Decision Theory. The experimental results show that the intelligent management platform has good application effects in the database performance test, website access concurrency test, and data reception performance test. Compared to the traditional 3D-HEVC algorithm, the proposed 3D-HEVC fast algorithm reduces the coding time of depth map and total coding time by 46.5% and 22.52%, respectively, in addition to a better application effect. Meanwhile, with the support of the 3d-HEVC fast algorithm, the agricultural intelligent management platform shows better video transmission performance and application effect meeting the actual needs at this stage. The experiment results have certain practical value, providing scientific and effective reference data for subsequent research.

Published

2021

15. Automatic Physical Database Tuning Middleware for Web-Based Applications

Author

Patvarczki, Jozsef, Heffernan, Neil T., 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, Eder, Johann, editor, Bielikova, Maria, editor, and Tjoa, A Min, editor

Published

2011

16. Database Tuning Using Oracle Materialized View for Manufacturing Industry.

Author

Khushairi, Norazah Md, Emran, Nurul A., and Menon, Anil Kumar

Subjects

DATABASES, MANUFACTURING industries, MATERIALIZED views (Computer science), DATABASE management, CAPITAL investments

Abstract

The need to maintain database performance in Silterra Malaysia is crucial as data produced from complex manufacturing processes must be recorded in timely manner for reporting purposes. Query rewriting using Oracle Materialized View (MV) is one form of corrective action adopted by Silterra in order to tune its database, which is usually affected by problematic SQLs. However, whether MVs are useful in most cases of query rewriting is an open problem. In this paper, the flow of SQL query rewriting process using MVs is presented. Steps to identify problematic SQLs and to rewrite them are given based on DBA's experience in dealing with database performance issue in this industry. The result of using MVs shown using real fabrication data in Silterra reveals that, even though most MVs perform better than queries without MVs, there are cases that require alternative for MVs. [ABSTRACT FROM AUTHOR]

Published

2018

17. Index selection for NoSQL database with deep reinforcement learning

Author

Yu Yan, Shun Yao, Meng Gao, and Hongzhi Wang

Subjects

Information Systems and Management, Computer science, Data management, Big data, 02 engineering and technology, NoSQL, computer.software_genre, Database tuning, Theoretical Computer Science, Database index, Artificial Intelligence, 0202 electrical engineering, electronic engineering, information engineering, Reinforcement learning, business.industry, Data manipulation language, 05 social sciences, 050301 education, Computer Science Applications, Control and Systems Engineering, Benchmark (computing), 020201 artificial intelligence & image processing, Data mining, business, 0503 education, computer, Software

Abstract

With the development of big data technology, the data management of complex applications has become more and more resource intensive. In this paper, we propose an automatic approach (DRLISA) to achieve NoSQL database index selection. For different workloads, we automatically select its corresponding indexes and parameters which can totally improve the database performance. Our DRLISA establishes an optimal index by building a deep reinforcement learning model which is able to adapt the dynamic change of workloads. We conducted our experiments in five aspects (the impact of data manipulation, the impact of operation count, comparison with random selection, comparison with existing method and the robustness of DRLISA) using the open source benchmark, YCSB. The experimental results showed that DRLISA has a high efficient index recommendation under the dynamic workloads.

Published

2021

18. Comparison of the performance of relational databases PostgreSQL and MySQL for desktop application

Author

Bartłomiej Klimek and Maria Skublewska-Paszkowska

Subjects

Small data, Database, Relational database, business.industry, Computer science, relational databases, InformationSystems_DATABASEMANAGEMENT, Information technology, QA75.5-76.95, T58.5-58.64, computer.software_genre, Database tuning, Software, comparison of performance, Relational database management system, Electronic computers. Computer science, General Earth and Planetary Sciences, DBMS, business, computer, Java Programming Language, General Environmental Science

Abstract

The aim of this thesis was to compare the performance of two relational database management systems PostgreSQL and MySQL. For the purpose of the study a relational database was designed and a piece of software was implemented to connect desktop application with the database system. This software shall also create entities and relations between them in desired empty schemes on servers for databases. There has also been implemented a desktop application in Java programming language, that allows browsing data stored in database and performing the tests of database performance. Tests addressed basic operations of adding, collecting, updating and deleting data. Thisthesis makes a hypothesis "PostgreSQL is more efficient for desktop application while loaded with small data, in that case 1000 of queries", that was confirmed by achieved results from tests performed.

Published

2021

19. The case for NLP-enhanced database tuning

Author

Immanuel Trummer

Subjects

Computer science, business.industry, General Engineering, 02 engineering and technology, computer.software_genre, Database tuning, Body of knowledge, 020204 information systems, 0202 electrical engineering, electronic engineering, information engineering, Leverage (statistics), 020201 artificial intelligence & image processing, Artificial intelligence, business, computer, Natural language, Natural language processing

Abstract

A large body of knowledge on database tuning is available in the form of natural language text. We propose to leverage natural language processing (NLP) to make that knowledge accessible to automated tuning tools. We describe multiple avenues to exploit NLP for database tuning, and outline associated challenges and opportunities. As a proof of concept, we describe a simple prototype system that exploits recent NLP advances to mine tuning hints from Web documents. We show that mined tuning hints improve performance of MySQL and Postgres on TPC-H, compared to the default configuration.

Published

2021

20. An Approach to Fine Tuning Database Performance in Application Software

Author

LN Chavali, Brindha Senthil Kumar, Lal Hmingliana, and P. Lakshmi Narayana

Subjects

Fine-tuning, Computer architecture, Computer science, General Medicine, Application software, computer.software_genre, computer, Database tuning

Abstract

Database tuning is crucial step to enhance the performance of the application software. There are many tools available in Microsoft to evaluate the performance of the stored procedures and identify them. This paper presents a comparative performance of actual and tuned sample stored procedures in SQL Server 2008 R2 of Application software (Microsoft). The results showed there is a marginal gain in the efficiency after the database tuning.

Published

2021

21. ARH_Db_Tuner: The GUI Tool to Monitor and Diagnose the SGA Parameters Automatically

Author

Hitesh KUMAR SHARMA, Aditya SHASTRI, and Ranjit BISWAS

Subjects

SGA, SGA Dynamic Parameters, Database Tuning, DBA, Automated Tuning, Technology (General), T1-995, Computer software, QA76.75-76.765

Abstract

Database administrators should be aware of resource usages to maintain database system performance. As database applications become more complex and diverse, managing database systems becomes too costly and prone to error. Autonomic database tuning becomes more important than ever. One of the major issues to address in regards to ORACLE database performance is the size of the database. The bulk of the information consists of a large number of records, contained in many tables, each ranging from thousands of rows. There are many factors that can have direct effects on the performance of the database. CPU, Memory, Network, Disk I/O are among other factors. In order to make a database up and run efficiently, each factor must be addresses carefully, and the best tuning strategy must be applied for optimum performance. ORACLE performance issues are complex, and for a DBA, there is a large number of values to monitor and examine in order to decide on best tuning strategy. The aim of the work behind this paper was to design and implement a Database Performance Tuning Measurement Toolkit for ORACLE Database Servers working on MS-Windows platforms. This system is called ARH_Db_Tuner*. This system is the advance version of ORACLE Performance Monitoring Toolkit [19] (OPMT for short). Some of the future aspects of OPMT have been implemented in ARH_Db_Tuner. It is used for testing, analysis and reporting of the database performance.

Published

2013

22. A Framework for Automated Database Tuning Using Dynamic SGA Parameters and Basic Operating System Utilities

Author

Hitesh KUMAR SHARMA, Aditya SHASTRI, and Department of Computer Science

Subjects

SGA, SGA Dynamic Parameters, Database Tuning, DBA, Automated Tuning, TOC., Technology (General), T1-995, Computer software, QA76.75-76.765

Abstract

In present scenario the manual work (Done by Human) cost more to an organization than the automatic work ( Done by Machine)and the ratio is increasing day by day as per the tremendous increment in Machine (Hardware + Software) Intelligence. We are moving towards the world where the Machines will be able to perform better than today by their own intelligence. They will adjust themselves as per the customer’s performance need. But to make this dream true, lots of human efforts (Theoretical and Practical) are needed to increase the capability of Machines to take their own decision and make the future free from manual work and reduce the working cost. Our life is covered with the different types of systems working around. The information system is one of them. All businesses are having the base by this system. So there is the most preference job of the IT researcher to make the Information system self-Manageable. The Development of well-established frameworks are needed to made them Auto-tuned is the basic need of the current business. The DBMS vendors are also providing the Auto-Tune packages with their DBMS Application. But they charge for these Auto-Tune packages. This extra cost of packages can be eliminated by using some basic Operating system utilities (e.g. VB Script, Task Scheduler, Batch Files, and Graphical Utility etc.). We have designed a working framework for Automatic Tuning of DBMS by using the Basic Utilities of Operating System (e.g. Windows) .These utilities will collect the statistics of SGA dynamic Parameters. The Framework will automatically analyze these SGA Parameter statistics and give suggestions fordiagnose the problem. In this paper we have presented that framework with practical Implementation.

Published

2012

23. Database Performance Management in Cloud

Author

Suraj Dubey, Navendu Mishra, and Jayant Sawarkar

Subjects

Human resource management system, SQL, Database, Computer science, business.industry, General Engineering, Cloud computing, PL/SQL, Encryption, computer.software_genre, Database tuning, Resource (project management), Backup, business, computer, computer.programming_language

Abstract

Managing large chain of Hotels and ERP database comprises of core areas such as HRMS & PIP.HRMS (Human Resource Management System), which further includes areas such as Soft Joining, Promotion, Transfer, Confirmation, Leave Attendance and Exit, etc. PIP (Payroll Information Portal), wherein employees can view their individual Salary details, submit investment declaration, Reimbursement claim & CTC structuring, etc. Management of Large Chain of Hotels and ERP Database in AWS Cloud involves continuous monitoring with regards to the areas such as Performance of resource usages and optimization techniques relating to the use of PL/SQL. High Availability (HA) of data is accomplished through the Backup and Recovery mechanism and security of the data by Encryption & Decryption mechanism.

Published

2020

24. REPLICATION OF COMPARATIVE METHODS FOR SINGLE DATABASE PERFORMANCE IN CENTOS OPERATION SYSTEM WITH MAXSCALE

Author

Merinda Lestandy, Machmud Effendy, Muhammad Irfan, Amrul Faruq, and Mochammad Arif Hidayatullah

Subjects

Service (systems architecture), Database, Computer science, lcsh:T, Value (computer science), lcsh:Q300-390, Ranging, computer.software_genre, Missing data, lcsh:Technology, Replication (computing), Database tuning, Test (assessment), database, maxscale, replication, Backup, General Health Professions, lcsh:Cybernetics, computer

Abstract

Processing data in an institution or organization has become an activity or routine for each meeting. In processing data, of course there are various kinds of problems, ranging from missing data, either because of an error in entering data or the result of a system failure. To overcome these problems, in an agency or company must have data backup, so as to create problems that occur in the data, the institution still has data backup. To call, another method of database replication is used. From the test results obtained data on the value of RTA (Round Trip Average) that is the time required for one time sending and receiving data from the replication database is 5426.22 ms and for compilation service diagrams a query attack occurs with a percentage of 29% in the database applications that produce 1774.45 ms results and for service diagrams at a query attack percentage of 29% a single database estimates the server down .

Published

2020

25. A Time Series Prediction Approach Based on Hybrid Tuning for Database Performance Indicator in AIOps

Author

Xiaoling Wang, Chengfeng Han, Huanyu Gao, Zhuping Yuan, Xiaofang Zhang, and Ning Li

Subjects

Computer science, computer.software_genre, 01 natural sciences, 050105 experimental psychology, Database tuning, prophet, 010104 statistics & probability, intelligent operation and maintenance, Cloud database, 0501 psychology and cognitive sciences, Autoregressive integrated moving average, 0101 mathematics, Time series, Motor vehicles. Aeronautics. Astronautics, 05 social sciences, General Engineering, TL1-4050, database performance monitor, arima, Data mining, Performance indicator, Data pre-processing, time series, Database connection, computer, Model building

Abstract

One of the most important applications of the intelligent operation and maintenance of a cloud database is its trend prediction of key performance indicators (KPI), such as disk use, memory use, etc. We propose a method named AutoPA4DB (Auto Prophet and ARIMA for Database) to predict the trend of the KPIs of the cloud database based on the Prophet model and the ARIMA model. Our AutoPA4DB method includes data preprocessing, model building, parameter tuning and optimization. We employ the weighted MAPE coverage to measure its accuracy and use 6 industrial datasets including 10 KPIs to compare the AutoPA4DB method with other three time-series trend prediction algorithms. The experimental results show that our AutoPA4DB method performs best in predicting monotonic variation data, e.g.disk use trend prediction. But it is unstable in predicting oscillatory variation data; for example, it is acceptable in memory use trend prediction but has poor accuracy in predicting the number of database connection trends.

Published

2020

26. Comparison of MySQL, MSSQL, PostgreSQL, Oracle databases performance, including virtualization

Author

Rafał Klewek, Maria Skublewska-Paszkowska, and Wojciech Truskowski

Subjects

Computer science, Relational database, 0211 other engineering and technologies, 02 engineering and technology, database performance, computer.software_genre, lcsh:QA75.5-76.95, Oracle, Database tuning, 021105 building & construction, 0502 economics and business, mssql, Oracle database, mysql, postgresql, 050210 logistics & transportation, lcsh:T58.5-58.64, Database, lcsh:Information technology, business.industry, 05 social sciences, Virtualization, virtualization, docker, oracle, The Internet, lcsh:Electronic computers. Computer science, business, computer

Abstract

Oracle, MSSQL, MySQL and PostgreSQL are four of the most popular relational databases. They are often used in internet applications. This paper aims to compare the efficiency of these technologies in terms of speed using virtualization with Docker. No publications that include virtualization were found among previous papers. After review of the literature, it was hypothesized that the Oracle engine would be the fastest. During the research, a series of experiments was carried out using the application, in which tests for measuring the time of instruction execution were implemented. Each query was measured 100 times and the first measurement was rejected. The obtained results confirmed the hypothesis about the superiority of the Oracle database. As in previous studies, it proved to be the fastest, also using virtualization.

Published

2020

27. PERFORMANCE MATTERS ON IDENTIFICATION OF ORIGIN-DESTINATION MATRIX ON BIG GEOSPATIAL DATA

Author

A. Çakır, B Anbaroglu, and I. B. Coşkun

Subjects

lcsh:Applied optics. Photonics, Geographic information system, Geospatial analysis, Database, lcsh:T, Computer science, business.industry, Intersection (set theory), lcsh:TA1501-1820, InformationSystems_DATABASEMANAGEMENT, Context (language use), computer.software_genre, lcsh:Technology, Database tuning, Visualization, Point in polygon, Identification (information), lcsh:TA1-2040, Polygon, lcsh:Engineering (General). Civil engineering (General), business, computer

Abstract

One of the common problems at the intersection of geographical information science and transportation science is the estimation of origin-destination (OD) matrices. The emergence of sensor technologies offers unprecedented opportunities in this regard since massive amounts of traffic data can be collected in an easy way. Researchers and practitioners need to choose a suitable DataBase Management System (DBMS) among alternatives, such that storing and analysing traffic data to estimate the OD matrix is feasible. The aim of this paper is to compare the performance of two such notable DBMSs, PostgreSQL and MongoDB, in the context of OD matrix estimation. The experiments are carried out on New York City’s openly available taxi data on two different polygon sets: taxi zones and census blocks. These polygon layers consist of 263 and 38794 features respectively. The results suggest that Postgres outperforms MongoDB by generating the OD matrix instantly. The run time of MongoDB varies depending on the analysed time interval and follows a trip demand curve. As there are more trips involved in the generation of the OD matrix, so does the execution time increases in MongoDB. On the other hand, the query results are the same. Finally, the origin points of the taxi trips are visualised in QGIS using the ‘TimeManager’ plugin, and results are presented through a web-interface.

Published

2020

28. SmartIX: A database indexing agent based on reinforcement learning

Author

Duncan D. Ruiz, Julia M. Colleoni Couto, Renata De Paris, Gabriel Paludo Licks, Priscilla de Fátima Miehe, and Felipe Meneguzzi

Subjects

Information retrieval, Computer science, Search engine indexing, InformationSystems_DATABASEMANAGEMENT, Database administrator, 02 engineering and technology, Database tuning, Database index, Artificial Intelligence, Scalability, 0202 electrical engineering, electronic engineering, information engineering, Benchmark (computing), Domain knowledge, Reinforcement learning, 020201 artificial intelligence & image processing

Abstract

Configuring databases for efficient querying is a complex task, often carried out by a database administrator. Solving the problem of building indexes that truly optimize database access requires a substantial amount of database and domain knowledge, the lack of which often results in wasted space and memory for irrelevant indexes, possibly jeopardizing database performance for querying and certainly degrading performance for updating. In this paper, we develop the SmartIX architecture to solve the problem of automatically indexing a database by using reinforcement learning to optimize queries by indexing data throughout the lifetime of a database. We train and evaluate SmartIX performance using TPC-H, a standard, and scalable database benchmark. Our empirical evaluation shows that SmartIX converges to indexing configurations with superior performance compared to standard baselines we define and other reinforcement learning methods used in related work.

Published

2020

29. A Session-based Approach to Autonomous Database Tuning

Author

Krisztián Mózsi and Attila Kiss

Subjects

Computer architecture, Computer science, General Engineering, Session (computer science), Database tuning

Published

2020

30. A.M.B.R.O.S.I.A

Author

Mike Barnett, Sebastian Burckhardt, Darren Gehring, Niel Lebeck, Christopher S. Meiklejohn, Badrish Chandramouli, Ryan R. Newton, Irene Zhang, Jonathan Goldstein, Umar Farooq Minhas, Ahmed S. Abdelhamid, Tal Zaccai, and Rahee Ghosh Peshawaria

Subjects

Stateful firewall, Computer science, business.industry, Distributed computing, Virtual memory, 0202 electrical engineering, electronic engineering, information engineering, General Engineering, 020206 networking & telecommunications, 020207 software engineering, Cloud computing, 02 engineering and technology, business, Database tuning

Abstract

When writing today's distributed programs, which frequently span both devices and cloud services, programmers are faced with complex decisions and coding tasks around coping with failure, especially when these distributed components are stateful. If their application can be cast as pure data processing, they benefit from the past 40--50 years of work from the database community, which has shown how declarative database systems can completely isolate the developer from the possibility of failure in a performant manner. Unfortunately, while there have been some attempts at bringing similar functionality into the more general distributed programming space, a compelling general-purpose system must handle non-determinism, be performant, support a variety of machine types with varying resiliency goals, and be language agnostic, allowing distributed components written in different languages to communicate. This paper introduces Ambrosia, the first system to satisfy all these requirements. We coin the term "virtual resiliency", analogous to virtual memory, for the platform feature which allows failure oblivious code to run in a failure resilient manner. We also introduce novel programming language constructs for resiliently handling non-determinism. Of further interest is the effective reapplication of much database performance optimization technology to make Ambrosia more performant than many of today's non-resilient cloud solutions.

Published

2020

31. Architecture of Automated Database Tuning Using SGA Parameters

Author

Hitesh KUMAR SHARMA, Aditya SHASTRI, and Ranjit BISWAS

Subjects

Database Tuning, DBA, SGA, SGA Parameters, Automated Tuning, TOC., Technology (General), T1-995, Computer software, QA76.75-76.765

Abstract

Business Data always growth from kilo byte, mega byte, giga byte, tera byte, peta byte, and so far. There is no way to avoid this increasing rate of data till business still running. Because of this issue, database tuning be critical part of a information system. Tuning a database in a cost-effective manner is a growing challenge. The total cost of ownership (TCO) of information technology needs to be significantly reduced by minimizing people costs. In fact, mistakes in operations and administration of information systems are the single most reasons for system outage and unacceptable performance [3]. One way of addressing the challenge of total cost of ownership is by making information systems more self-managing. A particularly difficult piece of the ambitious vision of making database systems self-managing is the automation of database performance tuning. In this paper, we will explain the progress made thus far on this important problem. Specifically, we will propose the architecture and Algorithm for this problem.

Published

2012

32. Query optimizers based on machine learning techniques

Author

Souto, Rui Pedro Sousa Rodrigues do, Coelho, Fábio André Castanheira Luís, Vilaça, Ricardo Manuel Pereira, and Universidade do Minho

Subjects

Database tuning, Tuning de base de dados, Aprendizagem automática, Machine learning, Query optimization, Otimização de queries, Engenharia e Tecnologia::Engenharia Eletrotécnica, Eletrónica e Informática

Abstract

Dissertação de mestrado integrado em Engenharia Informática, Query optimizers are considered one of the most relevant and sophisticated components in a database management system. However, despite currently producing nearly optimal results, optimizers rely on statistical estimates and heuristics to reduce the search space of alternative execution plans for a single query. As a result, for more complex queries, errors may grow exponentially, often translating into sub-optimal plans resulting in less than ideal performance. Recent advances in machine learning techniques have opened new opportunities for many of the existing problems related to system optimization. This document proposes a solution built on top of PostgreSQL that learns to select the most efficient set of optimizer strategy settings for a particular query. Instead of depending entirely on the optimizer’s estimates to compare different plans under different configurations, it relies on a greedy selection algorithm that supports several types of predictive modeling techniques, from more traditional modeling techniques to a deep learning approach. The system is evaluated experimentally with the standard TPC-H and Join Order ing Benchmark workloads to measure the cost and benefits of adding machine learning capabilities to traditional query optimizers., Os otimizadores de queries são considerados um dos componentes de maior relevância e complexidade num sistema de gestão de bases de dados. No entanto, apesar de atualmente produzirem resultados quase ótimos, os otimizadores dependem do uso de estimativas estatísticas e de heurísticas para reduzir o espaço de procura de planos de execução alternativos para uma determinada query. Como resultado, para queries mais complexas, os erros podem crescer exponencialmente, o que geralmente se traduz em planos sub-ótimos, resultando num desempenho inferior ao ideal. Os recentes avanços nas técnicas de aprendizagem automática abriram novas oportunidades para muitos dos problemas existentes relacionados com otimização de sistemas. Este documento propõe uma solução construída sobre o PostgreSQL que aprende a selecionar o conjunto mais eficiente de configurações do otimizador para uma determinada query. Em vez de depender inteiramente de estimativas do otimizador para comparar planos de configurações diferentes, a solução baseia-se num algoritmo de seleção greedy que suporta vários tipos de técnicas de modelagem preditiva, desde técnicas mais tradicionais a uma abordagem de deep learning. O sistema é avaliado experimentalmente com os workloads TPC-H e Join Ordering Benchmark para medir o custo e os benefícios de adicionar aprendizagem automática a otimizadores de queries tradicionais., This work is financed by National Funds through the Portuguese funding agency, FCT - Fundação para a Ciência e a Tecnologia, within project UIDB/50014/2020.

Published

2021

33. Evaluation on Data Operations Management using CMMI and DMBOK: BDPJN Case Study

Author

Yova Ruldeviyani, Destri Yanti Hutapea, and Randy Prima Brahmantara

Subjects

Metadata, Database, Computer science, Node (computer science), Data bank, Data as a service, Data retention, computer.software_genre, computer, Maturity (finance), Capability Maturity Model Integration, Database tuning

Abstract

National Institute of Aeronautics and Space of Indonesia is obliged to organize remote sensing data storage and distribution through National Remote Sensing Data Bank (BDPJN). BDPJN is a node of the remote sensing data network in a spatial national data network system. BDPJN has the primary function of collecting, storing, distributing metadata and remote sensing data for Indonesia territory. Evaluation of data operation management is needed to guarantee the continuity of the remote sensing data service at BDPJN. It has to ensure that: the catalog can be accessed by users, the catalog is continuously updated with data stored in the BDPJN storage system, and the data is available when needed. This research is purposed to evaluate data operation management on BDPJN. It is implemented by measuring the maturity level of data operations management activities using the CMMI and DMBOK frameworks. The results indicated that BDPJN has ten activities that have met an expected level of maturity. However, five of fifteen activities have below maturity level 3. Three activities at maturity level 1 are Monitor and Tune Database Performance, Plan for Data Retention, Archive, Retain, and Purge Data. The two others are Define the Data Technology Architecture and Evaluate Data Technology, which is at maturity level 2. Recommendations have been arranged based on references from DMBOK for these five activities.

Published

2021

34. Outer-Tuning: an Ontology-based Extensible Framework for Supporting Database Automatic Tuning

Author

Ana Carolina Almeida, Rafael Pereira de Oliveira, Raphael Marins, Edward Hermann Haeusler, Sérgio Lifschitz, and Daniel Schwabe

Subjects

Focus (computing), business.industry, Computer science, Ontology (information science), computer.software_genre, Semantics, Database tuning, Relational database management system, Component (UML), Container (abstract data type), Heuristics, Software engineering, business, computer

Abstract

This paper presents the Outer-Tuning framework, which aims to support the (semi) automatic tuning of relational database systems through a domain-specific ontology. Ontologies have shown themselves to be increasingly promising, adding semantics and standardizing the different terms used in a domain. Thereby, our framework seeks to explain and make explicit the tuning heuristics reasoning while enabling the evaluation of new ontology-inferred methods. In this paper we focus on the main aspects of the Outer-Tuning component-based architecture. We also give an overview of our tool in practice. Finally, we show two useful extensions, concerning new DBMSs and a way of dockerizing into a container.

Published

2021

35. Comparing database optimisation techniques in PostgreSQL : Indexes, query writing and the query optimiser

Author

Inersjö, Elizabeth and Inersjö, Elizabeth

Abstract

Databases are all around us, and ensuring their efficiency is of great importance. Database optimisation has many parts and many methods, two of these parts are database tuning and database optimisation. These can then further be split into methods such as indexing. These indexing techniques have been studied and compared between Database Management Systems (DBMSs) to see how much they can improve the execution time for queries. And many guides have been written on how to implement query optimisation and indexes. In this thesis, the question "How does indexing and query optimisation affect response time in PostgreSQL?" is posed, and was answered by investigating these previous studies and theory to find different optimisation techniques and compare them to each other. The purpose of this research was to provide more information about how optimisation techniques can be implemented and map out when what method should be used. This was partly done to provide learning material for students, but also people who are starting to learn PostgreSQL. This was done through a literature study, and an experiment performed on a database with different table sizes to see how the optimisation scales to larger systems. What was found was that there are many use cases to optimisation that mainly depend on the query performed and the type of data. From both the literature study and the experiment, the main take-away points are that indexes can vastly improve performance, but if used incorrectly can also slow it. The main use cases for indexes are for short queries and also for queries using spatio-temporal data - although spatio-temporal data should be researched more. Using the DBMS optimiser did not show any difference in execution time for queries, while correctly implemented query tuning techniques also vastly improved execution time. The main use cases for query tuning are for long queries and nested queries. Although, most systems benefit from some sort of query tuning, as it doe, Databaser finns överallt omkring oss, och att ha effektiva databaser är mycket viktigt. Databasoptimering har många olika delar, varav två av dem är databasjustering och SQL optimering. Dessa två delar kan även delas upp i flera metoder, så som indexering. Indexeringsmetoder har studerats tidigare, och även jämförts mellan DBMS (Database Management System), för att se hur mycket ett index kan förbättra prestanda. Det har även skrivits många böcker om hur man kan implementera index och SQL optimering. I denna kandidatuppsats ställs frågan "Hur påverkar indexering och SQL optimering prestanda i PostgreSQL?". Detta besvaras genom att undersöka tidigare experiment och böcker, för att hitta olika optimeringstekniker och jämföra dem med varandra. Syftet med detta arbete var att implementera och kartlägga var och när dessa metoder kan användas, för att hjälpa studenter och folk som vill lära sig om PostgreSQL. Detta gjordes genom att utföra en litteraturstudie och ett experiment på en databas med olika tabell storlekar, för att kunna se hur dessa metoder skalas till större system. Resultatet visar att det finns många olika användingsområden för optimering, som beror på SQL-frågor och datatypen i databasen. Från både litteraturstudien och experimentet visade resultatet att indexering kan förbättra prestanda till olika grader, i vissa fall väldigt mycket. Men om de implementeras fel kan prestandan bli värre. De huvudsakliga användingsområdena för indexering är för korta SQL-frågor och för databaser som använder tid- och rum-data - dock bör tid- och rum-data undersökas mer. Att använda databassystemets optimerare visade ingen förbättring eller försämring, medan en korrekt omskrivning av en SQL fråga kunde förbättra prestandan mycket. The huvudsakliga användingsområdet för omskriving av SQL-frågor är för långa SQL-frågor och för nestlade SQL-frågor. Dock så kan många system ha nytta av att skriva om SQL-frågor för prestanda, eftersom att det kan kosta väldigt lite när det komm

Published

2021

36. Comparing Key-Value Store based Distributed NoSQL Database Performance on a Single-Node Instances

Author

Yoon Young Kim, Yong-Cheol Seo, Yeong-Mok Kim, Jae-Youp Lee, and Sung-Hoon Park

Subjects

Single node, Database, Distributed database, Computer science, NoSQL, computer.software_genre, computer, Database tuning, Associative array

Published

2019

37. Information Retrieval in Food Science Research II: Accounting for Relevance When Evaluating Database Performance

Author

Michael H. Penner, Lisbeth Meunier-Goddik, Tuba Karaarslan Urhan, and Hannah Gascho Rempel

Subjects

0303 health sciences, Government, Information retrieval, Databases, Factual, 030309 nutrition & dietetics, Computer science, Research, Online database, Information Storage and Retrieval, 04 agricultural and veterinary sciences, Bile acid binding, Private sector, Databases, Bibliographic, 040401 food science, Database tuning, 03 medical and health sciences, 0404 agricultural biotechnology, Search terms, Food Technology, Humans, Private Sector, Relevance (information retrieval), Food science, Citation, Food Science

Abstract

The impetus for this study is the limited amount of information on performance characteristics of food science-encompassing online bibliographic databases. Database usage is an important element in modern research because a comprehensive understanding of current knowledge is essential for effective, unbiased hypothesis formulation and testing. Six databases commonly recommended by academic libraries for information retrieval in the food sciences (Academic Search Premier [ASP], Agricultural Online Access [AGRICOLA], CAB Direct, Food Science and Technology Abstracts [FSTA], PubMed, and Web of Science [WoS]) were compared in a case study based on the research topic "in vitro bile acid binding properties of dietary lignin." A complex string of search terms was used for citation retrieval, and predetermined inclusion/exclusion criteria were used to determine the relevancy of retrieved articles. Searching WoS and CAB Direct returned the greatest number of relevant articles, followed closely by FSTA, PubMed, and AGRICOLA. FSTA and AGRICOLA returned the highest ratios of relevant-to-irrelevant articles, followed closely by CAB Direct. None of the databases, when used alone, recovered all of the relevant articles identified in the study; WoS indexed the highest percentage of relevant articles identified (WoS = 10; total = 19). WoS also had the highest number of relevant articles that were unique to any one database. The thoroughness of searching the complete group of databases was tested by comparison of retrieved citations with those found in relevant review articles, revealing the need for testing overall inclusivity. PRACTICAL APPLICATION: Comprehensive online information retrieval is the most efficient means of accessing current knowledge. Awareness of current knowledge is essential for effective, unbiased decision making in private sector and academic/government-based research endeavors. Thus, online database usage is an essential element of modern food science research. This paper provides tangible examples of the performance characteristics of online bibliographic databases commonly recommended for information retrieval in the food sciences. The paper is written so as to aid the reader in making decisions with respect to database usage for the recovery of topic-relevant peer-reviewed articles germane to their area of research.

Published

2019

38. QTune

Author

Shifu Li, Xuanhe Zhou, Guoliang Li, and Gao Bo

Subjects

SQL, Computer science, General Engineering, InformationSystems_DATABASEMANAGEMENT, 02 engineering and technology, Database tuning, Computer engineering, 020204 information systems, 0202 electrical engineering, electronic engineering, information engineering, Reinforcement learning, 020201 artificial intelligence & image processing, computer, Throughput (business), computer.programming_language

Abstract

Database knob tuning is important to achieve high performance (e.g., high throughput and low latency). However, knob tuning is an NP-hard problem and existing methods have several limitations. First, DBAs cannot tune a lot of database instances on different environments (e.g., different database vendors). Second, traditional machine-learning methods either cannot find good configurations or rely on a lot of high-quality training examples which are rather hard to obtain. Third, they only support coarse-grained tuning (e.g., workload-level tuning) but cannot provide fine-grained tuning (e.g., query-level tuning). To address these problems, we propose a query-aware database tuning system QTune with a deep reinforcement learning (DRL) model, which can efficiently and effectively tune the database configurations. QTune first featurizes the SQL queries by considering rich features of the SQL queries. Then QTune feeds the query features into the DRL model to choose suitable configurations. We propose a Double-State Deep Deterministic Policy Gradient (DS-DDPG) model to enable query-aware database configuration tuning, which utilizes the actor-critic networks to tune the database configurations based on both the query vector and database states. QTune provides three database tuning granularities: query-level, workload-level, and cluster-level tuning. We deployed our techniques onto three real database systems, and experimental results show that QTune achieves high performance and outperforms the state-of-the-art tuning methods.

Published

2019

39. Qualitative subjective assessment of a high‐resolution database in a paediatric intensive care unit—Elaborating the perpetual patient's ID card

Author

David Brossier, Philippe Jouvet, Audrey Mathieu, Michael Sauthier, Isabelle Goyer, and Guillaume Emeriaud

Subjects

Response rate (survey), education.field_of_study, Databases, Factual, Database, business.industry, Health Policy, media_common.quotation_subject, Publications, Population, Public Health, Environmental and Occupational Health, Psychological intervention, Intensive Care Units, Pediatric, computer.software_genre, Database tuning, Paediatric intensive care unit, Data quality, Humans, Medicine, Quality (business), Quality level, Child, education, business, computer, media_common

Abstract

OBJECTIVE The main purpose of our study was to subjectively assess the quality of a paediatric intensive care unit (PICU) database according to the Directory of Clinical Databases (DoCDat) criteria. DESIGN AND SETTING A survey was conducted between April 1 and June 15, 2018, among the Sainte Justine PICU research group. POPULATION Every member of this group whose research activity required the use of the database and/or who was involved in the development/validation of the database. INTERVENTIONS None. MEASUREMENTS AND MAIN RESULTS All 10 research team members (one Information Technology specialist, one junior medical student, and eight clinician researchers) who used the high-resolution database fulfilled the survey (100% response rate). The median quality level of the Sainte Justine PICU database across all the 10 criteria was 3 (2-4), rated on a 1 (worst) to 4 (best) numeric scale. When compared with previously assessed databases through the DoCDat criteria, we found that the Sainte Justine PICU database performance was similar. CONCLUSIONS The PICU high-resolution database appeared of good quality when subjectively assessed by the DoCDat criteria. Further validation procedures are mandatory. We suggest that data quality assessment and validation procedures should be reported when creating a new database.

Published

2019

40. 3D GEO-CLUSTERING FOR WIRELESS SENSOR NETWORK IN SMART CITY

Author

Alias Abdul Rahman, S. Azri, and Uznir Ujang

Subjects

lcsh:Applied optics. Photonics, 030506 rehabilitation, Computer science, Distributed computing, Air pollution, 02 engineering and technology, medicine.disease_cause, Urban area, lcsh:Technology, Database tuning, 03 medical and health sciences, Smart city, 0202 electrical engineering, electronic engineering, information engineering, medicine, Cluster analysis, geography, geography.geographical_feature_category, lcsh:T, Wireless network, Node (networking), lcsh:TA1501-1820, Energy consumption, lcsh:TA1-2040, 020201 artificial intelligence & image processing, lcsh:Engineering (General). Civil engineering (General), 0305 other medical science, Wireless sensor network, Efficient energy use

Abstract

Smart city is a connection of physical and social infrastructure together with the information technology to leverage the collective intelligence of the city. Smart cities depend on a great extent on wireless sensor network to manage and maintain their services. Advanced sensor technologies are used to acquire information and help dealing with issues like air pollution, waste management, traffic optimization, and energy efficiency. However, no matter how much smart city may focus on sensor technology, data that are produced from sensors do not organize themselves in a database. Such tasks require a sophisticated database structure to produce informative data output. Besides that, wireless sensor network requires a proper design to improve the energy efficiency. The design will aid to prolong the lifespan of wireless network efficiently. In this study, we proposed a new technique that will be used to organize the information of wireless sensor network in the spatial database. Specific algorithm which is 3D geo-clustering algorithm is used to tackle several issues of location of the sensor in three-dimensional urban area in smart city. The algorithm is designed to minimizing the overlap among group clusters. Overlap plays an important role for energy efficiency. Thus, detection of sensors in two or more group clusters will avoid it from transmitting the same signal to cluster head node. It is prove that this algorithm would only create 5% to 10% overlap among group clusters. Several experiments are performed in this study to evaluate the algorithm. Based on the simulation results indicate that this algorithm can balance nodes energy consumption and prolong the network’s life span. It also has good stability and extensibility. Several tests are performed to validate the efficiency of the technique to measure the database performance.

Published

2019

41. The Comparison Firebase Realtime Database and MySQL Database Performance using Wilcoxon Signed-Rank Test

Author

Margaretha Ohyver, Ian Argus Chandra, Bonifasius Edwin Subagyo, Jurike V. Moniaga, and Iwa Sungkawa

Subjects

Database, Wilcoxon signed-rank test, Computer science, Process (engineering), 0202 electrical engineering, electronic engineering, information engineering, General Earth and Planetary Sciences, 020206 networking & telecommunications, 020201 artificial intelligence & image processing, 02 engineering and technology, computer.software_genre, computer, Database tuning, General Environmental Science

Abstract

This study aims to compare Firebase Realtime Database and MySQL performance as Database Management System for our Toddlers Daily Nutritional Needs Mobile Application. The comparison is in terms of Database response time. Their performance is compared using a common CRUD operations. Each operations data is analyzed using Wilcoxon Signed-Rank test. Our comparison results confirm that Firebase Realtime Database is more suitable as our Daily Nutritional Needs Mobile Application Database Management System since it could perform better response time. The key features match our needs to provide Realtime Data and it is also help simplify the process of developing applications.

Published

2019

42. Database Tuning using Natural Language Processing

Author

Immanuel Trummer

Subjects

Artificial neural network, Computer science, business.industry, Context (language use), computer.software_genre, Database tuning, Use case, State (computer science), Artificial intelligence, Language model, Transfer of learning, business, computer, Software, Natural language processing, Information Systems, Transformer (machine learning model)

Abstract

Introduction. We have seen significant advances in the state of the art in natural language processing (NLP) over the past few years [20]. These advances have been driven by new neural network architectures, in particular the Transformer model [19], as well as the successful application of transfer learning approaches to NLP [13]. Typically, training for specific NLP tasks starts from large language models that have been pre-trained on generic tasks (e.g., predicting obfuscated words in text [5]) for which large amounts of training data are available. Using such models as a starting point reduces task-specific training cost as well as the number of required training samples by orders of magnitude [7]. These advances motivate new use cases for NLP methods in the context of databases.

Published

2021

43. Similarity Metrics for SQL Query Clustering

Author

Gokhan Kul, Shambhu Upadhyaya, Varun Chandola, Duc Thanh Anh Luong, Oliver Kennedy, and Ting Xie

Subjects

SQL, Information retrieval, Computer science, Database schema, InformationSystems_DATABASEMANAGEMENT, Database administrator, 02 engineering and technology, Automatic summarization, Database tuning, Computer Science Applications, Set (abstract data type), Computational Theory and Mathematics, Similarity (network science), 020204 information systems, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Heuristics, Cluster analysis, computer, Information Systems, computer.programming_language

Abstract

Database access logs are the starting point for many forms of database administration, from database performance tuning, to security auditing, to benchmark design, and many more. Unfortunately, query logs are also large and unwieldy, and it can be difficult for an analyst to extract broad patterns from the set of queries found therein. Clustering is a natural first step towards understanding the massive query logs. However, many clustering methods rely on the notion of pairwise similarity, which is challenging to compute for SQL queries, especially when the underlying data and database schema is unavailable. We investigate the problem of computing similarity between queries, relying only on the query structure. We conduct a rigorous evaluation of three query similarity heuristics proposed in the literature applied to query clustering on multiple query log datasets, representing different types of query workloads. To improve the accuracy of the three heuristics, we propose a generic feature engineering strategy, using classical query rewrites to standardize query structure. The proposed strategy results in a significant improvement in the performance of all three similarity heuristics.

Published

2018

44. FSSort: External Sort For Solid State Drives

Author

Yubiao Chen, Jianzhong Li, and Hong Gao

Subjects

Sorting algorithm, Speedup, Parallel processing (DSP implementation), Computer science, Pipeline (computing), Parallelism (grammar), Sorting, Parallel computing, External sorting, Database tuning

Abstract

External sorting algorithm is an important operation in computer science and technology. External sorting algorithm plays a key role in big data processing and database performance. With more and more hardware resources integrated into SSDs, it makes them full of parallelism. This paper proposed a new external sorting algorithm called FSSort trying to exploiting the internal parallelism to accelerate the sorting process. FSSort can fully parallel the data loading and make the data writing in batchs in the run merge phase. Moreover, it makes the pipeline easier. Therefore, FSSort can make efficient use of the internal parallelism of SSDs. Experiments on unsorted data and partially sorted data on three different type of SSDs are conducted. Experimental results show that for unsorted data, the FSSort algorithm can achieve a speedup of 1.39~1.50 comparing to MONTRES, the previously proposed state art of sorting algorithm.

Published

2021

45. Workload-Aware Performance Tuning for Autonomous DBMSs

Author

Jiaheng Lu, Naresh Chainani, Zhengtong Yan, Chunbin Lin, Department of Computer Science, and Unified DataBase Management System research group / Jiaheng Lu

Subjects

Computer science, PREDICTION, Distributed computing, 02 engineering and technology, Workload, DATABASES, Tuning, Database tuning, Autonomous, Resource (project management), 0202 electrical engineering, electronic engineering, information engineering, Overall performance, DBMS, 060201 languages & linguistics, Focus (computing), Is-a, Performance tuning, 06 humanities and the arts, 113 Computer and information sciences, Classification, Information engineering, 0602 languages and literature, 020201 artificial intelligence & image processing, SYSTEM, Forecasting

Abstract

Optimal configuration is vital for a DataBase Management System (DBMS) to achieve high performance. There is no one-size-fits-all configuration that works for different workloads since each workload has varying patterns with different resource requirements. There is a relationship between configuration, workload, and system performance. If a configuration cannot adapt to the dynamic changes of a workload, there could be a significant degradation in the overall performance of DBMS unless a sophisticated administrator is continuously re-configuring the DBMS. In this tutorial, we focus on autonomous workload-aware performance tuning, which is expected to automatically and continuously tune the configuration as the workload changes. We survey three research directions, including 1) workload classification, 2) workload forecasting, and 3) workload-based tuning. While the first two topics address the issue of obtaining accurate workload information, the third one tackles the problem of how to properly use the workload information to optimize performance. We also identify research challenges and open problems, and give real-world examples about leveraging workload information for database tuning in commercial products (e.g., Amazon Redshift). We will demonstrate workload-aware performance tuning in Amazon Redshift in the presentation.

Published

2021

46. Towards a Benchmark for Learned Systems

Author

Andreas Kipf, Ryan Marcus, Tim Kraska, Laurent Bindschaedler, and Umar Farooq Minhas

Subjects

010201 computation theory & mathematics, Computer science, business.industry, Data management, Benchmark (computing), Workload, 0102 computer and information sciences, Benchmarking, Software engineering, business, 01 natural sciences, Throughput (business), Database tuning

Abstract

This paper aims to initiate a discussion around benchmarking data management systems with machine-learned components. Traditional benchmarks such as TPC or YCSB are insufficient to analyze and understand these learned systems because they evaluate the performance under a stable workload and data distribution. Learned systems automatically specialize and adapt database components to a changing workload, database, and execution environment, thereby making conventional metrics such as average throughput ill-suited to understand their performance fully. Moreover, the standard cost-per-performance metrics fail to account for essential trade-offs related to the training cost of models and the elimination of manual database tuning. We present several ideas for designing new benchmarks that are better suited to evaluate learned systems. The main challenges entail developing new metrics to capture the particularities of learned systems and ensuring that benchmark results remain comparable across many deployments with wide-ranging designs.

Published

2021

47. SW-WAL: Leveraging Address Remapping of SSDs to Achieve Single-Write Write-Ahead Logging

Author

Fei Wu, Qiulin Wu, Ke Wang, Jiguang Wan, Changsheng Xie, You Zhou, and Hao Lv

Subjects

Consistency (database systems), Atomicity, Hardware_MEMORYSTRUCTURES, Computer science, Interface (Java), NVM Express, Housekeeping (computing), Operating system, computer.software_genre, Host (network), computer, Database tuning, Flash file system

Abstract

Write-ahead logging (WAL) has been widely used to provide transactional atomicity in databases, such as SQLite and MySQL/InnoDB. However, the WAL introduces duplicate writes, where changes are recorded in the WAL file and then written to the database file, called checkpointing writes. On the other hand, NAND flash-based SSDs, which have an inherent indirection software layer, called flash translation layer (FTL), become commonplace in modern storage systems. Innovative SSD designs have been proposed to eliminate the WAL overheads by exploiting the FTL, such as providing an atomic write interface or utilizing its address remapping. However, these designs introduce significant performance overheads of maintaining and persisting extra transactional information to guarantee the transactional atomicity or mapping consistency. In this paper, we propose single-write WAL (SW-WAL), a novel cross-layer design, to eliminate WAL-induced duplicate writes on SSDs with minimal overheads. The SSD exposes an address remapping interface to the host, through which the checkpointing writes can be completed without conducting real data writes. To ensure the transactional atomicity and mapping consistency, we make the SSD aware of the transactional writes to the WAL file. Specifically, when transactional data are written to the WAL file, both transactional and mapping semantics are delivered from the host to the SSD and persisted in relevant flash pages as housekeeping metadata without any extra overheads. We implement a prototype of SW-WAL, which runs a popular database SQLite on an emulated NVMe SSD. Experimental results show that SW-WAL improves the database performance by up to 62% compared with original SQLite that bears the WAL overheads and up to 32% compared with the state-of-the-art design that eliminates the WAL overheads.

Published

2021

48. Dynamic Environment Simulation for Database Performance Evaluation

Author

Rong Zhang, Qian Su, Chunxi Zhang, and Aoying Zhou

Subjects

Dynamic simulation, Resource (project management), Computer science, business.industry, Distributed computing, Key (cryptography), Workload, Cloud computing, Resource management, Benchmarking, business, Database tuning

Abstract

The wide popularity and the maturity of cloud platform promote the development of Cloud Native database systems. On-demand resource configuration is an attractive feature of cloud platforms, but its complexity in resource management challenges the benchmarking of database performance, which is no longer in a stand-alone test environment. Sharing or contending of resources aggravates the dynamics of environment, which can influence database performance much. In order to expose the real performance in production environment, environment simulation is prerequisite for benchmarking databases. Although Docker Containers have been promoted to isolate resources, we still cannot achieve the true resource isolation. In this paper, we first define four kinds of workload generators corresponding to the key environmental dimensions, then builds a multi-order polynomial linear regression model to calculate the correlation among workloads, and simulates the dynamical changes of environment. It is the first work to provide a complete and dynamic simulation to environment. We conduct comprehensive experiments on the open-source DBMS by running the standard benchmarks to verify the effectiveness of our work.

Published

2021

49. Writing Good SQL for Db2

Author

W. David Ashley

Subjects

World Wide Web, SQL, Relational database, Computer science, InformationSystems_DATABASEMANAGEMENT, Database administrator, computer, Database design, Database tuning, computer.programming_language

Abstract

Writing good SQL is really about database performance. Although tuning of the database can help with performance, bad SQL will impact performance in ways that tuning the database just cannot cure. When the database administrator(s) has done their job, it is time for the training of the users to begin. All relational databases have their quirks, and it is paramount for the users to be aware of these and have the knowledge to either bypass them or create SQL that takes advantage of the database design and features.

Published

2021

50. Design of Big Data Control System for Electrical Automation

Author

Lin-ze Gao

Subjects

Data access, Software, business.industry, Computer science, Control system, Entity–relationship model, Big data, Software design, business, Automation, Computer hardware, Database tuning

Abstract

The traditional big data control system is limited by hardware and software resources, which leads to low efficiency of data access and calculation. Therefore, a big data control system for electrical automation is designed. The system is mainly designed from two aspects of hardware and software. The hardware mainly designs a digital acquisition circuit, selects the model of each part in the overall working module of the acquisition board, and designs a pseudo dual-port RAM to store data, which is convenient for the processing of massive data and Control; in software design, according to the needs of the system, light MySQL and distributed HBase are used to jointly design the ER diagram and database table of the database user database to make the database performance more optimized. In the control algorithm of the system, the butterfly operation is used to optimized calculate the speed, obtain the operation error through the operation and correct it to ensure the efficiency of the system operation. The experimental results show that the performance of the designed system is better than the traditional system in data insertion speed, access speed and calculation speed, which fully verifies the application value of the system.

Published

2021