Fast attack craft
A fast attack craft (FAC) is a small, agile naval vessel optimized for high-speed offensive operations in coastal and littoral environments, typically displacing 100 to 400 tons, achieving speeds of up to 40 knots, and armed with anti-ship missiles, torpedoes, or guns to conduct anti-surface warfare.[1] These craft emphasize rapid strikes, evasion, and force projection within a nation's exclusive economic zone, often serving as cost-effective platforms for asymmetric naval tactics against larger surface combatants.[1] The concept of fast attack craft traces its origins to early 20th-century innovations in small-boat warfare, evolving from World War I motor torpedo boats that employed internal combustion engines for surprise attacks on larger ships, such as the British sinking of the Russian cruiser Oleg in the Baltic Sea.[2] During World War II, the United States extensively deployed PT boats in the Pacific for interdiction, harassment, and special operations, including the famous exploits of PT-109 under Lieutenant John F. Kennedy, which rescued personnel and evaded Japanese forces despite limited endurance.[2] Post-war developments introduced guided missiles, transforming FACs into multi-role assets capable of engaging air, surface, subsurface, and even land targets, with designs incorporating stealth features like catamarans and radar-absorbent materials by the late 20th century.[2] Classified primarily by armament into gun, missile, or torpedo variants, FACs prioritize speed and firepower over endurance, making them ideal for hit-and-run missions but vulnerable in open-ocean engagements.[1] In modern navies, they remain vital for littoral defense and swarm tactics, as exemplified by Iran's Islamic Revolutionary Guard Corps Navy, which as of 2024 operates hundreds of small high-speed craft exceeding 50 knots, including fast attack craft equipped with torpedoes, rocket launchers, and C-802 anti-ship missiles to threaten shipping in confined waters like the Strait of Hormuz; in February 2025, it unveiled additional FACs capable of 110 knots.[3][4] Similarly, China's People's Liberation Army Navy fields over 80 Type 022 Houbei-class catamaran FACs introduced starting in 2004, along with other classes, enhancing regional power projection in disputed areas.[5] Despite advancements in larger warships, FACs continue to offer navies a versatile, economical option for medium- and low-intensity conflicts, underscoring their enduring role in asymmetric maritime strategy.[1]Definition and Characteristics
Overview and Role
Fast attack craft (FAC) are small warships typically displacing less than 700 tons, designed for high speeds exceeding 25 knots to enable agile operations in coastal and littoral environments.[6] These vessels are primarily armed with anti-ship missiles, guns, or torpedoes, emphasizing offensive capabilities for hit-and-run tactics against surface targets.[7] Their core roles include coastal defense, anti-surface warfare, and posing asymmetric threats to larger naval forces by exploiting speed and surprise in confined waters.[8] The advantages of FAC lie in their affordability, allowing navies to field multiple units at lower cost than larger warships, facilitating rapid deployment and swarm tactics for overwhelming superior opponents.[9] This agility supports surprise attacks, enhancing their effectiveness in littoral zones where larger vessels struggle with maneuverability.[10] However, limitations include poor seakeeping in blue-water conditions, restricting operations to calmer near-shore areas, along with limited endurance due to smaller fuel capacity and heightened vulnerability to air attacks from aircraft or drones.[9]Size and Speed Classifications
Fast attack craft are primarily classified by their displacement, speed, and operational capabilities, with displacements typically ranging from 100 to 500 tons to ensure agility and affordability in littoral environments.[1] This range allows for subcategories such as missile boats, which generally exceed 200 tons to accommodate anti-ship missile systems and heavier armaments, contrasted with lighter gunboats under 200 tons focused on rapid gunfire support. For instance, the BAE Systems 62-meter Fast Attack Craft displaces 720 tonnes full load, enabling it to carry advanced missile and gun armaments while maintaining maneuverability.[11] These size parameters directly influence crew requirements, limiting personnel to 10-50 individuals to optimize space and reduce logistical demands, as seen in designs like the Rauma-class vessels with crews of around 24.[12] Speed classifications define "fast" capabilities, with a minimum threshold of 25-30 knots required for most international definitions, though modern designs often exceed 50 knots for hit-and-run tactics. NATO's STANAG 1166 standard elevates this to at least 35 knots for designations like PCFG (Patrol Craft, Fast, Guided Missile), which applies to vessels 35-55 meters long equipped with guided missiles, ensuring they can outpace larger threats in coastal operations. The impact of these speeds contributes to restricted operational ranges of 500-1,000 nautical miles at cruising speeds, due to limited fuel capacity inherent to the compact hulls, as exemplified by the Swiftships 44-meter FAC's 1,500 nautical mile range at 12 knots but reduced endurance at full speed.[13][14] International standards, particularly NATO's STANAG 1166, provide a framework for hull designators such as PBFG for smaller guided-missile patrol boats under 45 meters, emphasizing displacements below 1,000 tons and speeds over 35 knots for offensive roles. In contrast, Soviet-era classifications relied on internal project numbers rather than unified international codes, with designs like Project 205 (Osa-class missile boats) featuring around 200 tons displacement and speeds up to 40 knots, prioritizing mass-produced swarms for asymmetric warfare over Western emphasis on individual versatility. These variations highlight how size and speed classifications adapt to doctrinal needs, with both approaches constraining range to 500-1,000 nautical miles to support short-duration strikes near shorelines.[13][15]Historical Development
19th Century Origins
The invention of the self-propelled torpedo in 1866 by British engineer Robert Whitehead marked a pivotal advancement in naval warfare, enabling the development of specialized small craft capable of delivering explosive payloads against larger vessels from a distance.[16] Whitehead's design, initially conceived in collaboration with Austrian naval officer Giovanni Luppis, utilized a compressed-air engine to propel the weapon at speeds up to 7 knots over 700 yards, revolutionizing attack tactics by reducing the need for close-range ramming.[17] This innovation directly spurred the creation of the first purpose-built torpedo boats in the early 1870s, as navies sought affordable means to counter the growing dominance of ironclad warships. Early examples included small steam launches modified for torpedo carriage, with the French Navy ordering prototypes numbered 1 through 7 in 1875–1876 for operational trials; these vessels, typically displacing 10 to 26 tons, represented the initial shift toward dedicated fast attack platforms.[18] Major navies rapidly adopted torpedo boats to exploit their speed and stealth against cumbersome ironclads, viewing them as equalizers in fleet engagements. The Royal Navy commissioned its first such vessel, HMS Lightning (later redesignated TB 1), in 1876, a 47-ton craft built by John I. Thornycroft that achieved 18.8 knots on trials and carried two torpedoes in dropping gear; it was intended to harass and disable larger enemy ships in coastal or night operations.[19] Similarly, the French expanded their fleet with 19 small torpedo boats in 1875–1876, many constructed in Britain, emphasizing high speed over seaworthiness to enable surprise attacks on blockading forces. These early boats, often limited to 20–25 knots and armed with one or two Whitehead torpedoes, underscored a doctrinal emphasis on offensive littoral strikes, though their light construction made them vulnerable to even small-caliber gunfire.[20] The practical impact of torpedo boats emerged during the Russo-Turkish War of 1877–1878, where Russian forces employed them effectively in Black Sea operations, marking the weapon's combat debut. On January 26, 1878, Russian torpedo boats Sinop and Chesma sank the Turkish steamer Intibah off Batum using Whitehead torpedoes—the first recorded sinking by a self-propelled torpedo in history—demonstrating the boats' potential to disrupt supply lines and challenge superior naval forces.[21] However, early engagements exposed significant limitations: the boats' low freeboard and fragile hulls rendered them ineffective in rough seas, while limited endurance (often under 200 nautical miles) and susceptibility to defensive fire restricted operations to calm, near-shore environments.[22] To counter the proliferating threat of torpedo boats, navies developed specialized escorts by the 1890s, leading to the emergence of torpedo boat destroyers as precursors to modern destroyers. The Royal Navy's HMS Daring and HMS Decoy, ordered in 1892 and commissioned in 1894, were the first vessels explicitly designed for this role, displacing 265 tons and reaching 28.2 knots to outpace and engage enemy torpedo craft with quick-firing guns.[23] This innovation reflected a broader naval arms race, where faster, more robust ships like these shifted tactics toward fleet protection and anti-torpedo screens, ultimately diminishing the standalone dominance of early fast attack craft.[24]20th Century Evolution
The advent of reliable internal combustion engines in the early 20th century revived interest in fast attack craft, shifting from steam-powered designs to more agile gasoline-engine vessels suitable for coastal raids. In 1915, the Italian Navy introduced the Motoscafo Armato Silurante (MAS) boats, small wooden-hulled craft powered by gasoline engines that achieved speeds up to 30 knots and carried torpedoes for hit-and-run attacks against larger warships. These 50- to 70-foot boats proved highly effective in the Adriatic Sea, where they sank several Austro-Hungarian vessels, including the dreadnought SMS Viribus Unitis in 1918, demonstrating the tactical value of speed and surprise in littoral warfare.[25][18] The British Royal Navy similarly adopted gasoline-powered Coastal Motor Boats (CMBs) during World War I, with 40- to 55-foot designs reaching speeds of 35 to 40 knots using aircraft-derived engines. These boats, armed with torpedoes and machine guns, were pivotal in daring raids, such as the Zeebrugge operation on April 23, 1918, where CMBs provided covering fire and launched torpedoes against German destroyer flotillas, contributing to the partial blocking of the harbor despite heavy losses. Post-war evaluations highlighted the vulnerability of these early craft to gunfire, prompting a doctrinal shift toward combined armaments that integrated torpedoes with quick-firing guns for self-defense and surface engagements. For instance, while WWI MAS and CMB losses exceeded 50 percent in major actions due to their fragility, their success in sinking several major warships, including two dreadnoughts by Italian MAS boats, underscored the need for balanced weaponry in subsequent designs.[26][27] Between the world wars, experimentation with hydrofoils and scaled-up hulls aimed to enhance speed and seakeeping for torpedo delivery. German engineers, including Baron Hans Schertel von Burtenbach, developed surface-piercing hydrofoil prototypes starting in 1927, with early vessels like the Sachsenberg designs achieving 40 knots on foils, though mechanical reliability issues limited operational adoption. Italian and Soviet efforts produced larger displacement boats, up to 100 feet, emphasizing hit-and-run tactics against convoys, as seen in interwar exercises where fast craft evaded escorts to simulate torpedo strikes. These developments informed WWII designs, focusing on versatility for coastal interdiction.[28] World War II saw the maturation of these concepts, with the U.S. Navy's Elco 77-foot PT boats exemplifying gasoline-powered evolution, propelled by three 1,500-horsepower Packard engines to speeds exceeding 40 knots. Over 300 such boats were built, armed with torpedoes, 20-mm cannons, and .50-caliber machine guns for multifaceted attacks in the Pacific. German Schnellboote (S-boats), with around 250 constructed in various classes up to 115 feet, reached 45 knots using Mercedes-Benz diesels and combined torpedoes with 40-mm guns, sinking numerous Allied merchant and warships in Channel and Mediterranean operations. U.S. PT boats alone accounted for sinking or damaging over 200 Japanese vessels, primarily barges and auxiliaries, though at the cost of 99 boats lost to enemy action and accidents, affirming the high-risk, high-reward nature of their employment.[29][30][31]Post-World War II Advancements
Following World War II, the Soviet Union pioneered the transformation of fast attack craft into missile-armed platforms during the Cold War, emphasizing littoral strike capabilities to counter larger Western surface fleets. The Komar-class (Project 183R), introduced around 1959, represented the world's first operational missile boats, displacing 75 tons and achieving speeds of 40 knots while armed with two P-15 Termit (SS-N-2 Styx) surface-to-surface missiles with a range of about 23 miles.[32][33] These vessels, built in significant numbers for the Soviet Navy and exported to allies, marked a shift from gun- and torpedo-based tactics to standoff missile engagements.[34] Building on this foundation, the Soviet Osa-class (Project 205) emerged in the early 1960s as an improved design, featuring four Styx missile launchers, enhanced radar, and a top speed of 40 knots on a 160-ton hull.[33] Over 400 units were produced between 1960 and 1973, making it one of the most prolific classes of its era, with widespread deployment in Soviet coastal forces and exports to client states.[35] This proliferation underscored the Soviet strategy of arming smaller navies with asymmetric weapons to challenge naval superiority in regional conflicts. Western navies responded with analogous designs to match Soviet advancements. France's La Combattante series, prototyped in 1964 as a 202-ton testbed for anti-ship missiles, evolved into export-oriented variants like the La Combattante II in the late 1960s, displacing 250-265 tons and reaching 40-42 knots.[36] These craft, armed with systems like the Exocet missile, were widely exported, including 12 to Israel (1967-1969), four to Greece (1972), four to Malaysia (1971), and units to Argentina, Singapore, and Spain, bolstering allied coastal defenses.[36] Similarly, Israel's Sa'ar-class boats, developed in the 1960s with foreign assistance, integrated indigenous Gabriel anti-ship missiles (initial range of 20,000 yards) on agile 200-450-ton hulls capable of 40 knots, enabling effective countermeasures against Soviet-supplied threats.[37] Key conflicts validated these innovations. During the War of Attrition in 1967, Egyptian Komar-class boats, operating from Port Said harbor, sank the Israeli destroyer Eilat with three Styx missiles on October 21, 1967—the first combat use of surface-to-surface guided missiles—demonstrating the vulnerability of larger warships to small, missile-armed craft despite the destroyer's evasive actions.[33] During the 1971 Indo-Pakistani War, Indian Osa-class equivalents (Vidyut-class) achieved decisive victories in Operation Trident on December 4, sinking Pakistani destroyer Khaibar and minesweeper Muhafiz near Karachi with Styx missiles, crippling enemy logistics without losses.[38] Technological evolution centered on integrating advanced Western missiles into fast attack craft, enhancing precision and range. France's Exocet (MM38/MM40 variants from the 1970s) armed La Combattante boats for sea-skimming attacks, while the U.S. Harpoon (Block 1 from 1979, Block 1B in 1982) equipped allied FACs across 24 nations, adding over-the-horizon capabilities up to 60 miles.[39] This period saw an export boom to Third World navies, with Soviet Komars and Osas supplied to Egypt, Syria, Cuba, and others for asymmetric warfare, and French designs reaching Morocco (1967), Libya, and Tunisia, proliferating affordable missile threats globally by the 1990s.[34][40]Design and Technology
Hull, Propulsion, and Seakeeping
Fast attack craft primarily employ planing hull designs to achieve speeds exceeding 30 knots, allowing the vessel to rise onto the water surface and reduce drag for high-speed operations in near-shore environments.[41] These hulls feature V-shaped or deep-V sections with chines to enhance lift and stability during planing, while semi-planing variants offer a compromise between speed and fuel efficiency for extended patrols.[42] Materials have evolved from traditional wood and steel in early designs to lightweight aluminum alloys and advanced composites in modern craft, providing corrosion resistance, reduced weight for improved performance, and easier maintenance in harsh marine conditions.[14] For instance, the Swedish CB90 uses an aluminum catamaran hull to combine planing efficiency with enhanced stability.[41] Propulsion systems in fast attack craft balance high sprint speeds with operational endurance, often utilizing combined diesel and gas (CODAG) configurations where diesel engines drive controllable-pitch propellers for economical cruising and a gas turbine provides boost for bursts over 40 knots.[43] Diesel engines, such as MTU series, prioritize fuel efficiency and reliability for ranges up to 1,500 nautical miles at 15-20 knots, though they trade off against the higher fuel consumption of gas turbines like the Rolls-Royce MT7 during high-speed transits.[44] Waterjet propulsors are common for shallow-water maneuverability and reduced vulnerability to propeller damage, as seen in the Indonesian KCR-70 class with twin diesels and a central 23 MW gas turbine.[43] Seakeeping capabilities are tailored for littoral operations in Sea States 3-4, where wave heights reach 1.25-2.5 meters, using low freeboard and active stabilizers like bilge keels or ride-control fins to mitigate pounding and maintain weapon accuracy.[45] These vessels typically exhibit ranges of 500-1,500 nautical miles at cruising speeds, limited by compact fuel storage to support hit-and-run tactics rather than prolonged blue-water transits.[44] Select designs incorporate alternative hull forms for specialized seakeeping; the Italian Sparviero-class hydrofoils from the 1970s used retractable foils to elevate the hull above waves, achieving 46 knots while reducing motion in moderate seas, though vulnerable to foil damage.[46] Similarly, the Chinese Type 022 Houbei employs a wave-piercing catamaran hull to slice through choppy coastal waters, sustaining 36-38 knots in Sea State 4.[47]Armament, Sensors, and Electronics
Fast attack craft are typically equipped with a mix of anti-ship missiles, torpedoes, and autocannons as primary armaments to enable rapid strikes against surface vessels and submarines. Anti-ship missiles, such as the MBDA MM40 Exocet, form the core offensive capability, with variants like the Block 3 offering a range of up to 180 km, a speed of Mach 0.9, and a 165 kg warhead for engaging larger warships from standoff distances.[48] Torpedoes, including lightweight models like the Mk 46 for anti-submarine warfare variants, provide underwater attack options, launched from tubes integrated into the hull to target submerged threats.[49] Autocannons, such as the 76 mm OTO Melara Super Rapide, deliver high-rate fire (up to 120 rounds per minute) with an effective range of 16 km against surface and air targets, serving as a versatile secondary weapon for close-range engagements.[48] Sensors on fast attack craft integrate radar, sonar, and electronic support measures (ESMs) to support detection, tracking, and targeting in high-threat environments. Fire control radars, exemplified by the Decca 1226 navigation and surface search system, provide tactical surveillance and target designation for weapons, particularly on smaller coastal vessels.[50] For anti-submarine warfare (ASW) variants, hull-mounted or towed sonars like the Simrad Subsea Toadfish active high-frequency system enable underwater threat detection and localization.[51] ESM systems, such as the MEL Matilda radar intercept, monitor enemy emissions for early warning and electronic intelligence, enhancing situational awareness during operations.[51] Defensive systems on these craft focus on countermeasures against incoming missiles and aircraft, given their limited size and vulnerability. Chaff and flare launchers, like the Rheinmetall MASS (Multi-Ammunition Softkill System), deploy decoys to confuse radar- and infrared-guided threats, with up to 32 projectiles per launcher for multi-engagement scenarios.[51] Close-in weapon systems (CIWS), such as the Phalanx, offer automated gun-based protection against anti-ship missiles, small boats, and drones, firing 20 mm rounds at rates up to 4,500 per minute within 2 km.[52] Integration of data links, including combat management systems like Thales TACTICOS, allows networked operations with allied units for shared targeting data and coordinated defenses.[51] The armament of fast attack craft has evolved from World War II-era reliance on guns and torpedoes—such as those on motor torpedo boats—for close-range attacks to modern missile-centric configurations by the 1980s, enabling over-the-horizon strikes with systems like the Exocet.[8] This shift replaced torpedo tubes with missile launchers on former torpedo boat hulls, prioritizing standoff lethality while adapting to size constraints.[53] Payload limits, dictated by displacement under 700 tons, typically restrict missile loads to 4-8 units, as seen in classes like the Hamina (4 RBS-15) and Roussen (8 Exocet MM40), balancing firepower with speed and stealth.[51][53]Tactics and Employment
Coastal and Littoral Operations
Fast attack craft (FACs) play a critical role in coastal and littoral operations, primarily focused on defensive missions such as harbor defense, anti-smuggling patrols, and mine countermeasures in shallow waters. In harbor defense, FACs provide rapid response to threats against ports and naval installations, leveraging their speed to intercept intruders and protect anchored assets. Anti-smuggling patrols involve monitoring exclusive economic zones (EEZs) to deter illicit activities like drug trafficking or arms smuggling, often in coordination with coastal authorities. For mine countermeasures, FACs deploy in near-shore environments to detect and neutralize shallow-water mines that larger vessels cannot access safely, using towed arrays or unmanned systems for surveys.[54][55] These vessels excel in littoral zones due to their shallow draft, which enables access to riverine and inshore areas inaccessible to deeper-draft ships, facilitating operations in confined waterways and supporting amphibious forces. Additionally, FACs integrate effectively with land-based radars and surveillance networks, enhancing situational awareness through shared data links that extend coastal sensor coverage into adjacent seas. Their seakeeping limits, however, restrict them primarily to calmer near-coastal conditions.[54][55] A notable case study is the Iranian use of fast attack craft during the 1980s Tanker War in the Persian Gulf, where Islamic Revolutionary Guard Corps Navy (IRGCN) Boghammer-class speedboats conducted aggressive patrols to defend coastal waters and disrupt enemy shipping. These FACs operated from oil platforms and islands, using swarm tactics to harass neutral tankers and enforce blockades, demonstrating their utility in protecting shorelines amid dense maritime traffic. In the South China Sea disputes, the Philippine Navy has deployed fast attack craft for patrols in contested areas, asserting territorial claims through persistent presence during standoffs with Chinese forces.[56][57] Despite these strengths, FACs face significant challenges in confined spaces, including heightened vulnerability to submarines that can lurk undetected in shallow littorals and to aircraft delivering precision strikes from beyond visual range. Crews counter these threats through evasion tactics emphasizing high-speed maneuvers, low radar signatures, and coordinated swarm formations to disperse and overwhelm pursuers, though success depends on maintaining initiative in cluttered environments.[54][8][58]Offensive and Asymmetric Warfare
Fast attack craft (FAC) excel in hit-and-run tactics, leveraging their high speed—often exceeding 40 knots—and agility to launch sudden strikes before rapidly disengaging. These vessels typically employ swarm attacks, where multiple FAC coordinate to overwhelm enemy defenses with anti-ship missiles (ASCMs), torpedoes, or guns, targeting surface ships in ambushes on convoys or isolated assets. For instance, during the Iran-Iraq War, Iranian FAC used such tactics to down Iraqi aircraft and harass tankers in the Persian Gulf, exploiting shallow waters for evasion.[9] Coordination with submarines or aircraft enhances these operations; FAC can provide over-the-horizon targeting data to submerged assets or act as decoys for air-launched strikes, creating multi-domain threats that complicate adversary responses.[59] In asymmetric warfare, FAC enable smaller navies or non-state actors to challenge superior forces by emphasizing quantity, surprise, and low-cost attrition over direct confrontation. Groups like Yemen's Houthis have adapted captured or improvised FAC, such as the 10-meter Tawfan series converted into waterborne improvised explosive devices (WBIEDs), for attacks on commercial and naval shipping in the Red Sea since the 2010s. These boats, often deployed in formations with command and media vessels, have conducted over 20 unmanned surface vessel (USV) strikes between November 2023 and August 2024, sinking two ships including the MV Tutor in June 2024 and achieving a peak success rate of 29% in kinetic damage to targets.[60][61] Such applications disrupt vital sea lanes, as seen in Houthi ambushes using ASCMs like the Iranian-supplied Noor, forcing rerouting of global trade and imposing economic costs on larger powers.[60] Key naval doctrines underscore FAC's role in offensive strategies. The Soviet Union's "small ship navy" concept, developed post-World War II, prioritized massed production of fast, missile-armed FAC like the P-15-class Osa boats to saturate NATO fleets in littoral zones, emphasizing first-strike capability through numerical superiority and rapid deployment.[62] Similarly, NATO anti-access/area-denial (A2/AD) strategies incorporate FAC to deny adversary access to contested waters, using swarms armed with ASCMs to counter larger surface groups in distributed maritime operations.[63] Effectiveness of these approaches is evident in historical engagements; during the 1973 Yom Kippur War, Israeli Sa'ar-class FAC sank Syrian vessels including one Osa-class missile boat in the Battle of Latakia and three Egyptian Osa-class missile boats in the Battle of Baltim without losses, firing 12 Gabriel missiles to neutralize 16 incoming Styx missiles and demonstrating superior electronic warfare and tactics.[64]Modern and Future Developments
Current Operators and Fleets
Fast attack craft remain a vital component of many navies' littoral capabilities, with an estimated global inventory exceeding 1,000 active units as of 2025, concentrated among nations focused on coastal defense and asymmetric warfare.[65] North Korea maintains one of the largest fast attack craft fleets worldwide, numbering over 300 vessels that blend Soviet-era designs with indigenous modifications for high-speed torpedo and missile strikes. These include small torpedo boats and larger surface-effect ships like the Nongo class, emphasizing swarm tactics in the Korean Peninsula's confined waters.[65] Iran operates more than 100 fast attack craft, augmented by recent additions of homegrown models such as Tareq- and Ashura-class boats equipped with Kowsar anti-ship missiles, enhancing its ability to contest the Persian Gulf. These vessels, often exported variants like the Houdong class, support the Islamic Revolutionary Guard Corps Navy's emphasis on rapid, dispersed operations against larger naval forces. In February 2025, Iran added approximately 100 more fast attack craft, bringing the estimated total to over 200.[66][67] China's People's Liberation Army Navy fields over 80 Type 022 Houbei-class catamaran missile boats, the fastest surface combatants in its inventory at speeds exceeding 36 knots, armed with YJ-83 anti-ship missiles for anti-access/area denial missions in the Asia-Pacific. Production of this stealthy design concluded around 83 units, with ongoing deployments for interception and patrol duties.[68][69] In Western fleets, Israel sustains a force of approximately 8 advanced missile boats, primarily Sa'ar 4.5-class units, which are undergoing replacement by larger Reshef-class corvettes (displacing about 1,000 tons) and Sa'ar 6 corvettes (displacing about 900 tons) optimized for Mediterranean and Red Sea operations with Barak-8 missiles and electronic warfare systems. The United States Navy has divested its Cyclone-class patrol craft, transferring all 14 to allies like the Philippines by 2023, leaving limited organic fast attack capabilities focused on special operations support. European operators, such as Greece, maintain seven Roussen-class (Super Vita) fast attack missile craft, recently upgraded for enhanced survivability and armed with Exocet missiles, as part of NATO's eastern flank deterrence.[70][71][72] Regionally, the Middle East exhibits high density of fast attack craft, with Iran and allies like Yemen's Houthis employing them for Gulf threats including mine-laying and swarm attacks on shipping lanes. In the Asia-Pacific, concentrations in North Korea, China, and neighbors underscore an anti-access focus, countering larger blue-water navies amid territorial disputes.[73][74] Post-2020 procurements reflect modernization trends, including Ukraine's development of Centaur-class fast assault craft based on the Gyurza-M design to bolster Black Sea operations amid conflict. In 2025, Ukraine received CB90-class fast assault boats from Sweden and Norway for coastal defense.[75][76]| Operator | Key Classes | Approximate Number (2025) | Primary Role |
|---|---|---|---|
| North Korea | Various torpedo boats, Nongo-class | 300+ | Swarm coastal defense |
| Iran | Houdong, Tareq, Ashura | 200+ | Gulf asymmetric strikes |
| China | Type 022 Houbei | 80+ | Anti-access patrols |
| Israel | Sa'ar 4.5 | 8 | Mediterranean interdiction |
| Greece | Roussen (Super Vita) | 7 | NATO flank deterrence |