Eun-Sung Jung scite author profile

Please cite this article as: K. Maheshwari, E.-S. Jung, J. Meng, V. Morozov, V. Vishwanath, R. Kettimuthu, Workflow performance improvement using model-based scheduling over multiple clusters and clouds, Future Generation Computer Systems (2015), http://dx. AbstractIn recent years, a variety of computational sites and resources have emerged, and users often have access to multiple resources that are distributed. These sites are heterogeneous in nature and performance of different tasks in a workflow varies from one site to another. Additionally, users typically have a limited resource allocation at each site capped by administrative policies. In such cases, judicious scheduling strategy is required in order to map tasks in the workflow to resources so that the workload is balanced among sites and the overhead is minimized in data transfer. Most existing systems either run the entire workflow in a single site or use naïve approaches to distribute the tasks across sites or leave it to the user to optimize the allocation of tasks to distributed resources. This results in a significant loss in productivity. We propose a multi-site workflow scheduling technique that uses performance models to predict the execution time on resources and dynamic probes to identify the achievable network throughput between sites. We evaluate our approach using real world applications using the Swift parallel and distributed execution framework. We use two distinct computational environments-geographically distributed multiple clusters and multiple clouds. We show that our approach improves the resource utilization and reduces execution time when compared to the default schedule.

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Auger line shape measurements using positron annihilation induced Auger electron spectroscopy

Weiss

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Journal of Electron Spectroscopy and Related Phenomena

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A new ruler on the storage market: 3D-NAND flash for high-density memory and its technology evolutions and challenges on the future

Lee

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et al. 2016

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Eun-Sung Jung

Evolution of NAND Flash Memory: From 2D to 3D as a Storage Market Leader

Bandwidth Scheduling and Path Computation Algorithms for Connection-Oriented Networks

Workflow performance improvement using model-based scheduling over multiple clusters and clouds

Auger line shape measurements using positron annihilation induced Auger electron spectroscopy

A new ruler on the storage market: 3D-NAND flash for high-density memory and its technology evolutions and challenges on the future

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