Navy Ohio Replacement (SSBN[X]) Ballistic
Missile Submarine Program: Background and
Issues for Congress

Ronald O'Rourke
Specialist in Naval Affairs
June 12, 2012
Congressional Research Service
7-5700
www.crs.gov
R41129
CRS Report for Congress
Pr
epared for Members and Committees of Congress

Navy Ohio Replacement (SSBN[X]) Ballistic Missile Submarine Program

Summary
The Navy’s proposed FY2013 budget requests $564.9 million for continued research and
development work on the Ohio replacement program (ORP), a program to design and build a new
class of 12 ballistic missile submarines (SSBNs) to replace the Navy’s current force of 14 Ohio-
class SSBNs. The Ohio replacement program is also known as the SSBN(X) program.
Under the Navy’s FY2012 budget, the first Ohio replacement boat was scheduled to be procured
in FY2019, and Ohio replacement boats were to enter service on a schedule that would maintain
the Navy’s SSBN force at 12 boats. The Navy’s proposed FY2013 budget defers the procurement
of the first Ohio replacement boat by two years, to FY2021. As a result of this deferment, the
Navy’s SSBN force will drop to 11 or 10 boats for the period FY2029-FY2041.
The Navy estimates the average procurement cost of boats 2 through 12 in the Ohio replacement
program at $5.6 billion each in FY2010 dollars, and is working to reduce that figure to a target of
$4.9 billion each in FY2010 dollars. Even with this cost-reduction effort, observers are concerned
about the impact the Ohio replacement program will have on the Navy’s ability to procure other
types of ships at desired rates in the 2020s and early 2030s.
Potential oversight issues for Congress for the Ohio replacement program include the following:
• the reasons for deferring the start of SSBN(X) procurement by two years, to
FY2021, the cost and operational impact of this decision, and whether it would
be feasible and cost effective to restore the start of procurement to FY2019, as
planned under the FY2012 budget;
• the plan to design the SSBN(X) with 16 SLBM tubes rather than 20;
• the plan to procure 12 SSBN(X)s rather than 13 or 14;
• the likelihood that the Navy will be able to reduce the average procurement cost
of boats 2-12 in the program to the target figure of $4.9 billion each in FY2010
dollars;
• the accuracy of the Navy’s estimate of the procurement cost of each SSBN(X);
• the prospective affordability of the Ohio replacement program and its potential
impact on funding available for other Navy shipbuilding programs; and
• the question of which shipyard or shipyards will build SSBN(X)s.
This report focuses on the Ohio replacement program as a Navy shipbuilding program. CRS
Report RL33640, U.S. Strategic Nuclear Forces: Background, Developments, and Issues, by Amy
F. Woolf, discusses the SSBN(X) as an element of future U.S. strategic nuclear forces in the
context of strategic nuclear arms control agreements.
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Contents
Introduction...................................................................................................................................... 1
Background...................................................................................................................................... 1
U.S. Navy SSBNs in General .................................................................................................... 1
Mission of SSBNs ............................................................................................................... 1
Current Ohio-Class SSBNs ................................................................................................. 2
Summary of U.S. SSBN Designs ........................................................................................ 4
U.S.-UK Cooperation on SLBMs ....................................................................................... 6
Ohio Replacement Program....................................................................................................... 7
Program Origin and Early Milestones................................................................................. 7
Procurement and Replacement Schedule ............................................................................ 9
SSBN(X) Design Features ................................................................................................ 10
Program Acquisition Cost ................................................................................................. 12
Common Missile Compartment (CMC)............................................................................ 13
Program Funding............................................................................................................... 14
Issues for Congress ........................................................................................................................ 14
Two-Year Deferral in Start of Procurement............................................................................. 15
A Design with 16 vs. 20 SLBM Tubes .................................................................................... 17
Plan to Procure 12 Boats Rather Than 13 or 14 ...................................................................... 21
Likelihood That Navy Will Reach $4.9 Billion Target Cost.................................................... 22
Accuracy of Navy’s Estimated Unit Procurement Cost .......................................................... 23
Program Affordability and Impact on Other Navy Shipbuilding Programs ............................ 25
Reducing the Planned Number of SSBN(X)s ................................................................... 26
Altering Procurement Schedule to Make More Use of Incremental Funding................... 27
Procuring SSBN(X)s Outside Navy’s Shipbuilding Budget ............................................. 29
Construction Shipyard(s)......................................................................................................... 31
Legislative Activity for FY2013.................................................................................................... 33
FY2013 Funding Request........................................................................................................ 33
FY2013 National Defense Authorization Act (H.R. 4310/S. 3254) ........................................ 34
House................................................................................................................................. 34
Senate ................................................................................................................................ 35
FY2013 DOD Appropriations Act (H.R. 5856)....................................................................... 36
House................................................................................................................................. 36

Figures
Figure 1. Ohio (SSBN-726) Class SSBN ........................................................................................ 4

Tables
Table 1. U.S. SSBN Classes ............................................................................................................ 5
Table 2. Navy Schedule for Procuring SSBN(X)s and Replacing Ohio-Class SSBNs ................. 10
Table 3. Ohio Replacement Program Funding............................................................................... 14
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Table 4. Navy SSBN(X) Procurement Schedule and a Notional Alternative Schedule................. 28
Table 5. Construction Shipyards of U.S. SSBNs ........................................................................... 32

Contacts
Author Contact Information........................................................................................................... 36

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Navy Ohio Replacement (SSBN[X]) Ballistic Missile Submarine Program

Introduction
This report provides background information and potential oversight issues for Congress on the
Ohio replacement program (ORP), a program to design and build a new class of 12 ballistic
missile submarines (SSBNs) to replace the Navy’s current force of 14 Ohio-class SSBNs. The
Ohio replacement program is also known as the SSBN(X) program. The Navy’s proposed
FY2013 budget requests $564.9 million for continued research and development work on the
Ohio replacement program. Decisions that Congress makes on the Ohio replacement program
could substantially affect U.S. military capabilities and funding requirements, and the U.S.
shipbuilding industrial base.
This report focuses on the Ohio replacement program as a Navy shipbuilding program. Another
CRS report discusses the SSBN(X) as an element of future U.S. strategic nuclear forces in the
context of strategic nuclear arms control agreements.1
Background
U.S. Navy SSBNs in General
Mission of SSBNs
The U.S. Navy operates three kinds of submarines—nuclear-powered attack submarines (SSNs),
nuclear-powered cruise missile submarines (SSGNs), and nuclear-powered ballistic missile
submarines (SSBNs).2 The SSNs and SSGNs are multi-mission ships that perform a variety of
peacetime and wartime missions.3 They do not carry nuclear weapons.4

1 CRS Report RL33640, U.S. Strategic Nuclear Forces: Background, Developments, and Issues, by Amy F. Woolf.
2 In the designations SSN, SSGN, SSBN, and SSBN(X), the SS stands for submarine, N stands for nuclear-powered
(meaning the ship is powered by a nuclear reactor), G stands for guided missile (such as a cruise missile), B stands for
ballistic missile, and (X) means the design of the ship has not yet been determined.
As shown by the “Ns” in SSN, SSGN, and SSBN, all U.S. Navy submarines are nuclear-powered. Other navies operate
non-nuclear powered submarines, which are powered by energy sources such as diesel engines. A submarine’s use of
nuclear or non-nuclear power as its energy source is not an indication of whether it is armed with nuclear weapons—a
nuclear-powered submarine can lack nuclear weapons, and a non-nuclear-powered submarine can be armed with
nuclear weapons.
3 These missions include covert intelligence, surveillance, and reconnaissance (ISR), much of it done for national-level
(as opposed to purely Navy) purposes; covert insertion and recovery of special operations forces (SOF); covert strikes
against land targets with the Tomahawk cruise missiles; covert offensive and defensive mine warfare; anti-submarine
warfare (ASW); and anti-surface ship warfare. The Navy’s four SSGNs, which are converted former SSBNs, can carry
larger numbers of Tomahawks and SOF personnel than can the SSNs. SSGN operations consequently may focus more
strongly on Tomahawk and SOF missions than do SSN operations. For more on the Navy’s SSNs and SSGNs, see CRS
Report RL32418, Navy Virginia (SSN-774) Class Attack Submarine Procurement: Background and Issues for
Congress
, by Ronald O'Rourke, and CRS Report RS21007, Navy Trident Submarine Conversion (SSGN) Program:
Background and Issues for Congress
, by Ronald O'Rourke.
4 The Navy’s non-strategic nuclear weapons—meaning all of the service’s nuclear weapons other than submarine-
launched ballistic missiles (SLBMs)—were removed from Navy surface ships and submarines under a unilateral U.S.
nuclear initiative announced by President George H. W. Bush in September 1991. The initiative reserved a right to
rearm SSNs at some point in the future with nuclear-armed Tomahawk land attack missiles (TLAM-Ns) should
(continued...)
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The SSBNs, in contrast, perform a specialized mission of strategic nuclear deterrence. To perform
this mission, SSBNs are armed with submarine-launched ballistic missiles (SLBMs), which are
large, long-range missiles armed with multiple nuclear warheads. SSBNs launch their SLBMs
from large-diameter vertical launch tubes located in the middle section of the boat.5 The SSBNs’
basic mission is to remain hidden at sea with their SLBMs, so as to deter a nuclear attack on the
United States by another country by demonstrating to other countries that the United States has an
assured second-strike capability, meaning a survivable system for carrying out a retaliatory
nuclear attack.
Navy SSBNs, which are sometimes referred to informally as “boomers,”6 form one leg of the
U.S. strategic nuclear deterrent force, or “triad,” which also includes land-based intercontinental
ballistic missiles (ICBMs) and land-based long-range bombers. At any given moment, some of
the Navy’s SSBNs are conducting nuclear deterrent patrols. The Navy’s report on its FY2011 30-
year shipbuilding plan states: “These ships are the most survivable leg of the Nation’s strategic
arsenal and provide the Nation’s only day-to-day assured nuclear response capability.”7 The
Department of Defense’s (DOD’s) report on the 2010 Nuclear Posture Review (NPR), released on
April 6, 2010, states that “strategic nuclear submarines (SSBNs) and the SLBMs they carry
represent the most survivable leg of the U.S. nuclear Triad.”8
Current Ohio-Class SSBNs
The Navy currently operates 14 Ohio (SSBN-726) class SSBNs. The boats are commonly called
Trident SSBNs or simply Tridents because they carry Trident SLBMs.
A total of 18 Ohio-class SSBNs were procured in FY1974-FY1991. The ships entered service in
1981-1997. The boats were designed and built by General Dynamics’ Electric Boat Division
(GD/EB) of Groton, CT, and Quonset Point, RI. They were originally designed for 30-year
service lives but were later certified for 42-year service lives, consisting of two 20-year periods of
operation separated by a two-year mid-life nuclear refueling overhaul, called an engineered
refueling overhaul (ERO). The nuclear refueling overhaul includes both a nuclear refueling and
overhaul work on the ship that is not related to the nuclear refueling.

(...continued)
conditions warrant. Navy TLAM-Ns were placed in storage to support this option. DOD’s report on the 2010 Nuclear
Posture Review (NPR), released on April 6, 2010, states that the Untied States will retire the TLAM-Ns. (Department
of Defense, Nuclear Posture Review Report, April 2010, pp. xiii and 28.)
5 SSBNs, like other Navy submarines, are also equipped with horizontal torpedo tubes in the bow for firing torpedoes
or other torpedo-sized weapons.
6 This informal name is a reference to the large boom that would be made by the detonation of an SLBM nuclear
warhead.
7 U.S. Navy, Report to Congress on Annual Long-Range Plan for Construction of Naval Vessels for FY 2011, February
2010, p. 15.
8 Department of Defense, Nuclear Posture Review Report, April 2010, p. 22. The next sentence in the report states:
“Today, there appears to be no viable near or mid-term threats to the survivability of U.S. SSBNs, but such threats—or
other technical problems—cannot be ruled out over the long term.” The report similarly states on page 23: “Today,
there appears to be no credible near or mid-term threats to the survivability of U.S. SSBNs. However, given the stakes
involved, the Department of Defense will continue a robust SSBN Security Program that aims to anticipate potential
threats and develop appropriate countermeasures to protect current and future SSBNs.”
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Ohio-class SSBNs each carry 24 SLBMs. The first eight boats in the class were originally armed
with Trident I C-4 SLBMs; the final 10 were armed with larger and more-capable Trident II D-5
SLBMs. The Clinton Administration’s 1994 Nuclear Posture Review (NPR) recommended a
strategic nuclear force for the START II strategic nuclear arms reduction treaty that included 14
Ohio-class SSBNs, all armed with D-5s. This recommendation prompted interest in the idea of
converting the first four Ohio-class boats (SSBNs 726-729) into SSGNs, so as to make good use
of the 20 years of potential operational life remaining in these four boats, and to bolster the U.S.
SSN fleet. The first four Ohio-class boats were converted into SSGNs in 2002-2008,9 and the next
four (SSBNs 730-733) were backfitted with D-5 SLBMs in 2000-2005, producing the current
force of 14 Ohio-class SSBNs, all of which are armed with D-5 SLBMs.
Eight of the 14 Ohio-class SSBNs are homeported at Bangor, WA, in Puget Sound; the other six
are homeported at Kings Bay, GA, close to the Florida border.
Unlike most Navy ships, which are operated by single crews, Navy SSBNs are operated by
alternating crews (called the Blue and Gold crews) so as to maximize the percentage of time that
they spend at sea in deployed status. The Navy consequently maintains 28 crews to operate its 14
Ohio-class SSBNs.
The first of the 14 Ohio-class SSBNs (SSBN-730) will reach the end of its 42-year service life in
2027. The remaining 13 will reach the ends of their service lives at a rate of roughly one ship per
year thereafter, with the 14th reaching the end of its service life in 2040.
The Navy has initiated a program to refurbish and extend the service lives of D-5 SLBMs to 2042
“to match the OHIO Class submarine service life.”10
Figure 1 shows an Ohio-class SSBN with the hatches to some of its SLBM launch tubes open.

9 For more on the SSGN conversion program, see CRS Report RS21007, Navy Trident Submarine Conversion (SSGN)
Program: Background and Issues for Congress
, by Ronald O'Rourke.
10 Statement of Rear Admiral Stephen Johnson, USN, Director, Strategic Systems Programs, Before the Subcommittee
on Strategic Forces of the Senate Armed Services Committee [on] FY2011 Strategic Systems, March 17, 2010, p. 4.
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Figure 1. Ohio (SSBN-726) Class SSBN
With the hatches to some of its SLBM launch tubes open

Source: U.S. Navy file photo accessed by CRS on February 24, 2011, at http://www.navy.mil/management/
photodb/photos/101029-N-1325N-005.jpg.
Summary of U.S. SSBN Designs
The Navy has operated four classes of SSBNs since 1959. Table 1 compares the current Ohio-
class SSBN design to the three earlier U.S. SSBN designs. As shown in the table, the size of U.S.
SSBNs has grown over time, reflecting in part a growth in the size and number of SLBMs carried
on each boat. The Ohio class carries an SLBM (the D-5) that is much larger than the SLBMs
carried by earlier U.S. SSBNs, and it carries 24 SLBMs, compared to the 16 on earlier U.S.
SSBNs.11 In part for these reasons, the Ohio-class design, with a submerged displacement of
18,750 tons, is more than twice the size of earlier U.S. SSBNs.

11 The larger size of the Ohio-class design also reflects a growth in size over time in U.S. submarine designs due to
other reasons, such as providing increased interior volume for measures to quiet the submarine acoustically, so as to
make it harder to detect.
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Table 1. U.S. SSBN Classes
George
Lafayette/Benjamin
Washington
Ethan Allen
Franklin (SSBN-
Ohio (SSBN-726)

(SSBN-598) class
(SSBN-608) class
616/640) class
class
Number in class
5
5
31
18/14
Fiscal years
FY1958-FY1959
FY1959 and FY1961
FY1961-FY1964
FY1974/FY1977 -
procured
FY1991
Years in
1959-1985
1961-1992
1963-2002
1981/1984 - present
commission
Length
381.7 feet
410.5 feet
425 feet
560 feet
Beam
33 feet
33 feet
33 feet
42 feet
Submerged
6,700 tons
7,900 tons
8,250 tons
18,750 tons
displacement
Number of SLBMs
16
16
16
24
Final type(s) of
Polaris A-3
Polaris A-3
Poseidon C-3/
Trident II D-5
SLBM carried
Trident I C-4
Diameter of those
54 inches
54 inches
74 inches
83 inches
SLBMs
Length of those
32.3 feet
32.3 feet
34 feet
44 feet
SLBMs
Weight of each
36,000 pounds
36,000 pounds
65,000/73,000 pounds
~130,000 pounds
SLBM (pounds)
Range of SLBMs
~2,500 nm
~2,500 nm
~2,500 nm/~4,000 nm
~4,000 nm
Sources: Prepared by CRS based on data in Norman Polmar, The Ships and Aircraft of the U.S. Fleet, Annapolis,
Naval Institute Press, various editions, and (for SSBN decommissioning dates) U.S. Naval Vessel Register.
Notes: Beam is the maximum width of a ship. For the submarines here, which have cylindrical hulls, beam is the
diameter of the hull.
The range of an SLBM can vary, depending on the number and weight of nuclear warheads it carries; actual
ranges can be lesser or greater than those shown.
The George Washington-class boats were procured as modifications of SSNs that were already under
construction. Three of the boats were converted into SSNs toward the ends of their lives and were
decommissioned in 1983-1985. The two boats that remained SSBNs throughout their lives were
decommissioned in 1981.
Al five Ethan Al en-class boats were converted into SSNs toward the ends of their lives. The boats were
decommissioned in 1983 (two boats), 1985, 1991, and 1992.
Two of the Lafayette/Benjamin Franklin-class boats were converted into SSNs toward the ends of their lives and
were decommissioned in 1999 and 2002. The 29 that remained SSBNs throughout their lives were
decommissioned in 1986-1995. For 19 of the boats, the Poseidon C-3 was the final type of SLBM carried; for the
other 12, the Trident I C-4 SLBM was the final type of SLBM carried.
A total of 18 Ohio-class SSBNs were built. The first four, which entered service in 1981-1984, were converted
into SSGNs in 2002-2008. The remaining 14 boats entered service in 1984-1997.
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U.S.-UK Cooperation on SLBMs
SSBNs are also operated by the United Kingdom, France, Russia, and China.12 The UK’s four
Vanguard-class SSBNs, which entered service in 1993-1999, each carry 16 Trident II D-5
SLBMs. Previous classes of UK SSBNs similarly carried earlier-generation U.S. SLBMs.13 The
UK’s use of U.S.-made SLBMs on its SSBNs is one element of a long-standing close cooperation
between the two countries on nuclear-related issues that is carried out under the 1958 Agreement
for Cooperation on the Uses of Atomic Energy for Mutual Defense Purposes (also known as the
Mutual Defense Agreement). Within the framework established by the 1958 agreement,
cooperation on SLBMs in particular is carried out under the 1963 Polaris Sales Agreement and a
1982 Exchange of Letters between the two governments.14 The Navy testified in March 2010 that

12 India in July 2009 launched a nuclear-powered submarine that is equipped with four vertical launch tubes for
launching 12 short-range SLBMs or cruise missiles; the ship is expected to enter service in 2012.
13 Although the SLBMs on UK SSBNs are U.S.-made, the nuclear warheads on the missiles are of UK design and
manufacture.
14 A March 18, 2010, report by the UK Parliament’s House of Commons Foreign Affairs Committee stated:
During the Cold War, the UK’s nuclear co-operation with the United States was considered to be at
the heart of the [UK-U.S.] ‘special relationship’. This included the 1958 Mutual Defence
Agreement, the 1963 Polaris Sales Agreement (PSA) (subsequently amended for Trident), and the
UK’s use of the US nuclear test site in Nevada from 1962 to 1992. The co-operation also
encompassed agreements for the United States to use bases in Britain, with the right to store
nuclear weapons, and agreements for two bases in Yorkshire (Fylingdales and Menwith Hill) to be
upgraded to support US missile defence plans.
In 1958, the UK and US signed the Mutual Defence Agreement (MDA). Although some of the
appendices, amendments and Memoranda of Understanding remain classified, it is known that the
agreement provides for extensive co-operation on nuclear warhead and reactor technologies, in
particular the exchange of classified information concerning nuclear weapons to improve design,
development and fabrication capability. The agreement also provides for the transfer of nuclear
warhead-related materials. The agreement was renewed in 2004 for another ten years.
The other major UK-US agreement in this field is the 1963 Polaris Sales Agreement (PSA) which
allows the UK to acquire, support and operate the US Trident missile system. Originally signed to
allow the UK to acquire the Polaris Submarine Launched Ballistic Missile (SLBM) system in the
1960s, it was amended in 1980 to facilitate purchase of the Trident I (C4) missile and again in 1982
to authorise purchase of the more advanced Trident II (D5) in place of the C4. In return, the UK
agreed to formally assign its nuclear forces to the defence of NATO, except in an extreme national
emergency, under the terms of the 1962 Nassau Agreement reached between President John F.
Kennedy and Prime Minister Harold Macmillan to facilitate negotiation of the PSA.
Current nuclear co-operation takes the form of leasing arrangements of around 60 Trident II D5
missiles from the US for the UK’s independent deterrent, and long-standing collaboration on the
design of the W76 nuclear warhead carried on UK missiles. In 2006 it was revealed that the US and
the UK had been working jointly on a new ‘Reliable Replacement Warhead’ (RRW) that would
modernise existing W76-style designs. In 2009 it emerged that simulation testing at Aldermaston
on dual axis hydrodynamics experiments had provided the US with scientific data it did not
otherwise possess on this RRW programme.
The level of co-operation between the two countries on highly sensitive military technology is,
according to the written submission from Ian Kearns, “well above the norm, even for a close
alliance relationship”. He quoted Admiral William Crowe, the former US Ambassador to London,
who likened the UK-US nuclear relationship to that of an iceberg, “with a small tip of it sticking
out, but beneath the water there is quite a bit of everyday business that goes on between our two
governments in a fashion that’s unprecedented in the world.” Dr Kearns also commented that the
personal bonds between the US/UK scientific and technical establishments were deeply rooted.
(House of Commons, Foreign Affairs Committee, Sixth Report Global Security: UK-US Relations,
March 18, 2010, paragraphs 131-135; http://www.publications.parliament.uk/pa/cm200910/
cmselect/cmfaff/114/11402.htm; paragraphs 131-135 are included in the section of the report
(continued...)
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“the United States and the United Kingdom have maintained a shared commitment to nuclear
deterrence through the Polaris Sales Agreement since April 1963. The U.S. will continue to
maintain its strong strategic relationship with the UK for our respective follow-on platforms,
based upon the Polaris Sales Agreement.”15
The first Vanguard-class SSBN was originally projected to reach the end of its service life in
2024, but an October 2010 UK defense and security review report states that the lives of the
Vanguard class ships will now be extended by a few years, so that the four boats will remain in
service into the late 2020s and early 2030s.16
The UK plans to replace the four Vanguard-class boats with three or four next-generation SSBNs.
The October 2010 UK defense and security review report states that each new SSBN is to be
equipped with 8 D-5 SLBMs, rather than 12 as previously planned. The report states that “‘Initial
Gate’—a decision to move ahead with early stages of the work involved—will be approved and
the next phase of the project will start by the end of [2010]. ‘Main Gate’—the decision to start
building the submarines—is required around 2016.”17 The first new boat is to be delivered by
2028, or about four years later than previously planned.18
The UK has wanted their replacement SSBNs to carry D-5 SLBMs, and for any successor to the
D-5 SLBM to be compatible with, or be capable of being made compatible with, the D-5 launch
system. President George W. Bush, in a December 2006 letter to UK Prime Minister Tony Blair,
invited the UK to participate in any program to replace the D-5 SLBMs, and stated that any
successor to the D-5 system should be compatible with, or be capable of being made compatible
with, the launch system for the D-5 SLBM.
Ohio Replacement Program
Program Origin and Early Milestones
Although the eventual need to replace the Ohio-class SSBNs has been known for many years, the
Ohio replacement program can be traced more specifically to an exchange of letters in December
2006 between President George W. Bush and UK Prime Minister Tony Blair concerning the UK’s
desire to participate in a program to extend the service life of the Trident II D-5 SLBM into the
2040s, and to have its next-generation SSBNs carry D-5s. Following this exchange of letters, and
with an awareness of the projected retirement dates of the Ohio-class SSBNs and the time that
would likely be needed to develop and field a replacement for them, DOD in 2007 began studies

(...continued)
available at http://www.publications.parliament.uk/pa/cm200910/cmselect/cmfaff/114/11406.htm.)
15 Statement of Rear Admiral Stephen Johnson, USN, Director, Strategic Systems Programs, Before the Subcommittee
on Strategic Forces of the Senate Armed Services Committee [on] FY2011 Strategic Systems, March 17, 2010, p. 6.
16 Securing Britain in an Age of Uncertainty: The Strategic Defence and Security Review, Presented to Parliament by
the Prime Minister by Command of Her Majesty, October 2010, p. 39.
17 Securing Britain in an Age of Uncertainty: The Strategic Defence and Security Review, Presented to Parliament by
the Prime Minister by Command of Her Majesty, October 2010, p. 5, 38-39. For more on the UK’s Successor SSBN
program as it existed prior to the October 2010 UK defense and security review report, see Richard Scott, “Deterrence
At A Discount?” Jane’s Defence Weekly, December 23, 2009: 26-31.
18 Securing Britain in an Age of Uncertainty: The Strategic Defence and Security Review, Presented to Parliament by
the Prime Minister by Command of Her Majesty, October 2010, p. 39.
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on a next-generation sea-based strategic deterrent (SBSD).19 The studies used the term sea-based
strategic deterrent (SBSD) to signal the possibility that the new system would not necessarily be a
submarine.
An Initial Capabilities Document (ICD) for a new SBSD was developed in early 200820 and
approved by DOD’s Joint Requirements Oversight Committee (JROC) on June 20, 2008.21 In July
2008, DOD issued a Concept Decision providing guidance for an analysis of alternatives (AOA)
for the program; an acquisition decision memorandum from John Young, DOD’s acquisition
executive, stated the new system would, barring some discovery, be a submarine.22 The Navy
established an Ohio replacement program office at about this same time.23 The AOA reportedly
began in the summer or fall of 2008.24 The AOA was completed, with final brief to the Office of
the Secretary of Defense (OSD), on May 20, 2009. The final AOA report was completed in
September 2009. An AOA Sufficiency Review Letter was signed by OSD’s Director, Cost
Assessment & Program Evaluation (CAPE) on December 8, 2009.25
The program’s Milestone A review meeting was held on December 9, 2010. On February 3, 2011,
the Navy provided the following statement to CRS concerning the outcome of the December 9
meeting:
The OHIO Replacement Program achieved Milestone A and has been approved to enter the
Technology Development Phase of the Dept. of Defense Life Cycle Management System as
of Jan. 10, 2011.
This milestone comes following the endorsement of the Defense Acquisition Board (DAB),
chaired by Dr. Carter (USD for Acquisition, Technology, and Logistics) who has signed the
program’s Milestone A Acquisition Decision Memorandum (ADM).
The DAB endorsed replacing the current 14 Ohio-class Ballistic Missile Submarines
(SSBNs) as they reach the end of their service life with 12 Ohio Replacement Submarines,
each comprising 16, 87-inch diameter missile tubes utilizing TRIDENT II D5 Life Extended
missiles (initial loadout). The decision came after the program was presented to the Defense
Acquisition Board (DAB) on Dec. 9, 2010.

19 In February 2007, the commander of U.S. Strategic Command (STRATCOM) commissioned a task force to support
an anticipated Underwater Launched Missile Study (ULMS). On June 8, 2007, the Secretary of the Navy initiated the
ULMS. Six days later, the commander of STRATCOM directed that a Sea Based Strategic Deterrent (SBSD)
capability-based assessment (CBA) be performed. In July 2007, the task force established by the commander of
STRATCOM provided its recommendations regarding capabilities and characteristics for a new SBSD. (Source: Navy
list of key events relating to the ULMS and SBSD provided to CRS and the Congressional Budget Office (CBO) on
July 7, 2008.)
20 On February 14, 2008, the SBSD ICD was approved for joint staffing by the Navy’s Resources and Requirements
Review Board (R3B). On April 29, 2008, the SBSD was approved by DOD’s Functional Capabilities Board (FCB) to
proceed to DOD’s Joint Capabilities Board (JCB). (Source: Navy list of key events relating to the ULMS and SBSD
provided to CRS and CBO on July 7, 2008.)
21 Navy briefing to CRS and CBO on the SBSD program, July 6, 2009.
22 Navy briefing to CRS and CBO on the SBSD program, July 6, 2009.
23 An August 2008 press report states that the program office, called PMS-397, “was established within the last two
months.” (Dan Taylor, “Navy Stands Up Program Office To Manage Next-Generation SSBN,” Inside the Navy, August
17, 2008.
24 “Going Ballistic,” Defense Daily, September 22, 2008, p. 1.
25 Department of Defense Fiscal Year (FY) 2012 Budget Estimates, Navy, Justification Book Volume 2, Research,
Development, Test & Evaluation, Navy Budget Activity 4
, entry for PE0603561N, Project 3220 (pdf page 345 of 888).
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The ADM validates the program’s Technology Development Strategy and allows entry into
the Technology Development Phase during which warfighting requirements will be refined
to meet operational and affordability goals. Design, prototyping, and technology
development efforts will continue to ensure sufficient technological maturity for lead ship
procurement in 2019.26
Procurement and Replacement Schedule
Table 2 shows the Navy’s proposed schedule for procuring 12 SSBN(X)s, and for having
SSBN(X)s replace Ohio-class SSBNs. As shown in Table 2, under the Navy’s FY2012 budget,
the first Ohio replacement boat was scheduled to be procured in FY2019, and Ohio replacement
boats were to enter service on a schedule that would maintain the Navy’s SSBN force at 12 boats.
As also shown in Table 2, the Navy’s proposed FY2013 budget defers the procurement of the
first Ohio replacement boat by two years, to FY2021. As a result of this deferment, the Navy’s
SSBN force will drop to 11 or 10 boats for the period FY2029-FY2041.

26 Source: Email from Navy Office of Legislative Affairs to CRS, February 3, 2011.
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Table 2. Navy Schedule for Procuring SSBN(X)s and Replacing Ohio-Class SSBNs

Schedule in FY2012 Budget
Schedule under FY2013 Budget
Combined
Combined
number of
number of
Number
Ohio-
Ohio-class
Number
Ohio-
Ohio-class
of
Cumulative
class
SSBNs
of
Cumulative
class
SSBNs
SSBN(X)s
number of
SSBNs
and
SSBN(X)s
number of
SSBNs
and
Fiscal
procured
SSBN(X)s
in
SSBN(X)s
procured
SSBN(X)s
in
SSBN(X)s
Year
each year
in service
service
in service
each year
in service
service
in service
2019 1

14 14


14
14
2020

14 14


14
14
2021

14 14
1

14
14
2022 1

14 14


14
14
2023

14 14


14
14
2024 1

14 14
1

14
14
2025 1

14 14


14
14
2026 1

14 14
1

14
14
2027 1

13 13
1

13
13
2028 1

12 13
1

12
12
2029 1
1
11 12
1

11
11
2030 1
2
10 12
1
1
10
11
2031 1
3
9 12
1
2
9
11
2032 1
4
8 12
1
2
8
10
2033 1
5
7 12
1
3
7
10
2034
6
6 12
1
4
6
10
2035
7
5 12
1
5
5
10
2036
8
4 12

6
4
10
2037
9
3 12

7
3
10
2038
10 2 12

8
2
10
2039
11 1 12

9
1
10
2040
12
12

10
0
10
2041
12
12

11
0
11
2042
12
12

12
0
12
Source: Navy FY2012 and FY2013 budget submissions.
SSBN(X) Design Features
Although the design of the SSBN(X) has not yet been fully determined, the boat’s design will
reflect the following:
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• The SSBN(X) is to be designed for a 40-year expected service life.27
• Unlike the Ohio-class design, which requires a mid-life nuclear refueling, the
SSBN(X) is to be equipped with a life-of-the-ship nuclear fuel core (a nuclear
fuel core that is sufficient to power the ship for its entire expected service life).28
Although the SSBN(X) will not need a mid-life nuclear refueling, it will likely
still need a mid-life overhaul, like the Ohio-class design, to operate over its full
40-year life.29
• The SSBN(X) is to be equipped with an electric-drive propulsion plant, as
opposed to the mechanical-drive propulsion plant used on other Navy
submarines. The electric-drive plant is expected to be quieter (i.e., stealthier) than
a mechanical-drive plant.30
• The SSBN(X) is to have SLBM launch tubes that are the same size as those on
the Ohio class (i.e., tubes with a diameter of 87 inches and a length sufficient to
accommodate a D-5 SLBM). This will give the SSBN(X) a beam (i.e.,
diameter)31 at least as great as the 42-foot beam of the Ohio-class design, and
possibly a bit larger.
• Instead of 24 SLBM launch tubes, as on the Ohio-class design, the SSBN(X) is to
have 16 SLBM launch tubes.
• Although the SSBN(X) is to have fewer launch tubes than the Ohio-class SSBN,
it is to have a submerged displacement about the same as that of the Ohio-class
design.32
• The Navy states that “owing to the unique demands of strategic relevance,
[SSBN(X)s] must be fitted with the most up-to-date capabilities and stealth to
ensure they are survivable throughout their full 40-year life span.”33

27 U.S. Navy, Report to Congress on Annual Long-Range Plan for Construction of Naval Vessels for FY 2011,
February 2010, p. 24.
28 U.S. Navy, Report to Congress on Annual Long-Range Plan for Construction of Naval Vessels for FY 2011,
February 2010, p. 5. The two most recent classes of SSNs—the Seawolf (SSN-21) and Virginia (SSN-774) class
boats—are built with cores that are expected to be sufficient for their entire 33-year expected service lives.
29 As mentioned earlier (see “Current Ohio-Class SSBNs”), the Ohio-class boats receive a mid-life nuclear refueling
overhaul, called an Engineered Refueling Overhaul (ERO), which includes both a nuclear refueling and overhaul work
on the ship that is not related to the nuclear refueling.
30 Source: Spoken testimony of Admiral Kirkland Donald, Deputy Administrator for Naval Reactors, and Director,
Naval Nuclear Propulsion, National Nuclear Security Administration, at a March 30, 2011, hearing before the Strategic
Forces Subcommittee of the Senate Armed Services Committee, as shown in the transcript of the hearing.
31 Beam is the maximum width of a ship. For Navy submarines, which have cylindrical hulls, beam is the diameter of
the hull.
32 A May 2010 CBO report states that “in a recent briefing to CBO and the Congressional Research Service, the Navy
stated that an SSBN(X) would probably be about the same size and have roughly the same displacement as an Ohio
class submarine, even though it might have only 16 or 20 missile tubes.” (Congressional Budget Office, An Analysis of
the Navy’s Fiscal Year 2011 Shipbuilding Plan
, May 2010, p. 16.)
33 U.S. Navy, Report to Congress on Annual Long-Range Plan for Construction of Naval Vessels for FY 2011,
February 2010, p. 24.
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Program Acquisition Cost
A March 2012 GAO report assessing major DOD weapon acquisition programs states that the
estimated total acquisition cost of the SSBN(X) program is $90,433.5 million (about $90.4
billion) in constant FY2012 dollars, including $11,142.8 million (about $11.1 billion) in research
and development costs and $79,290.7 million (about $79.3 billion) in procurement costs.34
The Navy estimates the procurement cost of the lead ship in the program at $11.7 billion in
constant FY2012 dollars, including $4.5 billion in detailed design and nonrecurring engineering
(DD/NRE) costs for the entire class, and $7.2 billion in hands-on construction costs for the ship
itself.35 (It is a traditional budgeting practice for Navy shipbuilding programs to attach the
DD/NRE costs for a new class of ships to the procurement cost of the lead ship in the class.)
The Navy in February 2010 preliminarily estimated the procurement cost of each Ohio
replacement boat at $6 billion to $7 billion in FY2010 dollars.36 Following the Ohio replacement
program’s December 9, 2010, Milestone A acquisition review meeting (see “Program Origin and
Early Milestones”), DOD issued an Acquisition Decision Memorandum (ADM) that, among
other things, established a target average unit procurement cost for boats 2-12 in the program of
$4.9 billion in constant FY2010 dollars.37 The Navy is working to achieve this target cost, and
estimates that, as of early 2012, its cost-reduction efforts have reduced the estimated average unit
procurement cost of boats 2-12 to $5.6 billion each in constant FY2010 dollars.38 The Navy is
examining potential further measures to bring the cost of boats 2-12 closer to the $4.9 billion
target cost.
The Navy’s FY2013 30-year (FY2013-FY2042) shipbuilding plan, submitted to Congress on
March 28, 2012, expresses costs in constant FY2012 dollars. The plan translates the above target
cost of $4.9 billion in constant FY2010 dollars to $5.3 billion in constant FY2012 dollars, and
states:
This plan assumes the average recurring affordability target for the second through twelfth
SSBN(X)s will be $6.025B [billion] per boat. This cost reflects a concerted DoN
[Department of the Navy] effort to rationalize the boat’s requirements, which cut the
projected cost for the boats by nearly $1 billion. The SSBN(X) Milestone A Acquisition
Decision Memorandum established an even lower affordability target of $5.3B per boat.
While DoN cannot yet state with certainty it will achieve this aggressive target, it is
committed to meeting this goal. Indeed, the DoN PB2012 budget submission [the President’s
budget for FY2012—that is, that Navy’s proposed FY2012 budget] added $150M [million]

34 Government Accountability Office, Defense Acquisitions[:] Assessments of Selected Weapons Programs, GAO-12-
400SP, March 2012, p. 152. The report states on page 161 that cost figures in the report are presented in constant
FY2012 dollars.
35 Department of the Navy, Annual Report to Congress on Long-Range Plan for Construction of Naval Vessels for
FY2013
, April 2012, p. 15.
36 Department of the Navy, Report to Congress on Annual Long-Range Plan for Construction of Naval Vessels for FY
2011
, February 2010, p. 20.
37 Christopher J. Castelli, “DOD: New Nuclear Subs Will Cost $347 Billion To Acquire, Operate,” Inside the Navy,
February 21, 2011; Elaine M. Grossman, “Future U.S. Nuclear-Armed Vessel to Use Attack-Submarine Technology,”
Global Security Newswire, February 24, 2011; Jason Sherman, “Navy Working To Cut $7.7 Billion From Ohio
Replacement Program,” Inside the Navy, February 28, 2011. See also Christopher J. Castelli, “DOD Puts ‘Should-Cost’
Pressure On Major Weapons Programs,” Inside the Navy, May 2, 2011.
38 Source: Navy briefing for CRS and Congressional Budget Office on Navy submarine programs, March 16, 2012.
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in research and development dollars to explore ways to drive down the recurring costs for
follow-on boats.39
The above cost figures do not include costs for refurbishing D-5 SLBMs so as to extend their
service lives to 2042.
Common Missile Compartment (CMC)
Current U.S. and UK plans call for the SSBN(X) and the UK’s replacement SSBN to use a
missile compartment—the middle part of the boat with the SLBM launch tubes—of the same
general design.40 As mentioned earlier (see “U.S.-UK Cooperation on SLBMs”), the UK’s SSBN
is to be armed with eight SLBMs, or half the number to be carried by the SSBN(X). The modular
design of the CMC will accommodate this difference. Since the UK’s first Vanguard-class SSBN
was originally projected to reach the end of its service life in 2024—three years before the first
Ohio-class SSBN is projected to reach the end of its service life—design work on the CMC began
about three years sooner than would have been required to support the Ohio replacement program
alone. This is the principal reason why the FY2010 budget included a substantial amount of
research and development funding for the CMC. The UK is providing some of the funding for the
design of the CMC, including a large portion of the initial funding.
A March 2010 Government Accountability office (GAO) report stated:
According to the Navy, in February 2008, the United States and United Kingdom began a
joint effort to design a common missile compartment. This effort includes the participation
of government officials from both countries, as well as industry officials from Electric Boat
Corporation and BAE Systems. To date, the United Kingdom has provided a larger share of
funding for this effort, totaling just over $200 million in fiscal years 2008 and 2009.41
A March 2011 GAO report stated:
The main focus of OR [Ohio Replacement program] research and development to date has
been the CMC. The United Kingdom has provided $329 million for this effort since fiscal
year 2008. During fiscal years 2009 and 2010, the Navy had allocated about $183 million for
the design and prototyping of the missile compartment.42
A May 2010 press report stated that “the UK has, to date, funded the vast majority of [the CMC’s]
upfront engineering design activity and has established a significant presence in Electric Boat’s
Shaw’s Cove CMC design office in New London, CT.”43

39 Department of the Navy, Annual Report to Congress on Long-Range Plan for Construction of Naval Vessels for
FY2013
, April 2012, pp. 15-16.
40 Statement of Rear Admiral Stephen Johnson, USN, Director, Strategic Systems Programs, Before the Subcommittee
on Strategic Forces of the Senate Armed Services Committee [on] FY2011 Strategic Systems, March 17, 2010, p. 6,
which states: “The OHIO Replacement programs includes the development of a common missile compartment that will
support both the OHIO Class Replacement and the successor to the UK Vanguard Class.”
41 Government Accountability Office, Defense Acquisitions[:] Assessments of Selected Weapon Programs, GAO-10-
388SP, March 2010, p. 152.
42 Government Accountability Office, Defense Acquisitions[:] Assessments of Selected Weapon Programs, GAO-11-
233SP, March 2011, p. 147.
43 Sam LaGrone and Richard Scott, “Deterrent Decisions: US and UK Wait on Next Steps for SSBN Replacements,”
Jane’s Navy International, May 2010, pp. 10-11.
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Under the October 2010 UK defense and security review report (see “U.S.-UK Cooperation on
SLBMs”), the UK now plans to deliver its first SSBN in 2028, or about four years later than
previously planned.
Program Funding
Table 3 shows funding for the Ohio replacement program. The table shows U.S. funding only; it
does not include funding provided by the UK to help pay for the design of the CMC. As can be
seen in the table, Navy’s proposed FY2013 budget requests $564.9 million for continued research
and development work on the program.
Table 3. Ohio Replacement Program Funding
(Millions of then-year dollars, rounded to nearest tenth; totals may not add due to rounding)
FY13
FY14
FY15
FY16
FY17
FY08
FY09
FY10
FY11

FY12
(req.)
(proj.)
(proj.)
(proj.)
(proj.)
Research and development (R&D) funding
PE0101221N/Project
3198
0
9.7
0 0 0 0 0 0 0 0
PE0603561N/Project
3220 0 0
363.4 431.4 781.6 483.1 793.5 861.4
1,037.4 708.9
PE0603561N/Project
9999
4.9
3.2
4.0 0 0 0 0 0 0 0
PE0603570N/Project
3219 0 0
107.5 178.3 285.4 81.8 296.0 360.4 420.8 409.7
Total R&D funding
4.9 12.9 474.9 609.7 1,067.0 564.9 1,089.5 1,221.8 1,458.2 1,118.6
Procurement funding
0
0
0 0 0 0 0 0 0
777.8
TOTAL
all
funding
4.9 12.9 474.9 609.7 1,067.0 564.9 1,089.5 1,221.8 1,458.2 1,896.4
Source: Navy FY2013 budget submission.
Notes: PE means Program Element, that is, a research and development line item. A Program Element may
include several projects. PE0101221N/Project 3198 is Underwater Launch Missile System (ULMS) project
within the PE for Strategic Submarine and Weapons System Support. PE0603561N/Project 3220 is SBSD
project within the PE for Advanced Submarine System Development. PE0603561N/Project 9999 is
Congressional funding additions within the PE for Advanced Submarine System Development.
PE0603570N/Project 3219 is SSBN(X) reactor plant project within the PE for Advanced Nuclear Power
Systems. Procurement funding shown in FY2017 is advance procurement funding for first SSBN(X), which is
scheduled to be procured in FY2021.
Issues for Congress
Potential oversight issues for Congress for the Ohio replacement program include the following:
• the reasons for deferring the start of SSBN(X) procurement by two years, to
FY2021, the cost and operational impact of this decision, and whether it would
be feasible and cost effective to restore the start of procurement to FY2019, as
planned under the FY2012 budget;
• the plan to design the SSBN(X) with 16 SLBM tubes rather than 20;
• the plan to procure 12 SSBN(X)s rather than 13 or 14;
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• the likelihood that the Navy will be able to reduce the average procurement cost
of boats 2-12 in the program to the target figure of $4.9 billion each in FY2010
dollars;
• the accuracy of the Navy’s estimate of the procurement cost of each SSBN(X);
• the prospective affordability of the Ohio replacement program and its potential
impact on funding available for other Navy shipbuilding programs; and
• the question of which shipyard or shipyards will build SSBN(X)s.
Each of these issues is discussed below.
Two-Year Deferral in Start of Procurement
One oversight issue for Congress concerns the reasons for deferring the start of SSBN(X)
procurement by two years, to FY2021, the cost and operational impact of this decision, and
whether it would be feasible and cost effective to restore the start of procurement to FY2019, as
planned under the FY2012 budget.
The two-year deferral reduced funding requirements for the Ohio replacement program within the
FY2013-FY2017 Future Years Defense Program (FYDP); its effect on the program’s total
research and development cost and its total procurement cost over the longer run is less clear. As
shown in Table 2, the two year deferral would reduce the SSBN force to 11 or 10 boats for the
period FY2029-FY2041.
In explaining the two-year deferral, Secretary of Defense Leon Panetta stated on January 26,
2012, that “our review determined that we could achieve better cost control by delaying the next-
generation ballistic missile submarine for two years without harming the survivability of our
nuclear deterrent.”44
In a follow-on briefing that same day, Ashton Carter, the Under Secretary of Defense for
Acquisition, Technology, and Logistics (i.e., DOD’s acquisition executive) stated that the two-
year deferral
is not a strategic decision; this is a managerial decision made partly for budgetary reasons
but mostly because that puts the Ohio class replacement on a more predictable and stable
schedule....
With respect to the schedule [for the program], the schedule as it was [under the FY2012
budget], was an aggressive one, maybe even verging on optimistic. So I—all I'm saying is
this is a safer schedule; we're sure we can make this schedule. So it’s a little more secure; so,
from a managerial point of view, a better place to be.45
At a February 16, 2012, hearing before the House Armed Services Committee on the Department
of the Navy’s proposed FY2013 budget, the following exchange occurred:

44 Source: Transcript of “Major Budget Decisions Briefing from the Pentagon,” January 26, 2012, available online at
http://www.defense.gov/transcripts/transcript.aspx?transcriptid=4962.
45 Source: Transcript of “Major Budget Decisions Briefing at the Pentagon,” January 26, 2012, available online at
http://www.defense.gov/transcripts/transcript.aspx?transcriptid=4963.
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REPRESENTATIVE MIKE MCINTYRE:
Admiral, I wanted to ask you, with the Ohio Class SSBNs scheduled to begin retiring in
2027, how will delaying the Ohio Class replacement program by two years affect the Navy’s
ability to meet STRATCOM’s [U.S. Strategic Command’s] at-sea requirements [for nuclear
deterrent forces]?
ADMIRAL JONATHAN GREENERT, CHIEF OF NAVAL OPERATIONS:
Well, what we'll have to do, we—we owe a certain number of submarines in a certain
number of time. [sic] I can't give you those numbers specifically due to the classification.
But the point here is we have to measure the ability to meet that operational availability
during that timeframe. We’ve done that. We’ve evaluated it. And it is equivalent to that—the
operational availability of SSBNs that we provide today.
Today’s numbers are acceptable to Strategic Command. We'll work with them in the future,
but they look the same.
REPRESENTATIVE MCINTYRE:
And would you say in all candor that the delay in the Ohio Class replacement program is
being done solely for budget reasons?
ADMIRAL GREENERT:
Predominantly budget reasons, but there is an advantage to this, and that is the design feature
will be much more mature when we get to construction.46
Potential oversight questions for Congress include the following:
• What impact does the two-year deferral have on the Ohio replacement program’s
estimated total research and development cost and its estimated total procurement
cost?
• How much risk was there in the program’s development schedule under the
FY2012 budget, and how much mitigation of that risk is achieved by the two-
year deferral?
• What would be the operational impact, particularly in terms of meeting
requirements for at-sea strategic nuclear deterrent forces, of reducing the SSBN
force to 11 or 10 boats for the period FY2029-FY2041?
• What is the potential for restoring the FY2019 procurement date for the first
Ohio replacement boat, and how quickly would a decision need to be made on
this issue before the potential for restoring the FY2019 date would be lost? What
would be the impact on Ohio replacement program funding requirements in
FY2013 and within the FY2013-FY2017 FYDP of a decision to restore the
FY2019 date?

46 Source: Transcript of hearing.
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A Design with 16 vs. 20 SLBM Tubes
Another oversight issue for Congress concerns the plan to design the SSBN(X) with 16 SLBM
tubes rather than 20—one of several decisions made to reduce the estimated average procurement
cost of boats 2 through 12 in the program to $5.6 billion in FY2010 dollars.47 Some observers are
concerned that designing the SSBN(X) with 16 tubes rather than 20 would create a risk that U.S.
strategic nuclear forces might not have enough capability in the 2030s and beyond to fully
perform their deterrent role. These observers note that to comply with the New Start Treaty
limiting strategic nuclear weapons, DOD plans to operate in coming years a force of 14 Trident
SSBNs, each with 20 operable SLBM tubes (four of the 24 tubes on each boat are to be rendered
inoperable), for a total of 240 tubes, whereas the Navy in the Ohio replacement program is
planning a force of 12 SSBNs each with 16 tubes, for a total of 192 tubes, or 20% less than 240.
These observers also cite the uncertainties associated with projecting needs for strategic deterrent
forces out to the year 2080, when the final SSBN(X) is scheduled to leave service. These
observers have asked whether the plan to design the SSBN(X) with 16 tubes rather than 20 is
fully supported within all parts of DOD, including U.S. Strategic Command (STRATCOM).
In response, Navy and other DOD officials have stated that the decision to design the SSBN(X)
with 16 tubes rather than 20 was carefully considered within DOD, and that they believe a boat
with 16 tubes will give U.S. strategic nuclear forces enough capability to fully perform their
deterrent role in the 2030s and beyond.
At a March 1, 2011, hearing before the House Armed Services Committee, Admiral Gary
Roughead, then-Chief of Naval Operations, stated:
I’m very comfortable with where we're going with SSBN-X. The decision and the
recommendation that I made with regard to the number of tubes—launch tubes are consistent
with the new START treaty. They’re consistent with the missions that I see that ship having

47 At a March 30, 2011, hearing before the Strategic Forces subcommittee of the Senate Armed Services Committee,
Admiral Kirkland Donald, Deputy Administrator for Naval Reactors and Director, Naval Nuclear Propulsion, National
Nuclear Security Administration, when asked for examples cost efficiencies that are being pursued in his programs,
stated:
The—the Ohio replacement [program] has been one that we’ve obviously been focused on here
for—for several years now. But in the name of the efficiencies, and one of the issues as we work
through the Defense Department’s acquisition process, we were the first program through that new
process that Dr. [Aston] Carter [the DOD acquisition executive] headed up.
But we were challenged to—to drive the cost of that ship down, and as far as our part was
concerned, one of the key decisions that was made that—that helped us in that regard was a
decision to go from 20 missile tubes to 16 missile tubes, because what that allowed us to do was to
down rate the—the propulsion power that was needed, so obviously, it’s a – it’s a small[er] the
reactor that you would need.
But what it also allowed us to do was to go back [to the use of existing components]. The size [of
the ship] fell into the envelope where we could go back and use components that we had already
designed for the Virginia class [attack submarines] and bring those into this design, not have to do
it over again, but several of the mechanical components, to use those over again.
And it enabled us to drive the cost of that propulsion plant down and rely on proven technology
that’s—pumps and valves and things like that don’t change like electronics do.
So we’re pretty comfortable putting that in ship that’ll be around ‘til 2080. But we were allowed to
do that.
(Source: Transcript of hearing.)
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to perform. And even though it may be characterized as a cost cutting measure, I believe it
sizes the ship for the missions it will perform.48
At a March 2, 2011, hearing before the Strategic Forces subcommittee of the House Armed
Services Committee, the following exchange occurred:
REPRESENTATIVE TURNER:
General Kehler, thank you so much for your continued thoughts and of course your
leadership. One item that we had a discussion on was the triad, of looking to—of the Navy
and the tube reductions of 20 to 16, as contained in other hearings on the Hill today. I would
like your thoughts on the reduction of the tubes and what you see driving that, how you see it
affecting our strategic posture and any other thoughts you have on that?
AIR FORCE GENERAL C. ROBERT KEHLER, COMMANDER, U.S. STRATEGIC
COMMAND
Thank you, Mr. Chairman. Well, first of all, sir, let me say that the—in my mind anyway, the
discussion of Trident and Ohio-class replacement is really a discussion in the context of the
need to modernize the entire triad. And so, first of all, I think that it’s important for us to
recognize that that is one piece, an important piece, but a piece of the decision process that
we need to go through.
Second, the issue of the number of tubes is not a simple black-and-white answer. So let me
just comment here for a minute.
First of all, the issue in my mind is the overall number of tubes we wind up with at the end,
not so much as the number of tubes per submarine.
Second, the issue is, of course, we have flexibility and options with how many warheads per
missile per tube, so that’s another consideration that enters into this mixture.
Another consideration that is important to me is the overall number of boats and the
operational flexibility that we have with the overall number of boats, given that some
number will need to be in maintenance, some number will need to be in training, et cetera.
And so those and many other factors—to include a little bit of foresight here, in looking
ahead to 20 years from now in antisubmarine warfare environment that the Navy will have to
operate in, all of those bear on the ultimate sideways shape configuration of a follow-on to
the Ohio.
At this point, Mr. Chairman, I am not overly troubled by going to 16 tubes. As I look at this,
given that we have that kind of flexibility that I just laid out; given that this is an element of
the triad and given that we have some decision space here as we go forward to decide on the
ultimate number of submarines, nothing troubles me operationally here to the extent that I
would oppose a submarine with 16 tubes.
I understand the reasons for wanting to have 20. I understand the arguments that were made
ahead of me. But as I sit here today, given the totality of the discussion, I am—as I said, I am

48 Source: Transcript of hearing.
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not overly troubled by 16. Now, I don’t know that the gavel has been pounded on the other
side of the river yet with a final decision, but at this point, I am not overly troubled by 16.49
At an April 5, 2011, hearing before the Strategic Forces subcommittee of the House Armed
Services Committee, the following exchange occurred:
REPRESENTATIVE LARSEN:
General Benedict, we have had this discussion, not you and I, I am sorry. But the
subcommittee has had a discussion in the past with regards to the Ohio-class replacement
program.
The new START, though, when it was negotiated, assumed a reduction from 24 missile
tubes per hole to, I think, a maximum a maximum of 20.
The current configuration [for the SSBN(X)], as I understand it, would move from 24 to 16.
Can you discuss, for the subcommittee here, the Navy’s rationale for that? For moving from
24 to 16 as opposed to the max of 20?
NAVY REAR ADMIRAL TERRY BENEDICT, DIRECTOR, STRATEGIC SYSTEMS
PROGRAMS (SSP):
Sir, as part—excuse me, as part of the work-up for the milestone A [review for the SSBN(X)
program] with Dr. Carter in OSD, SSP supported the extensive analysis at both the OSD
level as well as STRATCOM’s analysis.
Throughout that process, we provided, from the SWS [strategic weapon system] capability,
our perspective. Ultimately that was rolled up into both STRATCOM and OSD and senior
Navy leadership and in previous testimony, the secretary of the Navy, the CNO, and General
Chilton have all expressed their confidence that the mission of the future, given their
perspectives, is they see the environment today can be met with 16.
And so, as the acquisition and the SWS provider, we are prepared to support that decision by
leadership, sir.
REPRESENTATIVE LARSEN:
Yes.
And your analysis supports—did your analysis that fed into this, did you look at specific
numbers then?
REARD ADMIRAL BENEDICT:
Sir, we looked at the ability of the system, again, SSP does not look at specific targets with...
REPRESENTATIVE LARSEN:
Right. Yes, yes, yes.

49 Source: Transcript of hearing.
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REAR ADMIRAL BENEDICT:
Our input was the capability of the missile, the number of re-entry bodies and the throw
weight that we can provide against those targets and based on that analysis, the leadership
decision was 16, sir.50
At an April 6, 2011, hearing before the Strategic Forces subcommittee of the Senate Armed
Services Committee, the following exchange occurred:
SENATOR SESSIONS:
Admiral Benedict, according to recent press reports, the Navy rejected the recommendations
of Strategic Command to design the next generation of ballistic missile submarines with 20
missile tubes instead of opting for only 16 per boat.
What is the basis for the Navy’s decision of 16? And I'm sure cost is a factor. In what ways
will that decision impact the overall nuclear force structure associated with the command?
NAVY REAR ADMIRAL TERRY BENEDICT, DIRECTOR, STRATEGIC SYSTEMS
PROGRAMS (SSP):
Yes, sir. SSP supported the Navy analysis, STRATCOM’s analysis, as well as the OSD
analysis, as we proceeded forward and towards the Milestone A decision [on the SSBN(X)
program] that Dr. Carter conducted.
Based on our input, which was the technical input as the—as the director of SSP, other
factors were considered, as you stated. Cost was one of them. But as the secretary, as the
CNO, and I think as General Kehler submitted in their testimony, that given the threats that
we see today, given the mission that we see today, given the upload capability of the D-5,
and given the environment as they saw today, all three of those leaders were comfortable
with the decision to proceed forward with 16 tubes, sir.
SENATOR SESSIONS:
And is that represent your judgment? To what extent were you involved—were you involved
in that?
REAR ADMIRAL BENEDICT:
Sir, we were involved from technical aspects in terms of the capability of the missile itself,
what we can throw, our range, our capability. And based on what we understand the
capability of the D-5 today, which will be the baseline missile for the Ohio Replacement
Program, as the director of SSP I’m comfortable with that decision.51
Section 242 of the FY2012 National Defense Authorization Act (H.R. 1540/P.L. 112-81 of
December 31, 2011) requires DOD to submit a report on the Ohio replacement program that
includes, among other things, an assessment of various combinations of boat quantities and
numbers of SLBM launch tubes per boat. The text of the section is as follows:

50 Source: Transcript of hearing.
51 Source: Transcript of hearing.
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SEC. 242. REPORT AND COST ASSESSMENT OF OPTIONS FOR OHIO-CLASS
REPLACEMENT BALLISTIC MISSILE SUBMARINE.
(a) Report Required- Not later than 180 days after the date of the enactment of this Act, the
Secretary of the Navy and the Commander of the United States Strategic Command shall
jointly submit to the congressional defense committees a report on each of the options
described in subsection (b) to replace the Ohio-class ballistic submarine program. The report
shall include the following:
(1) An assessment of the procurement cost and total life-cycle costs associated with each
option.
(2) An assessment of the ability for each option to meet—
(A) the at-sea requirements of the Commander that are in place as of the date of the
enactment of this Act; and
(B) any expected changes in such requirements.
(3) An assessment of the ability for each option to meet—
(A) the nuclear employment and planning guidance in place as of the date of the enactment
of this Act; and
(B) any expected changes in such guidance.
(4) A description of the postulated threat and strategic environment used to inform the
selection of a final option and how each option provides flexibility for responding to changes
in the threat and strategic environment.
(b) Options Considered- The options described in this subsection to replace the Ohio-class
ballistic submarine program are as follows:
(1) A fleet of 12 submarines with 16 missile tubes each.
(2) A fleet of 10 submarines with 20 missile tubes each.
(3) A fleet of 10 submarines with 16 missile tubes each.
(4) A fleet of eight submarines with 20 missile tubes each.
(5) Any other options the Secretary and the Commander consider appropriate.
(c) Form- The report required under subsection (a) shall be submitted in unclassified form,
but may include a classified annex.
Plan to Procure 12 Boats Rather Than 13 or 14
Another oversight issue for Congress concerns the plan to procure 12 SSBN(X)s rather than 13 or
14. Navy and other DOD officials have suggested that a force of 12 SSBN(X)s will be sufficient
to replace the current force of 14 Ohio-class SSBNs because SSBN(X)s are to be equipped with
life-of-the-ship nuclear fuel cores and consequently will not need a mid-life nuclear refueling.
The Ohio-class boats, in contrast, require a mid-life refueling, and during the middle years of the
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Ohio class life cycle, two Ohio-class boats are unavailable for service at any given point because
they are in the midst of lengthy mid-life refueling overhauls, leaving 12 Ohio-class boats
available to support the needed number of boats continuously at sea on deterrent patrols.
Skeptics might argue that although a life-of-the-ship core will eliminate the need for a mid-life
refueling for the SSBN(X)s, the Navy has not stated that it has been able to eliminate the need for
a mid-life overhaul for the SSBN(X)s to repair and refurbish other parts of the boats, and that
consequently, during the middle years of the SSBN(X) class life cycle, one or two SSBN(X)s
might be unavailable for service at any given point because they are in the midst of lengthy mid-
life non-refueling overhauls. If so, this would leave 10 or 11 SSBN(X)s available for deterrent
patrols—potentially not enough to support the needed number of boats that are to be continuously
at sea on deterrent patrols. As a consequence, skeptics might argue, policymakers might face a
choice of either procuring 13 or 14 SSBN(X)s rather than 12, or reducing requirements for at-sea
deterrent patrols during the middle years of the SSBN(X) class life cycle.
Likelihood That Navy Will Reach $4.9 Billion Target Cost
Another oversight issue for Congress is the likelihood that the Navy will be able to achieve
DOD’s goal of reducing the average unit procurement cost of boats 2-12 in the program to $4.9
billion each in FY2010 dollars. As mentioned earlier, as of early 2011, the Navy estimated that its
cost-reduction efforts had reduced the average unit procurement cost of boats 2-12 to $5.6 billion
each in FY2010 dollars, leaving another $700 million or so in cost reduction to reach the $4.9
billion target cost.
Measures that the Navy has taken to reduce the average unit procurement cost of boats 2-12 to
about $5.6 billion include, among other things, reducing the number of SLBM launch tubes from
20 to 16, and making the launch tubes no larger in diameter than those on the Ohio-class design.52
The Navy is examining potential further measures to bring the cost of boats 2-12 closer to the
$4.9 billion target cost. Potential oversight questions include the following:
• How did DOD settle on the figure of $4.9 billion in FY2010 dollars as the target
average unit procurement cost for boats 2-12 in the program? On what analysis
was the selection of this figure based?
• How difficult will it be for the Navy to reach this target cost? What options is the
Navy examining to achieve the additional $700 million or so in unit procurement
cost savings needed to reach it?
• Would a boat costing $4.9 billion have sufficient capability to perform its
intended missions?
• What, if anything, does DOD plan to do if the Navy is unable to achieve the $4.9
billion target cost figure? If $4.9 billion is the target figure, is there a
corresponding “ceiling” figure higher than $4.9 billion, above which DOD would
not permit the Ohio replacement program to proceed? If no such figure exists,
should DOD establish one?

52 The Navy had examined the option of equipping the SSBN(X) with tubes greater in diameter than those on the Ohio-
class design, so as to support an option of arming the boats many years from now with a new SLBM that is larger in
diameter than the D-5 SLBM.
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Accuracy of Navy’s Estimated Unit Procurement Cost
Another oversight issue for Congress concerns the accuracy of the Navy’s estimate of the
procurement cost of each SSBN(X). The accuracy of the Navy’s estimate is a key consideration in
assessing the potential affordability of the Ohio replacement program, including its potential
impact on the Navy’s ability to procure other kinds of ships during the years of SSBN(X)
procurement. Some of the Navy’s ship designs in recent years, such as the Gerald R. Ford (CVN-
78) class aircraft carrier,53 the San Antonio (LPD-17) class amphibious ship54 and the Littoral
Combat Ship (LCS),55 have proven to be substantially more expensive to build than the Navy
originally estimated.
The accuracy of the Navy’s estimate can be assessed in part by examining known procurement
costs for other recent Navy submarines—including Virginia (SSN-774) class attack submarines
(which are currently being procured), Seawolf (SSN-21) class attack submarines (which were
procured prior to the Virginia class), and Ohio (SSBN-726) class ballistic missile submarines—
and then adjusting these costs for the Ohio replacement program so as to account for factors such
as differences in ship displacement and design features, changes over time in submarine
technologies (which can either increase or reduce a ship’s procurement cost, depending on the
exact technologies in question), advances in design for producibility (i.e., design features that are
intended to make ships easier to build), advances in shipyard production processes (such as
modular construction), and changes in submarine production economies of scale (i.e., changes in
the total number of attack submarines and ballistic missile submarines under construction at any
one time).
The Navy’s estimated unit procurement cost for the program at any given point will reflect
assumptions on, among other things, which shipyard or shipyards will build the boats, and how
much Virginia-class construction will be taking place in the years when SSBN(X)s are being
built. Changing the Navy’s assumption about which shipyard or shipyards will build SSBN(X)s
could reduce or increase the Navy’s estimated unit procurement cost for the boats. If shipbuilding
affordability pressures result in Virginia-class boats being removed from the 30-year shipbuilding
plan during the years of SSBN(X) procurement, the resulting reduction in submarine production
economies of scale could make SSBN(X)s more expensive to build than the Navy estimates.
A June 2011 Congressional Budget Office (CBO) report on the cost of the Navy’s shipbuilding
programs stated (with cost figures expressed in constant FY2011 dollars):
The design, cost, and capabilities of the SSBN(X), the submarine slated to replace the Ohio
class, are among the most significant uncertainties in the Navy’s and CBO’s analyses of
future shipbuilding. The Navy’s [FY]2007 and [FY]2008 shipbuilding plans included an
assumption that the first SSBN(X) would cost $4.6 billion (in [FY]2011 dollars) and that
subsequent ships in the class would cost about $3.5 billion apiece. The [FY]2011 plan, in
contrast, estimated the costs of the SSBN(X) class at an average of $7.4 billion. That figure

53 For more on the CVN-78 program, see CRS Report RS20643, Navy Ford (CVN-78) Class Aircraft Carrier Program:
Background and Issues for Congress
, by Ronald O'Rourke.
54 For more on the LPD-17 program, see CRS Report RL34476, Navy LPD-17 Amphibious Ship Procurement:
Background, Issues, and Options for Congress
, by Ronald O'Rourke.
55 For more on the LCS program, see CRS Report RL33741, Navy Littoral Combat Ship (LCS) Program: Background,
Issues, and Options for Congress
, by Ronald O'Rourke.
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highlights the great expense of replacing current ballistic missile submarines and the effect
that effort could have on other shipbuilding programs or programs beyond shipbuilding....
Over the past year, the Navy has sought to refine its SSBN(X) design, particularly to reduce
the cost of the ships. The Navy’s cost estimate in the [FY]2011 plan was based on a
submarine similar in size to the Ohio class and on the cost to build Ohio class submarines in
today’s industry conditions and with today’s technology. The Navy states that it was able to
reduce the estimated cost of the SSBN(X) between [the FY]2011 [plan] and [the FY]2012
[plan] by making the following changes:
• Using a less expensive basic design (with greater specificity, eliminating some costs in
last year’s estimate that were associated with uncertainty);
• Reducing the number of missile tubes from 20 to 16;
• Reducing the diameter of the missile tubes from 97 inches to 87 inches;
• Reducing the capability of the torpedo room, the capability of various arrays, and the
sail mast; and
• Increasing the use of Virginia class components.
Despite those changes, the Navy’s estimate of the cost of the lead SSBN(X) increased
between [the FY]2011 [plan] and [the FY]2012 [plan], from $9.0 billion to $11.6 billion.
However, the Navy’s estimate of the average cost of follow-on ships decreased from $6.9
billion to $5.8 billion, and the Navy has stated an objective of reducing that cost to $5.0
billion. All told, the Navy estimates that building 12 of the submarines would cost $75
billion, or an average of $6.1 billion each.
In comparison, CBO estimates that the lead SSBN(X) will cost about $13.3 billion on the
basis of its scheduled purchase in [FY]2019. Estimating the cost of the first submarine of a
class is particularly difficult because it is not clear how much the Navy will need to spend on
nonrecurring engineering and detail design. The Navy spent about $2 billion on those items
for the lead Virginia class attack submarine. The historical track record for the lead ship of
new classes of submarines in the 1970s and 1980s indicates that there is little difference on a
per-ton basis between a lead attack submarine (SSN) and a lead SSBN.... In addition, CBO
assumed that the cost of nonrecurring items is proportional to the weight of submarines.
Therefore, CBO estimated that nonrecurring items would cost about $5 billion for the lead
SSBN(X), which will be approximately the size of an Ohio class submarine and thus about
2½ times the size of a Virginia class submarine. The increase in the Navy’s estimate for the
lead SSBN(X) reflects the fact that the service now also estimates that nonrecurring costs
will be about $5 billion. Under the [FY]2011 plan, the Navy appeared to assume that those
costs would be about $2 billion.
Overall, 12 SSBN(X)s would cost a total of about $86 billion in CBO’s estimation, or an
average of $7.2 billion each. That average includes the $13.3 billion estimated cost of the
lead ship and a $6.5 billion average estimated cost for the 2nd through 12th ships. Research
and development would cost another $10 billion to $15 billion, for a total program cost of
$96 billion to $101 billion. CBO’s estimate under the [FY]2011 plan was an average of $8.3
billion per submarine. The decline in CBO’s estimate stems from two factors: the changes in
the Navy’s design and the narrowing of the projected gap between inflation in the economy
overall and inflation in the shipbuilding industry. The change in design accounts for about 60
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percent of the reduction in cost, and the change in the projected inflation differential
accounts for the remainder.56
Program Affordability and Impact on Other Navy
Shipbuilding Programs

Another oversight issue for Congress concerns the prospective affordability of the Ohio
replacement program and its potential impact on funding available for other Navy shipbuilding
programs. Even with the Navy’s current effort to reduce the estimated unit procurement cost of
the SSBN(X) toward DOD’s target figure, observers are concerned that the Ohio replacement
program could crowd out funding for other Navy shipbuilding programs in the 2020s and early
2030s. The Navy’s March 2012 report on its FY2013 30-year (FY2013-FY2042) shipbuilding
plan acknowledges the issue, stating:
This high cost for replacing the nation’s secure, second-strike nuclear deterrent force will
have a disproportionate impact on DoN [Department of the Navy] shipbuilding plans and
associated costs throughout the mid-term planning period [FY2023-FY2032] and into the
early years of the far-term planning period [FY2033-FY2042]....
Obviously, spending $5-6B [billion] per year for a single ship over a 10 to 12-year period
will strain the DoN’s yearly shipbuilding accounts, since the Department must continue to
build other ships through this period to maintain the overall battle force inventory at about
300 ships.57
A March 2012 GAO report assessing major DOD weapon acquisition programs states:
Affordability has been an early focus of the [Ohio Replacement (OR)] program. Due to its
high cost, Navy officials have stated the OR program could stress Navy shipbuilding budgets
in the 2020 to 2030 time frame. Program officials stated that they are trying to reduce the
average procurement unit cost from an estimated $5.6 billion to $4.9 billion (in fiscal year
2010 dollars). The program is considering procuring OR [boats] as part of a block buy with
the Virginia-class [attack] submarine to reduce procurement costs by an estimated 13
percent, and is lining up its production schedule to match that program in case this option is
pursued. The Navy also decided to use 16 87-inch diameter tubes per submarine, which,
while fewer than the Ohio-class, is expected to reduce costs while meeting the anticipated
future strategic requirement based on arms reduction trends. According to the [OR] program
[office], a four-way competition is ongoing to develop prototype tubes and efficient
manufacturing processes for outfitting these tubes into the hull, including the use of a “quad
pack” configuration that could reduce cost and construction time....
[OR] Program officials said they plan to have the three-dimensional design [for the boat]
complete prior to starting construction on the lead ship to minimize rework, delays, and the
potential for cost growth.58

56 Congressional Budget Office, An Analysis of the Navy’s Fiscal Year 2012 Shipbuilding Plan, June 2011, pp. 14, 16-
17.
57 Department of the Navy, Annual Report to Congress on Long-Range Plan for Construction of Naval Vessels for
FY2013
, April 2012, pp. 15-16.
58 Government Accountability Office, Defense Acquisitions[:] Assessments of Selected Weapons Programs, GAO-12-
400SP, March 2012, p. 152.
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In addition to making further changes and refinements in the design of the SSBN(X), options for
reducing the cost of the Ohio replacement program and the program’s potential impact on funding
available for other Navy shipbuilding programs include the following:
• reducing the planned number of SSBN(X)s;
• altering the schedule for procuring the SSBN(X)s so as to create additional
opportunities for using incremental funding for procuring the ships; and
• funding the procurement of SSBN(X)’s outside the Navy’s shipbuilding budget.
Each of these options is discussed below.
Reducing the Planned Number of SSBN(X)s
Some observers over the years have advocated or presented options for an SSBN force of fewer
than 12 SSBNs. CBO, for example, has at times in the past presented options for reducing the
SSBN force to 10 boats as a cost-reduction measure.59 A June 2010 report by a group known as
the Sustainable Defense Task Force recommends reducing the SSBN force to seven boats;60 a
September 2010 report from the Cato Institute recommends reducing the SSBN force to six
boats.61
Views on whether a force of fewer than 12 SSBN(X)s would be adequate could depend on,
among other things, assessments of strategic nuclear threats to the United States and the role of
SSBNs in deterring such threats as a part of overall U.S. strategic nuclear forces, as influenced by
the terms of strategic nuclear arms control agreements.62 Reducing the number of SSBNs below
12 could also raise a question as to whether the force should continue to be homeported at both
Bangor, WA, and Kings Bay, GA, or consolidated at a single location.
U.S. strategic nuclear deterrence plans require a certain number of strategic nuclear warheads to
be available for use on a day-to-day basis. After taking into account warheads on the other two
legs of the strategic nuclear triad, as well as the number of warheads on an SSBN’s SLBMs, this
translates into a requirement for a certain number of SSBNs to be on station (i.e., within range of
expected targets) in Pacific and Atlantic waters at any given moment. The SSBN force is sized to
support this requirement. Given the time needed for at-sea training operations, restocking SSBNs
with food and other consumables, performing maintenance and repair work on the SSBNs, and
transiting to and from deterrent patrol areas, only a fraction of the SSBN force can be on patrol at
any given moment. The Navy’s position is that the requirement for having a certain number of
SSBNs on patrol at any given moment translates into a need for a force of 14 Ohio-class boats,
and that this requirement can be met in the future by a force of 12 SSBN(X)s.

59 See, for example, Congressional Budget Office, Rethinking the Trident Force, July 1993, 78 pp.; and Congressional
Budget Office, Budget Options, March 2000, p. 62.
60 Debt, Deficits, and Defense, A Way Forward[:] Report of the Sustainable Defense Task Force, June 11, 2010, pp.
19-20.
61 Benjamin H. Friedman and Christopher Preble, Budgetary Savings from Military Restraint, Washington, Cato
Institute, September 23, 2010 (Policy Analysis No. 667), pp. 8.
62 For further discussion, see CRS Report RL33640, U.S. Strategic Nuclear Forces: Background, Developments, and
Issues
, by Amy F. Woolf.
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Altering Procurement Schedule to Make More Use of Incremental Funding
Another option for managing the potential impact of the Ohio replacement program on other
Navy shipbuilding programs would be to stretch out the schedule for procuring SSBN(X)s and
make greater use of split funding (i.e., two-year incremental funding) in procuring them.63 This
option would not reduce the total procurement cost of the Ohio replacement program—to the
contrary, it might increase the program’s total procurement cost somewhat by reducing
production learning curve benefits in the Ohio replacement program.64 This option could,
however, reduce the impact of the Ohio replacement program on the amount of funding available
for the procurement of other Navy ships in certain individual years. This might reduce the amount
of disruption that the Ohio replacement program causes to other shipbuilding programs in those
years, which in turn might avoid certain disruption-induced cost increases for those other
programs. The annual funding requirements for the Ohio replacement program might be further
spread out by funding some of the SSBN(X)s with three- or four-year incremental funding.65
Table 4 shows the Navy’s currently planned schedule for procuring 12 SSBN(X)s and a notional
alternative schedule that would start two years earlier and end two years later than the Navy’s
currently planned schedule. Although the initial ship in the alternative schedule would be
procured in FY2019, it could be executed as it if were funded in FY2021. Subsequent ships in the
alternative schedule that are funded earlier than they would be under the Navy’s currently planned
schedule could also be executed as if they were funded in the year called for under the Navy’s
schedule. Congress in the past has funded the procurement of ships whose construction was
executed as if they had been procured in later fiscal years.66 The ability to stretch the end of the
procurement schedule by two years, to FY2035, could depend on the Navy’s ability to carefully
husband the use of the nuclear fuel cores on the last two Ohio-class SSBNs, so as to extend the
service lives of these two ships by one or two years. Alternatively, Congress could grant the Navy
the authority to begin construction on the 11th boat a year before its nominal year of procurement,
and the 12th boat two years prior to its nominal year of procurement.

63 Under split funding, a boat’s procurement cost is divided into two parts, or increments. The first increment would be
provided in the fiscal year that the boat is procured, and the second would be provided the following fiscal year.
64 Procuring one SSBN(X) every two years rather than at the Navy’s planned rate of one per year could result in a loss
of learning at the shipyard in moving from production of one SSBN to the next.
65 The Navy, with congressional support, currently uses split funding to procure large-deck amphibious assault ships
(i.e., LHAs). The Navy currently is permitted by Congress to use four-year incremental funding for procuring the first
three Ford (CVN-78) class carriers (i.e., CVN-78, CVN-79, and CVN-80); the authority was granted in §121 of the
FY2007 defense authorization act [H.R. 5122/P.L. 109-364 of October 17, 2006]).
66 Congress funded the procurement of two aircraft carriers (CVNs 72 and 73) in FY1983, and another two (CVNs 74
and 75) in FY1988. Although CVN-73 was funded in FY1983, it was built on a schedule consistent with a carrier
funded in FY1985; although CVN-75 was funded in FY1988, it was built on a schedule consistent with a carrier funded
in FY1990 or FY1991.
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Table 4. Navy SSBN(X) Procurement Schedule and a Notional Alternative Schedule
Boat might be
Boat might be
particularly suitable
Notional
particularly suitable
Fiscal
Navy’s
for 2-, 3-, or 4-year
alternative
for 2-, 3-, or 4-year
year
Schedule
incremental funding
schedule
incremental funding
2019

1
X
2020



2021 1
X
1
X
2022



2023

1
X
2024 1
X


2025

1
X
2026 1



2027 1

1

2028 1

1

2029 1

1

2030 1

1

2031 1

1
X
2032 1



2033 1
X
1
X
2034 1
X


2035 1
X
1
X
2036



2037

1
X
Total 12

12

Source: Navy’s current plan is taken from the Navy’s Fy2013 budget submission. Potential alternative plan
prepared by CRS.
Notes: Notional alternative schedule could depend on Navy’s ability to carefully husband the use of the nuclear
fuel cores on the last two Ohio-class SSBNs, so as to extend the service lives of these two ships by one or two
years. Alternatively, Congress could grant the Navy the authority to begin construction on the 11th boat a year
before its nominal year of procurement, and the 12th boat two years prior to its nominal year of procurement.
Under Navy’s schedule, the boat to be procured in FY2033 might be particularly suitable for 4-year incremental
funding, and boat to be procured in FY2034 might be particularly suitable for 3- or 4-year incremental funding.
A December 19, 2011, press report states:
The Office of Management and Budget’s Nov. 29[, 2011,] passback memorandum to the
Defense Department [regarding the FY2013 DOD budget] warns that the effort to build
replacements for aging Ohio-class submarines is not exempt from rules requiring each new
vessel to be fully funded in a single year....
Spreading the cost of a big-ticket ship over more than one year—an approach referred to as
“incremental funding”—is only allowed when a program meets three criteria, OMB writes....
“OMB does not anticipate that the OHIO Replacement program will meet these criteria,” the
passback memo states.67

67 Christopher J. Castelli, “White House Opposes Incremental Funding For Multibillion-Dollar Sub,” Inside the Navy,
December 19, 2011.
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Procuring SSBN(X)s Outside Navy’s Shipbuilding Budget
Some observers have suggested funding the procurement of SSBN(X)s outside the Navy’s
shipbuilding budget, so as to preserve Navy shipbuilding funds for other Navy shipbuilding
programs. Among those who have raised this idea was Admiral Gary Roughead, the Chief of
Naval Operations (CNO) until September 2011.68 There would be some precedent for such an
arrangement:
• DOD sealift ships and Navy auxiliary ships are funded in the National Defense
Sealift Fund (NDSF), a part of DOD’s budget that is outside the Shipbuilding and
Conversion, Navy (SCN) appropriation account, and also outside the
procurement title of the DOD appropriations act.
• Most spending for ballistic missile defense (BMD) programs (including
procurement-like activities) is funded through the Defense-Wide research and
development account rather than through the research and development and
procurement accounts of the individual military services.
A rationale for funding DOD sealift ships in the NDSF is that DOD sealift ships perform a
transportation mission that primarily benefits services other than the Navy, and therefore should
not be forced to compete for funding in a Navy budget account that funds the procurement of
ships central to the Navy’s own missions. A rationale for funding BMD programs together in the
Defense-Wide research and development account is that this makes potential tradeoffs in
spending among various BMD programs more visible and thereby helps to optimize the use of
BMD funding.
As a reference tool for better understanding DOD spending, DOD includes in its annual budget
submission a presentation of the DOD budget reorganized into 11 program areas, of which one is
strategic forces. The FY2011 budget submission, for example, shows that the strategic forces
program area received about $12.6 billion in funding in FY2010, and that about $11.1 billion is
requested for the program area for FY2011.69
Supporters of funding the procurement of SSBN(X)s outside the Navy’s shipbuilding budget
might argue that this could help protect funding for other Navy shipbuilding programs. They
could also argue that creating a new budget account for strategic nuclear forces of all kinds could
help DOD better view potential tradeoffs in spending for various strategic nuclear forces
programs and thereby help DOD better optimize the use of strategic forces funding.
Skeptics of funding the procurement of SSBN(X)s outside the Navy’s shipbuilding budget could
argue that it might do little to protect funding for other Navy shipbuilding programs, because if
DOD were to move the SSBN(X)s out of the Navy’s shipbuilding budget, DOD might also
remove the funding that was there for the SSBN(X)s. They might also argue that shifting

68 See, for example, Jason Sherman, “Roughead Wants SSBN(X) Program Funding Outside Shipbuilding Budget,”
Inside the Navy, February 14, 2011.
69 Department of Defense, National Defense Budget Estimates For FY 2011, March 2010, Table 6-4, “Department of
Defense TOA by Program,” page 79. See also Table 6-5 on page 80, which presents the same data in constant FY2011
dollars. The other 10 program areas in addition to strategic forces are general purpose forces; C3, intelligence and
space; mobility forces; guard and reserve forces; research and development; central supply and management; training,
medical and other; administration and associated; support of other nations; and special operations forces. (A 12th
category—undistributed—shows relatively small amounts of funding.)
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SSBN(X)s out of the Navy’s shipbuilding budget would make it harder to track and maintain
oversight over Navy shipbuilding activities, and that creating a new budget account for strategic
nuclear forces of all kinds could endanger the Ohio replacement program by making it more
visible to those who might support reduced spending on nuclear-weapon-related programs.
A March 11, 2010, press report stated: “The massive cost of replacing the Navy’s nuclear ballistic
missile submarines will be shouldered in the coming years by diverting funds from other naval
and Pentagon programs and perhaps by boosting the defense budget, but the program should not
get its own special funding stream, according to Deputy Defense Secretary William Lynn.”70
A March 28, 2011, press report stated that SSBN(X)s
will be funded within the shipbuilding account, not in a separate account as the sea service’s
top admiral has advocated, according to Pentagon acquisition chief Ashton Carter.
“It’s been in the shipbuilding account and our plan is it’s going to stay in the shipbuilding
account,” Carter told Inside the Pentagon March 21 in a brief interview. “We just have to
make it so that it is digestible for the Navy in the context of other shipbuilding needs. And
we want the same things they want. We can manage through that path for decades.”71
At an April 13, 2011, hearing on DOD acquisition before the Defense subcommittee of the House
Appropriations Committee, the following exchange took place:
REPRESNTATIVE CRENSHAW: Dr. Carter, I want to ask about Abrams tanks, kind of the
modification of the start and stop. But – but real quick, we – we talked about the ballistic
missiles submarines and was encouraged to hear that we’ve got a handle on the cost. We
spent a lot of money on the development. I think we start construction in 2019.
But even – even if we – you end up with a boat that costs $5 billion and we have 12 of those,
that’s $60 billion. And we talked about the difficult choices that’s going to present in terms
of surface ships, I just want to pose the question, if – is it under consideration to consider
those submarines like a national asset?
For instance, we – we fund the ballistic missile defense outside of the budget of the services
because it’s truly a national asset. And I wondered, it’s a lot of money. And – and it’s – those
– those submarines are one-third of our nuclear triad. Is consideration being given to
consider those being funded as a national asset outside the ship-building program which
would take away some of the difficult choice in terms of the service ships versus the
submarines?
ASHTON CARTER, UNDER SCRETARY OF DEFENSE FOR ACQUISITON,
TECHNOLOLGY, AND LOGISTICS: The – the best I can do is cite something that
Secretary Gates said which is that he had considered that, then was not attracted to that idea.
I’m paraphrasing, but I think their basic reason was, “Look, the money is going to show up
somewhere anyway. And we’re not going to hide $60 billion by re-labeling. So, let’s keep it
in a way we’ve – we’ve done it.”

70 Christopher J. Castelli, “Lynn: Navy, DOD To Shoulder SSBN(X) Cost Without Separate Fund,” Inside the
Pentagon
, March 11, 2010.
71 Christopher J. Castelli, “Carter: Multibillion-Dollar Nuclear Subs Will Stay In Shipbuilding Account,” Inside the
Navy
, March 28, 2011.
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And I think it was the gist of the secretary’s response. So – so, Secretary Gates had
considered it and was not attracted to the idea. Although he – he thoroughly recognizes the
premise of your question which is there’s a lot of money. And as a practical matter it will
compete with those things in the defense budget.
And that’s one of the reasons why we’ve got to get the cost down.72
An August 1, 2011, press report stated:
[Admiral Jonathan Greenert, who became the Chief of Naval Operations in September 2011,
told] Sen. Jack Reed (D-R.I.) discussions are still underway in the Pentagon to have the
defense-wide budget share with the Navy some of the costs of the Ohio-class SSBN(X) next-
generation ballistic missile submarine, which is projected to dominate the Navy’s
shipbuilding budget starting at the end of this decade. “If confirmed, I intend to try to
continue those discussions,” Greenert [said] during his confirmation hearing. “In the [2020s],
we have a phenomenon, an unfortunate one, where many of the ships built in the [1980s] will
now come due for retirement. That’s right when the Ohio replacement comes in. So we’ll
work very hard to make sure we got the requirements right. We’ll work very hard with the
acquisition community to drive that cost down but we may even so need some assistance, I
believe, in the shipbuilding budget if we’re going to meet our goals.”73
Construction Shipyard(s)
Another potential issue for Congress regarding the Ohio replacement program is which shipyard
or shipyards would build SSBN(X)s. Two U.S. shipyards are capable of building nuclear-powered
submarines—General Dynamics’ Electric Boat Division (GD/EB) of Groton, CT, and Quonset
Point, RI, and Newport News Shipbuilding (NNS), of Newport News, VA, which forms part of
Huntington Ingalls Industries (HII). GD/EB’s primary business is building nuclear-powered
submarines; it can also perform submarine overhaul work. NNS’s primary lines of business are
building nuclear-powered aircraft carriers, building nuclear-powered submarines, and performing
overhaul work on nuclear-powered aircraft carriers.
Table 5 shows the numbers of SSBNs built over time by GD/EB, NNS, and two government-
operated naval shipyards (NSYs)—Mare Island NSY, located in the San Francisco Bay area, and
Portsmouth NSY of Portsmouth, NH, and Kittery, ME. Mare Island NSY is no longer in
operation. NSYs have not built new Navy ships since the early 1970s; since that time, they have
focused solely on overhauling and repairing Navy ships.
As can be seen in the table, the Ohio-class boats were all built by GD/EB, and the three previous
SSBN classes were built partly by GD/EB, and partly by NNS. GD/EB was the builder of the first
boat in all four SSBN classes. The most recent SSBNs built by NNS were the George C. Marshall
(SSBN-654) and George Washington Carver (SSBN-656), which were Lafayette/Benjamin
Franklin-class boats that were procured in FY1964 and entered service in 1966.

72 Source: Transcript of hearing.
73 “Boomer Sharing,” Defense Daily, August 1, 2011: 1-2.
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Table 5. Construction Shipyards of U.S. SSBNs
George
Lafayette/
Washington
Ethan Allen
Benjamin
Ohio
(SSBN-598)
(SSBN-608)
Franklin (SSBN-
(SSBN-726)

class
class
616/640) class
class
Fiscal years procured
FY58-FY59
FY59 and FY61
FY61-FY64
FY77-FY91
Number built by GD/EB
2
2
13
18
Number built by NNS
1
3
10

Number built by Mare Island NSY
1

6

Number built by Portsmouth NSY
1

2

Total number in class
5
5
31
18
Source: Prepared by CRS based on data in Norman Polmar, The Ships and Aircraft of the U.S. Fleet, Annapolis,
Naval Institute Press, various editions. NSY means naval shipyard.
Notes: GD/EB was the builder of the first boat in all four SSBN classes. The George Washington-class boats
were procured as modifications of SSNs that were already under construction. A total of 18 Ohio-class SSBNs
were built; the first four were converted into SSGNs in 2002-2008, leaving 14 in service as SSBNs.
There are at least five basic possibilities for building SSBN(X)s:
build all SSBN(X)s at GD/EB—the approach that was used for building the
Ohio-class SSBNs;
build all SSBN(X)s at NNS;
build some SSBN(X)s GD/EB and some at NNS—the approach that was used
for building the George Washington-, Ethan Allen-, and Lafayette/Benjamin
Franklin-class SSBNs;
build each SSBN(X) jointly at GD/EB and NNS, with final assembly of the
boats alternating between the yards—the approach currently being used for
building Virginia-class SSNs;74 and

74 Under the joint-production arrangement for Virginia-class boats, GD/EB builds certain parts of each boat, NNS
builds certain other parts of each boat, and the two yards take turns building the reactor compartment and performing
final assembly work. GD/EB is the final assembly yard for the first Virginia-class boat, the third one, and so on, while
NNS is the final assembly yard for the second boat, the fourth one, and so on. The arrangement provides a roughly 50-
50 split in profits between the two firms for the production of Virginia-class SSNs. The agreement governing the joint-
production arrangement cannot be changed without the consent of both firms. Virginia-class SSNs are the first U.S.
nuclear-powered submarines to be built jointly by two shipyards; all previous U.S. nuclear-powered submarines were
built under the more traditional approach of building an entire boat within a single yard.
The Virginia-class joint-production arrangement was proposed by the two shipyards, approved by the Navy, and then
approved by Congress as part of its action on the FY1998 defense budget. A principal goal of the arrangement is to
preserve submarine-construction skills at two U.S. shipyards while minimizing the cost of using two yards to build a
class of submarines that is procured at a relatively low rate of one or two boats per year. Preserving submarine-
construction skills at two yards is viewed as a hedge against the possibility of operations at one of the yards being
disrupted by a natural or man-made disaster.
The joint-production arrangement is more expensive than single-yard strategy of building all Virginia-class boats at one
shipyard (in part because the joint-production strategy splits the learning curve for reactor compartment construction
and final assembly work on Virginia-class SSNs), but it is less expensive than a separate-yard strategy of building
complete Virginia-class separately at both yards (in part because a separate-construction strategy splits the learning
curve for all aspects of Virginia-class construction work, and because, in the absence of other submarine-construction
(continued...)
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build each SSBN(X) jointly at GD/EB and NNS, with one yard—either
GD/EB or NNS—performing final assembly on every boat.
In assessing these five approaches, policymakers may consider a number of factors, including
their potential costs, their potential impacts on employment levels at GD/EB and NNS, and the
relative value of preserving SSBN-unique construction skills (such as those relating to the
construction and installation of SLBM compartments) at one shipyard or two. The relative costs
of these five approaches could depend on a number of factors, including the following:
• each yard’s share of SSBN(X) production work (if both yards are involved);
• the number of SSNs procured during the years of SSBN(X) procurement (which
can affect economies of scale in submarine production);
• whether the current joint-production arrangement for the Virginia class remains
in effect during those years;75 and
• the volume of non-submarine-construction work performed at the two shipyards
during these years, which would include in particular aircraft carrier construction
and overhaul work at NNS.
A January 12, 2011, press report stated:
While the [SSBN(X)] submarine-building contracts would likely be competitively bid,
[Electric Boat President John] Casey says he doubts any other company—even its attack-
submarine-building partner Northrop Grumman [now NNS]—can secure the work. Electric
Boat built the existing Ohio-class fleet.
“We have every intention of building every one of those ships,” he says. “There’s no one
else [who was] involved in designing and building that [Ohio-class] platform.76 It’s up to us
to convince people we can do it at the right price.”77
Legislative Activity for FY2013
FY2013 Funding Request
As shown in Table 3, the Navy’s proposed FY2013 budget requests $564.9 million in research
and development funding for the Ohio replacement program, including $483.1 million for Project
3220 (SBSD—sea-based strategic deterrent) in PE0603561N (Advanced Submarine System

(...continued)
work, a procurement rate of one or two Virginia-class boats per year is viewed as insufficient to sustain a meaningful
competition between the two yards for contracts to build the boats).
75 The agreement governing the joint-production arrangement for the Virginia class cannot be changed without the
consent of both yards.
76 The bracketed words in this sentence were inserted by CRS following a February 8, 2011, telephone call to CRS
from Electric Boat in which Electric Boat stated that sentence in Mr. Casey’s quote refers to Electric Boat being the
sole designer and builder of the current Ohio-class SSBNs.
77 Michael Fabey, “Electric Boat Recruits Engineers For Ohio-Class Sub Replacement,” Aerospace Daily & Defense
Report
, January 12, 2011: 1-2.
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Development), and $81.8 million for Project 3219 (SSBN[X] reactor plant) in PE0603570N
(Advanced Nuclear Power Systems).
FY2013 National Defense Authorization Act (H.R. 4310/S. 3254)
House
Section 121 of H.R. 4310 as reported by the House Armed Services Committee (H.Rept. 112-479
of May 11, 2012) states:
SEC. 121. RETIREMENT OF NUCLEAR-POWERED BALLISTIC SUBMARINES.
Section 5062 of title 10, United States Code, is amended by adding at the end the following
new subsection:
`(e)(1) Beginning October 1, 2012, the Secretary of the Navy may not retire or
decommission a nuclear-powered ballistic missile submarine if such retirement or
decommissioning would result in the active or commissioned fleet of such submarines
consisting of less than 12 submarines.
`(2) The limitation in paragraph (1) shall not apply to a nuclear-powered ballistic submarine
that has been converted to carry exclusively non-nuclear payloads as of October 1, 2012.’.
H.Rept. 112-479 states:
Perhaps the most troubling aspect of the Navy shipbuilding plan is how it will be able to
afford the Ohio class replacement ballistic missile submarine and still have a viable program
for other ships. This will have to be addressed in coming years. The budget request delayed
the start of construction of the first submarine by 2 years until fiscal year 2021. This delay
means that the ballistic missile submarine force dips to 10 submarines for almost 10 years in
a couple of decades. To maintain a credible undersea nuclear deterrent, the committee
recommends restoring the research and development funding that was reduced in the fiscal
year 2013 budget request to allow the Department of Defense time to determine how to keep
the program on track. Elsewhere in this Act, the committee includes a provision [Section
121] that would prevent the Secretary of the Navy from having fewer than 12 ballistic
missile submarines at a time. (Pages 35-36)
The report recommends increasing by $374.4 million the Navy’s FY2013 request for research and
development funding for PE0603561N, Advanced Submarine System Development, with the
increase being for “Program increase.” (Page 418) The report recommends approving the Navy’s
FY2013 request for research and development funding for PE0603570N, Advanced Nuclear
Power Systems. (Page 419)
The report also states:
Naval Reactors
The Naval Reactors program is responsible for all aspects of naval nuclear propulsion
efforts, including reactor plant technology design and development, reactor plant operation
and maintenance, and reactor retirement and disposal. The program ensures the safe and
reliable operation of reactor plants in nuclear-powered submarines and aircraft carriers that
represent over 40 percent of the Navy’s combatants.
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The fiscal year 2013 budget request proposed to delay procurement of the OHIO-class
ballistic missile submarine replacement by two years from previous schedule. The committee
disagrees with this decision, and supports procurement of the OHIO-class replacement
submarines on the original schedule. To support this, the committee recommends $1.2 billion
for the Naval Reactors program, an increase of $99.0 million to the budget request. This
increase will support continued development of an advanced “life-of-the-boat” nuclear
reactor for the OHIO-class replacement submarine program. (Page 328)
The report also states:
Report on Potential Use of Low-Enriched Uranium for Naval Reactors
The committee is aware of a study conducted by the Director, Naval Reactors in 1995 to
assess the technical, environmental, economic, and proliferation implications of using low-
enriched uranium (LEU) in place of highly-enriched uranium (HEU) in Naval nuclear
propulsion systems. The committee notes that the report concluded that “the use of LEU in
U.S. Naval reactor plants is technically feasible, but uneconomic and impractical.”
The committee directs the Director, Naval Reactors to submit a report to the congressional
defense committees by March 1, 2013, that describes any updates to the findings and
conclusions from the 1995 report, including any changes in the estimated costs for
fabricating HEU and LEU life-of-ship cores, the ability to refuel nuclear-propelled
submarines and ships without extending the duration or frequency of major overhauls, and
the overall health of the technology base that may be required to utilize LEU in Naval
nuclear propulsion systems. (Page 329)
Senate
The Senate Armed Services Committee, in its report (S.Rept. 112-173 of June 4, 2012) on S.
3254, recommends approving the Navy’s FY2013 funding requests for PE0603561N (Advanced
Submarine System Development) and PE0603570N (Advanced Nuclear Power Systems). (Page
373)
The report states:
Naval reactors
The committee recommends $1.1 billion for naval reactors, including a $37.9 million
increase above the budget request for the Ohio-class replacement reactor program. This
program was decreased by $70.0 million relative to the fiscal year 2012 budget projection for
fiscal year 2013. The committee notes that the Naval Reactors program is under strong
pressure in the 5-year budget profile to meet its design specifications for the Ohio-class
replacement reactor and recommends that the NNSA support any necessary changes needed
to the Ohio-class reactor replacement program to ensure it is properly synchronized with the
main submarine program which has slipped by 2 years. The committee remains concerned by
the 2-year delay of the Ohio-class replacement program, and directs Naval Reactors to
deviate as little as possible from the schedule identified in the fiscal year 2012 budget. (Page
285)
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FY2013 DOD Appropriations Act (H.R. 5856)
House
The House Appropriations Committee, in its report (H.Rept. 112-493 of May 25, 2012) on H.R.
5856, recommends approving the Navy’s FY2013 funding requests for PE0603561N (Advanced
Submarine System Development) and PE0603570N (Advanced Nuclear Power Systems). (Page
221)
The report states:
STRATEGIC SUBMARINE REPLACEMENT
The Committee is concerned with the national security and programmatic risks associated
with the Department’s decision to delay the Ohio class ballistic missile submarine
replacement program. The Committee expects the Secretary of the Navy to conduct close
and frequent oversight of this program to ensure that these risks are minimized. (Page 231)

Author Contact Information

Ronald O'Rourke

Specialist in Naval Affairs
rorourke@crs.loc.gov, 7-7610


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