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Achieving Accurate Predictions of Future Events Under Hardware Heterogeneity
Heterogeneous hardware is becoming increasingly available in modern hardware, while research breakthroughs enforce the expectation that heterogeneity will keep increasing in the future. Significant gains can be achieved via appropriate utilization of heterogeneity, in terms of performance and power consumption, however, poor utilization can have a detrimental effect. Intelligent scheduling and resource management is a crucial challenge we need to overcome in order to harvest the full potential of heterogeneous hardware. As systems become larger and include greater levels of hardware diversity, the importance of intelligent scheduling and resource management is further accentuated.This dissertation presents techniques that aid the process of scheduling and resource management in the presence of heterogeneous hardware, via accurately predicting upcoming runtime events. With a proactive and accurate view of the near future, schedulers can utilize the underlying hardware more efficiently, and fully take advantage of the available benefits.By adapting a majority element heuristic, this dissertation significantly improves the accuracy of predicting memory addresses about to be accessed, while reducing prediction-related costs by a factor of ten thousand compared to previously proposed predictive approaches. Coupled with novel microarchitectural modifications, accurate address predictions are shown to improve the performance of heterogeneous memory architectures.Machine learning-based performance predictors are further presented, capable of predicting a program's performance when executed on a given general-purpose core. Trained to model the subtleties of the interaction between hardware and software, these predictors are capable of generating highly accurate predictions even for cores with varied Instruction Set Architectures. Utilizing these performance predictions for job scheduling, is shown to improve overall system performance. The trained predictors are further examined and interpreted in order to visualize the correlations between features picked up and amplified during training.Finally, this dissertation demonstrates that scheduling algorithms cannot guarantee deriving an optimal schedule during realistic execution scenarios due to the underlying hardware heterogeneity, the wide range of runtime requirements of software, as well as prediction error from performance predictors. In response, deep neural networks are trained to select one scheduling approach from a list of options with varied overheads and correctness guarantees. The scheduling approach chosen, is the one which will most likely return the highest-performance schedule with the lowest overhead, given a particular instance of the job-to-core assignment problem
Technologies and Applications for Big Data Value
This open access book explores cutting-edge solutions and best practices for big data and data-driven AI applications for the data-driven economy. It provides the reader with a basis for understanding how technical issues can be overcome to offer real-world solutions to major industrial areas. The book starts with an introductory chapter that provides an overview of the book by positioning the following chapters in terms of their contributions to technology frameworks which are key elements of the Big Data Value Public-Private Partnership and the upcoming Partnership on AI, Data and Robotics. The remainder of the book is then arranged in two parts. The first part “Technologies and Methods” contains horizontal contributions of technologies and methods that enable data value chains to be applied in any sector. The second part “Processes and Applications” details experience reports and lessons from using big data and data-driven approaches in processes and applications. Its chapters are co-authored with industry experts and cover domains including health, law, finance, retail, manufacturing, mobility, and smart cities. Contributions emanate from the Big Data Value Public-Private Partnership and the Big Data Value Association, which have acted as the European data community's nucleus to bring together businesses with leading researchers to harness the value of data to benefit society, business, science, and industry. The book is of interest to two primary audiences, first, undergraduate and postgraduate students and researchers in various fields, including big data, data science, data engineering, and machine learning and AI. Second, practitioners and industry experts engaged in data-driven systems, software design and deployment projects who are interested in employing these advanced methods to address real-world problems
Technologies and Applications for Big Data Value
This open access book explores cutting-edge solutions and best practices for big data and data-driven AI applications for the data-driven economy. It provides the reader with a basis for understanding how technical issues can be overcome to offer real-world solutions to major industrial areas. The book starts with an introductory chapter that provides an overview of the book by positioning the following chapters in terms of their contributions to technology frameworks which are key elements of the Big Data Value Public-Private Partnership and the upcoming Partnership on AI, Data and Robotics. The remainder of the book is then arranged in two parts. The first part “Technologies and Methods” contains horizontal contributions of technologies and methods that enable data value chains to be applied in any sector. The second part “Processes and Applications” details experience reports and lessons from using big data and data-driven approaches in processes and applications. Its chapters are co-authored with industry experts and cover domains including health, law, finance, retail, manufacturing, mobility, and smart cities. Contributions emanate from the Big Data Value Public-Private Partnership and the Big Data Value Association, which have acted as the European data community's nucleus to bring together businesses with leading researchers to harness the value of data to benefit society, business, science, and industry. The book is of interest to two primary audiences, first, undergraduate and postgraduate students and researchers in various fields, including big data, data science, data engineering, and machine learning and AI. Second, practitioners and industry experts engaged in data-driven systems, software design and deployment projects who are interested in employing these advanced methods to address real-world problems