The Federal Networking and Information
Technology Research and Development
Program: Background, Funding, and Activities

Patricia Moloney Figliola
Specialist in Internet and Telecommunications Policy
October 22, 2013
Congressional Research Service
7-5700
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The Federal NITRD Program: Background, Funding, and Activities

Summary
In the early 1990s, Congress recognized that several federal agencies had ongoing high-
performance computing programs, but no central coordinating body existed to ensure long-term
coordination and planning. To provide such a framework, Congress passed the High-Performance
Computing and Communications Program Act of 1991 (P.L. 102-194) to enhance the
effectiveness of the various programs. In conjunction with the passage of the act, the White
House Office of Science and Technology Policy (OSTP) released Grand Challenges: High-
Performance Computing and Communications
. That document outlined a research and
development (R&D) strategy for high-performance computing and a framework for a
multiagency program, the High-Performance Computing and Communications (HPCC) Program.
The HPCC Program has evolved over time and is now called the Networking and Information
Technology Research and Development (NITRD) Program, to better reflect its expanded mission.
Current concerns are the role of the federal government in supporting IT R&D and the level of
funding to allot to it. Proponents of federal support of information technology (IT) R&D assert
that it has produced positive outcomes for the country and played a crucial role in supporting
long-term research into fundamental aspects of computing. Such fundamentals provide broad
practical benefits, but generally take years to realize. Additionally, the unanticipated results of
research are often as important as the anticipated results. Another aspect of government-funded IT
research is that it often leads to open standards, something that many perceive as beneficial,
encouraging deployment and further investment. Industry, on the other hand, is more inclined to
invest in proprietary products and will diverge from a common standard when there is a potential
competitive or financial advantage to do so. Proponents of government support believe that the
outcomes achieved through the various funding programs create a synergistic environment in
which both fundamental and application-driven research are conducted, benefitting government,
industry, academia, and the public. Supporters also believe that such outcomes justify
government’s role in funding IT R&D, as well as the growing budget for the NITRD Program.
Critics assert that the government, through its funding mechanisms, may be picking “winners and
losers” in technological development, a role more properly residing with the private sector. For
example, the size of the NITRD Program may encourage industry to follow the government’s
lead on research directions rather than selecting those directions itself.
The President’s FY2014 budget request for the NITRD Program is $3.968 billion and the FY2012
NITRD actual expenditures totaled $3.810 billion. FY2013 actual expenditures have not yet been
calculated. The President’s FY2013 budget request for the NITRD Program was $3.808 billion.
FY2013 appropriations bills from the Senate and the House were not passed before the end of the
112th Congress. H.J.Res. 117, passed by the House on September 13, 2012, provides a framework
for a six-month Continuing Resolution that began on October 1, 2013. On March 26, 2013, the
President signed the Consolidated and Further Continuing Appropriations Act of 2013 (P.L. 113-
6), which funded the majority of the federal government at close to FY2012 levels for the
remainder of FY2013. Further, on October 17, the President signed the Continuing
Appropriations Act, 2014 (P.L. 113-46), that continues appropriations through January 15, 2014.

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Contents
The Federal NITRD Program .......................................................................................................... 1
Structure .................................................................................................................................... 1
Budget, Funding, and Spending ................................................................................................ 3
Reports, 2010-2012 ................................................................................................................... 3
NITRD Program 2012 Strategic Plan .................................................................................. 4
Trustworthy Cyberspace: Strategic Plan for the Federal Cybersecurity Research
and Development Program ............................................................................................... 4
Designing a Digital Future: Federally Funded Research and Development in
Networking Information and Technology ........................................................................ 5
Federal Technology Funding: Background and Context ................................................................. 6
Legislation in the 113th Congress ..................................................................................................... 8
H.R. 756—Cybersecurity Enhancement Act of 2013 ......................................................... 8
H.R. 967—Advancing America’s Networking and Information Technology
Research and Development Act of 2013 .......................................................................... 9
H.R. 1468—Strengthening and Enhancing Cybersecurity by Using Research,
Education, Information, and Technology Act of 2013 (SECURE IT) Act of
2013 ................................................................................................................................ 10
H.R. 2413—Weather Forecasting Improvement Act of 2013 ........................................... 10
H.R. 2495—American Super Computing Leadership Act of 2013 ................................... 10
S. 733—Exascale Computing for Science, Competitiveness, Advanced
Manufacturing, Leadership, and the Economy Act of 2013 .......................................... 12
S. 884—Deter Cyber Theft Act of 2013 ............................................................................ 12
S. 1353—Cybersecurity Act of 2013 ................................................................................ 13
Hearings in the 113th Congress ...................................................................................................... 13
Applications for Information Technology Research & Development ..................................... 13
Activity in the 112th Congress ........................................................................................................ 13
Legislation ............................................................................................................................... 13
H.R. 3834—Advancing America’s Networking and Information Technology
Research and Development Act of 2012 ........................................................................ 14
H.R. 2096 and S. 1152—Cybersecurity Enhancement Act of 2011 .................................. 14
Hearings ................................................................................................................................... 14
Protecting Information in the Digital Age: Federal Cybersecurity Research and
Development Efforts ...................................................................................................... 14
Oversight of the Networking and Information Technology Research and
Development Program and Priorities for the Future ...................................................... 15
Potential Issues for Congress ......................................................................................................... 15

Figures
Figure 1. Management Structure of the NITRD Program ............................................................... 2

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Appendixes
Appendix. NITRD Enabling and Governing Legislation .............................................................. 16

Contacts
Author Contact Information........................................................................................................... 17

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The Federal NITRD Program
The federal government has long played a key role in the country’s information technology (IT)
research and development (R&D) activities. The government’s support of IT R&D began because
it had an important interest in creating computers and software that would be capable of
addressing the problems and issues the government needed to solve and study. One of the first
such problems was calculating the trajectories of artillery and bombs; more recently, such
problems include simulations of nuclear testing, cryptanalysis, and weather modeling. That
interest continues today. These complex issues have led to calls for coordination to ensure the
government’s evolving needs (e.g., homeland security) will continue to be met in the most
effective manner possible.
Structure
Established by the High-Performance Computing Act of 1991 (P.L. 102-194), the Networking and
Information Technology Research and Development (NITRD) Program is the primary mechanism
by which the federal government coordinates its unclassified networking and information
technology (NIT) R&D investments. Eighteen federal agencies, including all of the large science
and technology agencies, are formal members of the NITRD Program,1 with many other federal
entities participating in NITRD activities. The program aims to ensure that the nation effectively
leverages its strengths, avoids duplication, and increases interoperability in such critical areas as
supercomputing, high-speed networking, cybersecurity, software engineering, and information
management. Figure 1 illustrates the organizational structure of the NITRD Program.
The National Coordinating Office (NCO) coordinates the activities of the NITRD Program. The
NCO was first established in September 1992 and was initially called the National Coordination
Office for High Performance Computing and Communications (NCO/HPCC). Its name has
changed several times over the years; as of July 2005, it is referred to as the National
Coordination Office for Networking and Information Technology Research and Development
(NCO/NITRD). The NCO/NITRD supports the planning, coordination, budget, and assessment
activities of the Program. The NCO’s role in the NITRD enterprise is recognized in the National
Science and Technology Council (NSTC) charters, authorizing NITRD Program structures as
well as in legislation and congressional hearings. The Director of the White House Office of
Science Technology and Policy (OSTP) appoints a Director for the NCO. The Director of the
NCO reports to the Director of the White House Office on Science and Technology Policy
(OSTP). The NCO supports the National Science and Technology Council’s Subcommittee on
NITRD (also called the NITRD Subcommittee).2 The NITRD Subcommittee provides policy,

1 Department of Commerce (DOC): National Institute of Standards and Technology (NIST), National Oceanic and
Atmospheric Administration (NOAA); Department of Defense (DOD): Defense Advanced Research Projects Agency
(DARPA), National Security Agency (NSA), Office of the Secretary of Defense (OSD) and Service Research
Organizations (Air Force Office of Scientific Research (AFOSR), Air Force Research Laboratory (AFRL), Army
Research Laboratory (ARL), Office of Naval Research (ONR); Department of Energy (DOE): National Nuclear
Security Administration (DOE/NNSA), Office of Science (DOE/SC); Department of Homeland Security (DHS);
Department of Health and Human Services (HHS): Agency for Healthcare Research and Quality (AHRQ), National
Institutes of Health (NIH), Office of the National Coordinator for Health Information Technology (ONC);
Environmental Protection Agency (EPA); National Aeronautics and Space Administration (NASA); National Archives
and Records Administration (NARA); National Science Foundation (NSF).
2 The NITRD Subcommittee was previously called the Interagency Working Group for IT R&D (IWG/IT R&D).
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program, and budget planning for the NITRD Program and is composed of representatives from
each of the participating agencies, OSTP, Office of Management and Budget, and the NCO.
Figure 1. Management Structure of the NITRD Program

Source: NITRD Program website, http://www.nitrd.gov.
NITRD Program activities are described under a set of eight Program Component Areas (PCAs),3
four Senior Steering Groups (SSGs),4 and a Community of Practice (CoP).5 The PCAs are
identified as an Interagency Working Group (IWG) or a Coordinating Group (CG) and report
their R&D budgets as a crosscut of the NITRD agencies. They are charged with facilitating
interagency program planning, developing and periodically updating interagency roadmaps,
developing recommendations for establishing federal policies and priorities, summarizing annual
activities for the NITRD program’s Supplement to the President’s Budget, and identifying
potential opportunities for collaboration which has been identified by OMB and OSTP as
priorities for federal coordination and collaboration. In addition to the PCAs, NITRD has

3 Cyber Security and Information Assurance (CSIA); High-Confidence Software and Systems (HCSS); High-End
Computing Infrastructure and Applications (HEC I&A); High-End Computing Research and Development (HEC
R&D); Human-Computer Interaction and Information Management (HCI&IM); Large-Scale Networking (LSN);
Social, Economic, and Workforce Implications of IT and IT Workforce Development (SEW); Software Design and
Productivity (SDP).
4 Big Data SSG; Cyber Security and Information Assurance R&D SSG; Health Information Technology R&D SSG;
Wireless Spectrum R&D SSG.
5 Faster Administration of Science and Technology Education and Research (FASTER) Community of Practice (CoP).
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established several Senior Steering Groups (SSGs). The SSGs allow a more flexible model for
NITRD collaboration and are formed to focus on emerging issues as required by a mandate from
OSTP. SSGs do not report an R&D budget under NITRD. The CoP’s goal is to enhance
collaboration and accelerate agencies’ adoption of advanced IT capabilities developed by
government-sponsored IT research. The NITRD Subcommittee convenes three times a year and
the working groups meet approximately 12 times annually and provide input to the NITRD
Supplement to the President’s Budget.
Budget, Funding, and Spending
The NITRD budget is an aggregation of the IT R&D components of the individual budgets of
NITRD-participating agencies and is reported in the annual release of The Networking and
Information Technology Research and Development Program Supplement to the President’s
Budget
. The NITRD budget is not a single, centralized source of funds that is allocated to
individual agencies. In fact, the agency IT R&D budgets are developed internally as part of each
agency’s overall budget development process. These budgets are subjected to review, revision,
and approval by the Office of Management and Budget and become part of the President’s annual
budget submission to Congress. The NITRD budget is then calculated by aggregating the IT R&D
components of the appropriations provided by Congress to each federal agency.
The President’s FY2014 budget request for the NITRD Program is $3.968 billion6 and the
FY2012 NITRD actual expenditures totaled $3.810 billion. FY2013 actual expenditures have not
yet been calculated.7 The President’s FY2013 budget request for the NITRD Program was $3.808
billion. FY2013 appropriations bills from the Senate and the House were not passed before the
end of the 112th Congress. H.J.Res. 117, passed by the House on September 13, 2012, provides a
framework for a six-month Continuing Resolution that began on October 1, 2013. On March 26,
2013, the President signed the Consolidated and Further Continuing Appropriations Act of 2013
(P.L. 113-6), which funded the majority of the federal government at close to FY2012 levels for
the remainder of FY2013.
An interactive history of NITRD Program funding, dating to 1991, is available online at
http://www.nitrd.gov/open/index.aspx. Additional information is available at
http://www.nitrd.gov/pubs/2009supplement/nitrd_history/NITRD-crosscut.pdf.
Reports, 2010-20128
As explained earlier, the NCO provides technical and administrative support to the NITRD
Program and the NITRD Subcommittee. This includes supporting meetings and workshops and
preparing reports. The NCO interacts with OSTP and Office of Management and Budget (OMB)

6 NITRD Supplement to the President’s Budget, FY2014, http://www.nitrd.gov/Publications/PublicationDetail.aspx?
pubid=48.
7 Differences between the President’s Budget request for a given year and estimated/actual spending for that year
reflect revisions to program budgets due to evolving priorities, as well as congressional actions and appropriations. In
addition, the NITRD agencies have continued to work collectively on improving the PCA definitions, as reflected by
changes in the definitions outlined in OMB Circular A-11, and individually on improving the classification of
investments within the PCAs, resulting in changes in the NITRD Program budget figures.
8 All NITRD reports are available online at http://www.nitrd.gov/Publications/index.aspx.
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on NITRD Program matters. Additionally, in accordance with a presidential executive order and
law, the NITRD Program is reviewed biannually.
NITRD Program 2012 Strategic Plan
In July 2012, the NTSC and NCO released the five-year strategic plan for the NITRD Program.
This plan responds to the August 2007 assessment of the NITRD Program by the PCAST,
Leadership Under Challenge: Information Technology R&D in a Competitive World.9 In this
report, the PCAST recommended that NITRD “develop, maintain, and implement a cohesive
strategic plan” that includes “a comprehensive technology vision and strategy that identify the
next generation and future generations of important networking and information technology
challenges and describe how to meet those challenges.”
This plan presents the NCO’s overarching vision for the digital world in the 21st century—a world
in which high-speed networks, systems, software, devices, data, and applications are fully secure,
safe, reliable, multimodal, and easy to use. In the envisioned future, next-generation IT
infrastructure and capabilities will enable continued U.S. leadership in economic innovation,
scientific discovery, national security, education, and quality of life. To realize this vision, the
plan calls for advancing U.S. capabilities in three broad areas identified as the essential
“foundations” for sustained leadership in a digital world:
• WeCompute—Expanded human-computer partnerships, including more capable,
available, and affordable systems; more powerful digital tools for people; and
new forms of collaboration between the two.
• Trust and Confidence—The ability to design and build systems with levels of
security, safety, privacy, reliability, predictability, and dependability that “you can
bet your life on.”
• Cyber Capable—Transformed education and training to ensure that current
generations benefit fully from cyber capabilities and to inspire a diverse,
prepared, and highly productive next-generation workforce of cyber innovators.
The strategic plan discusses the topical elements of each foundation and summarizes the principal
research and education challenges that need to be addressed, providing a comprehensive research
and education strategy for the future. The plan concludes that the NITRD Program should pursue
expanded multiagency collaboration; cultivate new forms of partnership with academia and
industry; and continue to lead by example in multidisciplinary activities and identification of
critical-path research needs.
Trustworthy Cyberspace: Strategic Plan for the Federal Cybersecurity Research
and Development Program

In December 2011, the NSTC released, Trustworthy Cyberspace: Strategic Plan for the Federal
Cybersecurity Research and Development Program
.10 The report defines a set of interrelated

9 This report is available online at http://www.nsf.gov/geo/geo-data-policies/pcast-nit-final.pdf.
10 This report is available online at http://www.whitehouse.gov/sites/default/files/microsites/ostp/
fed_cybersecurity_rd_strategic_plan_2011.pdf.
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priorities for the agencies of the U.S. government that conduct or sponsor R&D in cybersecurity.
The priorities are organized into four thrusts: Inducing Change, Developing Scientific
Foundations, Maximizing Research Impact, and Accelerating Transition to Practice.
The thrusts provide a framework for prioritizing cybersecurity R&D in a way that concentrates
research efforts on limiting current cyberspace deficiencies, precluding future problems, and
expediting the infusion of research accomplishments into the marketplace. The principal
objectives of the thrusts include achieving greater cyberspace resiliency, improving attack
prevention, developing new defenses, and enhancing U.S. capabilities to design software that is
resistant to attacks.
The Inducing Change thrust includes a new priority theme named Designed-in Security, together
with the existing themes of Tailored Trustworthy Spaces, Moving Target, and Cyber Economic
Incentives. The Designed-in Security theme focuses on developing capabilities to design and
evolve high-assurance systems resistant to cyberattacks, whose assurance properties can be
verified. Such development capabilities offer the path to dramatic increases in the security and
safety of software systems.
Explicit in the execution of this plan is the coordination process across government agencies
through the NITRD Program and the leadership function of the NITRD Cyber Security and
Information Assurance Interagency Working Group (CSIA IWG), the federal government’s
principal group for coordinating cybersecurity R&D activities. In conjunction with OSTP, the
NITRD Senior Steering Group for Cybersecurity R&D, and the Special Cyber Operations
Research and Engineering SCORE Interagency Working Group, the CSIA IWG assures that the
execution of this plan by individual federal research agencies is coordinated, cohesive, and
complementary.
Designing a Digital Future: Federally Funded Research and Development in
Networking Information and Technology

In December 2010, the President’s Council of Advisors on Science and Technology (PCAST)11
released, Designing a Digital Future: Federally Funded Research and Development in
Networking and Information Technology
.12 This report fulfilled PCAST’s responsibility to report
on the status of the NITRD Program under Executive Order 13539 and the High-Performance
Computing Act of 1991 (P.L. 102-194).13 PCAST appointed an expert 14-member Working
Group, which consulted with more than 50 individuals, including government officials, industry
representatives, and experts from academia, to develop a comprehensive review of the program.
PCAST found that NITRD is well coordinated and that the U.S. computing research community,
coupled with a vibrant NIT industry, has made seminal discoveries and advanced new
technologies that are helping to meet many societal challenges. Importantly, however, PCAST
also found that
a substantial fraction of the NITRD multi-agency spending summary represents spending
that supports R&D in other fields, rather than spending on R&D in the field of NIT itself. As

11 The PCAST was acting in its role as the President’s Innovation and Technology Advisory Council (PITAC).
12 This report is available online at http://www.nitrd.gov/pcast-2010/report/nitrd-program/pcast-nitrd-report-2010.pdf.
13 As amended by the Next Generation Internet Research Act of 1998 (P.L. 105-305) and by the America COMPETES
Act of 2007 (P.L. 110-69).
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a result, the United States is actually investing far less in NIT R&D than the $4 billion-plus
indicated in the Federal budget. To achieve America’s priorities and advance key research
frontiers to support economic competitiveness in NIT, this report calls for a more accurate
accounting of this national investment and recommended additional investments in NIT
R&D, including research in networking and information technology for health, energy and
transportation, and cyber-infrastructure.14
The PCAST stated its belief that NIT has yielded enormous benefits for the nation’s economic
competitiveness, national security, and quality of life. It stressed the importance of maintaining
the country’s leadership in NIT in an ever more competitive global environment, encouraging the
federal government to be bold in its investments, including funding of high risk/high reward
research with the potential to move NIT in unanticipated directions.
Federal Technology Funding:
Background and Context

In the early 1990s, Congress recognized that several federal agencies had ongoing high-
performance computing programs,15 but no central coordinating body existed to ensure long-term
coordination and planning. To provide such a framework, Congress passed the High-Performance
Computing Program Act of 1991 to improve the interagency coordination, cooperation, and
planning of agencies with high performance computing programs.
In conjunction with the passage of the act, OSTP released, Grand Challenges: High-Performance
Computing and Communications
. That document outlined an R&D strategy for high-performance
computing and communications and a framework for a multi-agency program, the HPCC
Program.
The NITRD Program is part of the larger federal effort to promote fundamental and applied IT
R&D. The government sponsors such research through a number of channels, including
• federally funded research and development laboratories, such as Lawrence
Livermore National Laboratory;
• single-agency programs;
• multi-agency programs, including the NITRD Program, but also programs
focusing on nanotechnology R&D and combating terrorism;
• funding grants to academic institutions; and
• funding grants to industry.

14 Designing a Digital Future: Federally Funded Research and Development in Networking and Information
Technology, p. v.
15 “High-performance” computing is a term that encompasses both “supercomputing” and “grid computing.” In general,
high-performance computers are defined as stand-alone or networked computers that can perform “very complex
computations very quickly.” Supercomputing involves a single, stand-alone computer located in a single location. Grid
computing involves a group of computers, in either the same location or spread over a number of locations, that are
networked together (e.g., via the Internet or a local network). House of Representatives, Committee on Science,
Supercomputing: Is the United States on the Right Path (Hearing Transcript), http://commdocs.house.gov/committees/
science/hsy88231.000/hsy88231_0f.htm, 2003, pp. 5-6.
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In general, supporters of federal funding of IT R&D contend that it has produced positive results.
In 2003, the Computer Science and Telecommunications Board (CSTB) of the National Research
Council (NRC) released a “synthesis report” based on eight previously released reports that
examined “how innovation occurs in IT, what the most promising research directions are, and
what impacts such innovation might have on society.”16 The CSTB’s observation was that the
unanticipated results of research are often as important as the anticipated results. For example,
electronic mail and instant messaging were by-products of [government-funded] research in the
1960s that was aimed at making it possible to share expensive computing resources among
multiple simultaneous interactive users. Additionally, the report noted that federally funded
programs have played a crucial role in supporting long-term research into fundamental aspects of
computing. Such “fundamentals” provide broad practical benefits, but generally take years to
realize. Furthermore, supporters state that the nature and underlying importance of fundamental
research makes it less likely that industry would invest in and conduct more fundamental research
on its own. As noted by the CSTB, “companies have little incentive to invest significantly in
activities whose benefits will spread quickly to their rivals.”17 Further, in the Board’s opinion:
government sponsorship of research, especially in universities, helps develop the IT talent
used by industry, universities, and other parts of the economy. When companies create
products using the ideas and workforce that result from Federally-sponsored research, they
repay the nation in jobs, tax revenues, productivity increases, and world leadership.18
Another aspect of government-funded IT R&D is that it often leads to open standards, something
that many perceive as beneficial, encouraging deployment and further investment. Industry, on
the other hand, is more likely to invest in proprietary products and will typically diverge from a
common standard if it sees a potential competitive or financial advantage; this happened, for
example, with standards for instant messaging.19
Finally, proponents of government R&D support believe that the outcomes achieved through the
various funding programs create a synergistic environment in which both fundamental and
application-driven research are conducted, benefitting government, industry, academia, and the
public. Supporters also believe that such outcomes justify government’s role in funding IT R&D,
as well as the growing budget for the NITRD Program.
Critics have asserted that the government, through its funding mechanisms, may set itself up to
pick “winners and losers” in technological development, a role more properly residing with the
private sector.20 For example, the size of the NITRD Program could encourage industry to follow
the government’s lead on research directions rather than selecting those directions itself.

16 National Research Council, Innovation in Information Technology, 2003, p. 1. This report discusses all federal
funding for R&D, not only the NITRD Program.
17 Ibid., p. 4.
18 Ibid., p. 4.
19 Ibid., p. 18.
20 Cato Institute, Encouraging Research: Taking Politics Out of R&D, September 13, 1999, http://www.cato.org/pubs/
wtpapers/990913catord.html.
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Overall, CSTB stated that government funding appears to have allowed research on a larger scale
and with greater diversity, vision, and flexibility than would have been possible without
government involvement.21
Legislation in the 113th Congress
Seven bills have been introduced that would affect the NITRD Program and one hearing has been
held that addressed the activities of the NITRD Program member agencies.
H.R. 756—Cybersecurity Enhancement Act of 2013
H.R. 756 was introduced by Representative Michael McCaul on February 15, 2013. The bill was
reported (amended) on April 11, 2013 (H.Rept. 113-33). It was passed by the House and referred
to the Senate Committee on Commerce, Science, and Transportation on April 17, 2013.
This bill would—
• Require NITRD member agencies to provide to Congress a cybersecurity
strategic research and development plan and triennial updates, and develop and
annually update an implementation roadmap for such plan.
• Expand permitted National Science Foundation (NSF) grants for basic research
on innovative approaches to the structure of computer and network hardware and
software that are aimed at enhancing computer security to include research into
identity management, crimes against children, and organized crime.
• Require applications for the establishment of Computer and Network Security
Research Centers to include a description of how such Centers will partner with
government laboratories, for-profit entities, other institutions of higher education,
or nonprofit research institutions.
• Repeal the Cyber Security Faculty Development Traineeship Program.
• Require the NSF Director to continue carrying out a Scholarship for Service
program under the Cyber Security Research and Development Act.
• Direct the President to transmit a report to Congress addressing the cybersecurity
workforce needs of the federal government.
• Require the Office of Science and Technology Policy (OSTP) Director to
convene a cybersecurity university-industry task force to explore mechanisms for
carrying out collaborative R&D activities.
• Revise provisions concerning the development and dissemination by the National
Institute of Standards and Technology (NIST) of security risk checklists
associated with computer systems that are, or are likely to become, widely used
within the federal government.

21 National Research Council, Innovation in Information Technology, 2003, p. 22.
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• Require conducting intramural security research activities under NIST’s
computing standards program.
• Require the NIST Director to (1) ensure coordination of U.S. government
representation in the international development of technical standards related to
cybersecurity; (2) maintain a cybersecurity awareness and education program
through the Hollings Manufacturing Extension Partnership program; and (3)
continue a program to support development of technical standards, metrology,
testbeds, and conformance criteria with regard to identity management research
and development.
H.R. 967—Advancing America’s Networking and Information Technology
Research and Development Act of 201322

H.R. 967 was introduced by Representative Cynthia Lummis on March 5, 2013. The bill was
reported (H.Rept. 113-34)23 by the House Committee on Science, Space, and Technology on April
11, 2013, and referred to the Senate Committee on Commerce, Science, and Transportation on
April 17, 2013. This bill would:
• Amend the High-Performance Computing Act of 1991 to rename the National
High-Performance Computing Program as the NITRD Program.
• Direct the federal agencies participating in the Program to
(1) periodically assess the contents and funding levels of program component areas and
restructure the Program when warranted; and
(2) ensure that the Program includes large-scale, long-term, interdisciplinary R&D
activities.
• Require the participating federal agencies to develop, and update every three
years, a five-year strategic plan to guide activities provided for under the
Program.
• Require the Director of the OSTP to encourage and monitor the efforts of
participating agencies to allocate the resources and management attention
necessary to ensure that the strategic plan is executed effectively and that
Program objectives are met.
• Require the Program, in addition to its current requirements, to provide for
(1) increased understanding of the scientific principles of cyber-physical systems and
improve the methods available for the design, development, and operation of such
systems; and
(2) research and development on human-computer interactions, visualization, and big
data.

22 H.R. 1468, the SECURE IT Act of 2013, is a related bill to H.R. 3834. Section 407 of the bill contains conforming
and technical amendments to the High-Performance Computing Act of 1991. However, it does not change the functions
of the program or its management structure.
23 This document is available online at http://www.gpo.gov/fdsys/pkg/CRPT-113hrpt34/pdf/CRPT-113hrpt34.pdf.
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• Require continuation of an NCO and require the Director of the Office to
(1) convene a task force to explore mechanisms for carrying out collaborative R&D
activities on cyber-physical systems; and
(2) examine issues around funding mechanisms and policies for the use of cloud
computing services for federally funded science and engineering research, through the
NTSC, an interagency working group.
H.R. 1468—Strengthening and Enhancing Cybersecurity by Using Research,
Education, Information, and Technology Act of 2013 (SECURE IT) Act of 2013

H.R. 1468 was introduced by Representative Marsha Blackburn on April 10, 2013. The bill was
referred to the Committee on Science, Space, and Technology, and in addition to the Committees
on Oversight and Government Reform, the Judiciary, Armed Services, Intelligence (Permanent
Select), and Energy and Commerce, in each case for consideration of provisions that fall within
the jurisdiction of the committee concerned, on April 10, 2013. On April 30, 2013, the bill was
referred to the Committee on the Judiciary’s Subcommittee on Crime, Terrorism, Homeland
Security, and Investigations. In addition to other purposes, this bill contains NITRD-related
provisions similar to those in H.R. 967.
H.R. 2413—Weather Forecasting Improvement Act of 2013
H.R. 2413 was introduced by Representative Jim Bridenstine on April 10, 2013. The bill was
referred to the Committee on Science, Space, and Technology’s Subcommittee on Environment
on July 8, 2013, and a consideration and mark-up session was held the following day. In addition
to other purposes, this bill would require NOAA “to issue a specified plan for high performance
computing support of its advanced research and operational weather prediction models.”
H.R. 2495—American Super Computing Leadership Act of 2013
H.R. 2495 was introduced by Representative Randy Hultgren on June 25, 2013. The bill was
referred to the Committee on Science, Space, and Technology’s Subcommittee on Energy on
September 24, 2013. This bill would:
• Amend the Department of Energy High-End Computing Revitalization Act of
2004 with respect to
(1) exascale computing (computing system performance at or near 10 to the 18th power
floating point operations per second); and
(2) a high-end computing sytem with performance substantially exceeding that of
systems commonly available for advanced scientific and engineering applications.
• Direct the Secretary of Energy (DOE) to
(1) coordinate the development of high-end computing systems across DOE;
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(2) partner with universities, National Laboratories, and industry to ensure the broadest
possible application of the technology developed in the program to other challenges in
science, engineering, medicine, and industry; and
(3) include among the multiple architectures researched, at DOE discretion, any computer
technologies that show promise of substantial reductions in power requirements and
substantial gains in parallelism of multicore processors, concurrency, memory and
storage, bandwidth, and reliability.
• Repeal authority for establishment of at least one High-End Software
Development Center.
• Direct the Secretary to conduct a coordinated research program to develop
exascale computing systems to advance DOE missions, requiring establishment
through competitive merit review of two or more DOE National Laboratory-
industry-university partnerships to conduct integrated research, development, and
engineering of multiple exascale architectures.
• Require the Secretary to conduct mission-related co-design activities in
developing such exascale platforms. Defines “co-design” as the joint
development of application algorithms, models, and codes with computer
technology architectures and operating systems to maximize effective use of
high-end computing systems.
• Direct the Secretary to develop any advancements in hardware and software
technology required to realize fully the potential of an exascale production
system in addressing DOE target applications and solving scientific problems
involving predictive modeling and simulation and large-scale data analytics and
management. Requires DOE also to explore the use of exascale computing
technologies to advance a broad range of science and engineering.
• Direct the Secretary to submit to Congress an integrated strategy and program
management plan.
• Require the Secretary, before initiating construction or installation of an
exascale-class computing facility, to transmit to Congress a separate plan
detailing
(1) the proposed facility’s cost projections and capabilities to significantly accelerate the
development of new energy technologies;
(2) technical risks and challenges that must be overcome to achieve successful
completion and operation of the facility; and
(3) an independent assessment of the scientific and technological advances expected from
such a facility relative to those expected from a comparable investment in expanded
research and applications at terascale-class and petascale-class computing facilities,
including an evaluation of where investments should be made in the system software and
algorithms to enable these advances.
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S. 733—Exascale Computing for Science, Competitiveness, Advanced
Manufacturing, Leadership, and the Economy Act of 2013

S. 733 was introduced by Senator Lamar Alexander on April 16, 2013. The bill was referred to
the Committee on Energy and Natural Resources the same day. This bill would:
• Direct the Secretary of Energy (DOE) to
(1) conduct a research program to develop exascale computing machines to promote
DOE missions;
(2) establish national laboratory-industry partnerships for the research and development
of exascale computing machines across all applicable DOE agencies;
(3) implement the program through an integration of application, computer science, and
computer hardware architecture using public-private partnerships to ensure that exascale
computing machines are capable of solving DOE target applications and scientific
problems; and
(4) use existing funds to carry out the program.
• Rename the Department of Energy High-End Computing Revitalization Act of
2004 as the Exascale Computing for Science, Competitiveness, Advanced
Manufacturing, Leadership, and the Economy Act of 2013.
• Define “exascale computing” as computing through the use of a computing
machine that performs near or above 10 to the 18th power floating point
operations per second.
• Authorize appropriations for FY2014-FY2016.
S. 884—Deter Cyber Theft Act of 2013
S. 884 was introduced by Senator Carl Levin on May 7, 2013. The bill was referred to the
Committee on Finance the same day. This bill would:
• Require the Director of National Intelligence (DNI) to annually report to
specified congressional committees on foreign countries that engage in economic
and industrial espionage in cyberspace with respect to U.S. trade secrets or
proprietary information and require each report to identify countries that engage
in such espionage as well as countries that engage in the most egregious forms of
such espionage.
• Direct the President to exclude from entry into the United States any article
produced or exported by an entity identified within any such report, as long as
the President determines that such exclusion is warranted for the enforcement of
intellectual property rights or to protect the integrity of the Department of
Defense (DOD) supply chain.
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S. 1353—Cybersecurity Act of 2013
S. 1353 was introduced by Senator John Rockefeller on July 24, 2013. The bill was referred to the
Committee on Commerce, Science, and Transportation and ordered to be reported with an
amendment in the nature of a substitute favorably, on July 30, 2013. In addition to other purposes,
this bill would direct specified agencies under the High-Performance Computing Act of 1991 to
support research leading to a scientific foundation for the field of cybersecurity.
Hearings in the 113th Congress
One hearing has been held related to the NITRD Program.
Applications for Information Technology Research & Development
“Applications for Information Technology Research & Development,” was held by the House
Committee on Science and Technology’s Subcommittee on Research and Technology, on
February 14, 2013.24 Witnesses at the hearing were: Dr. Kelly Gaither, Director, Visualization
Lab, Texas Advanced Computing Center, University of Texas, Austin; Dr. Kathryn McKinley,
Principal Researcher, Microsoft; and Dr. Ed Lazowska, Bill and Melinda Gates Chair in
Computer Science and Engineering, University of Washington. The purpose of the hearing was to
examine how to protect essential systems and networks that support fundamental sectors of the
U.S. economy, such as emergency communications, power grids, air-traffic control networks, and
national defense systems.
Activity in the 112th Congress
Three bills were introduced that would have affected the NITRD Program and two hearings were
held that addressed the activities of the NITRD Program member agencies.
Legislation
Three pieces of legislation were introduced in the 112th Congress that would have had an effect on
the NITRD member agencies: H.R. 3834, the Advancing America’s Networking and Information
Technology Research and Development Act of 2012; H.R. 2096, the Cybersecurity Enhancement
Act of 2011; and S. 1152, also called the Cybersecurity Enhancement Act of 2011. H.R. 2096 and
S. 1152 are identical.

24 The hearing main page can be found at http://science.house.gov/hearing/subcommittee-research-applications-
information-technology-research-devlopment.
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H.R. 3834—Advancing America’s Networking and Information Technology
Research and Development Act of 201225

H.R. 3834 was introduced by Representative Ralph Hall on January 27, 2012. The bill was
reported (H.Rept. 112-420)26 by the Committee on Science, Space, and Technology on March 22,
2012, and passed April 27, 2012. It was referred to the Senate Committee on Commerce, Science,
and Transportation on May 7, 2012. This bill was substantially similar to a bill introduced in the
113th Congress, H.R. 967—Advancing America’s Networking and Information Technology
Research and Development Act of 2013.
H.R. 2096 and S. 1152—Cybersecurity Enhancement Act of 2011
H.R. 2096 was introduced by Representative Michael McCaul on June 2, 2011. The bill was
reported (amended) on October 31, 2011 (H.Rept. 112-264). It was passed by the House and
referred to the Senate Committee on Commerce, Science, and Transportation on May 7, 2012.
S. 1152 was introduced by Senator Robert Menendez on June 7, 2011. The bill was referred to the
Senate Committee on Commerce, Science, and Transportation, and no further action has been
taken.
These bills were substantially similar to the bill of the same name introduced in the 113th
Congress, H.R. 756—Cybersecurity Enhancement Act of 2013.
Hearings
Two hearings have been held related to the NITRD Program.
Protecting Information in the Digital Age: Federal Cybersecurity Research and
Development Efforts

“Protecting Information in the Digital Age: Federal Cybersecurity Research and Development
Efforts,” was held by the House Committee on Science and Technology Subcommittees on
Technology and Innovation and Research and Science Education, on May 25, 2011, on issues
relating specifically to cybersecurity R&D.27

25 H.R. 4263, the SECURE IT Act of 2012, is a related bill to H.R. 3834. Section 407 of the bill contains conforming
and technical amendments to the High-Performance Computing Act of 1991. However, it does not change the functions
of the program or its management structure. That bill was introduced by Representative Mary Bono on March 27, 2012,
and referred to the House Committees on Science, Space, and Technology; Oversight and Government Reform;
Judiciary; Armed Services; and Intelligence (Permanent Select). It was referred to the House Subcommittee on Crime,
Terrorism, and Homeland Security on April 9, 2012.
26 This document is available online at http://www.gpo.gov/fdsys/pkg/CRPT-112hrpt420/pdf/CRPT-112hrpt420.pdf.
27 The hearing main page can be found at http://science.house.gov/hearing/subcommittee-research-and-science-
education-subcommittee-technology-and-innovation-%E2%80%93-joint. Information includes the hearing charter, the
opening statements, and the witness testimony.
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Oversight of the Networking and Information Technology Research and
Development Program and Priorities for the Future

“Oversight of the Networking and Information Technology Research and Development Program
and Priorities for the Future,” was held by the House Committee on Science and Technology
Subcommittee Research and Science Education, on September 21, 2011, on issues relating to
future research directions.28
Potential Issues for Congress
Federal IT R&D is a multi-dimensional issue, involving many government agencies working
together towards shared, complementary, and disparate goals. Many observers believe that
success in this arena requires ongoing coordination among government, academia, and industry.
Issues related to U.S. competitiveness in high-performance computing and the direction the IT
R&D community has been taking have remained salient over the last 5 to 10 years and include
• the United States’ status as the global leader in high-performance computing
research;
• the apparent ongoing bifurcation of the federal IT R&D research agenda between
grid computing and supercomputing capabilities;
• the possible over-reliance on commercially available hardware to satisfy U.S.
research needs; and
• the potential impact of deficit cutting on IT R&D funding.

28 The hearing main page can be found at http://science.house.gov/hearing/research-and-science-education-
subcommittee-hearing-oversight-networking-information-tech.
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Appendix. NITRD Enabling and Governing
Legislation

The NITRD Program is governed by two laws. The first, the High-Performance Computing Act
of 1991, P.L. 102-194,29 expanded federal support for high-performance computing R&D and
called for increased interagency planning and coordination. The second, the Next Generation
Internet Research Act of 1998, P.L. 105-305,30 amended the original law to expand the mission of
the NITRD Program to cover Internet-related research, among other goals.
High-Performance Computing Act of 1991
This law was the original enabling legislation for what is now the NITRD Program. Among other
requirements, it called for the following:
• Setting goals and priorities for federal high-performance computing research,
development, and networking.
• Providing for the technical support and research and development of high-
performance computing software and hardware needed to address fundamental
problems in science and engineering.
• Educating undergraduate and graduate students.
• Fostering and maintaining competition and private sector investment in high-
speed data networking within the telecommunications industry.
• Promoting the development of commercial data communications and
telecommunications standards.
• Providing security, including protecting intellectual property rights.
• Developing accounting mechanisms allowing users to be charged for the use of
copyrighted materials.
This law also requires an annual report to Congress on grants and cooperative R&D agreements
and procurements involving foreign entities.31
Next Generation Internet Research Act of 1998
This law amended the High-Performance Computing Act of 1991. The act had two overarching
purposes. The first was to authorize research programs related to high-end computing and
computation, human-centered systems, high confidence systems, and education, training, and

29 High Performance Computing Act of 1991, P.L. 102-194, 15 U.S.C. 5501, 105 Stat. 1595, December 9, 1991. The
full text of this law is available at http://www.nitrd.gov/congressional/laws/pl_102-194.html.
30 Next Generation Internet Research Act of 1998, P.L. 105-305, 15 U.S.C. 5501, 112 Stat. 2919, October 28, 1998.
The full text of this law is available at http://www.nitrd.gov/congressional/laws/pl_h_105-305.html.
31 The first report mandated information on the “Supercomputer Agreement” between the United States and Japan be
included in this report. A separate one-time only report was required on network funding, including user fees, industry
support, and federal investment.
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human resources. The second was to provide for the development and coordination of a
comprehensive and integrated U.S. research program to focus on (1) computer network
infrastructure that would promote interoperability among advanced federal computer networks,
(2) economic high-speed data access that does not impose a “geographic penalty,” and (3) flexible
and extensible networking technology.

Author Contact Information

Patricia Moloney Figliola

Specialist in Internet and Telecommunications
Policy
pfigliola@crs.loc.gov, 7-2508

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