Publications

Aguilar, Michael J.; Regier, Phillip A.; Pedretti, Kevin P.; Curry, Matthew L.; Ogden, Jeffry B.; Ward, Harry L.

Abstract not provided.

Laros, James H.; Pedretti, Kevin P.; Hammond, Simon D.; Aguilar, Michael J.; Curry, Matthew L.; Grant, Ryan E.; Hoekstra, Robert J.; Klundt, Ruth A.; Monk, Stephen T.; Ogden, Jeffry B.; Olivier, Stephen L.; Scott, Randall D.; Ward, Harry L.; Younge, Andrew J.

The Vanguard program informally began in January 2017 with the submission of a white pa- per entitled "Sandia's Vision for a 2019 Arm Testbed" to NNSA headquarters. The program proceeded in earnest in May 2017 with an announcement by Doug Wade (Director, Office of Advanced Simulation and Computing and Institutional R&D at NNSA) that Sandia Na- tional Laboratories (Sandia) would host the first Advanced Architecture Prototype platform based on the Arm architecture. In August 2017, Sandia formed a Tri-lab team chartered to develop a robust HPC software stack for Astra to support the Vanguard program goal of demonstrating the viability of Arm in supporting ASC production computing workloads. This document describes the high-level Vanguard program goals, the Vanguard-Astra project acquisition plan and procurement up to contract placement, the initial software stack environment planned for the Vanguard-Astra platform (Astra), a description of how the communities of users will utilize the platform during the transition from the open network to the classified network, and initial performance results.

Laros, James H.; Pedretti, Kevin P.; Hammond, Simon D.; Aguilar, Michael J.; Curry, Matthew L.; Grant, Ryan E.; Hoekstra, Robert J.; Klundt, Ruth A.; Monk, Stephen T.; Ogden, Jeffry B.; Olivier, Stephen L.; Scott, Randall D.; Ward, Harry L.; Younge, Andrew J.

The Vanguard program informally began in January 2017 with the submission of a white pa- per entitled "Sandia's Vision for a 2019 Arm Testbed" to NNSA headquarters. The program proceeded in earnest in May 2017 with an announcement by Doug Wade (Director, Office of Advanced Simulation and Computing and Institutional R&D at NNSA) that Sandia Na- tional Laboratories (Sandia) would host the first Advanced Architecture Prototype platform based on the Arm architecture. In August 2017, Sandia formed a Tri-lab team chartered to develop a robust HPC software stack for Astra to support the Vanguard program goal of demonstrating the viability of Arm in supporting ASC production computing workloads. This document describes the high-level Vanguard program goals, the Vanguard-Astra project acquisition plan and procurement up to contract placement, the initial software stack environment planned for the Vanguard-Astra platform (Astra), a description of how the communities of users will utilize the platform during the transition from the open network to the classified network, and initial performance results.

Lacy, Susan L.; Noe, John P.; Ogden, Jeffry B.; Hammond, Simon D.

Abstract not provided.

Agelastos, Anthony M.; Pase, Douglas M.; Amspaugh, Kathleen A.; Dinge, Dennis D.; Haskell, Karen H.; Ice, Lisa I.; Lamb, Justin M.; Shaw, Ryan P.; Stevenson, Joel O.; Brunini, Victor B.; Clausen, Jonathan C.; Crawford, Martin J.; Valdez, Greg D.; Klundt, Ruth A.; Monk, Stephen T.; Ogden, Jeffry B.

Abstract not provided.

Agelastos, Anthony M.; Pase, Douglas M.; Klitsner, Tom K.; Monk, Stephen T.; Noe, John P.; Pavlakos, Constantine P.; Klundt, Ruth A.; Stevenson, Joel O.; Lamb, Justin M.; Ogden, Jeffry B.

Abstract not provided.

Allan, Benjamin A.; Schmitz, Mark E.; Walsh, Edward J.; Aguilar, Michael J.; Brandt, James M.; Gentile, Ann C.; Ogden, Jeffry B.; Monk, Stephen T.; Noe, John P.

Abstract not provided.

Parallel Computing

Agelastos, Anthony M.; Allan, Benjamin A.; Brandt, James M.; Gentile, Ann C.; Lefantzi, Sophia L.; Monk, Stephen T.; Ogden, Jeffry B.; Rajan, Mahesh R.; Stevenson, Joel O.

A detailed understanding of HPC applications’ resource needs and their complex interactions with each other and HPC platform resources are critical to achieving scalability and performance. Such understanding has been difficult to achieve because typical application profiling tools do not capture the behaviors of codes under the potentially wide spectrum of actual production conditions and because typical monitoring tools do not capture system resource usage information with high enough fidelity to gain sufficient insight into application performance and demands. In this paper we present both system and application profiling results based on data obtained through synchronized system wide monitoring on a production HPC cluster at Sandia National Laboratories (SNL). We demonstrate analytic and visualization techniques that we are using to characterize application and system resource usage under production conditions for better understanding of application resource needs. Our goals are to improve application performance (through understanding application-to-resource mapping and system throughput) and to ensure that future system capabilities match their intended workloads.

Allan, Benjamin A.; Lefantzi, Sophia L.; Walsh, Edward J.; Ogden, Jeffry B.; Gauntt, Nathan E.

Abstract not provided.

Proceedings - IEEE International Conference on Cluster Computing, ICCC

Agelastos, Anthony M.; Allan, Benjamin A.; Brandt, James M.; Gentile, Ann C.; Lefantzi, Sophia L.; Monk, Stephen T.; Ogden, Jeffry B.; Rajan, Mahesh R.; Stevenson, Joel O.

A detailed understanding of HPC application's resource needs and their complex interactions with each other and HPC platform resources is critical to achieving scalability and performance. Such understanding has been difficult to achieve because typical application profiling tools do not capture the behaviors of codes under the potentially wide spectrum of actual production conditions and because typical monitoring tools do not capture system resource usage information with high enough fidelity to gain sufficient insight into application performance and demands. In this paper we present both system and application profiling results based on data obtained through synchronized system wide monitoring on a production HPC cluster at Sandia National Laboratories (SNL). We demonstrate analytic and visualization techniques that we are using to characterize application and system resource usage under production conditions for better understanding of application resource needs. Our goals are to improve application performance (through understanding application-to-resource mapping and system throughput) and to ensure that future system capabilities match their intended workloads.

Agelastos, Anthony M.; Allan, Benjamin A.; Brandt, James M.; Gentile, Ann C.; Monk, Stephen T.; Ogden, Jeffry B.; Rajan, Mahesh R.; Stevenson, Joel O.

Abstract not provided.

Agelastos, Anthony M.; Allan, Benjamin A.; Brandt, James M.; Gentile, Ann C.; Monk, Stephen T.; Ogden, Jeffry B.; Rajan, Mahesh R.; Stevenson, Joel O.

Abstract not provided.

International Conference for High Performance Computing, Networking, Storage and Analysis, SC

Agelastos, Anthony M.; Allan, Benjamin A.; Brandt, James M.; Cassella, Paul; Enos, Jeremy; Fullop, Joshi; Gentile, Ann C.; Monk, Stephen T.; Naksinehaboon, Nichamon; Ogden, Jeffry B.; Rajan, Mahesh R.; Showerman, Michael; Stevenson, Joel O.; Taerat, Narate; Tucker, Tom

Understanding how resources of High Performance Compute platforms are utilized by applications both individually and as a composite is key to application and platform performance. Typical system monitoring tools do not provide sufficient fidelity while application profiling tools do not capture the complex interplay between applications competing for shared resources. To gain new insights, monitoring tools must run continuously, system wide, at frequencies appropriate to the metrics of interest while having minimal impact on application performance. We introduce the Lightweight Distributed Metric Service for scalable, lightweight monitoring of large scale computing systems and applications. We describe issues and constraints guiding deployment in Sandia National Laboratories' capacity computing environment and on the National Center for Supercomputing Applications' Blue Waters platform including motivations, metrics of choice, and requirements relating to the scale and specialized nature of Blue Waters. We address monitoring overhead and impact on application performance and provide illustrative profiling results.

Kelly, Suzanne M.; Ogden, Jeffry B.

A study has been completed into the RAS features necessary for Massively Parallel Processor (MPP) systems. As part of this research, a use case model was built of how RAS features would be employed in an operational MPP system. Use cases are an effective way to specify requirements so that all involved parties can easily understand them. This technique is in contrast to laundry lists of requirements that are subject to misunderstanding as they are without context. As documented in the use case model, the study included a look at incorporating system software and end-user applications, as well as hardware, into the RAS system.