National Quantum Initiative Reauthorization Act
Summary
What This Bill Does
The National Quantum Initiative Reauthorization Act updates the 2018 National Quantum Initiative so the federal program is no longer framed mainly around basic quantum information science. It adds quantum engineering, technology, near- and medium-term demonstrations, infrastructure, standards engagement, workforce pathways, applications, commercialization, and supply-chain resilience as explicit federal objectives. The bill pushes the National Quantum Coordination Office and the White House quantum subcommittees to track the domestic quantum workforce, supply chain, industry, international trade, use cases, benchmarking against allies and competitors, and agency mission applications.
The bill creates a new International Quantum Cooperation Strategy led by the Office of Science and Technology Policy with Commerce, State, Energy, NSF, NASA, and other agencies. That strategy must identify allied and partner-country collaborations, co-funded programs, testing, evaluation, commercialization, interoperability, standards, export-control coordination, supply-chain gaps, and restrictions involving foreign countries or entities of concern. It also extends the National Quantum Initiative sunset to December 30, 2032.
NIST receives a larger applied role. Its quantum activities are rewritten to include post-quantum cryptography, quantum cryptography, standards, cybersecurity migration practices, industry outreach, and a new program for one to three competitive, merit-reviewed quantum acceleration centers. Those centers can be led by universities, nonprofits, multi-institution collaborations, private-sector entities, federal laboratories, or consortia, and must support development, deployment, standardization, commercialization, workforce training, standards, supply chains, testbeds, and shared facilities. NIST funds cannot go to institutions maintaining Confucius Institute agreements or to quantum research activities with foreign countries or entities of concern, except for consensus-based international standards work.
NSF receives new education and infrastructure duties. The bill expands NSF research and education work to K-12, vocational, undergraduate, graduate, and educator pathways; allows up to 10 multidisciplinary quantum research and education centers; creates a Quantum Reskilling, Education, and Workforce Coordination Hub led by a higher education or nonprofit consortium that includes at least four universities and at least two community colleges; and authorizes up to five NSF quantum testbeds for near- and medium-term application development, proof-of-concept testing, demonstrations, pilots, and prototyping.
DOE's title turns the department's quantum work toward demonstration, National Quantum Information Science Research Centers, cooperative research with industry and National Laboratories, a new Quantum Instrumentation and Foundry Program, quantum supply chains, quantum networking, quantum cloud and software access, and quantum applications for electric-grid resilience, security, optimization, planning, storage, markets, and post-quantum cryptography. NASA receives a new title authorizing agency quantum research, an agency quantum coordinator, a 180-day NASA quantum strategy, cooperative arrangements with DOE and other agencies, and an optional competitive NASA quantum institute for space and aeronautics applications. NSF's cybersecurity research statute is also updated to include post-quantum cryptography.
Who Benefits and How
Quantum technology companies, small quantum startups, end users of quantum tools, and domestic supply-chain firms benefit because the federal program is steered toward demonstrations, commercialization, standards, procurement-ready applications, testbeds, foundry infrastructure, and agency use cases rather than only basic research. Universities, nonprofit research organizations, National Laboratories, federal laboratories, FFRDCs, community colleges, career and technical schools, and multi-institution consortia benefit from new or expanded eligibility for NIST acceleration centers, NSF education centers, the QREW Hub, NSF testbeds, DOE centers, DOE foundries, and NASA's optional quantum institute.
Students, workers, educators, and trainees benefit because the bill explicitly builds domestic workforce pathways from K-12 and vocational education through community colleges, universities, educator training, reskilling, apprenticeships, research experiences, and industry-facing training. Federal agencies with mission uses for quantum computing, sensing, networking, encryption, and communications benefit because the subcommittees must identify use cases and on-ramps, while DOE, NASA, NIST, NSF, HHS, State, DHS, NOAA, Education, Commerce, and other agencies receive clearer coordination roles.
Critical infrastructure operators and cybersecurity teams benefit indirectly from NIST's post-quantum cryptography work, DOE's grid-security quantum research, and NSF's post-quantum cryptography research authority. Allied and partner-country research institutions benefit from the international strategy and quantum cooperation statements when collaboration advances U.S. security, technological, strategic, and scientific interests.
Who Bears the Burden and How
OSTP, NIST, NSF, DOE, NASA, the National Quantum Coordination Office, and the two White House quantum subcommittees bear new planning, reporting, selection, coordination, standards, research-security, and program-management work. NIST must run competitive acceleration centers, monitor underperforming centers, align activities with national strategies, restrict funding to Confucius Institute-affiliated institutions and foreign entities of concern, and promote voluntary post-quantum cryptography implementation practices. NSF must expand education programs, manage up to 10 multidisciplinary centers, create the QREW Hub, run up to five testbeds, coordinate with existing facilities, and brief Congress every two years through 2032.
Universities and nonprofits seeking awards bear application, consortium, eligibility, research-security, domestic-partnership, curriculum, workforce, and reporting obligations. Institutions with Confucius Institute contracts are excluded from certain NIST and NSF funding, and projects with foreign countries or entities of concern face funding restrictions. DOE must manage National Quantum Information Science Research Centers, instrumentation and foundry infrastructure, network infrastructure, cloud/software access, and grid-focused quantum demonstrations. NASA must designate a coordinator and produce a quantum strategy within 180 days if the new title is enacted. Advisory Committee members and subcommittee participants also have expanded topic coverage, including international competition, supply chains, standards, critical infrastructure, and societal implications.
Key Provisions
- Adds quantum engineering, technology, applications, commercialization, demonstrations, infrastructure, standards, supply-chain resilience, and workforce pathways to the National Quantum Initiative's purposes.
- Requires an International Quantum Cooperation Strategy covering allied partnerships, co-funded programs, testing, commercialization, interoperability, standards, export controls, and foreign-entity risk.
- Creates NIST quantum acceleration centers and expands NIST's post-quantum cryptography, standards, cybersecurity, industry outreach, and shared-facility role.
- Expands NSF quantum education and workforce programs, authorizes up to 10 multidisciplinary centers, creates the QREW Coordination Hub, and authorizes up to five quantum testbeds.
- Expands DOE quantum demonstrations, National Quantum Information Science Research Centers, quantum foundries, network infrastructure, user-access programs, and electric-grid quantum research.
- Adds NASA quantum activities, a NASA quantum strategy, and an optional NASA quantum institute for space and aeronautics applications.
- Applies Research and Development, Competition, and Innovation Act research-security rules across NIST, NSF, DOE, and NASA quantum titles and adds post-quantum cryptography to NSF cybersecurity research authority.
Evidence Chain:
This summary is generated from the full bill text using AI analysis. Expand "Detailed Analysis" below for identified beneficiaries/burden bearers with clause-level evidence links.
At a Glance
What This Bill Does
Reauthorizes and broadens the National Quantum Initiative from basic quantum science into engineering, applications, workforce pathways, commercialization, standards, research security, and agency mission use.
Key Policy Areas
Science and Technology, Education and Workforce, Energy, Cybersecurity, Space, National Security
Primary Purpose
Reauthorizes and broadens the National Quantum Initiative from basic quantum science into engineering, applications, workforce pathways, commercialization, standards, research security, and agency mission use.
Policy Domains
DOE quantum research, centers, foundries, networks, users, and grid applications
Identified Gains
- National Quantum Information Science Research Centers
- National Laboratories
- Quantum foundry users
- Electric grid operators using quantum applications
- Quantum cloud and software users
Identified Costs
- Department of Energy
- DOE quantum network infrastructure managers
- DOE Quantum User Expansion program managers
- DOE grid research program managers
NSF quantum research, education, workforce, centers, and testbeds
Identified Gains
- Quantum students and trainees
- Community colleges in quantum workforce consortia
- NSF quantum testbed awardees
- Multidisciplinary quantum research centers
Identified Costs
- National Science Foundation
- Universities applying for quantum awards
- Nonprofit organizations applying for quantum awards
- Institutions maintaining Confucius Institute contracts
NIST quantum activities and acceleration centers
Identified Gains
- NIST quantum acceleration center awardees
- Post-quantum cryptography implementers
- Quantum standards participants
- Domestic quantum supply-chain firms
Identified Costs
- National Institute of Standards and Technology
- Institutions maintaining Confucius Institute contracts
- Foreign entities of concern in quantum research
Program coordination and strategy
Identified Gains
- Quantum technology companies
- Small quantum technology businesses
- National Quantum Coordination Office
- Allied quantum research partners
- Federal agencies with quantum use cases
Identified Costs
- Office of Science and Technology Policy
- Subcommittee on Quantum Information Science
- Subcommittee on Economic and Security Implications of Quantum Information Science
- National Quantum Initiative Advisory Committee
NASA quantum activities and NSF post-quantum cryptography
Identified Gains
- NASA quantum research programs
- NASA quantum institute awardees
- Post-quantum cryptography researchers
Identified Costs
- National Aeronautics and Space Administration
- NASA quantum institute applicants
- National Science Foundation cybersecurity research programs
Sponsors
Legislative Progress
ReportedOrdered to be Reported (Amended) by Voice Vote.
Committee Consideration and Mark-up Session Held
Referred to the House Committee on Science, Space, and Technology.
Introduced in House
Mr. Weber of Texas (for himself, Mr. Babin, and Mr. …
Stakeholder Effects
cui bono?How this legislation distributes effects. Mention counts reflect frequency, not effect magnitude.
Allied quantum research partners, DOE quantum award recipients, Multidisciplinary quantum research centers
Positive-direction: Allied quantum research partners, Multidisciplinary quantum research centers, NASA quantum institute awardees, NIST quantum acceleration center awardees, National Quantum Information Science Research Centers, Nonprofit quantum research organizations, Quantum collaborative ventures, Scientific community quantum facility users, Strategic allied quantum partners
Negative-direction: DOE quantum award recipients, NASA quantum award recipients, NIST quantum award recipients, NSF quantum award recipients, National Science Foundation center managers, National Science Foundation cybersecurity research programs, National Science Foundation quantum education programs, National Science Foundation research security oversight, National Science Foundation testbed managers, National Science Foundation workforce program managers, Subcommittee on Quantum Information Science, Underperforming NIST quantum centers
Commercial quantum collaborators, Commercial quantum software vendors, Cybersecurity software vendors preparing for quantum threats
Positive-direction: Commercial quantum collaborators, Commercial quantum software vendors, Cybersecurity software vendors preparing for quantum threats, Grid cybersecurity teams, Post-quantum cryptography implementers, Post-quantum cryptography researchers, Private-sector quantum center applicants, Public sector quantum application users, Quantum end users, Quantum foundry users, Quantum industry foundry partners, Quantum software developers, Quantum technology companies, Quantum technology companies in DOE cooperative research, Quantum technology companies using testbeds, Quantum technology transfer offices, Small quantum technology businesses, Small quantum technology startups
Negative-direction: National Institute of Standards and Technology, National Institute of Standards and Technology quantum program, National Institute of Standards and Technology research security oversight, Office of Science and Technology Policy quantum strategy, Office of Technology Transitions
Academic grid quantum researchers, Academic quantum application researchers, Career and technical quantum education programs
Positive-direction: Academic grid quantum researchers, Academic quantum application researchers, Career and technical quantum education programs, Community colleges in quantum workforce consortia, Department of Education quantum workforce programs, Higher education NASA quantum institute applicants, Higher education quantum foundry partners, K-12 quantum education programs, Quantum students and trainees, Underrepresented STEM students, Universities applying for NIST quantum centers
Negative-direction: Institutions maintaining Confucius Institute contracts
DOE Quantum User Expansion program managers, DOE quantum network infrastructure managers, Department of Energy grid quantum research program
Positive-direction: Energy storage researchers
Negative-direction: DOE Quantum User Expansion program managers, DOE quantum network infrastructure managers, Department of Energy grid quantum research program, Department of Energy quantum foundry program, Department of Energy quantum research program, Department of Energy research security oversight
Domestic quantum workforce planners, Quantum Reskilling Education and Workforce Coordination Hub awardee, Quantum network workforce trainees
NASA quantum coordinator, NASA quantum research programs, NASA research security oversight
Positive-direction: NASA quantum research programs
Negative-direction: NASA quantum coordinator, NASA research security oversight, National Aeronautics and Space Administration, National Aeronautics and Space Administration quantum security participants
National Quantum Initiative Act table of contents
Domestic quantum supply-chain firms, Quantum supply-chain firms, Quantum supply-chain risk managers
Bill Structure & Actor Mappings
Who is "The Secretary" in each section?
- "director"
- → Director of the Office of Science and Technology Policy
- "subcommittee"
- → Subcommittee on Quantum Information Science
- "advisory_committee"
- → National Quantum Initiative Advisory Committee
- "director"
- → Director of the National Institute of Standards and Technology
- "director"
- → Director of the National Science Foundation
- "secretary"
- → Secretary of Energy
- "director"
- → Director of the National Science Foundation
- "administrator"
- → Administrator of the National Aeronautics and Space Administration
Key Definitions
Terms defined in this bill
Uses the CHIPS and Science Act definition for restricted quantum research activity funding.
Covers annealing and gate-model systems using superconducting, ion trap, photonic, neutral atom, atomic spin, electron spin, or topological qubits.
Uses the Research and Development, Competition, and Innovation Act definition for funding restrictions.
Includes quantum algorithms, software, computing, quantum-classical hybrids, sensing, networking, encryption, and communications applications.
We use a combination of our own taxonomy and classification in addition to large language models to assess meaning and potential beneficiaries. High confidence means strong textual evidence. Always verify with the original bill text.
Learn more about our methodology