From 8202b99e64dae11af2d3ead41016c0fa411e4033 Mon Sep 17 00:00:00 2001 From: Lois Curfman McInnes Date: Fri, 15 Nov 2024 19:18:47 -0500 Subject: [PATCH] Update hpcbp-089-green-software.md minor edits --- _events-draft/hpcbp-089-green-software.md | 8 ++++---- 1 file changed, 4 insertions(+), 4 deletions(-) diff --git a/_events-draft/hpcbp-089-green-software.md b/_events-draft/hpcbp-089-green-software.md index 6c44a25..eabbed6 100644 --- a/_events-draft/hpcbp-089-green-software.md +++ b/_events-draft/hpcbp-089-green-software.md @@ -2,14 +2,14 @@ startdate: "2025-01-15" time: "1:00 pm - 2:00 pm EST" # Ensure that time zone is correct with respect to standard/daylight time # -title: "High-Performance Computing and Software Sustainability: Towards Green Software Development" +title: "High-Performance Computing and Software Sustainability: Toward Green Software Development" # presenters: - name: Antigoni Georgiadou affiliation: Oak Ridge National Laboratory github-id: GeorgiadouAntigoni bio: | - Antigoni Georgiadou is a Computational Scientist in Mathematics at the Oak Ridge National Laboratory in the Science Engagement Section, Algorithms & Performance Analysis (APA) Group. Dr. Georgiadou obtained her Ph.D. in Computational Mathematics from Florida State University where she worked on optimization in stellar evolution applications. Before joining the APA Group, Antigoni Georgiadou was a postdoctoral research associate in OLCF’s Advanced Computing for Nuclear, Particles, & Astrophysics Group. Astrophysics applications in the areas of astrophysics simulations have been motivating some of her research questions. As a member of the APA Group Dr. Georgiadou collaborates with scientists across domains to optimize performance and requirements of applications on OLCF supercomputers. Dr. Georgiadou is the task lead of the Uncertainty Quantification Working Group in the Science Engagement section and has been supporting INCITE, ECP, and CAAR projects for current and emerging GPU-accelerated systems at the OLCF. Since 2023, Dr. Georgiadou is the Chair of the SC workshop on "Enabling Predictive Science with Optimization and Uncertainty Quantification in HPC" taking place at The International Conference for High Performance Computing, Networking, Storage, and Analysis (SC'23, SC'24). Since July 2023, she also serves as a member of the Fortran standards committee. + Antigoni Georgiadou is a Computational Scientist in Mathematics at the Oak Ridge National Laboratory in the Science Engagement Section, Algorithms & Performance Analysis (APA) Group. Dr. Georgiadou obtained her Ph.D. in Computational Mathematics from Florida State University, where she worked on optimization in stellar evolution applications. Before joining the APA Group, Antigoni Georgiadou was a postdoctoral research associate in OLCF’s Advanced Computing for Nuclear, Particles, & Astrophysics Group. Astrophysics applications and simulations motivate some of her research; collaborates with scientists across domains to optimize performance and requirements of applications on OLCF supercomputers. Dr. Georgiadou is the task lead of the Uncertainty Quantification Working Group in the Science Engagement section and has been supporting INCITE, ECP, and CAAR projects for current and emerging GPU-accelerated systems at the OLCF. Dr. Georgiadou has served as chair of the SC workshop on "Enabling Predictive Science with Optimization and Uncertainty Quantification in HPC" taking place at SC'23 and SC'24. Since July 2023, she also serves as a member of the Fortran standards committee. # bsswio-topics: ["high-performance computing (HPC)", "online learning"] registration-url: https://www.zoomgov.com/meeting/register/vJIsc-2tpjMvHmDursdh-B6gqAbsiVBV7yk @@ -40,6 +40,6 @@ activities: # topic: energy efficiency and green software practices short-description: | - As power consumption of data centers is becoming a hot topic, there is a widespread interest in green software development. This presentation is intended to spark discusions on how software developers can produce better software in terms of more energy efficient approaches. + As the power consumption of data centers is becoming a hot topic, there is a widespread interest in green software development. This presentation aims to spark discusion on how software developers can produce better software in terms of more energy efficient approaches. --- -As power consumption of data centers is becoming a hot topic. With the growth of AI and exascale, systems are requiring 30+ MW, enough to power sizable towns. There is a widespread interest in green software development with academia, government, and industry spearheading the discussion on how software developers will produce better software in terms of more energy efficient approaches. I will discuss topics concerning Leadership Computing Facilities with respect to energy consumption, awareness of the costs of running on the system, and the potential green software practices. This talk aims to spark further discussions on specific software practices and topics on energy efficient software. My goals include raising awareness of good software practices, improving scientific productivity, and informing ongoing efforts for sustainability planning. +The power consumption of data centers is becoming a hot topic. With the growth of AI and exascale, systems are requiring 30+ MW, enough to power sizable towns. There is widespread interest in green software development, with academia, government, and industry spearheading the discussion of how software developers can produce better software in terms of more energy-efficient approaches. This presentation will discuss topics concerning Leadership Computing Facilities with respect to energy consumption, awareness of the costs of running on the systems, and potential green software practices. This talk aims to spark further discussion on specific software practices related to energy-efficient software. The goals include raising awareness of good software practices, improving scientific productivity, and informing ongoing efforts for sustainability planning.