M10 Booker
The M10 Booker is a tracked combat vehicle developed by the United States Army under its Mobile Protected Firepower program to deliver mobile, protected direct-fire support to infantry brigade combat teams, enabling lethal engagement of light armored vehicles and sustained long-range fires in close combat scenarios.[1][2] Equipped with a 105 mm M35 main gun, a 7.62 mm coaxial machine gun, and a .50 caliber M2 machine gun, it achieves a maximum road speed of 40 miles per hour and weighs approximately 38 to 42 tons, with design features intended for air transport via C-17 Globemaster III aircraft to support rapid deployment of light maneuver forces.[2] Named in June 2023 after Private Robert D. Booker, killed in action during World War II, and Staff Sergeant Stevon A. Booker, killed during Operation Iraqi Freedom, the vehicle honors their sacrifices while aiming to address gaps in organic firepower for infantry units lacking heavier armored support.[1][3] Initial low-rate production vehicles were delivered in April 2024, marking a modernization milestone, but the program faced challenges including failure to fully meet air-transport and operational requirements, leading the Army to terminate procurement in June 2025 without advancing to full-rate production.[2][4]
Classification and Specifications
Classification Debate
The U.S. Army officially classifies the M10 Booker as an assault gun or armored infantry support vehicle, rather than a light tank, emphasizing its role in providing mobile, protected direct-fire capability to Infantry Brigade Combat Teams (IBCTs) against light armored threats and fortifications, without primary intent for tank-on-tank engagements.[2][5] This designation aligns with doctrinal distinctions, where assault guns historically prioritize infantry close support over the maneuver and anti-armor focus of tanks, as the Booker is designed to accompany lighter formations like Strykers and integrate with dismounted troops rather than operate independently in armored battalions.[6] Critics and analysts argue the classification understates its capabilities, noting the vehicle's turreted 105mm M35 low-recoil gun, composite armor, and tracked mobility mirror light tank characteristics, such as those of historical vehicles like the M41 Walker Bulldog, potentially for budgetary or programmatic reasons to avoid scrutiny over weight exceedances or comparisons to heavier main battle tanks.[7][8] The Army's avoidance of "tank" terminology, despite informal media references, may stem from its limited armor—insufficient for peer adversaries' anti-tank guided missiles—and operational weight approaching 42 tons, which strained air transportability goals under the Mobile Protected Firepower (MPF) program.[9][10] Proponents of the assault gun label highlight functional differences: the Booker's remote weapon station for secondary armament and emphasis on rapid deployment for infantry suppression differentiate it from tanks, which doctrineally require balanced all-around protection and anti-armor dominance; Army officials have explicitly stated it is "not a battle tank" to clarify its niche in hybrid warfare scenarios.[5][11] This debate intensified post-2023 unveiling, with defense publications questioning if the semantics obscure its hybrid nature—too armored for wheeled vehicles yet underprotected for true tank roles—potentially influencing the program's 2025 termination amid reevaluation of requirements.[12][13]Technical Design and Features
The M10 Booker is a tracked armored vehicle developed by General Dynamics Land Systems, featuring a lightweight hull and turret optimized for rapid deployment via C-17 Globemaster III aircraft, with a combat weight of approximately 38 metric tons.[14] It accommodates a four-person crew comprising a commander, gunner, loader, and driver, enabling efficient operation in infantry brigade combat teams.[15] The design incorporates modern C4ISR capabilities, including an enhanced thermal viewer for improved situational awareness and target acquisition.[15] Primary armament consists of the XM35 105 mm rifled gun, derived from low-recoil designs for compatibility with lighter platforms, capable of firing kinetic energy rounds, high-explosive anti-tank projectiles, and multi-purpose ammunition to engage armored vehicles, fortifications, and personnel.[16] A coaxial 7.62 mm machine gun provides secondary fire support against infantry, supplemented by a remote weapon station for additional machine guns or anti-tank missiles if configured.[16] The fire control system integrates digital ballistics computers and panoramic sights, enhancing accuracy in dynamic combat environments.[15] Protection features modular add-on armor panels and underbelly shielding against improvised explosive devices, offering defense against small arms, heavy machine guns, and potentially autocannon fire, though specifics remain classified.[14] Smoke grenade launchers and active protection elements contribute to survivability by obscuring the vehicle and countering incoming threats.[17] Mobility is powered by an MTU 8V199 diesel engine delivering 800 horsepower, paired with an Allison transmission, achieving a top speed of 40 miles per hour on roads and operational range exceeding 300 miles.[5] Hydro-pneumatic suspension, akin to that on the M1 Abrams, provides terrain adaptability and crew comfort during high-speed maneuvers.[5] The vehicle's low ground pressure facilitates operations in varied terrains, including potential arctic environments as tested by the U.S. Army.[18]Program Origins and Selection
Strategic Rationale and MPF Initiative
The U.S. Army initiated the Mobile Protected Firepower (MPF) program in 2015 to address a critical capability gap in its Infantry Brigade Combat Teams (IBCTs), which lacked organic, survivable direct-fire systems capable of neutralizing enemy fortifications, bunkers, machine gun nests, and light armored threats in large-scale combat operations against peer adversaries.[7][19] This shortfall stemmed from the post-2001 emphasis on counterinsurgency operations, where heavy main battle tanks like the M1 Abrams were deemed unsuitable for light, rapidly deployable forces due to their 60+ ton weight, which limited air transportability via C-17 Globemaster III aircraft, bridge-crossing capabilities, and logistical sustainment in austere environments.[20][21] The Army's strategic reorientation toward multi-domain operations against near-peer competitors, such as those outlined in its 2018 modernization strategy, underscored the need for a lighter vehicle—targeting under 40 tons—that could provide offensive firepower while maintaining strategic mobility for airborne, air assault, or expeditionary units.[22] The MPF initiative aimed to equip each of the Army's 14 active IBCTs with 14 MPF vehicles organized into two platoons per brigade, delivering precise, protected lethality to close with and destroy enemy strongpoints without relying on distant artillery or unavailable heavy armor support.[23] Key requirements included a 105mm or larger main gun for bunker-busting and anti-armor roles, active protection systems for survivability against anti-tank guided missiles, and compatibility with existing tactical networks for combined arms integration.[14] This approach was informed by operational analyses, including lessons from conflicts where infantry formations suffered higher casualties without integral direct fire, and simulations projecting MPF's role in enabling IBCTs to overmatch adversaries in contested environments.[21] The program's budget request for fiscal year 2022 allocated $120.4 million for research, development, and testing, reflecting its priority within the Army's "Big Five" priority modernization efforts (though MPF predated the formal Big Six framework).[24] By emphasizing deployability—such as self-deployment from a C-17 with minimal disassembly—the MPF sought to restore balance to light forces divested of tanks during the Army's 2010s force structure reductions, ensuring they could conduct forcible entry operations or reinforce contested areas without the vulnerabilities of unarmored alternatives like Stryker Mobile Gun Systems, which were retired in 2022 due to inadequate protection.[22][7] Proponents argued that MPF would reduce reliance on joint fires in GPS-denied scenarios and enhance brigade lethality, with each vehicle designed to defeat tiered threats from dismounted infantry to light vehicles while achieving 90% operational availability in field conditions.[23] The initiative's formal analysis of alternatives, completed in 2016, validated these needs against legacy systems like the M8 Armored Gun System, confirming MPF's unique value in providing both mobility and persistence for sustained ground maneuver.[19]Competitive Selection Process
The U.S. Army initiated the competitive selection for the Mobile Protected Firepower (MPF) program under a Middle Tier Acquisition Rapid Prototyping authority to accelerate development of a light armored vehicle for infantry brigades. On December 17, 2018, the Army awarded prototype contracts to two vendors: General Dynamics Land Systems (GDLS) for $335 million and BAE Systems Land & Armaments for $376 million, requiring each to deliver 12 full-up test prototypes within approximately 14 months for subsequent developmental and operational testing.[25][26] Prototype deliveries commenced in late 2020, with BAE Systems facing delays due to COVID-19-related supply chain disruptions but beginning shipments in December 2020, while GDLS met its timelines more closely. The Army conducted extensive evaluations from 2020 through early 2022, including soldier touchpoints, live-fire tests, and mobility assessments at U.S. Army Test and Evaluation Command facilities, to assess performance against requirements for deployability, lethality, protection, and sustainment.[27][28][29] In March 2022, the Army down-selected by disqualifying BAE Systems' entry due to noncompliance issues with contract requirements, leaving GDLS as the sole remaining competitor. On June 28, 2022, following Milestone C approval, the Army awarded GDLS a $1.14 billion low-rate initial production contract for up to 96 vehicles, confirming its design—later designated the M10 Booker—as the winner based on superior alignment with operational needs demonstrated in testing.[30][31][29]Naming and Designation
The M10 Booker Combat Vehicle was officially designated by the United States Army on June 14, 2023, succeeding its prior reference as the Mobile Protected Firepower (MPF) platform within the MPF acquisition program.[1] The name honors two soldiers killed in action who shared the surname Booker: Private Robert D. Booker of the 34th Infantry Division, who was posthumously awarded the Medal of Honor for gallantry during the Tunisia Campaign on April 9, 1943, and Staff Sergeant Stevon A. Booker of the 1st Battalion, 64th Armor Regiment, who received the Distinguished Service Cross as a tank commander and died on April 26, 2003, during combat operations near Karbala, Iraq.[1][32] The designation reflects the soldiers' respective infantry and armored roles, with Robert D. Booker exemplifying ground assault valor and Stevon A. Booker embodying modern tank crewmanship; it marks the first U.S. Army combat vehicle named for a service member from a post-9/11 conflict.[1][33] The "M10" prefix evokes the World War II-era M10 3-inch Gun Motor Carriage tank destroyer, underscoring the vehicle's intended function in delivering rapid, protected direct fire support akin to historical assault gun precedents.[34] A formal dedication ceremony for the first production vehicle, named "Another Episode," occurred on April 18, 2024, involving the Booker families.[35]Development and Testing
Prototype Construction and Design Iterations
In December 2018, the U.S. Army awarded General Dynamics Land Systems (GDLS) a $335 million contract under the Middle Tier Acquisition Rapid Prototyping pathway to construct 12 Mobile Protected Firepower (MPF) prototypes.[36] These vehicles, evolved from GDLS's Griffin II technology demonstrator unveiled in 2016, featured a new tracked chassis optimized for air transportability via C-17 aircraft, a four-person crew configuration, and integration of the XM35 105mm gun with advanced fire control systems.[29] Construction emphasized rapid development to enable early soldier feedback and risk reduction ahead of operational testing.[17] GDLS delivered the first MPF prototype in April 2020, with the full set of 12 vehicles provided for Army evaluation by late 2020. In parallel, BAE Systems, awarded a similar contract for 12 prototypes, faced delays due to COVID-19 disruptions, commencing deliveries in December 2020.[27] The prototypes underwent initial design validations focusing on mobility, lethality, and survivability, incorporating modular armor packages and digital engineering tools to facilitate iterative improvements. Design iterations during this phase primarily addressed integration challenges, such as enhancing the autoloader-free loading mechanism for the main gun and refining suspension systems for cross-country performance, based on early static and mobility assessments.[37] These refinements, informed by soldier-in-the-loop evaluations, ensured alignment with Infantry Brigade Combat Team requirements before advancing to full developmental testing. The selected GDLS design required minimal post-prototype modifications for low-rate initial production approval in June 2022.[29]Evaluation and Performance Trials
 with the 82nd Airborne Division at Fort Liberty, North Carolina.[2] By September 2024, this phase was approximately halfway complete, involving rigorous operational scenarios to assess combat effectiveness.[39] As of May 1, 2025, 18 vehicles had been issued to the division for these tests.[24] Developmental testing occurred at U.S. Army Yuma Proving Ground starting in February 2025, evaluating performance, reliability, accessibility, and maintainability under desert conditions, including mobility over roads, steep slopes, and fording basins, often under full combat load.[5] Armament testing included live-fire of the 105 mm M35 gun, 12.7 mm M2 machine gun, and 7.62 mm coaxial machine gun in natural and simulated environments.[40] Concurrently, cold-weather performance evaluations were conducted at the Arctic Regions Test Center in Fort Greely, Alaska, in February 2025, focusing on operability in sub-zero temperatures to support potential Arctic deployments.[18] Data from these trials informed preparations for a full-rate production decision originally slated for summer 2026, though the program was canceled prior to completion.[5] Cancellation stemmed from strategic reassessments rather than trial failures.[41]Production Challenges
Low-Rate Initial Production
The U.S. Army approved Milestone C for the Mobile Protected Firepower program on June 28, 2022, authorizing the award of the initial low-rate initial production (LRIP) contract to General Dynamics Land Systems (GDLS) for manufacturing M10 Booker combat vehicles.[2] This phase aimed to produce a limited quantity of vehicles to validate manufacturing processes, identify production issues, and support operational testing prior to full-rate production. The initial LRIP order encompassed 96 vehicles, with production occurring at GDLS facilities, including those in Sterling Heights, Michigan.[12] The first M10 Booker vehicles from LRIP were delivered to the Army in April 2024, with GDLS confirming multiple units handed over by May 15, 2024, specifically for government testing and evaluation.[2] [42] These early production models underwent integration with Army systems and were subjected to reliability and maintainability assessments under Defense Contract Management Agency oversight, which verified compliance with production standards as of June 2024.[43] In August 2024, the Army exercised an option for continued LRIP, awarding GDLS a $322.7 million contract modification to produce additional vehicles, with work scheduled for completion by October 20, 2026, at facilities in Anniston, Alabama, and Lima, Ohio.[24] By May 1, 2025, at least 18 LRIP M10 Bookers had been issued to the 82nd Airborne Division for operational testing, demonstrating initial fielding capabilities despite ongoing production scaling.[24] Production challenges during LRIP included supply chain dependencies for subsystems like the XM360 105 mm gun and integration of active protection systems, though no major delays were publicly reported prior to program-wide decisions. The LRIP phase ultimately produced a fraction of the planned quantity, as the Army issued a termination for convenience in June 2025, halting further manufacturing without abrupt cessation of existing contracts.[4][12]Procurement Contracts and Allocation
In June 2022, the U.S. Army awarded General Dynamics Land Systems a $1.14 billion low-rate initial production (LRIP) contract for up to 96 M10 Booker combat vehicles, including associated support and fielding activities.[44] This contract marked the program's transition from prototyping to initial manufacturing, with production occurring primarily at facilities in Sterling Heights, Michigan; Anniston, Alabama; and Lima, Ohio.[45] The first production vehicle was delivered to the Army in April 2024, enabling early operational testing and integration efforts.[2] Subsequent contract modifications and awards supported LRIP expansion, including a $296.9 million cost-plus-fixed-fee modification in April 2024 for system engineering, integration, and production enhancements.[46] An additional $322.7 million firm-fixed-price incentive contract, awarded in June 2024, funded further manufacturing with a completion target of October 2026, though these efforts were later curtailed.[47] By early 2025, prior to program termination, the Army had received deliveries of multiple vehicles under these agreements, with oversight provided by the Defense Contract Management Agency to ensure quality compliance and contractor performance.[43] Allocation plans designated the M10 Booker for Infantry Brigade Combat Teams (IBCTs), particularly light divisions requiring rapid deployability, with initial fielding targeted at the 82nd Airborne Division to achieve first-unit-equipped status by late summer 2026.[7] At the division level, an M10 Booker battalion structure was envisioned, from which companies would be task-organized to support brigade operations, emphasizing direct fire in aid of dismounted infantry against enemy light armor and personnel.[48] This distribution aimed to address capability gaps in maneuver units without heavy armor, prioritizing airborne and air-assault forces for theater entry missions.[2]Cancellation and Legacy
Decision to Terminate
On May 1, 2025, United States Secretary of the Army Dan Driscoll announced the cancellation of the M10 Booker program, stating that it did not align with the Army's evolving priorities for force transformation and modernization.[24] This decision was embedded within a broader Department of Defense memorandum on Army Transformation and Investiture, which directed the divestiture of certain legacy systems to reallocate resources toward high-priority capabilities such as long-range precision fires, integrated air and missile defense, and autonomous systems.[49][50] The announcement followed an internal Army review that concluded the M10 Booker's role in providing mobile protected firepower was redundant amid shifts in operational concepts emphasizing lighter, more deployable, and networked forces over traditional armored platforms.[41] Driscoll's directive halted further investment and procurement, overriding prior commitments to acquire up to 504 vehicles across multiple armored brigades.[51] Subsequently, on June 11, 2025, the Army formally issued a termination for convenience notice to General Dynamics Land Systems, the prime contractor, ending the low-rate initial production (LRIP) contract that had begun delivering initial units earlier that year.[4] This action precluded transition to full-rate production and full operational capability, with the service confirming it would cease all related expenditures to support the Army Transformation Initiative's strategic objectives.[12] The termination preserved approximately 80 LRIP vehicles for potential testing or transfer but barred their integration into active units.[52]Reasons for Failure
The M10 Booker's cancellation stemmed primarily from its failure to meet the program's core weight and transportability requirements, rendering it unsuitable for the rapid deployment needs of infantry brigades. Designed under the Mobile Protected Firepower (MPF) initiative to provide airborne forces with a lightweight, air-droppable vehicle weighing under 38 tons, the final configuration exceeded these limits, approaching medium tank weights around 42 tons due to added armor and systems for enhanced survivability against modern threats.[53][10] This overrun compromised its ability to be transported via C-130 aircraft or slung under helicopters, a doctrinal necessity for supporting light infantry in contested environments, as articulated by Army leadership during the program's evolution.[4] Army officials acknowledged the miscalculation in balancing protection, firepower, and mobility, stating the vehicle "got it wrong" by prioritizing heavier designs that aligned more with traditional armored roles than the agile, expeditionary firepower intended.[54] Testing at sites like Yuma Proving Ground revealed persistent issues with vulnerability to anti-tank guided missiles and drones despite upgrades, further eroding confidence in its battlefield utility without achieving the promised low logistical footprint.[12] The program's cost escalation, with low-rate initial production contracts totaling over $1 billion for 96 vehicles, amplified scrutiny amid broader fiscal constraints and a strategic pivot toward distributed, uncrewed systems and lighter alternatives like robotic combat vehicles.[55][56] Doctrinal reevaluation played a role, as evolving threats from peer adversaries emphasized long-range precision fires and autonomous platforms over manned light tanks, diminishing the MPF's relevance in high-intensity conflicts.[41] The termination for convenience in June 2025, after delivering approximately 80 units, reflected this shift, with the Army opting to reallocate resources to initiatives better suited for multi-domain operations rather than sustaining a platform that deviated from its foundational requirements.[4][51]Post-Cancellation Handling and Lessons
Following the program's termination, the U.S. Army issued a termination for convenience notice for the ongoing low-rate initial production (LRIP) contract on June 11, 2025, halting further procurement and preventing transition to full-rate production.[4] At least 26 M10 Booker vehicles had been delivered to the Army prior to the decision, with these units redirected to a storage depot pending contract settlement negotiations with General Dynamics Land Systems.[57] The cancellation avoided additional financial commitments beyond the LRIP phase, which had already incurred costs exceeding initial projections due to design iterations and testing shortfalls.[58] The handling process highlighted procedural flexibilities in federal acquisition regulations, allowing the Army to exit without full liability for future deliveries while preserving options for partial compensation to the contractor based on completed work.[24] No immediate repurposing or export of the existing fleet was announced, reflecting uncertainty in addressing the underlying capability gap for infantry brigade combat teams (IBCTs) that the program aimed to fill.[57] Key lessons from the M10 Booker cancellation underscore failures in aligning vehicle specifications with operational requirements, particularly the inability to achieve air-droppability under combat-loaded conditions, as the final design exceeded weight thresholds by approximately 10-15 tons, rendering it incompatible with C-130 or CH-47 transport without significant disassembly.[12] This deviation from initial Mobile Protected Firepower (MPF) criteria—established in 2018 to provide rapid-deployable direct fire support—stemmed from progressive "gold-plating" of armor and subsystems during prototyping, which prioritized survivability against near-peer threats over mobility.[41] Broader acquisition reforms are advocated in post-cancellation analyses, emphasizing the need for stricter adherence to threshold requirements early in development to prevent scope creep, as seen in the program's evolution from a 38-ton baseline to over 48 tons.[58] The episode serves as a case study in procurement rigidity, where fixed requirements inhibited iterative adaptations to emerging threats like loitering munitions and unmanned systems, prompting calls for modular, software-defined architectures in future IBCT enablers.[41] Despite the termination, the persistent shortfall in organic, protected firepower for light formations remains unaddressed, with Army leaders signaling exploration of unmanned or hybrid alternatives rather than direct replacements.[57]Potential Operators and Alternatives
Planned Army Integration
The M10 Booker was designed to integrate into the U.S. Army's Infantry Brigade Combat Teams (IBCTs) as an organic capability to address the longstanding gap in mobile, protected direct-fire support for light infantry formations, enabling them to neutralize enemy infantry, light armored vehicles, and fortifications without relying on heavier armored units from Stryker or Armored Brigade Combat Teams.[2][44] The vehicle was intended to operate alongside dismounted infantry and wheeled assets, providing sustained, long-range precision fires while maintaining the brigade's strategic and tactical deployability via C-130 or C-17 aircraft.[7] This integration aimed to enhance IBCT maneuverability in contested environments, particularly against near-peer adversaries, by closing the firepower disparity observed in operations where light units lacked rapid-response armored support.[59] Under the planned structure, each IBCT was to receive 14 M10 Bookers, organized into a dedicated company or platoon within the brigade's reconnaissance squadron or cavalry troop, with commanders retaining flexibility to assign them based on mission requirements across active and reserve IBCTs.[24] The overall Army Acquisition Objective called for 504 vehicles to equip multiple brigades, structured into battalions—such as the First Unit Equipped battalion comprising 42 vehicles—to support rotational deployments and training.[60] Fielding was slated to begin with the first operational company assigned to the 82nd Airborne Division in summer 2025, followed by four full battalions by 2030, prioritizing units with expeditionary roles to validate integration in live-fire exercises and force-on-force scenarios.[61][14]The integration doctrine emphasized the Booker's role in enabling IBCTs to conduct offensive operations independently, with its 105mm gun and active protection systems complementing anti-tank guided missiles and artillery, while its 42-ton weight necessitated specialized maintenance and logistics training for brigade sustainment teams.[17] Initial low-rate production deliveries in 2024 were to support developmental testing at Army training centers, informing tactics, techniques, and procedures for crew proficiency and combined-arms integration before full operational capability.[2] This approach drew from lessons in prior light armored programs, aiming to avoid over-reliance on airlift constraints by balancing vehicle numbers with brigade transport assets.[7]