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United States Government Accountability Office: 
GAO: 

Report to Congressional Committees: 

April 2011: 

Joint Strike Fighter: 

Restructuring Places Program on Firmer Footing, but Progress Still 
Lags: 

GAO-11-325: 

GAO Highlights: 

Highlights of GAO-11-325, a report to congressional committees. 

Why GAO Did This Study: 

The F-35 Lightning II, also known as the Joint Strike Fighter (JSF), 
is the Department of Defense’s (DOD) most costly and ambitious 
aircraft acquisition, seeking to simultaneously develop and field 
three aircraft variants for the Air Force, Navy, Marine Corps, and 
eight international partners. The JSF is critical for recapitalizing 
tactical air forces and will require a long-term commitment to very 
large annual funding outlays. The current estimated investment is $382 
billion to develop and procure 2,457 aircraft. 

This report, prepared in response to a congressional mandate in the 
National Defense Authorization Act for Fiscal Year 2010, discusses (1) 
program cost and schedule changes and their implications on 
affordability; (2) progress made during 2010; (3) design and 
manufacturing maturity; and (4) test plans and progress. GAO’s work 
included analyses of a wide range of program documents and interviews 
with defense and contractor officials. 

What GAO Found: 

DOD continues to substantially restructure the JSF program, taking 
positive actions that should lead to more achievable and predictable 
outcomes. Restructuring has consequences—higher up-front development 
costs, fewer aircraft in the near term, training delays, and extended 
times for testing and delivering capabilities to warfighters. Total 
development funding is now $56.4 billion to complete in 2018, a 26 
percent increase in cost and a 5-year slip in schedule compared to the 
current baseline. DOD also reduced procurement quantities by 246 
aircraft through 2016, but has not calculated the net effects of 
restructuring on total procurement costs nor approved a new baseline. 
Affordability for the U.S. and partners is challenged by a near 
doubling in average unit prices since program start and higher 
estimated life-cycle costs. Going forward, the JSF requires 
unprecedented funding levels in a period of more austere defense 
budgets. 

The program had mixed success in 2010, achieving 6 of 12 major goals 
it established and making varying degrees of progress on the others. 
Successes included the first flight of the carrier variant, award of a 
fixed-price aircraft procurement contract, and an accelerated pace in 
development flight tests that accomplished three times as many flights 
in 2010 as the previous 3 years combined. However, the program did not 
deliver as many aircraft to test and training sites as planned and 
made only a partial release of software capabilities. The short take 
off and landing variant (STOVL) experienced significant technical 
problems and did not meet flight test expectations. The Secretary of 
Defense directed a 2-year period to evaluate and engineer STOVL 
solutions. 

After more than 9 years in development and 4 in production, the JSF 
program has not fully demonstrated that the aircraft design is stable, 
manufacturing processes are mature, and the system is reliable. 
Engineering drawings are still being released to the manufacturing 
floor and design changes continue at higher rates than desired. More 
changes are expected as testing accelerates. Test and production 
aircraft cost more and are taking longer to deliver than expected. 
Manufacturers are improving operations and implemented 8 of 20 
recommendations from an expert panel, but have not yet demonstrated a 
capacity to efficiently produce at higher production rates. 
Substantial improvements in factory throughput and the global supply 
chain are needed. 

Development testing is still early in demonstrating that aircraft will 
work as intended and meet warfighter requirements. Only about 4 
percent of JSF capabilities have been completely verified by flight 
tests, lab results, or both. Only 3 of the extensive network of 32 
ground test labs and simulation models are fully accredited to ensure 
the fidelity of results. Software development-—essential for achieving 
about 80 percent of the JSF functionality—-is significantly behind 
schedule as it enters its most challenging phase. 

What GAO Recommends: 

To sustain a focus on accountability and facilitate tradeoffs within 
the JSF program, GAO recommends that DOD (1) maintain annual funding 
levels at current budgeted amounts; (2) establish criteria for 
evaluating the STOVL’s progress and make independent reviews, allowing 
each variant to proceed at its own pace; and (3) conduct an 
independent review of the software development and lab accreditation 
processes. DOD concurred. 

View [hyperlink, http://www.gao.gov/products/GAO-11-325] or key 
components. For more information, contact Michael J. Sullivan at (202) 
512-4841 or sullivanm@gao.gov. 

[End of section] 

Contents: 

Letter: 

Background: 

Affordability Expectations Are Challenged as JSF Acquisition Costs 
Rise and Schedules Slip: 

Progress in Achieving the JSF Program's 2010 Goals Was Mixed: 

Program Has Still Not Fully Demonstrated a Stable Design and Mature 
Manufacturing Processes as It Enters Its Fifth Year of Production: 

Testing Has Been Slow and Has Not Demonstrated That the Aircraft Will 
Work in Its Intended Environment: 

Conclusions: 

Recommendations for Executive Action: 

Agency Comments and Our Evaluation: 

Appendix I: Scope and Methodology: 

Appendix II: Prior GAO Reports on JSF and DOD Responses and Subsequent 
Actions: 

Appendix III: Comments from the Department of Defense: 

Appendix IV: GAO Contact and Staff Acknowledgments: 

Related GAO Products: 

Tables: 

Table 1: Changes in Reported JSF Program Cost, Quantities, and 
Deliveries: 

Table 2: Budgeted Development and Procurement Funding and Quantities 
for Fiscal Years 2012-2016: 

Table 3: JSF Progress on Stated Goals for 2010: 

Table 4: Flight Test Performance in 2010: 

Figures: 

Figure 1: JSF Annual Development and Procurement Funding Requirements 
(April 2010 Estimate): 

Figure 2: Monthly Design Changes for JSF Aircraft: 

Figure 3: JSF Labor Hours for Manufacturing Test Aircraft: 

Figure 4: JSF Mean Times between Failure Demonstrated to Date: 

Figure 5: Actual JSF Flight Tests Completed through 2010 Compared to 
the 2007 Plan: 

Figure 6: Test Point Distribution by Variant (2010 Test Plan): 

Figure 7: Slips in Delivering Software to Flight Test: 

Abbreviations: 

CAPE: Cost Assessment and Program Evaluation: 

CTOL: conventional takeoff and landing: 

CV: carrier variant: 

DCMA: Defense Contract Management Agency: 

DOD: Department of Defense: 

IMRT: Independent Manufacturing Review Team: 

JAT: Joint Assessment Team: 

JET: Joint Estimating Team: 

JSF: Joint Strike Fighter: 

OSD: Office of the Secretary of Defense: 

STOVL: short takeoff and vertical landing: 

[End of section] 

United States Government Accountability Office: 
Washington, DC 20548: 

April 7, 2011: 

Congressional Committees: 

The F-35 Lightning II, also known as the Joint Strike Fighter (JSF) is 
the Department of Defense's (DOD) most costly and ambitious aircraft 
acquisition, seeking to simultaneously develop and field three 
aircraft variants for the Air Force, Navy, Marine Corps, and eight 
international partners. The JSF is the core of DOD's long term 
tactical aircraft recapitalization plans as it is intended to replace 
hundreds of legacy aircraft. Total U.S. planned investment in the JSF 
is about $385 billion to develop and acquire 2,457 aircraft through 
2035. With that many dollars at stake amidst pressing warfighter 
requirements for this new 5th generation capability, the Department 
has lately recognized numerous technical, financial, and management 
shortcomings and continues to significantly restructure the program, 
adding more time and money and making other changes that we support. 

GAO has reported on JSF issues for a number of years. Appendix 2 
summarizes key findings and recommendations from that body of work. 
One recurring theme has been the "single step," or revolutionary, 
acquisition strategy the JSF program adopted to develop and acquire 
full combat capabilities on a very aggressive, risky schedule with 
substantial concurrency, or overlap among development, testing, and 
production activities.[Footnote 1] That strategy, coupled with a 
management environment that was slow to acknowledge and address 
problems with needed changes, are prime contributors to the relatively 
poor cost, schedule, and performance outcomes experienced to date. Our 
March 2010 report[Footnote 2] discussed additional cost and schedule 
pressures, unsatisfactory performance in manufacturing and delivering 
aircraft, and concerns about not meeting warfighter requirements on 
time and in quantity. We recommended that (1) DOD complete an 
independent, comprehensive cost and schedule estimate and establish it 
as the official program of record for planning, budgeting, and 
congressional reporting purposes and (2) reassess warfighter 
requirements to determine the minimum needs (both capabilities and 
capacity) that can be achieved within realistic and reasonable 
timeframes and, if necessary, defer some capabilities to future 
increments. In addition, we suggested that Congress consider requiring 
DOD to establish a "system maturity matrix," a management tool to 
better measure the program's annual progress toward key objectives to 
improve oversight and better inform future budget decisions. 

This is our second report required by law[Footnote 3] in which we (1) 
evaluate program cost and schedule changes and their implications on 
affordability; (2) identify progress made in 2010 against established 
goals; (3) assess elements of design stability and manufacturing 
maturity and review production results; and (4) report status of 
development testing and technical challenges facing the program. To 
conduct this work, we evaluated DOD's restructuring actions and 
impacts on the program, tracked cost and schedule changes, and 
determined factors driving the changes. We reviewed program status 
reports, manufacturing data, test plans, and internal DOD analyses. We 
discussed results to date and future plans to complete JSF development 
and move further into procurement with DOD, JSF, and contractor 
officials including members of the independent review teams. We toured 
aircraft and engine manufacturing plants, obtained production and 
supply performance indicators, and discussed improvements underway 
with contractors. We conducted this performance audit from May 2010 to 
March 2011 in accordance with generally accepted government auditing 
standards. Those standards require that we plan and perform the audit 
to obtain sufficient, appropriate evidence to provide a reasonable 
basis for our findings and conclusions based on our audit objectives. 
We believe that the evidence obtained provides a reasonable basis for 
our findings and conclusions based on our audit objectives. 

Background: 

The F-35 program is a joint, multinational acquisition to develop and 
field an affordable, highly common family of stealthy, next-generation 
strike fighter aircraft for the United States Air Force, Marine Corps, 
Navy, and eight international partners. The JSF is a single-seat, 
single-engine aircraft incorporating low-observable (stealth) 
technologies, defensive avionics, advanced sensor fusion,[Footnote 4] 
internal and external weapons, and advanced prognostic maintenance 
capability. There are three variants. The F-35A conventional takeoff 
and landing (CTOL) variant will provide air-to-ground attack 
capabilities to replace the Air Force's F-16 Fighting Falcon and the A-
10 Thunderbolt II aircraft, and will complement the F-22A Raptor. The 
F-35B short takeoff and vertical landing (STOVL) aircraft will be a 
multi-role strike fighter to replace the Marine Corps' F/A-18C/D 
Hornet and AV-8B Harrier aircraft. The F-35C carrier-suitable variant 
(CV) will provide the Navy and Marine Corps a multi-role, stealthy 
strike aircraft to complement the F/A-18E/F Super Hornet. The JSF is 
DOD's largest cooperative program.[Footnote 5] Our international 
partners are providing about $5.1 billion toward development, and 
foreign firms are part of the industrial base producing aircraft. 
DOD's funding requirements for the JSF assume economic benefits from 
partner purchases in reducing unit costs for U.S. aircraft. 

JSF concept development began in November 1996 with a 5-year 
competition between contractors to determine the most capable and 
affordable preliminary aircraft design. Lockheed Martin won the 
competition and the JSF program entered system development and 
demonstration in October 2001. Pratt and Whitney is the primary engine 
manufacturer, while General Electric has been developing a potential 
second source for the engine. System integration efforts and a 
preliminary design review then revealed significant airframe weight 
problems impacting key performance requirements. In March 2004, DOD 
rebaselined the program, adding time and money for development and 
delaying key milestones. The Navy and Marine Corps also reduced their 
planned procurement by 409 jets, reducing the total U.S. buy to the 
current 2,457 quantity. The program was again rebaselined in March 
2007 to reflect additional cost increases and schedule slips and the 
procurement period was extended by 7 years to 2034 with reduction in 
annual quantities. 

Because of continuing problems and poor outcomes, the Secretary of 
Defense announced another comprehensive restructuring of the JSF 
program in February 2010. The restructuring followed an extensive 
Department-wide review initiated in 2009 and considered the findings 
and recommendations from three independent groups chartered to assess 
the program: the Joint Estimating Team (JET) evaluated program 
execution and resource requirements; the Independent Manufacturing 
Review Team (IMRT) assessed contractor capabilities and plans for 
ramping-up and sustaining production at maximum rates; and the Joint 
Assessment Team (JAT) reviewed engine costs and affordability 
initiatives. Key restructuring actions included adding $2.8 billion 
for development, extending flight testing by 13 months, adding flight 
test resources (one new test jet and use of 3 production jets), 
reduced near-term procurement by 122 aircraft, and review of the 
military services' capability need dates. The Under Secretary of 
Defense for Acquisition, Technology and Logistics stated that the 
department-wide review would continue under new program management and 
cited 2010 as a critical year for assessing progress against the new 
plans and the expected delivery of all test aircraft, completion of 
hundreds of test flights, and meeting other key milestones. We 
supported these actions in our March 2010 report and subsequent 
testimonies.[Footnote 6] We noted the likelihood of additional cost 
growth and schedule extensions as the restructuring continues. 

In March 2010, the Department declared that the program experienced a 
breach of the critical cost growth statutory thresholds.[Footnote 7] 
The Department subsequently certified to Congress in June 2010 that 
the JSF program should continue.[Footnote 8] Table 1 summarizes the 
evolution of JSF cost and schedule estimates at key junctures in its 
acquisition history through the current Nunn-McCurdy certification. 
Since then, in January 2011, the Secretary of Defense announced 
additional development cost increases and further changes consequent 
to the ongoing restructure, but has not yet established a new approved 
acquisition program baseline. 

Table 1: Changes in Reported JSF Program Cost, Quantities, and 
Deliveries: 

Expected quantities: 

Development quantities; 
October 2001 (system development start): 14; 
December 2003 (2004 replan): 14; 
March 2007 (approved baseline): 15; 
April 2010 (initial program restructure): 14; 
June 2010 (Nunn-McCurdy): 14. 

Procurement quantities (U.S. only); 
October 2001 (system development start): 2,852; 
December 2003 (2004 replan): 2,443; 
March 2007 (approved baseline): 2,443; 
April 2010 (initial program restructure): 2,443; 
June 2010 (Nunn-McCurdy): 2,443. 

Total quantities; 
October 2001 (system development start): 2,866; 
December 2003 (2004 replan): 2,457; 
March 2007 (approved baseline): 2,458; 
April 2010 (initial program restructure): 2,457; 
June 2010 (Nunn-McCurdy): 2,457. 

Cost estimates (then-year dollars in billions): 

Development; 
October 2001 (system development start): $34.4; 
December 2003 (2004 replan): $44.8; 
March 2007 (approved baseline): $44.8; 
April 2010 (initial program restructure): $50.2; 
June 2010 (Nunn-McCurdy): $51.8. 

Procurement; 
October 2001 (system development start): $196.6; 
December 2003 (2004 replan): $199.8; 
March 2007 (approved baseline): $231.7; 
April 2010 (initial program restructure): $277.5; 
June 2010 (Nunn-McCurdy): $325.1. 

Military construction; 
October 2001 (system development start): $2.0; 
December 2003 (2004 replan): $0.2; 
March 2007 (approved baseline): $2.0; 
April 2010 (initial program restructure): $0.6; 
June 2010 (Nunn-McCurdy): $5.6. 

Total program acquisition; 
October 2001 (system development start): $233.0; 
December 2003 (2004 replan): $244.8; 
March 2007 (approved baseline): $278.5; 
April 2010 (initial program restructure): $328.3; 
June 2010 (Nunn-McCurdy): $382.5. 

Unit cost estimates (then-year dollars in millions): 

Program acquisition; 
October 2001 (system development start): $81; 
December 2003 (2004 replan): $100; 
March 2007 (approved baseline): $113; 
April 2010 (initial program restructure): $134; 
June 2010 (Nunn-McCurdy): $156. 

Average procurement; 
October 2001 (system development start): $69; 
December 2003 (2004 replan): $82; 
March 2007 (approved baseline): $95; 
April 2010 (initial program restructure): $114; 
June 2010 (Nunn-McCurdy): $133. 

Estimated delivery and production dates: 

First operational aircraft delivery; 
October 2001 (system development start): 2008; 
December 2003 (2004 replan): 2009; 
March 2007 (approved baseline): 2010; 
April 2010 (initial program restructure): 2010; 
June 2010 (Nunn-McCurdy): 2010. 

Initial operational capability; 
October 2001 (system development start): 2010-2012; 
December 2003 (2004 replan): 2012-2013; 
March 2007 (approved baseline): 2012-2015; 
April 2010 (initial program restructure): 2012-2016; 
June 2010 (Nunn-McCurdy): TBD. 

Full-rate production; 
October 2001 (system development start): 2012; 
December 2003 (2004 replan): 2013; 
March 2007 (approved baseline): 2013; 
April 2010 (initial program restructure): 2016; 
June 2010 (Nunn-McCurdy): 2016. 

Source: GAO analysis and DOD data. 

Note: Does not reflect cost and schedule effects from additional 
restructuring actions announced after June 2010. 

[End of table] 

Affordability Expectations Are Challenged as JSF Acquisition Costs 
Rise and Schedules Slip: 

Ongoing JSF restructuring continues to add more cost and time for 
developing, testing, and delivering aircraft to the warfighter. These 
actions, effectively implemented, should result in more predictable 
and achievable program outcomes, but restructuring comes with 
consequences--higher upfront development costs, fewer aircraft 
received in the near term, training delays, and extended times for 
testing and delivering the capabilities required by the warfighter. 
Affordability for the U.S. and our allies is challenged because unit 
prices are about double what they were at program start and with new 
forecasts that the aircraft may cost substantially more to operate and 
maintain over the life cycle than the legacy aircraft they replace. 
Going forward, the program requires unprecedented levels of funding in 
a period of more austere defense funding. Defense leaders stated that 
the JSF program lost its focus on affordability and that restoring the 
focus is paramount to improving program outcomes. 

Additional Cost Increases and Schedule Delays Are Expected as Program 
Restructuring Continues: 

Defense leadership continued to restructure the JSF program following 
the Nunn-McCurdy certification. In January 2011, the Secretary of 
Defense directed additional changes, stemming in large part from the 
results of a comprehensive technical baseline review under new 
government and contractor management. Key program changes (1) added 
$4.6 billion to the development program through completion for a total 
development program estimate of $56.4 billion (an increase of 26 
percent against the current baseline and 64 percent from the original 
baseline at program start); (2) extended the development test period 
to 2016 (a 4-year slip from the current baseline); and (3) reduced 
near-term procurement quantities by 124 aircraft in addition to the 
122 aircraft cut announced in February 2010; and (4) lowered the 
annual rate of increase for boosting future production. 

Because of the lingering technical issues on the STOVL, the most 
complex variant, the Secretary decoupled STOVL flight tests from the 
combined test plan and scaled back STOVL production to only 3 in 
fiscal year 2011 and to 6 per year for fiscal years 2012 and 2013. 
This represents a total cut of 37 STOVL aircraft during this 3-year 
period compared to the fiscal year 2011 budget plans. In announcing 
these changes, the Secretary also noted the STOVL's significant 
testing problems which include lift fan engine deficiencies, and poor 
durability test results, which could require redesigns and add weight 
to aircraft's structure and propulsion system. While the Secretary 
decoupled STOVL from the flight test program, STOVL was not further 
separated from the rest of the JSF program for management and 
reporting activities. It remains a part of the combined JSF program 
for milestone decisions and cost, schedule, and performance reporting. 
Resolving STOVL problems and moving forward at an affordable cost is 
essential to the Marine Corps' future plans, which depend upon 
acquiring the STOVL in quantity to directly accompany, protect, and 
provide firepower to its ground expeditionary forces. 

The recently submitted fiscal year 2012 Defense Budget reflects the 
financial impacts from restructuring actions through 2016. Compared to 
estimates in the fiscal year 2010 future years defense program for the 
same 5-year period, the Department increased development funding by 
$7.7 billion and decreased procurement funding by $8.4 billion 
reflecting plans to buy fewer aircraft. Table 2 summarizes the revised 
development and procurement funding requirements and annual quantities 
following the Secretary's reductions. Even after decreasing near-term 
quantities and lowering the ramp rate, JSF procurement still rapidly 
increases. Annual funding levels more than double and quantities more 
than triple during this period. These numbers do not include the 
additional orders expected from the international partners. 

Table 2: Budgeted Development and Procurement Funding and Quantities 
for Fiscal Years 2012-2016: 

(Dollars in billions). 

Development Funding: Air Force (CTOL); 
2012: $1.4; 
2013: $1.2; 
2014: $0.9; 
2015: $0.6; 
2016: $0.4; 
Total: $4.5. 

Development Funding: Navy (CV); 
2012: $0.7; 
2013: $0.7; 
2014: $0.7; 
2015: $0.6; 
2016: $0.5; 
Total: $3.2. 

Development Funding: Marine Corps (STOVL); 
2012: $0.7; 
2013: $0.7; 
2014: $0.7; 
2015: $0.6; 
2016: $0.5; 
Total: $3.2. 

Development Funding: U.S. total development: 
2012: $2.7
2013: $2.7
2014: $2.3
2015: $1.8
2016: $1.3
Total: $10.8. 

Procurement Funding: Air Force (CTOL); 
2012: $3.8; 
2013: $4.1; 
2014: $5.6; 
2015: $6.5; 
2016: $8.5; 
Total: $28.5. 

Procurement Funding: Navy (CV); 
2012: $1.8; 
2013: $2.5; 
2014: $2.8; 
2015: $3.3; 
2016: $2.9; 
Total: $13.2. 

Procurement Funding: Marine Corps (STOVL); 
2012: $1.3; 
2013: $1.3; 
2014: $1.4; 
2015: $2.0; 
2016: $2.9; 
Total: $9.0. 

Procurement Funding: U.S. total procurement; 
2012: 6.9; 
2013: $7.9; 
2014: $9.8; 
2015: $11.8; 
2016: $14.3; 
Total: $50.7. 

Procurement Quantities: Air Force (CTOL); 
2012: 19; 
2013: 24; 
2014: 40; 
2015: 50; 
2016: 70; 
Total: 203. 

Procurement Quantities: Navy (CV); 
2012: 7; 
2013: 12; 
2014: 14; 
2015: 19; 
2016: 20; 
Total: 72. 

Procurement Quantities: Marine Corps (STOVL); 
2012: 6; 
2013: 6; 
2014: 8; 
2015: 12; 
2016: 18; 
Total: 50. 

Procurement Quantities: U.S. total quantity; 
2012: 32; 
2013: 42; 
2014: 62; 
2015: 81; 
2016: 108; 
Total: 325. 

Source: GAO analysis of fiscal year 2012 President's Budget. 

Note: Numbers may not add due to rounding. 

[End of table] 

Additional changes to cost and schedule are likely as restructuring 
continues. At the time of this report, the Secretary had not yet 
granted new milestone B approval nor approved a new acquisition 
program baseline. Originally planned for November 2010, program 
officials now expect the new acquisition program baseline in late 
2011. Also, cost analysts are still revising procurement funding 
requirements for the period fiscal year 2017 through completion of 
procurement in 2035. Accordingly, the net effect of reducing near-term 
procurement quantities and deferring these aircraft to future years is 
uncertain and depends upon the assumptions made about future unit 
prices, annual quantities, and inflation. We expect total procurement 
costs will be somewhat higher than the estimate submitted in the Nunn-
McCurdy certification (refer to table 1). Reduced quantities and use 
of production aircraft in testing will also limit training activities 
for the near-term and delay deliveries of new capabilities to the 
warfighters. Officials now forecast that the completion of system 
development, completion of initial operational testing, and the full 
rate production decision will extend into 2018. This represents slips 
of about 5 years in these important milestones against the current 
program baseline approved in 2007. 

The military services are evaluating the impacts from restructuring on 
their initial operational capability (IOC) milestones, the critical 
need dates when the warfighter must have in place the first increment 
of operational forces available for combat. In response to the initial 
set of restructuring actions, the Air Force and Navy tentatively 
extended these milestones to 2016, but the Marine Corps slightly 
adjusted its IOC date by 9 months to December 2012. It is all but 
certain that the Marine Corps will be delaying its IOC date in the 
wake of the Secretary's STOVL actions. Air Force and Navy dates may 
also be adjusted to reflect the newest developments. 

Program Requires Unprecedented Funding Levels Well into the Future: 

Affordability--both in terms of the investment costs to acquire the 
JSF and the continuing costs to operate and maintain it over the life- 
cycle--is at risk. A key tenet of the JSF program from its inception 
has been to deliver an affordable, highly common fifth generation 
[Footnote 9] aircraft that could be acquired by the warfighters in 
large numbers. Rising aircraft prices erode buying power and make it 
difficult for the U.S. and its allies to buy as many aircraft as 
planned. Quantity reductions could drive additional price increases 
for future aircraft. Further, while the Department is still refining 
cost projections for operating and supporting future JSF fleets, cost 
forecasts have increased as the program matures and more data becomes 
available. Current JSF life-cycle cost estimates are considerably 
higher than the legacy aircraft it will replace; this has major 
implications for future demands on military operating and support 
budgets and plans for recapitalizing fighter forces. Defense 
leadership stated that the JSF program lost focus on affordability and 
that restoring and maintaining that focus is paramount to improving 
program outcomes. 

In light of continued cost growth, the program places unprecedented 
demands for funding in the defense budget--an annual average of almost 
$11 billion for the next two decades. (This and other data in this 
paragraph reflect the fiscal year 2011 budget submission.) During the 
peak years of production, the average annual requirement is about $13 
billion. The JSF will have to annually compete with other defense and 
nondefense priorities for the shrinking discretionary federal dollar 
amid continued concerns about the national debt and long term fiscal 
pressures. The JSF program has received more than $56 billion through 
fiscal year 2010. To complete the acquisition program as currently 
planned, another $272 billion will be required from 2011 through 2035. 
Figure 1 illustrates the annual funding requirements outlined in the 
program's Selected Acquisition Report released in April 2010. These 
funding levels do not reflect the additional funding increases in the 
Nunn-McCurdy certification and the Secretary's recent actions. DOD is 
in the process of establishing a new acquisition program baseline 
which will likely project even higher funding requirements. 

Figure 1: JSF Annual Development and Procurement Funding Requirements 
(April 2010 Estimate): 

[Refer to PDF for image: vertical bar graph] 

Fiscal year: 1994; 
Funding requirement: $0.03 billion. 

Fiscal year: 1995; 
Funding requirement: $0.18 billion. 

Fiscal year: 1996; 
Funding requirement: $0.20 billion. 

Fiscal year: 1997; 
Funding requirement: $0.63 billion. 

Fiscal year: 1998; 
Funding requirement: $0.99 billion. 

Fiscal year: 1999; 
Funding requirement: $0.98 billion. 

Fiscal year: 2000; 
Funding requirement: $0.52 billion. 

Fiscal year: 2001; 
Funding requirement: $0.68 billion. 

Fiscal year: 2002; 
Funding requirement: $1.74 billion. 

Fiscal year: 2003; 
Funding requirement: $3.68 billion. 

Fiscal year: 2004; 
Funding requirement: $4.66 billion. 

Fiscal year: 2005; 
Funding requirement: $4.93 billion. 

Fiscal year: 2006; 
Funding requirement: $5.37 billion. 

Fiscal year: 2007; 
Funding requirement: $5.60 billion. 

Fiscal year: 2008; 
Funding requirement: $7.14 billion. 

Fiscal year: 2009; 
Funding requirement: $7.31 billion. 

Fiscal year: 2010; 
Funding requirement: $11.41 billion. 

Through FY 2010: $56.1 billion. 

Fiscal year: 2011; 
Funding requirement: $11.90 billion. 

Fiscal year: 2012; 
Funding requirement: $12.11 billion. 

Fiscal year: 2013; 
Funding requirement: $14.12 billion. 

Fiscal year: 2014; 
Funding requirement: $14.33 billion. 

Fiscal year: 2015; 
Funding requirement: $14.66 billion. 

Fiscal year: 2016; 
Funding requirement: $13.52 billion. 

Fiscal year: 2017; 
Funding requirement: $13.46 billion. 

Fiscal year: 2018; 
Funding requirement: $13.03 billion. 

Fiscal year: 2019; 
Funding requirement: $12.91 billion. 

Fiscal year: 2020; 
Funding requirement: $12.92 billion. 

Fiscal year: 2021; 
Funding requirement: $13.02 billion. 

Fiscal year: 2022; 
Funding requirement: $13.05 billion. 

Fiscal year: 2023; 
Funding requirement: $12.87 billion. 

Fiscal year: 2024; 
Funding requirement: $11.67 billion. 

Fiscal year: 2025; 
Funding requirement: $10.51 billion. 

Fiscal year: 2026; 
Funding requirement: $10.16 billion. 

Fiscal year: 2027; 
Funding requirement: $8.21 billion. 

Fiscal year: 2028; 
Funding requirement: $8.33 billion. 

Fiscal year: 2029; 
Funding requirement: $8.33 billion. 

Fiscal year: 2030; 
Funding requirement: $8.20 billion. 

Fiscal year: 2031; 
Funding requirement: $8.25 billion. 

Fiscal year: 2032; 
Funding requirement: $8.36 billion. 

Fiscal year: 2033; 
Funding requirement: $8.46 billion. 

Fiscal year: 2034; 
Funding requirement: $7.85 billion. 

Fiscal year: 2035; 
Funding requirement: $1.94 billion. 

FY 2011 through FY 2035: $272.2 billion. 

Source: GAO analysis of DOD data. 

[End of figure] 

The JSF is the linchpin in DOD's tactical aircraft recapitalization 
plans, replacing hundreds of legacy aircraft. Because of its sheer 
size and high priority within the Department, even relatively modest 
cost growth on the JSF can require the sourcing of billions of 
additional funds, largely from other programs in DOD's acquisition 
portfolio. On the other hand, slips in JSF schedules, cuts in annual 
procurement quantities, and deferred delivery of operational aircraft 
can require additional monies be spent on legacy aircraft, postponing 
planned retirements and sustaining fleets for longer periods of time. 
To mitigate projected shortfalls in tactical aircraft inventories due 
to JSF perturbations, the Navy recently procured additional F/A-18E/F 
Super Hornets and both the Navy and Air Force are funding service life 
extension programs and adding new capabilities to legacy aircraft. 

Furthermore, international partners' participation in the JSF program 
is very important to maintaining affordability for all buyers. DOD 
budget plans expect the partners to buy 223 aircraft costing $24.1 
billion during the fiscal year 2011-2016 period. However, JSF cost 
increases, schedule delays, and internal issues may result in reduced 
or deferred foreign buys. Some partners have already signaled plans to 
buy fewer aircraft, a different mix of aircraft, or defer purchases to 
later years. On the positive side, other countries have expressed 
interest in acquiring the JSF. Decisions made by the international 
community and its impact on JSF affordability are largely beyond the 
program's direct control. However, improving JSF program outcomes to 
lower costs and reassure buyers is within DOD's and the contractors' 
control. 

The eight international partners have important stakes in the JSF 
program, having provided about $5 billion in development funding, 
being counted upon to procure hundreds of aircraft, and expecting 
their industries to receive a significant portion of JSF manufacturing 
and supply business. DOD's procurement cost estimates provided to the 
Congress have long assumed that the eight partners will buy at least 
730 JSF aircraft. Unit prices for U.S. quantities assume the economic 
benefit of these purchases. If fewer are sold overseas, the Air Force, 
Navy and Marine Corps (and the American taxpayer) may have to pay 
more. Unit costs can be expected to increase with smaller purchases 
due to diminished manufacturing economies of scale and because fixed 
costs have to be spread over fewer aircraft. 

Maintaining a strong focus on affordability necessitates having 
reliable and complete cost data that provides accurate accounting 
reports, identifies potential cost and schedule problems early, and 
produces sound estimates of the cost to complete work. The JSF program 
has been hampered in this regard because, for at least the past three 
years, the prime contractor has not had an adequate and disciplined 
earned value management (EVM) system in place to effectively track 
costs and control schedule. The prime contractor was found deficient 
in meeting 19 of 32 required guidelines, calling into question its 
ability to manage the escalating costs and complex scheduling of the 
JSF program. In October 2010, the Defense Contract Management Agency 
(DCMA) withdrew the determination of compliance for the prime 
contractor's EVM system due to longstanding non-compliance issues with 
specific guidelines that underpin a sound system.[Footnote 10] To 
address these shortcomings, the contractor is developing new 
processes, tools, training, and enforcement in order to achieve a 
fully integrated and automated EVM system. Officials will reassess the 
earned value system by March 2012--more than four years after these 
problems were first discovered to see if modifications needed have 
been made. 

EVM is an important, established tool that can provide objective 
product status reports. DOD requires its use by major defense 
suppliers to facilitate good insight and oversight of the expenditure 
of government dollars, thereby improving both affordability and 
accountability. JSF is DOD's largest acquisition ever, so it is 
particularly critical to improve and certify the contractor's EVM 
system as expeditiously as possible. If not improved, inaccurate 
performance reports and late notice of cost overruns will likely 
continue to hinder timely decision making and corrective actions. 
Strong leadership and a shared vision among stakeholders are critical 
to implementing EVM effectively. 

Progress in Achieving the JSF Program's 2010 Goals Was Mixed: 

The JSF program established 12 clearly-stated goals in testing, 
contracting, and manufacturing for completion in calendar year 2010. 
It had mixed success, achieving 6 goals and making varying degrees of 
progress on the other 6. For example, the program exceeded its goal 
for the number of development flight tests but did not deliver as many 
test and production aircraft as planned. Also, the program awarded its 
first fixed-price contract on its fourth lot of aircraft production, 
but did not award the fixed-price engine contract in 2010 as planned. 
Table 3 summarizes JSF goals and accomplishments for 2010. 

Table 3: JSF Progress on Stated Goals for 2010: 

Key event: Complete 400 development flight tests; 
Achieved in 2010: Yes; 
Status: Completed 410 test flights. 

Key event: First vertical landing of STOVL variant; 
Achieved in 2010: Yes; 
Status: Achieved March 2010. 

Key event: Carrier variant first flight; 
Achieved in 2010: Yes; 
Status: Achieved June 2010. 

Key event: Autonomic logistic information system is operational; 
Achieved in 2010: Yes; 
Status: Began limited operations July 2010. 

Key event: Training for 125 maintenance personnel completed; 
Achieved in 2010: Yes; 
Status: Trained 138 maintenance personnel. 

Key event: Award contract for fourth aircraft production lot; 
Achieved in 2010: Yes; 
Status: Awarded contract November 2010. 

Key event: Eleven test aircraft delivered to test sites; 
Achieved in 2010: No; 
Status: Delivered eight aircraft. 

Key event: Flight test rate of 12 flights per aircraft per month 
demonstrated; 
Achieved in 2010: No; 
Status: Achieved flight test rate of 2 to 8 per month. 

Key event: At least 3 aircraft delivered to Eglin Air Force Base; 
Achieved in 2010: No; 
Status: None delivered, expected mid-2011. 

Key event: Begin flight training operations at Eglin Air Force Base; 
Achieved in 2010: No; 
Status: Expected September 2011. 

Key event: Block 1.0 software delivered to flight test; 
Achieved in 2010: No; 
Status: Delivered limited capability November 2010 with full 
capability expected June 2011. 

Key event: Award contract for fourth engine production lot; 
Achieved in 2010: No; 
Status: Expected May 2011. 

Source: GAO analysis of DOD data. 

[End of table] 

The development flight test program significantly ramped up operations 
in 2010, accomplishing three times as many test flights as the 
previous 3 years combined. Table 4 summarizes actual flights, hours, 
and test points[Footnote 11] flown by each variant compared to the 
2010 plan. 

Table 4: Flight Test Performance in 2010: 

Flight tests: Actual; 
Conventional takeoff and landing variant: 171; 
Short takeoff and vertical landing variant: 212; 
Carrier variant: 27; 
Total: 410. 

Flight tests: Planned; 
Conventional takeoff and landing variant: 112; 
Short takeoff and vertical landing variant: 251; 
Carrier variant: 31; 
Total: 394. 

Flight tests: Difference; 
Conventional takeoff and landing variant: 59; 
Short takeoff and vertical landing variant: (39); 
Carrier variant: (4); 
Total: 16. 

Flight test hours: Actual; 
Conventional takeoff and landing variant: 290; 
Short takeoff and vertical landing variant: 286; 
Carrier variant: 41; 
Total: 617. 

Flight test hours: Planned; 
Conventional takeoff and landing variant: 202; 
Short takeoff and vertical landing variant: 409; 
Carrier variant: 56; 
Total: 667. 

Flight test hours: Difference; 
Conventional takeoff and landing variant: 88; 
Short takeoff and vertical landing variant: (123); 
Carrier variant: (15); 
Total: (50). 

Flight test points flown: Actual; 
Conventional takeoff and landing variant: 1373; 
Short takeoff and vertical landing variant: 1924; 
Carrier variant: 496; 
Total: 3793. 

Flight test points flown: Planned; 
Conventional takeoff and landing variant: 1064; 
Short takeoff and vertical landing variant: 2438; 
Carrier variant: 270; 
Total: 3772. 

Flight test points flown: Difference; 
Conventional takeoff and landing variant: 309; 
Short takeoff and vertical landing variant: (514); 
Carrier variant: 226; 
Total: 21. 

Source: GAO analysis of DOD data. 

[End of table] 

Although still hampered as in prior years by the late delivery of test 
aircraft, flight tests substantially increased in volume and pace at 
the two main government test sites--Edwards Air Force Base, 
California, for CTOL tests and Patuxent River Naval Air Station for 
STOVL and CV testing. The CTOL variant significantly exceeded plans 
while initial testing of the carrier variant was judged satisfactory, 
below plans for the number and hours of flight but ahead on test 
points flown. The STOVL, however, substantially under-performed in 
flight tests and experienced significant technical issues unique to 
this variant that could add to its weight and cost. The STOVL's test 
problems were a major factor in the heightened scrutiny and two-year 
probation period directed by the Secretary to engineer solutions, 
assess impacts, and inform a future decision as to whether and how to 
proceed with this variant. 

Evaluating annual performance against stated goals can be an effective 
tool that facilitates oversight by the Congress and defense leadership 
and useful for informing future budget decisions. In our 2010 report, 
we suggested that Congress consider requiring DOD to establish a 
system maturity matrix to better measure the program's progress in 
maturing the weapon system and providing evidence to support budget 
decisions.[Footnote 12] The Ike Skelton National Defense Authorization 
Act for Fiscal Year 2011[Footnote 13] established this requirement and 
we understand the Department is working on its implementation. We 
believe this tool and process will improve oversight and budgeting, 
holding people accountable for meeting interim objectives and, for 
objectives not met, providing criteria and a forum for evaluating 
reasons why and what should be done. 

Program Has Still Not Fully Demonstrated a Stable Design and Mature 
Manufacturing Processes as It Enters Its Fifth Year of Production: 

After completing 9 years of system development and 4 years of 
overlapping production activities, the JSF program has been slow to 
gain adequate knowledge that its design and manufacturing process are 
fully mature and ready for greater levels of annual production. The 
JSF program still lags in achieving critical indicators of success 
expected from well-performing acquisition programs. Specifically, the 
program has not yet stabilized aircraft designs--engineering changes 
continue at higher than expected rates long after critical design 
reviews and well into procurement, and more changes are expected as 
testing accelerates. Also, the aircraft and engine manufacturing 
processes are not yet mature enough to support efficient production at 
higher annual rates and substantial improvements in the global supply 
network are needed. Further, the growth in aircraft reliability--
crucial for managing life-cycle costs--has not been demonstrated to 
the extent planned by this time. 

The Program Has Not Yet Stabilized Aircraft Designs: 

Engineering drawings released since design reviews and the number and 
rate of design changes are excessive compared to plans and best 
practices. Critical design reviews were completed on the three 
aircraft variants in 2006 and 2007 and the designs declared mature, 
but the program continues to experience numerous changes. Since 2007, 
the program has produced 20,000 more engineering drawings, a 50-
percent increase in total drawings and about 5 times more than best 
practices suggest. In addition, changes to drawings have not decreased 
and leveled off as planned. Figure 2 tracks and compares monthly 
design changes and future forecasts against contractor plans in 2007. 
The monthly rate in 2009 and 2010 was higher than expected and the 
program now anticipates more changes over a longer period of time--
about 10,000 more changes through January 2016. We expect this number 
to go up given new forecasts for additional testing and extension of 
system development until 2018. 

Figure 2: Monthly Design Changes for JSF Aircraft: 

[Refer to PDF for image: combination vertical bar and line graph] 

2006: 

January; 
Anticipated design changes (2007 plan): 264; 
Design changes (actual): 251. 

February; 
Anticipated design changes (2007 plan): 323; 
Design changes (actual): 283. 

March; 
Anticipated design changes (2007 plan): 341; 
Design changes (actual): 362. 

April; 
Anticipated design changes (2007 plan): 374; 
Design changes (actual): 281. 

May; 
Anticipated design changes (2007 plan): 403; 
Design changes (actual): 373. 

June; 
Anticipated design changes (2007 plan): 378; 
Design changes (actual): 447. 

July; 
Anticipated design changes (2007 plan): 411; 
Design changes (actual): 347. 

August; 
Anticipated design changes (2007 plan): 513; 
Design changes (actual): 520. 

September; 
Anticipated design changes (2007 plan): 575; 
Design changes (actual): 385. 

October; 
Anticipated design changes (2007 plan): 490; 
Design changes (actual): 515. 

November; 
Anticipated design changes (2007 plan): 495; 
Design changes (actual): 505. 

December; 
Anticipated design changes (2007 plan): 547; 
Design changes (actual): 378. 

2007: 

January; 
Anticipated design changes (2007 plan): 653; 
Design changes (actual): 620. 

February; 
Anticipated design changes (2007 plan): 579; 
Design changes (actual): 567. 

March; 
Anticipated design changes (2007 plan): 576; 
Design changes (actual): 598. 

April; 
Anticipated design changes (2007 plan): 595; 
Design changes (actual): 647. 

May; 
Anticipated design changes (2007 plan): 663; 
Design changes (actual): 697. 

June; 
Anticipated design changes (2007 plan): 702; 
Design changes (actual): 634. 

July; 
Anticipated design changes (2007 plan): 747; 
Design changes (actual): 681. 

August; 
Anticipated design changes (2007 plan): 797; 
Design changes (actual): 739. 

September; 
Anticipated design changes (2007 plan): 775; 
Design changes (actual): 744. 

October; 
Anticipated design changes (2007 plan): 730; 
Design changes (actual): 876. 

November; 
Anticipated design changes (2007 plan): 761; 
Design changes (actual): 678. 

December; 
Anticipated design changes (2007 plan): 814; 
Design changes (actual): 578. 

2008: 

January; 
Anticipated design changes (2007 plan): 853; 
Design changes (actual): 606. 

February; 
Anticipated design changes (2007 plan): 828; 
Design changes (actual): 594. 

March; 
Anticipated design changes (2007 plan): 759; 
Design changes (actual): 645. 

April; 
Anticipated design changes (2007 plan): 675; 
Design changes (actual): 560. 

May; 
Anticipated design changes (2007 plan): 624; 
Design changes (actual): 387. 

June; 
Anticipated design changes (2007 plan): 599; 
Design changes (actual): 459. 

July; 
Anticipated design changes (2007 plan): 606; 
Design changes (actual): 605. 

August; 
Anticipated design changes (2007 plan): 578; 
Design changes (actual): 590. 

September; 
Anticipated design changes (2007 plan): 477; 
Design changes (actual): 590. 

October; 
Anticipated design changes (2007 plan): 428; 
Design changes (actual): 621. 

November; 
Anticipated design changes (2007 plan): 422; 
Design changes (actual): 527. 

December; 
Anticipated design changes (2007 plan): 421; 
Design changes (actual): 508. 

2009: 

January; 
Anticipated design changes (2007 plan): 389; 
Design changes (actual): 573. 

February; 
Anticipated design changes (2007 plan): 394; 
Design changes (actual): 655. 

March; 
Anticipated design changes (2007 plan): 328; 
Design changes (actual): 716. 

April; 
Anticipated design changes (2007 plan): 346; 
Design changes (actual): 629. 

May; 
Anticipated design changes (2007 plan): 330; 
Design changes (actual): 522. 

June; 
Anticipated design changes (2007 plan): 306; 
Design changes (actual): 568. 

July; 
Anticipated design changes (2007 plan): 288; 
Design changes (actual): 493. 

August; 
Anticipated design changes (2007 plan): 291; 
Design changes (actual): 492. 

September; 
Anticipated design changes (2007 plan): 301; 
Design changes (actual): 482. 

October; 
Anticipated design changes (2007 plan): 282; 
Design changes (actual): 480. 

November; 
Anticipated design changes (2007 plan): 266; 
Design changes (actual): 415. 

December; 
Anticipated design changes (2007 plan): 259; 
Design changes (actual): 302. 

2010: 

January; 
Anticipated design changes (2007 plan): 260; 
Design changes (actual): 342. 

February; 
Anticipated design changes (2007 plan): 259; 
Design changes (actual): 323. 

March; 
Anticipated design changes (2007 plan): 270; 
Design changes (actual): 363. 

April; 
Anticipated design changes (2007 plan): 258; 
Design changes (actual): 376. 

May; 
Anticipated design changes (2007 plan): 253; 
Design changes (actual): 353. 

June; 
Anticipated design changes (2007 plan): 254; 
Design changes (actual): 356. 

July; 
Anticipated design changes (2007 plan): 257; 
Design changes (actual): 314. 

Program now anticipates 10,000 more design changes than anticipated in 
2007. 

August; 
Anticipated design changes (2007 plan): 242; 
Design changes (actual): 302; 
Anticipated future design changes (2010 plan): 233. 

September; 
Anticipated design changes (2007 plan): 244; 
Anticipated future design changes (2010 plan): 230. 

October; 
Anticipated design changes (2007 plan): 226; 
Anticipated future design changes (2010 plan): 235. 

November; 
Anticipated design changes (2007 plan): 216; 
Anticipated future design changes (2010 plan): 233. 

December; 
Anticipated design changes (2007 plan): 210; 
Anticipated future design changes (2010 plan): 229. 

2011: 

January; 
Anticipated design changes (2007 plan): 202; 
Anticipated future design changes (2010 plan): 231. 

February; 
Anticipated design changes (2007 plan): 193; 
Anticipated future design changes (2010 plan): 245. 

March; 
Anticipated design changes (2007 plan): 192; 
Anticipated future design changes (2010 plan): 245. 

April; 
Anticipated design changes (2007 plan): 178; 
Anticipated future design changes (2010 plan): 241. 

May; 
Anticipated design changes (2007 plan): 168; 
Anticipated future design changes (2010 plan): 254. 

June; 
Anticipated design changes (2007 plan): 155; 
Anticipated future design changes (2010 plan): 249. 

July; 
Anticipated design changes (2007 plan): 152; 
Anticipated future design changes (2010 plan): 241. 

August; 
Anticipated design changes (2007 plan): 145; 
Anticipated future design changes (2010 plan): 256. 

September; 
Anticipated design changes (2007 plan): 142; 
Anticipated future design changes (2010 plan): 241. 

October; 
Anticipated design changes (2007 plan): 142; 
Anticipated future design changes (2010 plan): 253. 

November; 
Anticipated design changes (2007 plan): 138; 
Anticipated future design changes (2010 plan): 247. 

December; 
Anticipated design changes (2007 plan): 138; 
Anticipated future design changes (2010 plan): 238. 

2012: 

January; 
Anticipated design changes (2007 plan): 144; 
Anticipated future design changes (2010 plan): 245. 

February; 
Anticipated design changes (2007 plan): 151; 
Anticipated future design changes (2010 plan): 242. 

March; 
Anticipated design changes (2007 plan): 137; 
Anticipated future design changes (2010 plan): 245. 

April; 
Anticipated design changes (2007 plan): 140; 
Anticipated future design changes (2010 plan): 243. 

May; 
Anticipated design changes (2007 plan): 137; 
Anticipated future design changes (2010 plan): 245. 

June; 
Anticipated design changes (2007 plan): 138; 
Anticipated future design changes (2010 plan): 240. 

July; 
Anticipated design changes (2007 plan): 140; 
Anticipated future design changes (2010 plan): 240. 

August; 
Anticipated design changes (2007 plan): 137; 
Anticipated future design changes (2010 plan): 241. 

September; 
Anticipated design changes (2007 plan): 129; 
Anticipated future design changes (2010 plan): 260. 

October; 
Anticipated design changes (2007 plan): 124; 
Anticipated future design changes (2010 plan): 244. 

November; 
Anticipated design changes (2007 plan): 121; 
Anticipated future design changes (2010 plan): 257. 

December; 
Anticipated design changes (2007 plan): 105; 
Anticipated future design changes (2010 plan): 237. 

2013: 

January; 
Anticipated design changes (2007 plan): 72; 
Anticipated future design changes (2010 plan): 235. 

February; 
Anticipated design changes (2007 plan): 63; 
Anticipated future design changes (2010 plan): 235. 

March; 
Anticipated design changes (2007 plan): 55; 
Anticipated future design changes (2010 plan): 231. 

April; 
Anticipated design changes (2007 plan): 38; 
Anticipated future design changes (2010 plan): 233. 

May; 
Anticipated design changes (2007 plan): 39; 
Anticipated future design changes (2010 plan): 213. 

June; 
Anticipated design changes (2007 plan): 38; 
Anticipated future design changes (2010 plan): 229. 

July; 
Anticipated design changes (2007 plan): 30; 
Anticipated future design changes (2010 plan): 227. 

August; 
Anticipated design changes (2007 plan): 30; 
Anticipated future design changes (2010 plan): 251. 

September; 
Anticipated design changes (2007 plan): 30; 
Anticipated future design changes (2010 plan): 242. 

October; 
Anticipated design changes (2007 plan): 30; 
Anticipated future design changes (2010 plan): 262. 

November; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 260. 

December; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 268. 

2014: 

January; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 271. 

February; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 251. 

March; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 249. 

April; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 251. 

May; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 247. 

June; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 224. 

July; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 221. 

August; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 217. 

September; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 204. 

October; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 197. 

November; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 182. 

December; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 169. 

2015: 

January; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 162. 

February; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 162. 

March; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 142. 

April; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 131. 

May; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 114. 

June; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 94. 

July; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 80. 

August; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 66. 

September; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 48. 

October; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 33. 

November; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 20. 

December; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 8. 

2016: 

January; 
Anticipated design changes (2007 plan): 0; 
Anticipated future design changes (2010 plan): 0. 

Source: GAO analysis of DOD data. 

[End of figure] 

A key indicator of a product's maturity is the stability of its 
design. The number of engineering drawings released and subsequent 
changes provide indicators of the maturity of the design. Engineering 
drawings are critical because they communicate to the manufacturer and 
suppliers how the part functions, what it looks like, and what 
materials and critical processes are used to build the product. Best 
practices suggest 90 percent of a product's engineering drawings be 
released by the critical design review. Late engineering drawings and 
high levels of changes often indicate a lack of understanding about 
the design, and can cause part shortages and inefficient manufacturing 
processes as work is performed out of sequence. Some level of design 
change is expected during the production cycle of any new and highly 
technical product, but excessive changes raise questions about the 
JSF's design maturity and its readiness for higher rates of production. 

With most of development testing still ahead for the JSF, the risk and 
impact from required design changes are significant. Acquisition 
programs typically encounter higher and more substantive changes as a 
result of discovery and rework during development flight and ground 
testing. Future changes may require alterations to the manufacturing 
process, changes to the supply base, and costly retrofitting of 
aircraft already produced and fielded. A key cost driver for the 
program has been the higher than expected effort needed to address 
design related issues. The contractor has not been able to reduce 
engineering staff as fast as expected. DOD's restructuring actions 
recognize these issues and added time to development, more flight 
testing, and reduced procurement. Additional changes are likely as 
development flight testing continues. 

Some emerging concerns may drive additional and substantive design 
changes: 

* JSF Lift System Development and Integration. Essential to STOVL 
operations, the lift fan continues to be a prime risk area. The 
program is working to mature lift fan and drive shaft technologies and 
a required redesign expected in spring 2011. 

* Fatigue Cracks in STOVL Test Article. During a recent durability 
ground test, fatigue cracks were discovered in a major bulkhead of the 
STOVL test article. Cracks were discovered after 1,500 hours of 
durability testing, less than one-tenth of the hours planned for 
fatigue tests to certify that the STOVL airframe meets its design life 
requirement. Officials reported that stress data had been under- 
estimated during initial design. Inspections of aircraft and other 
test articles did not identify cracks at the same site. Decisions 
about potential redesign and re-manufacture are still to be determined. 

* Wing Tip Vortex. Prime contractor officials identified wing tip 
vortices as a potential risk to the program. Wing tip vortices are 
tubes of circulating air which are left behind the aircraft's wing as 
it generates lift. The cores of the vortices are sometimes visible 
because of water condensation. If these are visible during daytime 
flights they could negatively impact the aircraft's stealth 
capabilities. 

* Outer Mold Lines. Defense Contract Management Agency officials noted 
difficulties in manufacturing outer mold lines, resulting from tight 
tolerance specifications and multiple manufacturing methodologies 
among the different JSF parts suppliers. The manufacturing processes 
are new and different from legacy practices. Inability to meet the 
outer mold line requirements could have major impacts on cost as well 
as stealth requirements and capabilities. This problem is not expected 
to be resolved until the June 2015 time frame after which a large 
number of aircraft will have been built and would need to be 
retrofitted for any design changes. Program officials stated some 
redesign activities have begun and will take into the 2013 timeframe 
to begin developing the changes, their costs, and implementation. The 
effects of these changes could extend out into 2015, but will be 
prioritized to reduce performance and cost impacts. 

Manufacturing Processes are Not Yet Mature Enough for Efficient 
Production at Increased Rates: 

Manufacturing and delivering test jets took much more time and money 
than planned and the full contingent of test aircraft is still not 
available at military testing sites, years later than promised. 
Projected costs to complete the first three production lots for 
aircraft and engines also exceed the negotiated amounts at contract 
award and aircraft will be delivered late. The production impacts of 
restructuring actions that reduced quantities, lowered the ramp rate, 
and delayed the full-rate production decision have not been fully 
determined. We found that the aircraft and engine manufacturers are 
making good faith efforts to implement the IMRT and JAT 
recommendations and to make other improvements with performance 
measures indicating some success. 

As in prior years, lingering management inefficiencies, including 
substantial out-of-station work[Footnote 14] and part shortages, 
continued to increase the labor needed to manufacture test aircraft. 
Figure 3 depicts forecasted and actual labor hour requirements for 
building 12 production-representative test jets. Total labor hours 
required to produce the test aircraft increased over time. The 2010 
actual labor hours exceeded the 2007 budgeted hours by more than 1.5 
million hours, a 75 percent increase. 

Figure 3: JSF Labor Hours for Manufacturing Test Aircraft: 

[Refer to PDF for image: multiple line graph] 

Aircraft: BF1; 
2007 Budget: 342,647; 
2009 Budget: 361,047; 
2010 Budget: 392,006. 

Aircraft: BF2; 
2007 Budget: 233,319; 
2009 Budget: 296,681; 
2010 Budget: 356,814. 

Aircraft: BF3; 
2007 Budget: 179,892; 
2009 Budget: 254,394; 
2010 Budget: 311,830. 

Aircraft: BF4; 
2007 Budget: 155,420; 
2009 Budget: 223,391; 
2010 Budget: 354,329. 

Aircraft: AF1; 
2007 Budget: 187,781; 
2009 Budget: 262,694; 
2010 Budget: 337,244. 

Aircraft: AF2; 
2007 Budget: 145,607; 
2009 Budget: 222,396; 
2010 Budget: 275,728. 

Aircraft: AF3; 
2007 Budget: 130,955; 
2009 Budget: 209,861; 
2010 Budget: 289,143. 

Aircraft: CF1; 
2007 Budget: 239,351; 
2009 Budget: 263,064; 
2010 Budget: 310,099. 

Aircraft: CF2; 
2007 Budget: 125,602; 
2009 Budget: 218,194; 
2010 Budget: 236,538. 

Aircraft: CF3; 
2007 Budget: 118,153; 
2009 Budget: 204,908; 
2010 Budget: 240,438. 

Aircraft: BF5; 
2007 Budget: 102,505; 
2009 Budget: 191,410; 
2010 Budget: 262,069. 

Aircraft: AF4; 
2007 Budget: 91,218; 
2009 Budget: 183,480; 
2010 Budget: 222,580. 

Source: GAO analysis of DOD data. 

[End of figure] 

Manufacturing production aircraft is different from building test 
aircraft, and some gains in learning as more aircraft are built can be 
expected to, over time, reduce labor hour costs. However, the 
experience to date on the test aircraft and initial production 
aircraft suggests that future costs for building production aircraft 
may be higher than currently budgeted. The costs on the first three 
low-rate production contracts have increased from amounts negotiated 
at contract award and the completion dates for delivering aircraft 
have been extended over nine months on average. We are encouraged by 
DOD's award of a fixed price incentive fee contract for lot 4 
production and the prospects for the cost study to inform lot 5 
negotiations, but we have not examined contract specifications. 

DOD began procuring production jets in 2007 and has now ordered 58 
aircraft on the first four low-rate initial production lots. JSF 
contracts anticipated the delivery of 14 production jets through 2010, 
but none have been delivered. Delivery of the first two production 
jets (both CTOLs) has been delayed several times since the contract 
was signed and is now expected in April 2011. In addition, DOD expects 
to procure 32 more aircraft in fiscal year 2011. Building a large 
backlog of jets on order but undelivered is not an efficient use of 
federal funds, tying up millions of dollars in obligations ahead of 
the ability of the manufacturing process to produce. We note that the 
Secretary used a similar line of reasoning to reduce STOVL production. 

DOD does not yet know the full effect that restructuring actions will 
have on future annual procurement funding requirements. Cost analysts 
are still calculating the impacts from deferring procurement of 246 
aircraft from the near-term to future years, lowering the ramp rate, 
and extending the full-rate production decision. Future funding 
requirements could be even higher than projected and the quantities 
considered affordable by the U.S. and allies could be reduced, further 
driving up unit costs. 

The Secretary's decisions to reduce near-term procurement quantities 
and adopt a less-steep ramp up in future production were based on IMRT 
findings. The Secretary chartered the IMRT to comprehensively review 
JSF manufacturing capacity to assess the contractor's ability to 
achieve planned production ramp-up and to sustain the predicted 
maximum production rates. The IMRT's October 2009 report made 20 
specific recommendations for corrective actions. As of September 2010, 
officials considered eight of the recommendations complete and three 
others on track. Implementation of the remaining nine recommendations 
was incomplete or behind schedule. 

The most significant incomplete recommendation is improving global 
supply chain management. The JSF already has an extensive number of 
suppliers worldwide and those numbers will increase with future 
workload shared among numerous domestic and foreign firms. The IMRT 
cites the global supply chain as the critical manufacturing challenge 
facing the program, requiring significant improvement in delivery 
performance and responsiveness in order to achieve the program's 
eventual production rate goal of 20 aircraft per month. According to 
the prime contractor, the global supply chain remains on the critical 
path and progress has been made, but the global transportation plan 
and supply chain risk management plan are incomplete. Another IMRT 
recommendation that still needs to be addressed is the performance of 
a comprehensive schedule risk assessment, now expected to begin in 
spring 2011. We recommended this in our March 2009 report.[Footnote 
15] Schedule risk assessments can provide keen insight into critical 
path activities, cost and schedule interrelationships, and emerging 
risks. 

The primary F135 engine contractor faces similar challenges as it 
moves deeper into production. All development engines and initial 
production units have been delivered, but the costs to complete each 
of the first three engine production contracts increased and 
deliveries slipped since contract awards. Officials said these delays 
have not been especially troublesome to date because aircraft 
deliveries were even later. The contractor achieved the initial 
service release for the CTOL and CV engine, meaning the engine 
configuration is qualified and ready to go into production, but the 
STOVL's initial release was delayed until December 2010 due to 
qualification testing. The JAT reviewed F135 program performance, 
identified cost drivers, and made affordability projections. JAT 
officials said the contractor's cost reduction efforts were credible 
but largely dependent on receiving more government funding for 
affordability initiatives and alternative sourcing arrangements. 

Our past work in best practices found that successful product 
development programs reach a point at which they know that 
manufacturing processes will efficiently produce a new product 
conforming to cost, quality, and schedule targets before they begin 
producing a system. Reaching this point means more than knowing that 
the product can be built; it means that critical manufacturing 
processes are under control, such that the quality, volume, and cost 
are proven acceptable. By these criteria, the JSF contractors' 
abilities to ramp-up to greater rates of production have not yet been 
demonstrated. The aircraft and engine manufacturers now have 
significantly more items in production flow compared to prior years, 
but throughput capacity to complete all work and deliver end items is 
constrained. We determined that the aircraft and engine contractors 
are making good faith efforts to implement the recommendations of the 
IMRT and JAT and to make other improvements to production capacity and 
flow. The aircraft manufacturer is reporting a decrease in out of 
station work, more efficient work stations, improved quality, 
increased parts availability, and reduced span times. Until 
improvements are fully implemented and demonstrated, the restructuring 
actions to reduce near term procurement quantities and establish a 
more achievable ramp rate was appropriate and will provide more time 
to fully mature manufacturing and supply processes and catch up with 
aircraft backlogs. Improving factory throughput and controlling costs--
driving down unit costs and delivering on time--are essential for 
efficient manufacturing and timely delivery to the warfighter at the 
increased production rates planned for the future. 

Aircraft Are Not Meeting Early Reliability Growth Plans: 

STOVL and CTOL aircraft are behind reliability growth plans aimed at 
demonstrating that the aircraft will meet warfighter support and 
availability requirements. The carrier variant is in early stages of 
flight testing and sufficient reliability data was not available. 
Reliability is a function of the specific elements of a product's 
design; a system is reliable when it can perform over a specified 
period of time without failure, degradation, or need of repair. 
Improvements over time occur through design changes or manufacturing 
process improvements. A key reliability metric is mean flying hours 
between failure, defined as the number of flying hours achieved 
divided by the number of failures incurred. Reliability growth plans 
called for the STOVL to have achieved at least 1.9 flying hours 
between failures and for the CTOL 2.9 flying hours between failures by 
this point in the test program. However, the STOVL aircraft is 
significantly behind plans, achieving about 0.4 hours between 
failures, or about 20 percent of what was expected by this time. The 
CTOL variant was also behind plans achieving 1.8 hours between 
failures, approximately 60 percent of what was expected. Figure 4 
depicts progress of each variant in demonstrating mean flying hours 
between failures, as of September 2010. 

Figure 4: JSF Mean Times between Failure Demonstrated to Date: 

[Refer to PDF for image: vertical bar graph] 

Mean flying hours between failure: 

JSF variant: CTOL; 
Demonstrated: 1.8; 
Planned to date: 2.9; 
Goal at maturity: 6. 

JSF variant: STOVL; 
Demonstrated: 0.4; 
Planned to date: 1.9; 
Goal at maturity: 4. 

JSF variant: CV; 
Demonstrated: not applicable; 
Planned to date: not applicable; 
Goal at maturity: 4. 

Source: GAO analysis of DoD data. 

[End of figure] 

Improving reliability rates are essential to control future operating 
costs and ensure aircraft are available as needed by the warfighter. 
Compared to the up-front costs of acquiring aircraft, the long-term 
costs for operating, maintaining, and sustaining JSF fleets over an 
aircraft's useful life represent the much larger portion of total 
ownership costs. We have reported in the past that it is important to 
demonstrate that system reliability is on track to meet goals before 
production begins as changes after production commences can be 
inefficient and costly.[Footnote 16] 

Testing Has Been Slow and Has Not Demonstrated That the Aircraft Will 
Work in Its Intended Environment: 

The JSF program is still very early in demonstrating aircraft design 
and testing to verify it works as intended. As of December 2010, about 
four percent of JSF capabilities have been completely verified by 
flight tests, lab results, or both. Initial tests of a fully 
integrated aircraft to demonstrate full mission systems capabilities 
and weapons delivery is now not expected until 2015, three years later 
than planned. The program demonstrated measurable progress in 
development flight testing during 2010, but still lags earlier 
expectations, and the STOVL problems have constrained overall 
progress. Only 3 of 32 ground test labs and simulation models critical 
to complement and, in some cases, substitute for flight tests, are 
accredited to verify and ensure the fidelity of results. Software 
development--essential for achieving about 80 percent of the JSF 
functionality--is significantly behind schedule as it enters its most 
challenging phase. Software delivery to the test program that is 
essential to demonstrating full system capability is now expected in 
late 2014, a 3-year delay. 

Our work in best practices suggests that a key indicator of a 
product's maturity and readiness for production is when a fully 
integrated, capable system has been demonstrated to work in its 
intended environment. A fully integrated, capable system would include 
the integration of all the hardware, including mission avionics 
systems, and software needed to provide the system its full mission 
capabilities. Many past DOD weapons programs have failed to 
demonstrate that the system works as intended before entering 
production, discovering costly design problems late in development 
when the more complex software and advanced capabilities are 
integrated and tested. 

Development Flight Testing Is Progressing but Behind Plans: 

Development flight testing was much more active in 2010 than prior 
years and had some notable successes, but overall still lagged behind 
expectations. The continuing effects from late delivery of test 
aircraft and an inability to achieve the planned flying rates per 
aircraft substantially reduced the amount and pace of testing planned 
previously. Consequently, even though the flight test program 
accelerated its pace last year, the total number of flights 
accomplished during the first four years of the test program 
significantly lagged expectations when the program's 2007 baseline was 
established. Figure 5 shows that the cumulative number of flights 
accomplished by the end of 2010 was only about one-fifth the number 
forecast by this time in the 2007 test plan. 

Figure 5: Actual JSF Flight Tests Completed through 2010 Compared to 
the 2007 Plan: 

[Refer to PDF for image: multiple line graph] 

Date: January 2010: 
2007 planned : 1,155; 
2010 actual flights: 144. 

Date: February 2010; 
2007 planned flights: 1,291; 
2010 actual flights: 157. 

Date: March 2010; 
2007 planned flights: 1,420; 
2010 actual flights: 170. 

Date: April 2010; 
2007 planned flights: 1,546; 
2010 actual flights: 197. 

Date: May 2010; 
2007 planned flights: 1,681; 
2010 actual flights: 230. 

Date: June 2010; 
2007 planned flights: 1,812; 
2010 actual flights: 273. 

Date: July 2010; 
2007 planned flights: 1,953; 
2010 actual flights: 322. 

Date: August 2010; 
2007 planned flights: 2,079; 
2010 actual flights: 370. 

Date: September 2010; 
2007 planned flights: 2,250; 
2010 actual flights: 406. 

Date: October 2010; 
2007 planned flights: 2,393; 
2010 actual flights: 458. 

Date: November 2010; 
2007 planned flights: 2,519; 
2010 actual flights: 518. 

Date: December 2010; 
2007 planned flights: 2,649; 
2010 actual flights: 547. 

Source: GAO analysis of DOD data. 

[End of figure] 

Program officials reported that 13 test aircraft are now out of 
production.[Footnote 17] Ten test aircraft have been ferried to test 
sites and others are in varying stages of final check-out. The program 
has accomplished first flights for all three variants. Officials had 
hoped aircraft could achieve a rate of 12 flights per month. However, 
the average flight rate for 2010 ranged from over 2 to almost 8 per 
month. 

By the end of 2010, about 10 percent of more than fifty thousand 
planned test points have been completed. According to program 
officials, completion of a test point means that the test point has 
been flown and that flight engineers ruled that the point has met the 
need. Further analysis may be necessary for the test point to be 
closed out. The majority of the points were earned on airworthiness 
tests (basic airframe handling characteristics) and in ferrying the 
planes to test sites. According to a senior level DOD test official, 
airworthiness and ferry test points should be relatively easy to 
accomplish. Remaining test points include more complex and stringent 
requirements, such as mission systems, ship suitability, and weapons 
integration that have yet to be demonstrated. 

As discussed earlier, STOVL flight performance lagged plans during 
2010, while the CTOL variant exceeded and the CV variant generally met 
plans. Officials reported that design and manufacturing defects and 
excessive component failures caused prolonged maintenance periods that 
drove the low fly rates. For instance, in the July to August 2010 
period, STOVL test aircraft were down for unscheduled maintenance more 
than half the time. Further test delays will likely cause the program 
to miss critical future milestones. STOVL initial at-sea testing will 
not start until October 2011 because of delays in clearing the 
vertical-landing envelope. STOVL-related delays are also causing 
Marine Corps leadership to reassess its requirements and will likely 
extend the date for achieving initial operational capabilities, 
currently set in December 2012. 

Concerned that STOVL testing problems were negatively affecting the 
other variants, the Department moved to decouple the STOVL testing and 
placed the variant on a two-year probation period to work out problems 
and get back on track. The Secretary's actions will require a new test 
plan since current flight test plans rely substantially on the STOVL 
to fly and demonstrate test points in common with other variants. The 
current plan has the STOVL responsible for completing about 43 percent 
of the total test points. 

Figure 6: Test Point Distribution by Variant (2010 Test Plan): 

[Refer to PDF for image: pie-chart] 

CV: 27%; 
CTOL: 30%; 
STOVL: 43%. 

Source: GAO analysis of DoD data. 

[End of figure] 

JSF restructuring actions are positive and support a more robust and 
achievable test plan. Officials added more resources for development 
testing, extended the flight test schedule, and reduced the overlap 
with initial operational testing. More recently, officials revised the 
test plan increasing the total number of test flights from 5,856 to 
7,727, about one-third more. To increase capacity, the restructure 
added one carrier variant test aircraft, an additional software 
integration line, and allowed the program to utilize up to three 
production aircraft for development testing. Compared to the previous 
test plan, officials assumed more ground time for aircraft maintenance 
and planned modifications, as well as a more measured ramp-up in the 
rate of flights per test aircraft. The restructuring largely reverses 
the program's earlier Mid-Course Risk Reduction plan that reduced test 
resources. Our March 2008 report[Footnote 18] criticized DOD's mid- 
course plan, particularly the cuts made in flight test assets and the 
number of flight tests, as well as the program's failure to address 
root causes of cost growth, the very reasons why officials felt the 
mid-course plan was needed. Since that report was issued, JSF cost and 
schedule continued to deteriorate and officials recognized a need to 
increase test assets and add more flight testing. 

Most Ground Test Labs and Simulation Models Are Not Accredited or 
Verified: 

The JSF test program relies much more heavily than previous weapon 
systems on its modeling and simulation labs to test and verify 
aircraft design and subsystem performance. However, only 3 of 32 labs 
and models have been fully accredited to date; the program had planned 
to accredit 11 labs and models by now. Accreditation is essential to 
ensure the fidelity of results validate that the models accurately 
reflect aircraft performance. Accreditation is a lengthy and involved 
technical evaluation using flight test data to verify lab results. 
Much work remains before the program can fully utilize the models and 
simulation capabilities needed to verify results and to demonstrate 
that ground testing can substitute for flight testing. However, the 
ability to substitute is unproven and progress in reducing program 
risk is difficult to assess. Contracting officials told us that early 
results are providing good correlation between ground and flight tests. 

The Director of Operational Test and Evaluation reported that 50 
percent of the models will be accredited during the final year of 
flight testing, a highly risky approach. Delays in accreditation add 
risks to not completing future software blocks on time and for 
discovering defects late. More flight testing may be needed to cover 
lab shortcomings, but is generally more expensive, and could lead to 
more delays in completing development and operational testing. It 
could also require more production aircraft for a longer period to 
supplement test assets, resulting in fewer systems at training sites 
and operational bases. 

Contractor utilization of labs has increased markedly and the number 
and integration of labs is impressive, but capacity may be 
constrained. Because of development concurrency, there is overlap in 
scheduling the new blocks and resources must be shared between blocks 
when rework on an earlier block is required. If integration and test 
is delayed due to capacity or conflict with an earlier block, lab 
officials said that expected capabilities may not be delivered on time 
to meet flight test and training dates. Mitigating strategies include 
adding people, lab capacity, software test lines, and shifting 
capabilities to later blocks. The 2010 restructuring added $250 
million to increase integration lab capacity. According to program 
officials, the greater number of labs allows engineers to work 
simultaneously on different development blocks, reducing bottlenecks 
that may occur in testing. Program and contractor officials believe 
that the up-front investment of $5 billion in simulation labs will pay 
off in early risk reduction, reduce flights, control costs, and are 
essential to meet key milestones in JSF's aggressive test plan. 

Software Development Is behind Schedule with Most Complex Work Still 
Ahead: 

Software providing essential JSF capability is not mature and releases 
to the test program are behind schedule. Officials underestimated the 
time and effort needed to develop and integrate the software, 
substantially contributing to the program's overall cost and schedule 
problems and testing delays, while requiring the retention of 
engineers for longer periods. Significant learning and development 
work remains before the program can demonstrate the mature software 
capabilities needed to meet warfighter requirements. Good progress has 
been made in the writing of software code--about three-fourths of the 
software has been written and integrated, but testing is behind 
schedule and the most complex work is still ahead. Program 
restructuring added a second software integration line which should 
improve throughput. 

The JSF software development effort is one of the largest and most 
complex in DOD history, providing 80 percent of JSF's functionality 
essential to capabilities such as sensor fusion, weapons and fire 
control, maintenance diagnostics, and propulsion. JSF has about 8 
times more on-board software lines of code than the F/A-18E/F Super 
Hornet and 4 times more than the F-22A Raptor. Also, the amount of 
code needed will likely increase as integration and testing efforts 
intensify. In 2009, officials reported that about 40 percent of the 
software had completed integration and testing. They did not provide 
us a progress report through 2010. Integration and test is a lengthy 
effort and is typically the most challenging phase of software 
development requiring specialized skills and integration test lines. 
The program has experienced a growth of 40 percent in total software 
lines of code since preliminary design review and 13 percent growth 
since the critical design review. Other recent defense acquisitions 
have experienced 30 to 100 percent growth in software over time. 

Software capabilities are developed, tested, and delivered in 5 
blocks, or increments. Several blocks have grown in size and taken 
longer to complete than planned. Software defects, low productivity, 
and concurrent development of successive blocks created 
inefficiencies, taking longer to fix defects and delaying the 
demonstration of critical capabilities. In addition, program and prime 
contractor officials acknowledge they do not include integration as a 
key tracking metric and have been unable to agree on how to track it. 
This has made it hard for the program to analyze integration trends 
and take action to remedy the situation. Instead the program office 
and prime contractor have made several adjustments to the software 
development schedule, each time lengthening the time needed to 
complete work, as shown in figure 7. 

Figure 7: Slips in Delivering Software to Flight Test: 

[Refer to PDF for image: illustrated table] 

Block 0.1: Flight sciences; 
Initial estimate (2006): Mid-2006; 
Current estimate (2011): Early 2007. 

Block 0.5: Initial mission systems architecture; 
Initial estimate (2006): Mid-2008; 
Current estimate (2011): Mid-2010. 

Block 1.0: Initial training capability; 
Initial estimate (2006): Late 2008; 
Current estimate (2011): Mid-2011. 

Block 2.0: Initial warfighting capability; 
Initial estimate (2006): Mid-2010; 
Current estimate (2011): Late 2013. 

Block 3.0: Full warfighting capability; 
Initial estimate (2006): Late 2011; 
Current estimate (2011): Late 2014. 

Source: GAO analysis of DOD data. 

[End of figure] 

Delays in developing, integrating, and releasing software to the test 
program have cascading effects hampering flight tests, training, and 
lab accreditation. While progress is being made, a substantial amount 
of software work remains before the program can demonstrate full 
warfighting capability. The program released block 0.5 for flight test 
nearly 2 years later than planned in the 2006 plan, largely due to 
integration problems. Each of the remaining three blocks--providing 
full mission systems and warfighting capabilities--are now projected 
to slip between 2 to 3 years compared to the 2006 plan. Defects and 
workload bottlenecks delayed the release of full block 1 capabilities; 
the initial limited release of block 1 software was flown for the 
first time in November 2010. Software defects increased throughout 
2010, but fixing defects did not keep pace. Some capabilities were 
moved to future blocks in attempts to meet schedule and mitigate 
risks. For example, full data fusion mission systems[Footnote 19] were 
deferred from block 2 to 3. Further trades and deferrals may be 
needed. Rather than working all blocks concurrently, focusing efforts 
on a more measured evolutionary approach could result in more timely 
release of incremental capabilities to the testing, training, and 
warfighter communities. Development and integration of the most 
advanced capabilities could be deferred to future increments and 
delivered to the warfighter at a later date. 

The recent technical baseline review identified software as a 
significant challenge, slowing system development and requiring more 
time and money. Although officials are confident that such risks can 
be addressed, the scale and complexity of what is involved remains a 
technically challenging and lengthy effort. Uncertainties pertaining 
to critical technologies, including the helmet-mounted display and 
advanced data links, add to challenges. Deficiencies in the helmet 
mounted display, especially latency in transmitting sensor data, are 
causing officials to develop a second helmet while trying to fix the 
first model. Resolution could result in a major redesign or changes in 
the JSF's concept of operations by placing limitations on the 
operational environment, according to program officials. 

Conclusions: 

The JSF program is at a critical juncture--9 years in development and 
4 years in limited production, but still early in testing and 
verifying aircraft performance. If effectively implemented and 
sustained, the Department's restructuring should place the JSF program 
on firmer footing and lead to more achievable and predictable 
outcomes. However, restructuring comes with a price tag--higher up-
front development costs, fewer aircraft received in the near term, 
training delays, and prolonged times for testing and delivering the 
capabilities required by the warfighter. Reducing near-term 
procurement quantities lessens concurrency, but the overlap among 
development, testing, and production activities is still substantial 
and risky. Development and testing activities will now overlap 11 
years of production based on the latest extension in key milestones. 
Flight testing and production activity are increasing and contractors 
are improving supply and manufacturing processes, but deliveries are 
still lagging. The challenge in front of the aircraft and engine 
contractors is improving the global supply chain and accelerating 
manufacturing throughput to produce quality products in economic 
quantities and on time. Slowed deliveries have built a growing backlog 
of jets on order but not delivered; this is not a good use of federal 
funds, tying up millions of obligated dollars much ahead of the 
ability of the manufacturing process to produce. The Secretary of 
Defense used similar reasoning in significantly reducing STOVL 
procurement until technical issues are resolved and the manufacturing 
process able to deliver efficiently and on time. 

The JSF acquisition demands an unprecedented share of the Department's 
future investment funding. The program's size and priority is such 
that its cost overruns and extended schedules are either borne by 
funding cuts to other programs or else drive increases in the top line 
of defense spending, the latter not an attractive option in a period 
of more austere budgets. Up until now, JSF problems have been 
addressed either with more time and money or by deferring aircraft 
procurement to be borne by future years' budgets. It is past time to 
place some boundaries on the program such that future difficulties can 
be managed within a finite budget by facilitating trades within the 
JSF program and thereby minimizing impacts on other defense programs 
and priorities. Also, Department actions to limit STOVL procurement, 
decouple it from development testing, and concentrate efforts to 
resolve deficiencies are appropriate. Given its criticality to the 
Marine Corp's future tactical aviation plans, additional steps may be 
needed to set the framework and criteria for the "probation period" 
and to sustain management focus on STOVL in order to better ascertain 
its progress and inform future decisions. Focused individual attention 
on STOVL apart from the other two variants could allow each variant to 
proceed through development and testing at its own pace. Furthermore, 
development testing is hampered both by the late delivery of software 
increments and the lagging schedule for accrediting ground labs and 
simulation models. A comprehensive independent review of the software 
development process and lab accreditation issues could enhance 
management insight and identify opportunities for improvement in these 
critical areas. We note that the previous independent teams 
established by the Department significantly improved the 
manufacturing, engine, and cost estimating processes. 

We agree with defense leadership that a renewed and sustained focus on 
affordability by contractors and the Government is critical to moving 
this important program forward and enabling our military services and 
our allies to acquire and sustain JSF forces in needed quantities. 
Maintaining senior leadership's increased focus on program results, 
holding government and contractors accountable for improving 
performance, and bringing a more assertive, aggressive management 
approach for the JSF to "live within its means" could help effectively 
manage growth in the program and limit the consequences on other 
programs in the portfolio. Controlling JSF future cost growth would 
minimize funding disruption and help stabilize the defense acquisition 
portfolio by providing more certainty to financial projections and by 
facilitating the allocation of remaining budget authority to other 
defense modernization programs. 

Recommendations for Executive Action: 

Given the other priorities that DOD must address in a finite budget, a 
renewed and sustained focus on affordability by contractors and the 
Government is critical for successfully moving the JSF program 
forward. DOD must plan ahead for a way to address and manage JSF 
challenges and risks in the future. To facilitate making tradeoff 
decisions with respect to the JSF program that limit impacts to other 
DOD programs and priorities and to improve key management processes, 
we recommend that the Secretary of Defense take the following actions 
to reinforce and strengthen program cost controls and oversight: 

1. The JSF program should maintain total annual funding levels for 
development and procurement at the current budgeted amounts in the 
fiscal year 2012-2016 future years defense plan (modified, if 
warranted, by the new acquisition program baseline expected this 
year). It should facilitate trades among cost, schedule, requirements, 
and quantities to control cost growth. Having gone through the 
Technical Baseline Review (TBR) and budget approval process, it is 
reasonable to expect the program to execute against the future years 
defense plan going forward. Only in instances of major and unforeseen 
circumstances, should the Department consider spending more money on 
the program. Even then, we would expect changes to be few and adopted 
only after close scrutiny by defense leadership. Approved changes 
should be well supported, adequately documented, and reported to the 
congressional defense committees. 

2. Establish criteria for the STOVL probation period and take 
additional steps to sustain individual attention on STOVL-specific 
issues, including independent F-35B/STOVL Progress Reviews with Senior 
Leadership to ensure cost and schedule milestones are achieved to 
deliver required warfighter capabilities. The intent is to allow each 
JSF variant to proceed and demonstrate success at its own pace and 
could result in separate full-rate production decisions. 

3. The Department should conduct an independent review of the 
contractor's software development, integration, and test processes-- 
similar to its review of manufacturing operations--and look for 
opportunities to streamline software efforts. This review should 
include an evaluation of the ground lab and simulation model 
accreditation process to ensure it is properly structured and robustly 
resourced to support software test and verification requirements. 

Agency Comments and Our Evaluation: 

DOD provided us with written comments on a draft of this report. The 
comments are reprinted in appendix III. We worked collaboratively with 
defense officials to hone our draft recommendations, making them more 
targeted. DOD concurred with the recommendations as amended. We also 
incorporated technical comments as appropriate. 

We are sending copies of this report to the Secretary of Defense; the 
Secretaries of the Air Force and Navy; the Commandant of the Marine 
Corps; and the Director of the Office of Management and Budget. The 
report also is available at no charge on the GAO Web site at 
[hyperlink, http://www.gao.gov]. 

If you or your staff have any questions concerning this report, please 
contact me at (202) 512-4841 or sullivanm@gao.gov. Contact points for 
our Offices of Congressional Relations and Public Affairs may be found 
on the last page of this report. Staff members making key 
contributions to this report are listed in appendix IV. 

Signed by: 

Michael J. Sullivan:
Director:
Acquisition and Sourcing Management: 

List of Congressional Committees: 

The Honorable Carl Levin:
Chairman:
The Honorable John McCain:
Ranking Member:
Committee on Armed Services:
United States Senate: 

The Honorable Daniel K. Inouye:
Chairman:
The Honorable Thad Cochran:
Ranking Member:
Subcommittee on Defense:
Committee on Appropriations:
United States Senate: 

The Honorable Howard P. McKeon:
Chairman:
The Honorable Adam Smith:
Ranking Member:
Committee on Armed Services:
House of Representatives: 

The Honorable C.W. Bill Young:
Chairman:
The Honorable Norman D. Dicks:
Ranking Member:
Subcommittee on Defense:
Committee on Appropriations:
House of Representatives: 

[End of section] 

Appendix I: Scope and Methodology: 

To determine the Joint Strike Fighter (JSF) program's progress in 
meeting cost, schedule, and performance goals, we received briefings 
by program and contractor officials and reviewed financial management 
reports, budget documents, annual Selected Acquisition Reports, 
monthly status reports, performance indicators, and other data. We 
identified changes in cost and schedule, and obtained officials' 
reasons for these changes. We interviewed officials from the JSF 
program, contractors, and the Department of Defense (DOD) to obtain 
their views on progress, ongoing concerns and actions taken to address 
them, and future plans to complete JSF development and accelerate 
procurement. At the time of our review, the most recent Selected 
Acquisition Report available was dated December 31, 2009 and released 
in April 2010. At the time of our review, DOD was preparing a new 
acquisition program baseline for the program which would reflect 
updated cost and schedule projections. 

In assessing program cost estimates, we compared the official program 
cost estimate in the 2009 Selected Acquisition Report and subsequent 
cost estimate developed after the Nunn-McCurdy breach to estimates 
developed by the JSF program and Defense Contract Management Agency 
(DCMA) reports. We interviewed program office officials and members of 
the DOD Cost Analysis and Program Evaluation Office (CAPE), and DCMA 
to understand their methodology, data, and approach in developing cost 
estimates. To assess the validity and reliability of contractors' cost 
estimates, we reviewed audit reports prepared by DCMA and cost 
performance reports prepared by the contractor. 

To access the program's plans and risk in manufacturing and its 
capacity to accelerate production, we analyzed manufacturing cost and 
work performance data to assess progress against plans. We compared 
budgeted program labor hours to actual labor hours and identified 
growth trends. We reviewed data and briefings provided by the program, 
DCMA, and CAPE to assess supplier performance and ability to support 
accelerated production in the near term. We also determined reasons 
for manufacturing delays, discussed program and contractor plans to 
improve, and projected the impact on development and operational 
tests. We interviewed Naval Air Systems Command and contractor 
officials to discuss Earned Value Management System issues but we did 
not conduct any analysis since the data was deemed unreliable by DCMA. 

To assess plans, progress, and risks in test activities, we examined 
program documents and interviewed DOD, program office, and contractor 
officials about current test plans and progress. To assess progress 
towards test plans, we compared the number of flight tests conducted 
as of December 2010 to the original test plan established in 2007. We 
also reviewed documents and interviewed prime contractors about flight 
testing, the integrated airborne test bed, and ground testing. To 
assess the ground labs and test bed, we interviewed officials and 
toured the testing labs at the Lockheed Martin facilities in Fort 
Worth, Texas. We also reviewed the independent assessments conducted 
by the JET and NAVAIR to obtain their perspective on the program's 
progress in test activities. 

In performing our work, we obtained information and interviewed 
officials from the JSF Joint Program office, Arlington, Virginia; 
Naval Air Systems Command, Patuxent River, Maryland; Defense Contract 
Management Agency, Fort Worth, Texas; Lockheed Martin Aeronautics, 
Fort Worth, Texas; Defense Contract Management Agency, Middletown, 
Connecticut; and Pratt & Whitney, Middletown, Connecticut. We also met 
with and obtained data from the following offices of the Secretary of 
Defense in Washington, D.C.: Director, Operational Test and 
Evaluation; Cost Analysis and Program Evaluation Office; and Systems 
and Software Engineering. We assessed the reliability of DOD and JSF 
contractor data by (1) performing electronic testing of required data 
elements, (2) reviewing existing information about the data, and (3) 
interviewing agency officials knowledgeable about the data. We 
determined that the data were sufficiently reliable for the purposes 
of this report. We conducted this performance audit from May 2010 to 
February 2011 in accordance with generally accepted government 
auditing standards. Those standards require that we plan and perform 
the audit to obtain sufficient, appropriate evidence to provide a 
reasonable basis for our findings and conclusions based on our audit 
objectives. We believe that the evidence obtained provides a 
reasonable basis for our findings and conclusions based on our audit 
objectives. 

[End of section] 

Appendix II: Prior GAO Reports on JSF and DOD Responses and Subsequent 
Actions: 

GAO report: 2001; GAO-02-39; 
Estimated development costs: $34.4 Billion; 
Estimated development length: 10 years; 
Average procurement unit cost: $69 Million; 
Key program event: Start of system development and demonstration 
approved; 
Primary GAO message: Critical technologies needed for key aircraft 
performance elements are not mature. Program should delay start of 
system development until critical technologies are mature to 
acceptable levels; 
DOD response and actions: DOD did not delay start of system 
development and demonstration stating technologies were at acceptable 
maturity levels and will manage risks in development. 

GAO report: 2005; GAO-05-271; 
Estimated development costs: $44.8 Billion; 
Estimated development length: 12 years; 
Average procurement unit cost: $82 Million; 
Key program event: The program undergoes re-plan to address higher 
than expected design weight, which added $7 billion and 18 months to 
development schedule; 
Primary GAO message: We recommend that the program reduce risks and 
establish executable business case that is knowledge-based with an 
evolutionary acquisition strategy; 
DOD response and actions: DOD partially concurred but does not adjust 
strategy, believing that their approach is balanced between cost, 
schedule and technical risk. 

GAO report: 2006; GAO-06-356; 
Estimated development costs: $45.7 Billion; 
Estimated development length: 12 years; 
Average procurement unit cost: $86 Million; 
Key program event: Program sets in motion plan to enter production in 
2007 shortly after first flight of the non-production representative 
aircraft; 
Primary GAO message: The program plans to enter production with less 
than 1 percent of testing complete. We recommend program delay 
investing in production until flight testing shows that JSF performs 
as expected; 
DOD response and actions: DOD partially concurred but did not delay 
start of production because they believe the risk level was 
appropriate. 

GAO report: 2007; 
GAO-07-360; 
Estimated development costs: $44.5 Billion; 
Estimated development length: 12 years; 
Average procurement unit cost: $104 Million; 
Key program event: Congress reduced funding for first two low-rate 
production buys thereby slowing the ramp up of production; 
Primary GAO message: Progress is being made but concerns remain about 
undue overlap in testing and production. We recommend limits to annual 
production quantities to 24 a year until flying quantities are 
demonstrated; 
DOD response and actions: DOD non-concurred and felt that the program 
had an acceptable level of concurrency and an appropriate acquisition 
strategy. 

GAO report: 2008; 
GAO-08-388; 
Estimated development costs: $44.2 Billion; 
Estimated development length: 12 years; 
Average procurement unit cost: $104 Million; 
Key program event: DOD implemented a Mid-Course Risk Reduction Plan to 
replenish management reserves from about $400 million to about $1 
billion by reducing test resources; 
Primary GAO message: We believe new plan actually increases risks and 
that DOD should revise the plan to address concerns about testing, use 
of management reserves, and manufacturing. We determine that the cost 
estimate is not reliable and that a new cost estimate and schedule 
risk assessment is needed; 
DOD response and actions: DOD did not revise risk plan nor restore 
testing resources, stating that they will monitor the new plan and 
adjust it if necessary. Consistent with a report recommendation, a new 
cost estimate was eventually prepared, but DOD refused to do a risk 
and uncertainty analysis that we felt was important to provide a range 
estimate of potential outcomes. 

GAO report: 2009; 
GAO-09-303; 
Estimated development costs: $44.4 Billion; 
Estimated development length: 13 years; 
Average procurement unit cost: $104 Million; 
Key program event: The program increased the cost estimate and adds a 
year to development but accelerated the production ramp up. 
Independent DOD cost estimate (JET I) projects even higher costs and 
further delays; 
Primary GAO message: Because of development problems, we stated that 
moving forward with an accelerated procurement plan and use of cost 
reimbursement contracts is very risky. We recommended the program 
report on the risks and mitigation strategy for this approach; 
DOD response and actions: DOD agreed to report its contracting 
strategy and plans to Congress. In response to our report 
recommendation, DOD subsequently agreed to do a schedule risk 
analysis, but still had not done so as of February 2011. In February 
2010, the Department announced a major restructuring of the JSF 
program, including reduced procurement and a planned move to fixed- 
price contracts. 

GAO report: 2010; 
GAO-10-382; 
Estimated development costs: $49.3 Billion; 
Estimated development length: 15 years; 
Average procurement unit cost: $112 Million; 
Key program event: The program was restructured to reflect findings of 
recent independent cost team (JET II) and independent manufacturing 
review team. As a result, development funds increased, test aircraft 
were added, the schedule was extended, and the early production rate 
decreased; 
Primary GAO message: Because of additional costs and schedule delays, 
the program's ability to meet warfighter requirements on time is at 
risk. We recommend the program complete a full comprehensive cost 
estimate and assess warfighter and IOC requirements. We suggest that 
Congress require DOD to prepare a "system maturity matrix"--a tool for 
tying annual procurement requests to demonstrated progress; 
DOD response and actions: DOD continued restructuring actions and 
announced plans to increase test resources and lower the production 
rate. Independent review teams evaluated aircraft and engine 
manufacturing processes. As we projected in this report, cost 
increases later resulted in a Nunn-McCurdy breach. Military services 
are currently reviewing capability requirements as we recommended. The 
Department and Congress are working on a "system maturity matrix" 
tool, which we suggested to Congress for consideration, to improve 
oversight and inform budget deliberations. 

Source: DOD data and GAO analysis. 

[End of table] 

[End of section] 

Appendix III: Comments from the Department of Defense: 

Office Of The Under Secretary Of Defense: 
Acquisition, Technology and Logistics: 
3000 Defense Pentagon: 
Washington, DC 20301-3000 

April 5, 2011: 

Mr. Michael Sullivan: 
Director, Acquisition and Sourcing Management: 
U.S. Government Accountability Office: 
441 G Street, NW: 
Washington. DC 20548: 

Dear Mr. Sullivan: 

This is the Department of Defense (DoD) response to the GAO Draft 
Report, GAO-11-325. "Joint Strike Fighter: Restructuring Places 
Program on Firmer Footing, but Progress is Still Lagging Overall," 
dated February 28, 2011 (GAO Code 120918). Detailed comments on the 
report recommendations are enclosed. 

The DoD concurs with all three recommendations. The rationale and 
actions taken by DoD are included in the enclosure. 

We appreciate the opportunity to comment on the draft report. My point 
of contact is Colonel Jason Denney, U.S. Air Force. 
Jason.Denney@%osd.mil, 703-697-3619. 

Sincerely, 

Signed by: 

David G. Ahern: 
Deputy Assistant Secretary of Defense: 
Portfolio Systems Acquisition: 

Enclosure: As stated: 

[End of letter] 

GAO Draft Report Dated February 28, 2011: 
GAO-11-325 (GAO Code 120918): 

"JOINT STRIKE FIGHTER: RESTRUCTURING PLACES PROGRAM ON FIRMER FOOTING, 
BUT PROGRESS IS STILL LAGGING OVERALL" 

The Department remains committed to the F-35 Joint Strike Fighter 
(JSF) program. The Fiscal Year (FY) 2012 President's Budget (PB) 
demonstrates this commitment to the F-35 as the backbone of the future 
tactical aircraft inventory for the Air Force, Navy, Marine Corps, as 
well as our International Partners. 

The Department and the F-35 prime contractor are committed to 
delivering F-35 aircraft that meet the Services' requirements as 
specified in the Joint Operational Requirements Document (JORD) in 
addition to controlling and reducing costs wherever and whenever 
possible, with the goal of providing the Services' an affordable 
tactical aviation capability. 

Following a Critical Nunn-McCurdy Breach, a rescission of the original
October 26, 2001 Milestone B (MS B) decision, and program 
recertification in June 2010, the Department set out to establish a 
firmer foundation for the program. The F-35 Program Executive Officer 
(PEO) executed an extensive bottoms-up Technical Baseline Review (TBR) 
involving over 120 tactical aircraft experts from both the Services 
and the Department to evaluate every aspect of the System Development 
and Demonstration (SDD) phase of the program. In addition to the TBR, 
the PEO will execute a schedule risk assessment this summer and 
finalize the program's Integrated Master Schedule this fall following 
an Integrated Baseline Review. 

The Department will hold a Defense Acquisition Board (DAB) in May 2011 
to review the restructured SDD phase of the program and update the 
Acquisition Program Baseline. 

Department Of Defense Comments To The GAO Recommendations: 

Recommendation 1: The GAO recommends that the Secretary of Defense to
maintain total annual funding levels for development and procurement 
at the current budgeted amounts in the fiscal year 2012-2016 future 
years defense plan (modified, if warranted, by the new acquisition 
program baseline expected this year). It should facilitate trades 
among cost, schedule, requirements, and quantities to control cost 
growth. Having gone through the Technical Baseline Review (TBR) review 
and budget approval process, it is reasonable to expect the program to 
execute against the FYDP budget going forward. Only in instances of 
major and unforeseen circumstances, should the Department consider 
spending more money on the program. Even then, we would expect changes 
to be few and adopted only after close scrutiny by defense leadership.
Approved changes should be well supported, adequately documented, and 
reported to the congressional defense committees. 

DOD Response: Concur The Department is confident that the F-35 budget 
request for FY 2012-2016 provides the appropriate level of funding for 
the restructured development program and revised procurement profile. 
The Department undertakes a very thorough and in-depth process to 
develop the annual Defense Budget. The goal is to prepare a budget 
that does not change significantly from year to year and provides 
acquisition programs and the Services a stable funding and procurement 
profile to plan against. In this instance, the JSF Program Office 
conducted an extensive TBR involving over 120 tactical aircraft 
experts from both the Services and the Department to evaluate every 
aspect of the SDD phase of the program. The resultant schedule and 
cost adjustments made following the TBR, and reflected in the FY2012 
Budget, afforded the Department a more realistic basis to manage the 
program. The approval of a new MS B and APB will reflect these budget 
decisions. Any significant proposed changes to the F-35 budget in 
future years will be thoroughly reviewed as part of the annual Defense
Acquisition Executive Program Reviews and approved as part of the 
budget review and submission process. 

Recommendation 2: The GAO recommends that the Secretary of Defense to
establish criteria for the short take off and landing variant (STOVL) 
probation period and take additional steps to sustain individual 
attention to STOVL-specific issues, including independent F-35B/STOVL 
Progress Reviews with Senior Leadership to ensure cost and schedule 
milestones are achieved to deliver required warfighter capabilities. 
The intent is to allow each JSF variant to proceed and demonstrate 
success at its own pace and could result in separate full-rate 
production decisions. 

DOD Response: Concur. The Service Acquisition Executives (SAEs) for the
Department of the Navy and Air Force have established a battle rhythm 
of monthly SAE reviews with the F-35 PEO to assess the overall F-35 
program, with additional emphasis on F-35B Short Take Off and Vertical 
Landing (STOVL) variant. These monthly SAE Reviews examine the F-35 
airframe and propulsion SDD, Production, and Sustainment programs with 
particular emphasis on Cost/Affordability, Risk, and Schedule.	In
addition, the Commandant of the Marine Corps has established a monthly 
F-35 review focused solely on the F-35B variant. This review is also 
led by Department of the Navy (DoN) Senior Acquisition Executives. The 
topics and metrics that are assessed include, but are not limited to, 
the following: 

* Cost/Affordability/Earned Value Management (EVM): A review of 
Acquisition Procurement Unit Cost, Program Acquisition Unit Cost, 
Operations and Support costs, and EVM cost/schedule indices. 

* Risk: Monthly assessment of Program Risk' with explanations about 
each risk item, their interactions, and risk burn-down plans. 
Assessments include a review of the assumptions and environment used 
to determine the risk evaluations. 

* F-35B weight/weight growth: Weight assessments track each pound 
added to the airframe with an understanding of the underlying reasons 
for the growth. If there are trades that need to be made to mitigate 
weight growth, DoN senior leadership/warfighters are to be consulted. 

* Key Performance Parameters (KPPs): Review of F-35B KPPs with a 
tracking/trending methodology and monthly discussions of CONOPS 
considerations that might help facilitate achievement of F-35 KPPs and 
program goals. 

*	Airframe Technical Performance Measurements: Assessments of 
reliability, maintainability, combat radius, and gross weight (with 
metrics that indicate the desired value(s), the current status, 
margin, and trends). 

*	F-35B Flight Test: Review of F-35B flight test data, to include,
planned/scheduled test points to be flown versus achieved test points 
flown; scheduled test flights flown versus actual test flights flown 
(delineated by STOVL variant); and Clean-Wing Flight Envelope coverage 
(to assess the progress on the envelope cleared for flight as a result 
of Developmental Test and alignment with software delivery).
As these monthly reviews mature, the DoN will refine key F-35B metrics 
to ensure this essential capability is delivered to the Marine Corps 
Warfighters and to enable the Department to make a decision on the F-
35B STOVL variant probation status. 

Recommendation 3: The GAO recommends that the Secretary of Defense to
conduct an independent review of the contractor's software 
development, integration, and test processes—similar to its review of 
manufacturing operations—and look for opportunities to streamline 
software efforts. This review should include an evaluation of the 
ground lab and simulation model accreditation process to ensure it is 
properly structured and robustly resourced to support software test 
and verification requirements. 

DOD Response: Concur The Department believes that the newly structured
program, which delivers a JORD-compliant Block 3 capable aircraft at 
the end of the SDD phase, provides the Warfighter capability needed. 
The Department acknowledges that delivery of that capability has taken 
longer and will cost more than planned, in part due to poor 
performance to date in software development. The recent TBR ensured 
that full Block 3 capability was adequately costed and scheduled with 
the appropriate amount of acceptable risk, to include the risk in the 
software development portion of the program. In order to maximize our 
developmental investment, it would be prudent to independently verify 
the contractor has appropriate processes to develop and field software 
and is diligently following them accordingly. 

[End of section] 

Appendix IV: GAO Contact and Staff Acknowledgments: 

GAO Contact: 

Michael Sullivan (202) 512 4841 or sullivanm@gao.gov: 

Acknowledgments: 

In addition to the contact name above, the following staff members 
made key contributions to this report: Bruce Fairbairn, Assistant 
Director; Charlie Shivers; Julie Hadley; Matt Lea; Jason Lee; Sean 
Merrill; LeAnna Parkey; Karen Richey; Dr. W. Kendal Roberts; and 
Robert Swierczek. 

[End of section] 

Related GAO Products: 

Joint Strike Fighter: Restructuring Should Improve Outcomes, but 
Progress Is Still Lagging Overall. [hyperlink, 
http://www.gao.gov/products/GAO-11-450T]. Washington, D.C.: March 15, 
2011. 

Tactical Aircraft: Air Force Fighter Force Structure Reports Generally 
Addressed Congressional Mandates, but Reflected Dated Plans and 
Guidance, and Limited Analyses. [hyperlink, 
http://www.gao.gov/products/GAO-11-323R]. Washington, D.C.: February 
24, 2011. 

Defense Management: DOD Needs to Monitor and Assess Corrective Actions 
Resulting from Its Corrosion Study of the F-35 Joint Strike Fighter. 
[hyperlink, http://www.gao.gov/products/GAO-11-171R]. Washington D.C.: 
December 16, 2010. 

Joint Strike Fighter: Assessment of DOD's Funding Projection for the 
F136 Alternate Engine. [hyperlink, 
http://www.gao.gov/products/GAO-10-1020R]. Washington, D.C.: September 
15, 2010. 

Tactical Aircraft: DOD's Ability to Meet Future Requirements is 
Uncertain, with Key Analyses Needed to Inform Upcoming Investment 
Decisions. [hyperlink, http://www.gao.gov/products/GAO-10-789]. 
Washington, D.C.: July 29, 2010. 

Defense Acquisitions: Assessments of Selected Weapon Programs. 
[hyperlink, http://www.gao.gov/products/GAO-10-388SP]. Washington, 
D.C.: March 30, 2010. 

Joint Strike Fighter: Significant Challenges and Decisions Ahead. 
[hyperlink, http://www.gao.gov/products/GAO-10-478T]. Washington, 
D.C.: March 24, 2010. 

Joint Strike Fighter: Additional Costs and Delays Risk Not Meeting 
Warfighter Requirements on Time. [hyperlink, 
http://www.gao.gov/products/GAO-10-382]. Washington, D.C.: March 19, 
2010. 

Joint Strike Fighter: Significant Challenges Remain as DOD 
Restructures Program. [hyperlink, 
http://www.gao.gov/products/GAO-10-520T]. Washington, D.C.: March 11, 
2010. 

Joint Strike Fighter: Strong Risk Management Essential as Program 
Enters Most Challenging Phase. [hyperlink, 
http://www.gao.gov/products/GAO-09-711T]. Washington, D.C.: May 20, 
2009. 

Defense Acquisitions: Assessments of Selected Weapon Programs. 
[hyperlink, http://www.gao.gov/products/GAO-09-326SP]. Washington, 
D.C.: March 30, 2009. 

Joint Strike Fighter: Accelerating Procurement before Completing 
Development Increases the Government's Financial Risk. [hyperlink, 
http://www.gao.gov/products/GAO-09-303]. Washington D.C.: March 12, 
2009. 

Defense Acquisitions: Better Weapon Program Outcomes Require 
Discipline, Accountability, and Fundamental Changes in the Acquisition 
Environment. [hyperlink, http://www.gao.gov/products/GAO-08-782T]. 
Washington, D.C.: June 3, 2008. 

Defense Acquisitions: Assessments of Selected Weapon Programs. 
[hyperlink, http://www.gao.gov/products/GAO-08-467SP]. Washington, 
D.C.: March 31, 2008. 

Joint Strike Fighter: Impact of Recent Decisions on Program Risks. 
[hyperlink, http://www.gao.gov/products/GAO-08-569T]. Washington, 
D.C.: March 11, 2008. 

Joint Strike Fighter: Recent Decisions by DOD Add to Program Risks. 
[hyperlink, http://www.gao.gov/products/GAO-08-388]. Washington, D.C.: 
March 11, 2008. 

Tactical Aircraft: DOD Needs a Joint and Integrated Investment 
Strategy. [hyperlink, http://www.gao.gov/products/GAO-07-415]. 
Washington, D.C.: April 2, 2007. 

Defense Acquisitions: Assessments of Selected Weapon Programs. 
[hyperlink, http://www.gao.gov/products/GAO-07-406SP]. Washington, 
D.C.: March 30, 2007. 

Defense Acquisitions: Analysis of Costs for the Joint Strike Fighter 
Engine Program. [hyperlink, http://www.gao.gov/products/GAO-07-656T]. 
Washington, D.C.: March 22, 2007. 

Joint Strike Fighter: Progress Made and Challenges Remain. [hyperlink, 
http://www.gao.gov/products/GAO-07-360]. Washington, D.C.: March 15, 
2007. 

Tactical Aircraft: DOD's Cancellation of the Joint Strike Fighter 
Alternate Engine Program Was Not Based on a Comprehensive Analysis. 
[hyperlink, http://www.gao.gov/products/GAO-06-717R]. Washington, 
D.C.: May 22, 2006. 

Defense Acquisitions: Major Weapon Systems Continue to Experience Cost 
and Schedule Problems under DOD's Revised Policy. [hyperlink, 
http://www.gao.gov/products/GAO-06-368]. Washington, D.C.: April 13, 
2006. 

Defense Acquisitions: Actions Needed to Get Better Results on Weapons 
Systems Investments. [hyperlink, 
http://www.gao.gov/products/GAO-06-585T]. Washington, D.C.: April 5, 
2006. 

Tactical Aircraft: Recapitalization Goals Are Not Supported by 
Knowledge-Based F-22A and JSF Business Cases. [hyperlink, 
http://www.gao.gov/products/GAO-06-487T]. Washington, D.C.: March 16, 
2006. 

Joint Strike Fighter: DOD Plans to Enter Production before Testing 
Demonstrates Acceptable Performance. [hyperlink, 
http://www.gao.gov/products/GAO-06-356]. Washington, D.C.: March 15, 
2006. 

Joint Strike Fighter: Management of the Technology Transfer Process. 
GAO-06-364. Washington, D.C.: March 14, 2006. 

Tactical Aircraft: F/A-22 and JSF Acquisition Plans and Implications 
for Tactical Aircraft Modernization. [hyperlink, 
http://www.gao.gov/products/GAO-05-519T]. Washington, D.C: April 6, 
2005. 

Tactical Aircraft: Opportunity to Reduce Risks in the Joint Strike 
Fighter Program with Different Acquisition Strategy. [hyperlink, 
http://www.gao.gov/products/GAO-05-271]. Washington, D.C.: March 15, 
2005. 

[End of section] 

Footnotes: 

[1] Rather than a single step approach, best practices and current DOD 
acquisition guidance recommend that complex weapon system programs 
instead adopt a more evolutionary acquisition strategy, developing and 
procuring new systems incrementally to help achieve better program 
outcomes and deliver new capabilities to the warfighters sooner. 

[2] GAO, Joint Strike Fighter: Additional Costs and Delays Risk Not 
Meeting Warfighter Requirements on Time, [hyperlink, 
http://www.gao.gov/products/GAO-10-382] (Washington, D.C.: Mar. 19, 
2010). Refer to the related products section for a list of prior GAO 
reports and testimonies. 

[3] National Defense Authorization Act for Fiscal Year 2010, Pub. L. 
No. 111-84 § 244 (2009). 

[4] Sensor fusion is the ability to take information from both 
multiple onboard and off board aircraft sensors and display the 
information in an easy-to-use format for the single pilot. 

[5] The international partners are the United Kingdom, Italy, the 
Netherlands, Turkey, Canada, Australia, Denmark, and Norway. These 
nations are contributing funds for system development and plan to 
procure more than 700 aircraft. 

[6] [hyperlink, http://www.gao.gov/products/GAO-10-382]. Also GAO, 
Joint Strike Fighter: Significant Challenges and Decision Ahead, 
[hyperlink, http://www.gao.gov/products/GAO-10-478T] (Washington, 
D.C.: Mar. 24, 2010) and GAO, Joint Strike Fighter: Significant 
Challenges Ahead as DOD Restructures Program, [hyperlink, 
http://www.gao.gov/products/GAO-10-520T] (Washington, D.C.: Mar. 11, 
2010). 

[7] Commonly referred to as Nunn-McCurdy, 10 U.S.C. § 2433 establishes 
the requirement for DOD to submit unit cost reports on major defense 
acquisition programs or designated major subprograms. Two measures are 
tracked against the current and original baseline estimates for a 
program: procurement unit cost (total procurement funds divided by the 
quantity of systems procured) and program acquisition unit cost (total 
funds for development, procurement, and system-specific military 
construction divided by the quantity of systems procured). If a 
program's procurement unit cost or acquisition unit cost increases by 
at least 25 percent over the current baseline estimate or at least 50 
percent over the original baseline estimate, it constitutes a breach 
of the critical cost growth threshold. Programs are required to notify 
Congress if a Nunn-McCurdy breach is experienced. 

[8] When a program experiences a Nunn-McCurdy breach of the critical 
cost growth threshold, DOD is required to take a number of steps 
including reassessing the program and submitting a certification to 
Congress in order to continue the program, in accordance with 10 
U.S.C. § 2433a. 

[9] Fifth generation aircraft include the F-22A and JSF and 
incorporate stealth characteristics, fused sensor data, and advanced 
radars. 

[10] American National Standards Institute/Electronics Industries 
Alliance-748 is a collection of 32 earned value management system 
guidelines that incorporate business best practices for program 
management systems proven to provide strong benefits for program or 
enterprise planning and control. The processes include integration of 
program scope, schedule, and cost objectives, establishment of a 
baseline plan for accomplishment of program objectives, and use of 
earned value techniques for performance measurement during the 
execution of a program. The system provides a sound basis for problem 
identification, corrective actions, and management replanning as 
required. 

[11] Flight test points are specific, quantifiable objectives in 
flight plans that are needed to verify aircraft design and performance. 

[12] [hyperlink, http://www.gao.gov/products/GAO-10-382]. 

[13] Pub. L. No. 111-383, § 122. 

[14] Out of station work occurs when manufacturing steps are not 
completed at its designated work station and must be finished 
elsewhere later in production. This is highly inefficient, increasing 
labor hours, causing delays, and sometimes quality problems. 

[15] GAO, Joint Strike Fighter: Accelerating Procurement before 
Completing Development Increases the Government's Financial Risk, 
[hyperlink, http://www.gao.gov/products/GAO-09-303] (Washington D.C.: 
Mar. 12, 2009). 

[16] GAO, Best Practices: Capturing Design and Manufacturing Knowledge 
Early Improves Acquisition Outcomes, [hyperlink, 
http://www.gao.gov/products/GAO-02-701] (Washington, D.C.: July 15, 
2002). 

[17] This includes 12 test aircraft and the non-production 
representative model that achieved much of the test flights prior to 
2010. A 14th test aircraft, the test carrier variant added in the 
recent restructuring is expected to be delivered in 2012. 

[18] GAO, Joint Strike Fighter: Recent Decisions by DOD Add to Program 
Risks, [hyperlink, http://www.gao.gov/products/GAO-08-388] 
(Washington, D.C.: Mar. 11, 2008). 

[19] Mission systems are critical to realizing increased warfighter 
capability in combat effectiveness through next generation sensors 
with fused information from on-board and off-board systems (i.e. 
electronic warfare, communication navigation identification, electro-
optical target system, electro-optical distributed aperture system, 
radar, and data links). 

[End of section] 

GAO's Mission: 

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