The goal of this work is to facilitate the development of proactive power- and temperature-aware resource managers that leverage machine learning in order to attain their objectives. In this context, the availability of sufficiently large amounts of relevant data, which are essential for learning and, therefore, exploration of research ideas, is elusive. In order to fulfill the need, we present a toolchain for fast generation of realistic power and temperature profiles of computer systems. The toolchain provides profuse representative data to learn from during development stages. The overreaching objective is to help research by making it tractable to experiment with the highly promising but data-demanding state-of-the-art techniques for pr...
In the context of energy transition in Germany, precise load forecasting enables reducing the impact...
The client has need for acurate predictions of power usage for their assets. There is historic data ...
The demand for more powerful supercomputers continues to increase along with the types of applicatio...
The goal of this work is to facilitate the development of proactive power- and temperature-aware res...
Energy and power are the main design constraints for modern high-performance computing systems. Inde...
Abstract — The low cost of clusters built using commodity components has made it possible for many m...
Performance, power, and temperature are now all first-order design constraints. Balancing power effi...
Temperature plays an increasingly important role in the over-all performance and reliability of a co...
As the field of supercomputing continues its relentless push towards greater speeds and higher level...
Current multicore platforms contain different types of cores, organized in clusters (e.g., ARM's big...
Estimating the maximum power and thermal characteristics of a processor is essential for designing i...
Power and thermal design and management are critical components of high performance computing (HPC) ...
The Complexity of emerging multi/many-core architectures and diversity of modern workloads demands c...
The low cost of clusters built using commodity compo-nents has made it possible for many more users ...
The Complexity of emerging multi/many-core architectures and diversity of modern workloads demands c...
In the context of energy transition in Germany, precise load forecasting enables reducing the impact...
The client has need for acurate predictions of power usage for their assets. There is historic data ...
The demand for more powerful supercomputers continues to increase along with the types of applicatio...
The goal of this work is to facilitate the development of proactive power- and temperature-aware res...
Energy and power are the main design constraints for modern high-performance computing systems. Inde...
Abstract — The low cost of clusters built using commodity components has made it possible for many m...
Performance, power, and temperature are now all first-order design constraints. Balancing power effi...
Temperature plays an increasingly important role in the over-all performance and reliability of a co...
As the field of supercomputing continues its relentless push towards greater speeds and higher level...
Current multicore platforms contain different types of cores, organized in clusters (e.g., ARM's big...
Estimating the maximum power and thermal characteristics of a processor is essential for designing i...
Power and thermal design and management are critical components of high performance computing (HPC) ...
The Complexity of emerging multi/many-core architectures and diversity of modern workloads demands c...
The low cost of clusters built using commodity compo-nents has made it possible for many more users ...
The Complexity of emerging multi/many-core architectures and diversity of modern workloads demands c...
In the context of energy transition in Germany, precise load forecasting enables reducing the impact...
The client has need for acurate predictions of power usage for their assets. There is historic data ...
The demand for more powerful supercomputers continues to increase along with the types of applicatio...