An architecture for fast and general data processing on large clusters [electronic resources] / Matei Zaharia.
Material type: TextSeries: ACM books ; #11.Publication details: [New York] : Association for Computing Machinery ; [San Rafael] : Morgan & Claypool Publishers, c2016Description: 1 online resource (208 pages); 1 pdf (208 pages)ISBN: 9781970001587 (epub); 1970001585 (epub); 9781970001570 (pdf); 1970001577 (pdf); 9781970001594; 9781970001563Subject(s): Electronic data processing -- Distributed processing | Distributed databases | Big data | Big data | Distributed databases | Electronic data processing -- Distributed processingDDC classification: 004.36 LOC classification: QA76.9.D5 | Z34 2016ebOnline resources: Available in ACM Digital Library. Requires Log In to view full text.Item type | Current library | Collection | Call number | Copy number | Status | Date due | Barcode |
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General Circulation | APU Library Online Database | E-Book | QA76.9.D5 Z34 2016eb (Browse shelf (Opens below)) | 1 | Available |
Includes bibliographical references (pages 119-128).
1. Introduction -- 1.1 Problems with specialized systems -- 1.2 Resilient distributed datasets (RDDs) -- 1.3 Models implemented over RDDs -- 1.4 Summary of results -- 1.5 Book overview --
2. Resilient distributed datasets -- 2.1 Introduction -- 2.2 RDD abstraction -- 2.3 Spark programming interface -- 2.4 Representing RDDs -- 2.5 Implementation -- 2.6 Evaluation -- 2.7 Discussion -- 2.8 Related work -- 2.9 Summary --
3. Models built over RDDs -- 3.1 Introduction -- 3.2 Techniques for implementing other models on RDDs -- 3.3 Shark: SQL on RDDs -- 3.4 Implementation -- 3.5 Performance -- 3.6 Combining SQL with complex analytics -- 3.7 Summary --
4. Discretized streams -- 4.1 Introduction -- 4.2 Goals and background -- 4.3 Discretized streams (D-streams) -- 4.4 System architecture -- 4.5 Fault and straggler recovery -- 4.6 Evaluation -- 4.7 Discussion -- 4.8 Related work -- 4.9 Summary --
5. Generality of RDDs -- 5.1 Introduction -- 5.2 Expressiveness perspective -- 5.3 Systems perspective -- 5.4 Limitations and extensions -- 5.5 Related work -- 5.6 Summary --
6. Conclusion -- 6.1 Lessons learned -- 6.2 Evolution of spark in industry -- 6.3 Future work -- References -- Author's biography.
The past few years have seen a major change in computing systems, as growing data volumes and stalling processor speeds require more and more applications to scale out to clusters. Today, a myriad data sources, from the Internet to business operations to scientific instruments, produce large and valuable data streams. However, the processing capabilities of single machines have not kept up with the size of data. As a result, organizations increasingly need to scale out their computations over clusters. At the same time, the speed and sophistication required of data processing have grown. In addition to simple queries, complex algorithms like machine learning and graph analysis are becoming common. And in addition to batch processing, streaming analysis of real-time data is required to let organizations take timely action. Future computing platforms will need to not only scale out traditional workloads, but support these new applications too.
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