According to recent pictures published on social networks on May 3, 2025, North Korea has begun the mass production of one of the world’s most powerful rocket launcher systems—the KN-25. This marks a significant step in militarizing its long-range precision artillery forces. The KN-25, armed with 600mm guided rockets and capable of striking targets up to 380 km away, represents a hybrid between traditional multiple launch rocket systems and tactical ballistic missiles. Its deployment in large numbers signals a strategic effort by Pyongyang to enhance its deep-strike capabilities and challenge the effectiveness of South Korean and U.S. missile defense systems.
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North Korean leader Kim Jong Un inspects the production line of the KN-25 600mm rocket launcher system amid North Korea’s push to expand its long-range precision strike capabilities. (Picture source: Social Network)
The KN-25 is mounted on a tracked chassis and features an armored crew cab at the front. Its launch system consists of two rows of three launcher tubes installed at the rear, each designed to fire massive 600mm rockets. The vehicle’s suspension system includes ten double road wheels on each side, providing the system with excellent mobility across rugged terrain and enhancing its operational flexibility on the battlefield. This configuration, now confirmed to be entering mass production, allows North Korean forces to deploy and reposition these platforms with agility, making them harder to detect and neutralize in pre-emptive strikes.
The KN-25 first appeared in military parades and state media coverage around 2019, initially presented as a “super-large caliber multiple launch rocket system.” Its unique design and exceptional firepower immediately attracted the attention of defense analysts, who noted that its characteristics blurred the line between MLRS and tactical ballistic missile systems. Over the years, the system has undergone numerous tests, with North Korea showcasing successive improvements in range, accuracy, and salvo-firing capability. These developments are believed to be driven by a strategic intent to establish a precision-strike weapon that is less expensive and more deployable than conventional ballistic missiles but still capable of delivering similar levels of destruction.
Designed to deliver precision-guided munitions with a range of up to 380 kilometers, the KN-25 enables North Korea to strike key military and infrastructure targets deep within South Korea and potentially against U.S. forces stationed on the peninsula. The rockets, guided by inertial navigation systems and possibly satellite guidance, provide a high level of accuracy, reportedly within tens of meters from intended targets. This accuracy allows for targeted destruction of critical military nodes such as airfields, command and control centers, logistics hubs, and radar installations.
The KN-25 is deployed in two configurations: a tracked chassis version now confirmed in mass production, which includes six launcher tubes arranged in two rows of three; and a wheeled transporter-erector-launcher (TEL) variant equipped with four tubes, optimized for high-speed road mobility. These dual configurations allow North Korean forces to conduct both pre-positioned assaults and rapid redeployments to evade surveillance and preemptive strikes. Furthermore, the system’s quasi-ballistic trajectory and high terminal speed complicate interception efforts, posing a significant challenge to conventional C-RAM and missile defense systems such as the U.S. Patriot PAC-3 or THAAD batteries deployed in South Korea.
The emergence of the KN-25 introduces a serious new threat to South Korea and U.S. forces on the peninsula. Unlike older artillery systems with limited range and accuracy, the KN-25’s long reach and precision make it capable of targeting U.S. military bases as far south as Busan, as well as South Korea’s key industrial and civilian centers. Its mass-production status suggests that North Korea could field these systems in large numbers, enabling saturation attacks designed to overwhelm missile defense batteries through sheer volume.
South Korea’s current missile defense architecture was not primarily designed to counter high-volume, quasi-ballistic rocket artillery. While systems like Iron Dome and the domestically developed L-SAM are under development or consideration, they are not yet fully operational or tailored to intercept heavy, fast, and maneuverable rockets like the KN-25. Furthermore, South Korea’s indigenous C-RAM program is not expected to be completed before 2035, leaving a critical vulnerability window in the near to mid-term.
For U.S. forces, the KN-25 represents a significant escalation in North Korea’s artillery threat. The system provides Pyongyang with a flexible, survivable, and rapid-response deep strike option that can be used for both tactical battlefield engagements and strategic deterrence. It also fits into North Korea’s broader asymmetric warfare strategy—leveraging unconventional, cost-effective weapons to counter more technologically advanced adversaries.
The induction of the KN-25 into mass production confirms that North Korea is aggressively advancing its long-range precision artillery capabilities. With this development, the KN-25 is no longer a prototype or limited-scale testbed—it is now a central pillar of Pyongyang’s modern artillery doctrine, providing a significant leap in both deterrent power and offensive capability. Its presence on the battlefield significantly alters the strategic calculus on the Korean Peninsula, demanding urgent reassessment of allied missile defense and counter-artillery strategies.