2323298
Cooperative Agreement
Overview
Grant Description
Institute for Research and Innovation in Software for High Energy Physics (IRIS-HEP) - The quest to understand the fundamental building blocks of matter in the universe and their interactions is one of the oldest and most ambitious of human scientific endeavors.
In elementary particles physics, the most successful theory to date is known as the Standard Model of Particle Physics. Experimental facilities such as CERN's Large Hadron Collider (LHC) represent a huge step forward in this quest as evidenced by the discovery of the Higgs Boson.
The next phase of this global scientific project will be the High-Luminosity LHC (HL-LHC), which will collect data starting circa 2029 and continue into the 2030's. The primary science goal at the HL-LHC is to search for physics beyond the Standard Model.
While the Standard Model has been successful in explaining experimental evidence to date, scientists know that it is not complete, because it does not account for dark matter or neutrino masses, for example.
In the HL-LHC era, the ATLAS and CMS experiments will record 10 times as much data from 100 times as many collisions as were used to discover the Higgs Boson. As such, significant R&D advances must be achieved in the software for acquiring, managing, processing, and analyzing HL-LHC data to realize the scientific potential of the upgraded accelerator and detectors and the planned LHC science program.
In this context, the Institute for Research and Innovation in Software for High Energy Physics (IRIS-HEP) will play a leading role to deliver the software and computing systems required to meet the challenges posed by the LHC in the high luminosity era.
This project addresses key elements of the International Roadmap for HEP Software and Computing R&D for the 2020s and implements the updated IRIS-HEP strategic plan for the next phase of software upgrades for HL-LHC physics published in December 2022.
IRIS-HEP will advance R&D in three high-impact areas: (1) development of innovative algorithms for data reconstruction and triggering; (2) development of highly performant analysis systems that reduce 'time-to-insight' and maximize the HL-LHC scientific potential; and (3) development of data organization, management, and access (DOMA) systems for the community's upcoming exabyte era.
IRIS-HEP will sustain investments in today's distributed high-throughput computing (DHTC) and build an integration path to deliver its facilities R&D activities into the distributed production infrastructure.
As an intellectual hub, IRIS-HEP will lead efforts to (1) build convergence research between HEP and the cyberinfrastructure, data science, and computer science communities for novel approaches to address the compelling software and computing challenges of HL-LHC era HEP experiments, (2) engage broadly with researchers and students from U.S. universities and labs emphasizing professional development and training, and (3) sustain HEP software and underlying knowledge related to the algorithms and their implementations over the two decades required.
In addition to enabling the best possible HL-LHC science, IRIS-HEP will bring together the larger cyberinfrastructure and HEP communities to address the complex issues at the intersection of exascale high-throughput computing and exabyte-scale datasets in ways broadly relevant to many research domains with emerging data-intensive needs.
The education and training provided by the institute in the form of summer schools and a fellows program will contribute to a highly qualified STEM workforce.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the foundation's intellectual merit and broader impacts review criteria. Subawards are planned for this award.
In elementary particles physics, the most successful theory to date is known as the Standard Model of Particle Physics. Experimental facilities such as CERN's Large Hadron Collider (LHC) represent a huge step forward in this quest as evidenced by the discovery of the Higgs Boson.
The next phase of this global scientific project will be the High-Luminosity LHC (HL-LHC), which will collect data starting circa 2029 and continue into the 2030's. The primary science goal at the HL-LHC is to search for physics beyond the Standard Model.
While the Standard Model has been successful in explaining experimental evidence to date, scientists know that it is not complete, because it does not account for dark matter or neutrino masses, for example.
In the HL-LHC era, the ATLAS and CMS experiments will record 10 times as much data from 100 times as many collisions as were used to discover the Higgs Boson. As such, significant R&D advances must be achieved in the software for acquiring, managing, processing, and analyzing HL-LHC data to realize the scientific potential of the upgraded accelerator and detectors and the planned LHC science program.
In this context, the Institute for Research and Innovation in Software for High Energy Physics (IRIS-HEP) will play a leading role to deliver the software and computing systems required to meet the challenges posed by the LHC in the high luminosity era.
This project addresses key elements of the International Roadmap for HEP Software and Computing R&D for the 2020s and implements the updated IRIS-HEP strategic plan for the next phase of software upgrades for HL-LHC physics published in December 2022.
IRIS-HEP will advance R&D in three high-impact areas: (1) development of innovative algorithms for data reconstruction and triggering; (2) development of highly performant analysis systems that reduce 'time-to-insight' and maximize the HL-LHC scientific potential; and (3) development of data organization, management, and access (DOMA) systems for the community's upcoming exabyte era.
IRIS-HEP will sustain investments in today's distributed high-throughput computing (DHTC) and build an integration path to deliver its facilities R&D activities into the distributed production infrastructure.
As an intellectual hub, IRIS-HEP will lead efforts to (1) build convergence research between HEP and the cyberinfrastructure, data science, and computer science communities for novel approaches to address the compelling software and computing challenges of HL-LHC era HEP experiments, (2) engage broadly with researchers and students from U.S. universities and labs emphasizing professional development and training, and (3) sustain HEP software and underlying knowledge related to the algorithms and their implementations over the two decades required.
In addition to enabling the best possible HL-LHC science, IRIS-HEP will bring together the larger cyberinfrastructure and HEP communities to address the complex issues at the intersection of exascale high-throughput computing and exabyte-scale datasets in ways broadly relevant to many research domains with emerging data-intensive needs.
The education and training provided by the institute in the form of summer schools and a fellows program will contribute to a highly qualified STEM workforce.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the foundation's intellectual merit and broader impacts review criteria. Subawards are planned for this award.
Funding Goals
THE GOAL OF THIS FUNDING OPPORTUNITY, "DIVISION OF PHYSICS: INVESTIGATOR-INITIATED RESEARCH PROJECTS", IS IDENTIFIED IN THE LINK: HTTPS://WWW.NSF.GOV/PUBLICATIONS/PUB_SUMM.JSP?ODS_KEY=NSF21593
Grant Program (CFDA)
Awarding / Funding Agency
Place of Performance
Princeton,
New Jersey
08544-2001
United States
Geographic Scope
Single Zip Code
Related Opportunity
Analysis Notes
Amendment Since initial award the total obligations have increased 338% from $5,300,000 to $23,201,013.
The Trustees Of Princeton University was awarded
IRIS-HEP: Advancing Software Computing High Energy Physics Research
Cooperative Agreement 2323298
worth $23,201,013
from the Division of Physics in September 2023 with work to be completed primarily in Princeton New Jersey United States.
The grant
has a duration of 5 years and
was awarded through assistance program 47.049 Mathematical and Physical Sciences.
The Cooperative Agreement was awarded through grant opportunity Division of Physics: Investigator-Initiated Research Projects.
Status
(Ongoing)
Last Modified 8/21/25
Period of Performance
9/1/23
Start Date
8/31/28
End Date
Funding Split
$23.2M
Federal Obligation
$0.0
Non-Federal Obligation
$23.2M
Total Obligated
Activity Timeline
Subgrant Awards
Disclosed subgrants for 2323298
Transaction History
Modifications to 2323298
Additional Detail
Award ID FAIN
2323298
SAI Number
None
Award ID URI
SAI EXEMPT
Awardee Classifications
Private Institution Of Higher Education
Awarding Office
490301 DIVISION OF PHYSICS
Funding Office
490301 DIVISION OF PHYSICS
Awardee UEI
NJ1YPQXQG7U5
Awardee CAGE
4B486
Performance District
NJ-12
Senators
Robert Menendez
Cory Booker
Cory Booker
Budget Funding
| Federal Account | Budget Subfunction | Object Class | Total | Percentage |
|---|---|---|---|---|
| Research and Related Activities, National Science Foundation (049-0100) | General science and basic research | Grants, subsidies, and contributions (41.0) | $8,300,000 | 100% |
Modified: 8/21/25