Contents

• Background
• Origins of FFRDCs
• Current FFRDCs
• Characteristics of FFRDCs
• Federal Funding of FFRDCs
• Issues for Congress
• Effectiveness of Oversight and Management
• Competition with the Private Sector
• Mission Creep
• Competition of FFRDC Contracts
• Condition of FFRDC Infrastructure

Summary

The federal government supports research and development (R&D) that is conducted by a wide variety of performers, including federally owned and operated laboratories, universities, private companies, and other research institutions. A special class of research institutions referred to as federally funded research and development centers, or FFRDCs, are owned by the federal government, but operated by contractors, including universities, other non-profit organizations, and industrial firms. FFRDCs are intended to provide federal agencies with R&D capabilities that cannot be effectively met by the federal government or the private sector alone. FFRDCs are required to have a long-term strategic relationship with the federal agency that supports them. This relationship is presumed to convey a number of benefits, including the ability of an FFRDC to recruit and retain scientific and technical expertise; an in-depth knowledge of, and the capability to rapidly respond to, the R&D needs of the federal agency; and the capacity to offer independent and objective scientific and technical advice. Currently, 1213 federal agencies sponsor or co-sponsor a total of 42 FFRDCs. These FFRDCs provide R&D capabilities in support of federal agency missions in a broad range of areas—from energy and cybersecurity to cancer and astronomy. In FY2015FY2019, the federal government obligated $11.1reported obligations of $14.9 billion or 8.610.5% of its total estimated R&D spending to FFRDCs.

Congress maintains a continuing interest in FFRDCs due to their contributions to U.S. technological and economic leadership. However, some Members of Congress have questioned the appropriate role of FFRDCs in the federal R&D enterprise and the ability of FFRDCs to effectively address federal agency R&D needs. The following issues have been of particular interest: (1) the effectiveness of federal agency oversight and management of FFRDCs; (2) competition between FFRDCs and the private sector for federal R&D funding; (3) the diversification of FFDRC activities or "mission creep"; and (4) the award of noncompetitive FFRDC management and operation contracts; and (5) the adequacy of FFRDC facilities and infrastructure.

Background

Federally funded research and development centers (FFRDCs) are a special type of government-owned, contractor-operated research centers—commonly referred to as "GOCOs"—that conduct research and development (R&D) and related activities in support of a federal agency's mission. FFRDCs operate under the framework of the Federal Acquisition Regulation.¹ They differ from other performers of federal R&D—such as federal laboratories, universities, non-profit organizations, and private firms—in that they are designed to meet a "special long-term research or development need which cannot be met as effectively by existing in-house or contractor resources" and that they have "access, beyond that which is common to the normal contractual relationship, to Government and supplier data, including sensitive and proprietary data, and to employees and installations equipment and real property."²

Over the years, Congress has been concerned with the oversight and management of FFRDCs, lack of competition in contracting, and mission creep. More recently, some Members of Congress have focused on the need to balance responsible oversight with improved efficiency, effectiveness, and innovation.³ The appropriateAdditionally, the role of FFRDCs in the federal R&D enterprise may remain an issue in the 115^{, including the use of FFRDCs as a model for the governance of federal laboratories, has been an area of congressional interest. The use and management of FFRDCs, in addition to their role in the federal R&D enterprise, will likely be of interest in the 116th} Congress.

Origins of FFRDCs

FFRDCs have their origin in World War II. During that time, the federal government sought to mobilize the country's scientific and engineering talent and apply it to the development of technologies that would aid U.S. war efforts. For example, the Department of Defense's (DOD's) Lincoln Laboratory was created to develop radar for identifying aircraft and ships and the Los Alamos and Oak Ridge National Laboratories (now under the auspices of the Department of Energy [DOE]) were established to support the development of the atomic bomb. The purpose of FFRDCs—to bring scientific and technical expertise to bear on pressing R&D challenges—remains.

Then, as now, it was widely believed that a lack of flexibility in the federal government made it difficult to recruit and maintain scientific and technical talent.⁴ Since FFRDCs are operated by contractors, many federal restrictions, including restrictions on pay and hiring, do not apply, in effect increasing the flexibility of FFRDCs compared to the federal government.⁵

FFRDCs were called "Federal Contract Research Centers" until 1967.⁶ In November 1967, the chairman of the Federal Council for Science and Technology, a predecessor to the National Science and Technology Council,⁷ sent a memorandum to federal science agencies formally changing the name of Federal Contract Research Centers to FFRDCs and detailing criteria for the establishment of an FFRDC.⁸ Accordingly, an FFRDC was required to:

• conduct basic research, applied research, or development, or perform R&D management;
• be independently incorporated or constitute a separate organizational unit within the parent organization;
• perform R&D under the direction of the federal government;
• receive 70% or more of its funding from one agency;
• have a long-term relationship with its sponsoring agency (five years or more);
• be government-owned; and
• have an average annual budget of at least $500,000.⁹

In 1984, the Office of Federal Procurement Policy (OFPP) issued a policy letter revising and updating the governance of FFRDCs.¹⁰ The OFPP issued regulations in 1990 that incorporated the principles articulated in the policy letter as part of the Federal Acquisition Regulation (FAR).¹¹ The FAR now defines the purposes of an FFRDC, in addition to the policies that direct an FFRDC's establishment, use, review, and termination. The "Characteristics of FFRDCs" as defined by the FAR are discussed in more detail later in this report.

Current FFRDCs

Currently, 1213 federal agencies sponsor or co-sponsor a total of 42 FFRDCs.¹² These FFRDCs provide R&D capabilities in a broad range of areas—from energy and cybersecurity to cancer and astronomy. DOE and DOD sponsor a majority of the FFRDCs, 16 and 10 respectively. The National Science Foundation (NSF) sponsors 5 centers, the Department of Homeland Security (DHS) sponsors 3, and the Department of Health and Human Services (HHS) sponsors 2. The National Aeronautics and Space Administration (NASA), the National Institute of Standards and Technology (NIST), the Department of Transportation (DOT), the Nuclear Regulatory Commission (NRC), and the United States Courts each sponsor a single FFRDC. The the Department of the Treasury (Treasury), the Department of Veterans Affairs (VA), and the United States Courts each sponsor a single FFRDC.¹³

FFRDCs are classified in three "activity type" categories under a system established by DOD and usedadopted by NSF: . According to NSF, the three categories—R&D laboratory, study and analysis center, or system engineering and integration center.¹⁴

• R&D laboratories maintain long-term competencies in technology areas that cannot be effectively met by the federal government or the private sector alone.
are defined as follows:

Research and development laboratories fill voids where in-house and private sector research and development centers are unable to meet agency core area needs. Specific objectives for these FFRDCs are to: (1) maintain over the long-term a competency in technology areas where the Government cannot rely on in-house or private sector capabilities, and (2) develop and transfer important new technology to the private sector so the Government can benefit from a wider, broader base of expertise. R&D laboratories engage in research programs that emphasize the evolution and demonstration of advanced concepts and technology, and the transfer or transition of technology.

• Study and analysis centers deliver independent and objective analysis and advice to federal agenciesanalyses and advise in core areas important to their sponsors in support of policy development, decisionmaking, alternative approaches, and new concepts.
ideas on issues of significance.
• System engineering and integration centers provide required support in core areas not available from sponsor's in-house technical and engineering capabilities to ensure that provide technical and engineering capabilities not available in a federal agency to ensure complex systems meet operational requirements.

NSF has the responsibility of maintaining a master list of FFRDCs across the federal government. According to NSF and as shown in Appendix A, 26 of the 42 current FFRDCs are R&D laboratories, 10 are study and analysis centers, and 6 are system engineering and integration centers.

Characteristics of FFRDCs

The Federal Acquisition Regulation complex systems meet operational requirements. The centers assist with the creation and choice of system concepts and architectures, the specification of technical system and subsystem requirements and interfaces, the development and acquisition of system hardware and software, the testing and verification of performance, the integration of new capabilities, and continuous improvement of system operations and logistics. They often play a critical role in assisting their sponsors in technically formulating, initiating, and evaluating programs and activities undertaken by firms in the for-profit sector. ¹³ NSF has the responsibility of maintaining a master list of FFRDCs across the federal government. According to NSF and as shown in Appendix A, 26 of the 42 current FFRDCs are R&D laboratories, 10 are study and analysis centers, and 6 are system engineering and integration centers.

An FFRDC may be given special access to government and supplier data, employees, and facilities.¹⁶ This access is beyond what is typical in a normal contractual relationship and may include access to sensitive and proprietary information. Accordingly, the FAR requires that FFRDCs (1) operate in the public interest with objectivity and independence, (2) be free from organizational conflicts of interest, and (3) fully disclose their activities to their sponsoring agency.¹⁷ Additionally, FFRDCs are not allowed to use their special access to privileged information, equipment, or property to compete with the private sector for federal R&D contracts. However, an FFRDC is allowed to perform work for other agencies when the capabilities of the FFRDC are not available in the private sector. Finally, the prohibition against competing with the private sector for federal R&D contracts does not apply to the parent organization or any subsidiary of the parent organization associated with an FFRDC.¹⁸

The other defining characteristic is the long-term relationship between an FFRDC and its sponsoring agency. Under the FAR, the initial contract period of an FFRDC may be up to five years, but these contracts may be renewed, following a review, in increments of up to five years.¹⁹ For example, one DOE FFRDC—the Pacific Northwest National Laboratory—has been operating under the same contract since 1964. The FAR encourages long-term contracts to provide stability and continuity that are intended to allow an FFRDC to attract high-quality personnel.²⁰ Additionally, under the FAR, a long relationship is required to enable the FFRDC to maintain in-depth expertise, stay familiar with the needs of the agency, provide a quick response capability, and maintain objectivity and independence.²¹

In addition to the described characteristics and requirements, prior to establishing an FFRDC, a sponsoring agency must make sure that there are no existing alternatives for addressing the agency's R&D needs (i.e., the research cannot be done effectively by the federal government or the private sector) and that the agency has the expertise necessary to review the performance of the FFRDC.²² The sponsoring agency must also ensure that cost controls are in place and that the purpose and mission of the FFRDC are clearly defined.²³

Other organizations, such as University Affiliated Research Centers (UARCs), have characteristics and requirements similar to those of FFRDCs. A brief description of UARCs is provided in the following box.

Federal Funding of FFRDCs

According to NSF, the federal government spent $128.6reported obligating $141.5 billion on R&D in FY2015.²⁶FY2019.²⁸ Of this amount, $11.114.9 billion or 8.610.5% of the total reported amount was spent on R&D performed by FFRDCs, compared to $47.543.6 billion (36.930.8%) performed by industry, $34.939.6 billion (27.228.0%) performed by federal agencies (intramural), and $2733.4 billion (21.323.6%) performed by universities and colleges (Figure 1, see box below for definitions of R&D performers). According to NSF, in FY2015, FFRDCs spent 22% of their R&D expenditures on basic research, 38% on applied research, and 39% in support of development activities.²⁷ The distribution of R&D expenditures by character of work performed, i.e., basic research, applied research, and development, has remained stable for the past three years. Prior to FY2013, the proportion of R&D spending on basic research was consistently more than one-third of total R&D expenditures and spending on applied research was closer to one-quarter of total R&D expenditures.

Figure 2 and Figure 3). Other nonprofit organizations, state and local governments, and foreign entities performed the remaining $10.1 billion (7.2%) of R&D funded by the federal government in FY2019 (Figure 1, see box below for definitions of R&D performers. Of the reported federal funds obligated to FFRDCs in FY2019, 41% was for basic research, 36% was for applied research, and 24% was for development (Figure 2). Figure 3 and Figure 4 illustrate federal R&D spending trends for FFRDCs from FY1967 to FY2015FY2019. Figure 23 shows that the proportion of total reported federal R&D spending obligated to FFRDCs has varied over time, ranging from a high of 11.6% in FY1983 to a low of 6.4% in FY2008. On average, between FY1967 and FY2015FY2019, the federal government has obligated 9.1reported obligating 9.2% of its federal R&D spending to FFRDCs.

In constant dollars, federal funding for FFRDCs grew from $7.2469 billion to $11.2514.87 billion from FY1967 to FY2015FY2019 (Figure 34). This increase represents a compound annual growth rate (CAGR) of 0.901.25% compared to the CAGR of 0.6766% for total reported federal R&D spending over the same period. Federal funding for FFRDCs in FY2015 was 4% higher than in FY2014. FFRDC funding peaked in FY2004 at $13 billionFY2019 ($14.87 billion) was 17.1% higher than in FY2018 ($12.70 billion) and represents the largest amount of federal funding for FFRDCs to date. As shown in Appendix B, the number of FFRDCs has fluctuated over time, from a high of 74 in FY1969 to a low of 34 in FY1982.

Figure 1. Share of Federal R&D Obligations by R&D Performer, FY2015 FY2019

Source: CRS analysis of data from National Science Foundation, Survey of Federal Funds for Research and Development, Fiscal Years 20158–179, Table 8, https://ncsesdata.nsf.gov/fedfunds/2018/index.html. Notes: Components may not sum to 100% due to rounding. A total of 32 federal agencies (15 federal departments and 17 independent agencies) reported R&D data to NSF for the survey for FY2018-FY2019. As described by NSF, "some measurement problems are known to exist in the Federal Funds Survey data. Some agencies cannot report the full costs of R&D, the final performer of the R&D, or the R&D plant data." For more information on the survey design, data collection and processing, and survey quality measures, among other areas, see "Survey Description," at https://www.nsf.gov/statistics/srvyfedfunds/#tabs-1&sd. Figure 2. Federal Obligations to FFRDCs by Character of Work, FY2019 Source: CRS analysis of data from National Science Foundation, Survey of Federal Funds for Research and Development, Fiscal Years 2018–19, Tables 28, 40, and 52, https://ncsesdata.nsf.gov/fedfunds/2018/index.html. Notes: Components may not sum to 100% due to rounding. A total of 32 federal agencies (15 federal departments and 17 independent agencies) reported R&D data to NSF for the survey for FY2018-FY2019. As described by NSF, "some measurement problems are known to exist in the Federal Funds Survey data. Some agencies cannot report the full costs of R&D, the final performer of the R&D, or the R&D plant data." For more information on the survey design, data collection and processing, and survey quality measures, among other areas, see "Survey Description," at https://www.nsf.gov/statistics/srvyfedfunds/#tabs-1&sd. Figure 3, Table 8.

Figure 2. Share of Federal R&D Obligations to FFRDCs, FY1967-FY2015 FY2019

Source: CRS analysis of data from National Science Foundation, Survey of Federal Funds for Research and Development, Fiscal Years 2015–17, Table 82018–19, Table 116, https://ncsesdata.nsf.gov/fedfunds/2018/index.html. Notes: As described by NSF, "some measurement problems are known to exist in the Federal Funds Survey data. Some agencies cannot report the full costs of R&D, the final performer of the R&D, or the R&D plant data." For more information on the survey design, data collection and processing, and survey quality measures, among other areas, see "Survey Description," at https://www.nsf.gov/statistics/srvyfedfunds/#tabs-1&sd.

Figure 34. Federal R&D Obligations to FFRDCs, FY1967-FY2015 FY2019 in billions of constant 2016FY2019 dollars

Source: CRS analysis of data from National Science Foundation, Survey of Federal Funds for Research and Development, Fiscal Years 2015–17, Table 82018–19, Table 116, https://ncsesdata.nsf.gov/fedfunds/2018/index.html. Notes: As described by NSF, "some measurement problems are known to exist in the Federal Funds Survey data. Some agencies cannot report the full costs of R&D, the final performer of the R&D, or the R&D plant data." For more information on the survey design, data collection and processing, and survey quality measures, among other areas, see "Survey Description," at https://www.nsf.gov/statistics/srvyfedfunds/#tabs-1&sd.

Table 1 shows the amount of FFRDC funding in FY2015reported preliminary federal funding obligated to FFRDC in FY2019, the share of total FFRDC funding provided by each agency, and the share of each agency's R&D budget spent at FFRDCs. DOE accounted for nearly $7 billion (60.5%) of the total $11.1 billion in FFRDC funding for FY2015. This represented 60.5Three federal agencies—DOE, NASA, and DOD—accounted for nearly 92% of all reported preliminary federal R&D funding obligated to FFRDCs in FY2019. DOE accounted for $8.5 billion (57.0%) of the total $14.9 billion in preliminary FFRDC funding reported for FY2019. This represented 58.0% of DOE's total R&D budget, indicating the central role FFRDCs play in fulfilling the agency's research needs. By comparison, DOD spent $1.9 billion on R&D at FFRDCs in FY2015, representing 3.1% of its R&D budget, NASA spent $1.4 billion or 12.2% of its R&D budget, NSF spent $225.6 million or 3.9% of its R&D budget, and DHS spent $120.1 million or 16.2% of its R&D budget at FFRDCs (Table 1).

Issues for Congress

FFRDCs have attracted the attention of Congress for decades. Historically, congressional concern focused on the growth of FFRDCs and their cost to the government (see Appendix B for the number of FFRDCs from FY1967 to FY2020). In more recent years, Congress has focused on the management and oversight of FFRDCs and their insulation from competition. Many of these concerns remain. The following sections describe some of these issues.

Effectiveness of Oversight and Management

The adequacy of agency oversight and management of FFRDCs is a long-standing congressional concern. Some Members of Congress have repeatedly expressed concern about the ability of federal agencies to control costs and address perceived mismanagement at FFRDCs. For example, in 1992, a Senate subcommittee report indicated "that FFRDCs today operate under an inadequate, inconsistent patchwork of federal cost, accounting and auditing controls, whose deficiencies have contributed to the wasteful or inappropriate use of millions of federal dollars."²⁹ More recently, in30 In a 2016 hearing examining the mission and management of DOE's FFRDCs, Representative Fred Upton, Chairman of the House Committee on Energy and Commerce, stated,

DOE's safety, security, and contract management problems span administrations, span Congresses. From my experience, and as our witnesses will explain, improving DOE's performance requires long, sustained attention to ensure sustained improvement in agency performance.³⁰

Congressional scrutiny is driven, in part, by a number of high-profile incidents. For example, in 2000, two Los Alamos National Laboratory (LANL) computer hard drives went missing and an employee was accused of planning to sell nuclear information to China.³¹32 In 2004, the mishandling of classified data and the partial blinding of a student from a laser accident closed LANL for seven months, costing $370 million.³² More recently33 Additionally, in 2016, an investigation found that LANL mishandled hazardous waste, and nine LANL workers were injured during routine maintenance of an electrical substation.³³34

Since the early 1990s, the Government Accountability Office (GAO) has designated DOE's contract management as a high-risk area for fraud, waste, abuse, and mismanagement.³⁴35 In 2013, GAO narrowed its high-risk designation to major contracts and projects within DOE's Office of Environmental Management and the National Nuclear Security Administration, which manages three DOE FFRDCs.³⁵36 In 20152018, while noting some of the progress made by DOE in addressing its oversight and management challenges, GAO indicated that "more work is needed."³⁶challenges remain."³⁷ And, in a 2019 review of how DOE evaluates the performance of contractors who manage and operate DOE facilities, including FFRDCs, GAO found the following: In analyzing DOE's fiscal year 2016 Performance Evaluation Reports (PER), GAO found that these reports provided less information on M&O [management and operating] contractors' cost performance than on contractors' technical and administrative performance. The cost information provided in the PERs often was not detailed, did not indicate the significance of the performance being described, and applied only to specific activities. Further, the information is of limited use for acquisition decision-making, such as deciding whether to extend the length of a contract, because it does not permit an overall assessment of cost performance.³⁸

Since 2002, DOE has been shifting its FFRDC oversight from a transactional model to a systems-based approach that assesses analytical information collected by the FFRDCs through what is known as contractor assurance systems (CAS).³⁷39 Many stakeholders recognize the use of CAS as a positive step to improving DOE oversight.³⁸40 However, in 2013, the National Academy of Public Administration (NAPA) called on DOE to exercise caution as it transitioned to this oversight model.³⁹41 NAPA indicated that the maturity of CAS varies and that DOE needs to verify the ability of an FFRDC's CAS to identify problems before they occur.

In contrast, others view DOE's overall oversight and management activities as burdensome, counterproductive, and a distortion of the FFRDC model.⁴⁰42 Critics assert that the original benefit of the FFRDC model—flexibility—has been substantially diminished because DOE now micromanages its FFRDCs. According to a 2013 report by the Information Technology and Innovation Foundation, the Center for American Progress, and the Heritage Foundation,

Decisions that should be made by research teams and lab managers are instead preapproved and double checked by a long and growing chain of command at DOE. There is no better example of this oversight than the hundreds of DOE site-office⁴¹43 employees staffed to regulate lab managers and research by proxy. This adds considerable delay and introduces additional costs to routine business decisions.⁴²44

Some of those concerned about the detrimental effects of increased micromanagement would like to see a return to the original intent of the FFRDC model: a model where the government sets the overall strategic direction and provides the necessary funding and the FFRDC is given the flexibility to determine how to address the identified challenges.⁴³45 Critics indicate that a lack of trust currently exists between DOE and its laboratories and that in order to return to the partnership envisioned by the FFRDC model, this trust needs to be restored. They recommend that DOE provide its FFRDCs with more authority and flexibility, and then hold each FFRDC to a high standard of transparency and accountability.⁴⁴46 According to the Information Technology and Innovation Foundation, the Center for American Progress, and the Heritage Foundation, if an individual FFRDC does not meet its obligations, corrective actions, including punitive restrictions and possibly the firing of the FFRDC contractor, are valid options, but they assert that the mistakes of one FFRDC should not result in new regulations and additional oversight for all DOE FFRDCs.⁴⁵

Competition with the Private Sector

Congress and the executive branch have been interested in promoting competition in federal procurement, including the procurement of R&D, for decades. However, federal law explicitly exempts FFRDCs from competitive practices.⁴⁸ Historically, critics of this exemption have asserted that it prohibits the federal government from receiving the best possible R&D at the most competitive price.⁴⁹ For example, in a 1997 report, the Defense Science Board stated, "the lack of competition for much of the work being done in the FFRDCs is not justified, nor in the long run is it in the best interests of the DOD."⁵⁰ Additionally, some critics have pointed out that the R&D capabilities of the private sector have increased dramatically since World War II and the continued use of FFRDCs is in direct opposition to their original intent—to conduct R&D that cannot be done as effectively by the private sector or the federal government.⁵¹

More recently, critics have focused on the use of FFRDCs for systems engineering and integration (SE&I) services.⁵²53 The Professional Services Council (PSC), the national trade association of the government professional and technical services industry, has asserted that the SE&I capabilities of the private sector are as good as or better than those of FFRDCs.⁵³54 According to PSC, "prior to the 1990s, FFRDCs were often favored over for-profit systems engineering companies on grounds of avoiding potential conflicts of interest."⁵⁴55 However, PSC also suggested that congressionally initiated reforms through the Weapon System Acquisition Reform Act of 2009 (P.L. 111-23) have resulted in a sizable number of private sector SE&I companies that are conflict free, independent, and capable of performing the SE&I work currently going to FFRDCs.⁵⁵56

In the National Defense Authorization Act for Fiscal Year 2016 (Section 895 of P.L. 114-92), Congress included a provision to address concerns about conflicts of interest and unfair competitive advantages associated with SE&I servicessole-source task orders to entities that provide technical advice on defense programs. Specifically, the provision requires DOD to review and, if necessary, issue policy guidance related to the identification, mitigation, and prevention of potential unfair competitive advantages conferred to technical advisors to acquisition programs. As detailed in the joint explanatory statement accompanying the bill, technical advisors are contractors, FFRDCs, university-affiliated research centers, non-profit entities, and federal laboratories that provide, among other services, systems engineering and technical direction.⁵⁶57 In carrying out the provision, the joint explanatory statement directs DOD

To review the efficacy of current conflict-of-interest policies, the use of non-disclosure agreements, the application of appropriate regulations, and decisions to allocate resources through direct award of funds to intramural programs or sole-source task orders to entities that provide technical advice on defense programs versus open and competitive extramural solicitations.⁵⁷

However, it is less clearIn December 2019, GAO reviewed DOD's use of study and analysis FFRDCs and found that all five of DOD's study and analysis centers had conflict of interest policies and practices in line with the FAR and DOD guidance related to FFRDCs.⁵⁹ It is less clear, however, if the private sector could fully address the work being performed by FFRDCs categorized as R&D laboratories. According to PSC, FFRDCs "maintain laboratories and specialized test and evaluation facilities beyond those available to the government and its for-profit contractors."⁵⁸60 Additionally, proponents assert that FFRDCs "occupy a key role in the nation's S&T [science and technology] community that cannot be carried out solely by academic institutions or the business sector."⁵⁹61 FFRDCs are widely seen as contributing to U.S. technological and economic leadership.

Mission Creep

The diversification of FFDRC activities or "mission creep" is an issue closely related to concerns about competition with the private sector. A poorly defined mission or scope may make it more difficult to determine what R&D tasks are appropriate for an FFRDC to perform and what tasks are better left to the private sector. Concerns over mission creep are associated not only with the broadening of FFRDC activities into new fields, but also with the broadening of FFRDC clients (e.g., work for other agencies). Some analysts have asserted that diversification of FFRDC activities is contrary to the intent of FFRDCs—to serve a special R&D need—and an ineffective means for accomplishing the federal agency's mission.⁶⁰62 In 1995, a task force examining the future of the DOE national laboratories stated that applying the technical competencies of the national laboratories to new problem areas needed to be carefully managed.⁶¹63 Specifically, the task force said such activities

should not be a license to expand into areas of science and technology which already are being addressed effectively or more appropriately by other Research and Development (R&D) performers in government, academia and the private sector.⁶²64

Agencies have approached mission creep concerns in different ways. DOE has placed limits on the amount of work its FFRDCs can perform for other agencies. Specifically, if the work for other agencies and non-governmental entities in a DOE Office of Science FFRDC is 20% above the FFRDC's operating budget, then DOE requires an in-depth review prior to approving the work.⁶³65 Such a review is intended to ensure the work that DOE FFRDCs are performing for other entities will not impede its ability to meet DOE's research needs. However, in a 2013 report, GAO indicated that DOE is not consistently fulfilling agency requirements—project approval, cost recovery, or program review—to ensure its work for others program is not negatively affecting the laboratories' mission.⁶⁴

In regards to DOD, Congress has included language each year since 1993 in the defense appropriations bill that prohibits DOD from establishing new FFRDCs.⁶⁵67 Congress has also placed an annual limit on the number of Staff Years of Technical Effort (STE) that DOD FFRDCs can use to perform work for the agency.⁶⁶68 STE is a cap on personnel time which translates into a cap on funding levels for each FFRDC. DOD allocates a portion of STE to each of its FFRDCs. Limiting the personnel time available to each DOD FFRDC is believed to drive prioritization of needs and provide greater assurance that the work being performed by FFRDCs is appropriate in scope.⁶⁷ The STE limitation, however,69 As noted by the Defense Business Board, the STE limitation does not apply to work that DOD FFRDCs perform for other agencies. and "it is not clear how much rigor is applied to the [STE] allocation process."⁷⁰

In general, according to GAO, federal agency approval of annual FFRDC R&D plans should ensure activities remain within the scope, mission, and purpose of the FFRDC.⁶⁸

Competition of FFRDC Contracts

A hallmark of FFRDCs is the long-term relationship each has with its sponsoring agency. A long-term relationship is believed to provide stability and continuity and is considered central to attracting and retaining scientific and technical expertise. Many FFRDCs have been managed by the same contractor since they were created. For example, Associated Universities, Inc. has operated NSF's National Radio Astronomy Observatory since 1956; RAND Corporation has operated DOD's Project Air Force since 1946; and MITRE Corporation has operated FAA's Center for Aviation System Development since 1990. However, some Members of Congress, GAO, and others have criticized the use of noncompetitive procedures for FFRDC contracts.⁶⁹73 These critics view competition as the best way to decrease costs and increase quality. For example, in 2003, a report by the Blue Ribbon Commission on the Use of Competitive Procedures for the Department of Energy Labs found that "competition imposes discipline and can elicit quality performance and efficient operation in ways simply not inspired by oversight alone."⁷⁰74

DOE has shifted from a position of not regularly conducting full and open competitions for its FFRDCs to routinely subjecting its FFRDCs to competition. Congressional action spurred this shift. Specifically, between FY1998 and FY2009 congressional appropriations acts mandated the use of competition for all DOE FFRDC contracts unless the Secretary of Energy granted a waiver to competition and provided the appropriations committees with a detailed justification for the waiver.⁷¹75

Annual appropriations language was not included after FY2009 because on December 22, 2009, the Secretary of Energy released a policy on the agency's use of competition for the management and operation of its FFRDCs.⁷²76 The policy states,

DOE does not default to a posture of determining a priori either that the Department will conduct competitions for all its M&O contracts, or that it will extend all these contracts. DOE recognizes a preference for full and open competition, and exercises, on a case-by-case basis, the authorities available to the Secretary.

According to DOE, the agency generally uses full and open competition under the following circumstances: when the performance of an FFRDC operator is viewed as unsatisfactory; when the potential for improved costs or technical performance has been identified; when viable alternatives exist in the marketplace; or when the agency decides to change the focus or mission of an FFRDC.⁷³ According to a 2014 GAO report, DOE has competed 6 of its 16 FFRDCs since 2004.⁷⁴77 In 2018, DOE awarded a new contract to Triad National Security, LLC—a partnership between Battelle Memorial Institute, the Texas A&M University System, and the Regents of the University of California—for the management and operation of Los Alamos National Laboratory. The new contract was awarded due to concerns with the performance of the previous contractor, which included health and safety issues.⁷⁸ Media reports, however, question the ability of Triad National Security to make significant improvements as one of the entities involved in the partnership, the University of California, was part of the previous contract management team.⁷⁹

Although competition is widely seen as an important tool for increasing performance and efficiency, some experts have asserted that there are downsides associated with the competition of FFRDC contracts.⁷⁵80 Specifically, critics view competition of existing FFRDCs as disruptive, costly, and harmful to FFRDC productivity.⁷⁶81 According to DOE, the time to conduct an FFRDC competition is approximately 18 months and it is estimated to cost a contractor preparing a bid between $3 million and $5 million.⁷⁷82 In describing its experiences with increased competition, DOE has stated,

although some efficiencies or improved contractual agreements have been made possible as a result of the new contracts the overall performance of the new contractors has in most cases not surpassed that of the old, and it is arguable that what improvements have been observed could have been achieved even in the absence of competition.⁷⁸

In 2008, GAO found that while most agencies required full and open competition for their FFRDC contracts, DOD continued to award noncompetitive or sole-source contracts to its FFRDCs.⁷⁹84 However, GAO also found that in response to criticism DOD began conducting more detailed and comprehensive reviews before renewing its FFRDC contracts.⁸⁰85 Additionally, a 2009 report by NASA's Office of Inspector General (OIG) found that the agency did not conduct an assessment of possible competitors, as required by the FAR, for operation of the Jet Propulsion Laboratory.⁸¹86 According to the NASA OIG, without performing the assessment NASA could not determine if it was getting the best value for the operation of its FFRDC.⁸²

Appendix A. List of Federally Funded Research and Development Centers, FY2017

Appendix B. Number of FFRDCs, FY1967–FY2017

Figure B-1. Number of FFRDCs by Fiscal Year, 1967-2017 2020

Source: CRS generated figure. Data from U.S. Congress, Office of Technology Assessment, A History of the Department of Defense Federally Funded Research and Development Centers, OTA-BP-ISS-157 (Washington, DC: U.S. Government Printing Office, June 1995), pp. 51-52; and National Science Foundation, Master List of Federally Funded R&D Centers, at http://www.nsf.gov/statistics/ffrdclist/.

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