The Pentagon has quietly taken a decisive step that could lock in U.S. military superiority for the next half-century by embracing a new class of American-made semiconductor technology that no foreign rival can currently match.
According to Breitbart, the Department of Defense has secured access to a breakthrough in chip design built not on traditional silicon, but on gallium nitride, or GaN, a material poised to redefine the performance of advanced weapons systems. This shift underpins a new generation of fighter jets, missile defenses, and electronic warfare platforms designed to outclass anything fielded by adversaries such as China or Russia.
The promise is stark: fighter aircraft that outperform anything else in the sky, missile defense systems that can track threats twice as far, and electronic warfare capabilities that better shield American troops and keep them coming home.
For decades, U.S. defense technology rode the wave of silicon-based chips and the famous Moores Law, which predicted that computing power would double roughly every two years. That trend powered everything from precision-guided munitions to advanced radar, but the physics of silicon have finally hit a wall. Silicon transistors have been shrunk to around five nanometers, barely bigger than a few atoms, and they simply cant get any smaller without running into fundamental physical limits that no amount of wishful thinking or regulatory intervention can overcome.
Even industry leaders now concede that the old paradigm is finished. Nvidia CEO Jensen Huang has bluntly stated, Moores Law is dead. The ability for Moores Law to deliver twice the performance at the same cost is over. Its completely over. That admission underscores a strategic vulnerability: Americas defense contractors cannot build the next generation of radar, missiles, and aircraft with yesterdays silicon. They need a new material that delivers more power, greater efficiency, and superior resilience in the harsh conditions of modern warfare.
That is where gallium nitride enters the picture as a game-changing alternative. GaN chips consume roughly 40 percent less energy than their silicon counterparts while delivering up to 100 times better performance, a leap that has immediate battlefield implications. The Pentagons newest radar systems already rely on GaN to double their detection range, giving U.S. forces earlier warning and more time to respond to incoming threats.
The Patriot missile defense system has been upgraded with GaN components, and the F/A-18 Super Hornets fire-control radar now uses GaN to achieve performance that would be impossible with silicon.
This is not a theoretical technology sitting in a lab; it is already embedded in operational American systems, and demand is accelerating as the military modernizes. From a conservative perspective, this is precisely the kind of innovation Washington should be championing: homegrown, private-sector driven, and directly tied to national security rather than to fashionable green subsidies or bureaucratic pet projects. The fact that this technology is being manufactured right here in America with technology no one else can replicate speaks to the enduring strength of U.S. industry when it is allowed to compete and innovate.
President Donald Trump recognized early that control over critical materials would be central to maintaining that edge. In July, he announced the government would buy shares of several mining companies in an effort to compete with state-backed industries in China, signaling a sharp break from the complacent globalism that left America dependent on hostile or unreliable suppliers.
At the start of this month, he went further, launching a strategic stockpile for critical minerals with $12 billion in initial funding to reduce American dependence on foreign suppliers. As Trump put it, Were not just doing certain minerals and rare earths. Were doing everything.
Gallium, a mineral found in the United States, is among those critical resources now being prioritized. This administrations push ensures that American manufacturers will have secure access to gallium, insulating the defense industrial base from Beijings resource weaponization.
This is more than a bureaucratic policy tweak; its a signal that GaN technology is essential to American interests, and that Washington is finally treating supply chains as a matter of national security rather than an afterthought. In an era when China openly uses export controls to pressure the West, such a strategy is not optional; it is overdue.
In late 2025, the Department of Defenses primary chip supplier, a firm with more than 20 years of Trusted Foundry accreditation, announced a pivotal partnership to manufacture advanced GaN technology on U.S. soil. Production is slated to begin in 2026 at a DOD-accredited facility, with the collaboration explicitly targeting critical and national security applications.
This arrangement guarantees that American defense contractors can source cutting-edge GaN semiconductors without relying on fragile or adversary-controlled foreign supply chains, a key conservative priority in re-shoring vital manufacturing.
The partner in this effort is a small American semiconductor company that holds a commanding intellectual property position in GaN technology. It trades for less than $10 per share today, yet it has already shipped over 250 million GaN chips, and major technology companies are using its innovations.
Now, with the Pentagon securing access to its technology for military use, this once-obscure firm finds itself at the center of a strategic realignment in U.S. defense electronics. It is a textbook example of how a nimble, innovative private company can become indispensable when government policy aligns with national interest rather than ideological agendas.
Defense contractors designing next-generation systems now effectively require GaN to meet their performance benchmarks. The performance requirements cant be met with silicon, and GaN is the only path forward, a reality that underscores how quickly technological paradigms can shift when constrained by physics and driven by security needs.
This is what happens when American ingenuity meets American manufacturing: a small company with breakthrough technology, backed by the Pentagon and anchored in domestic production at the highest security level. The spending is in place, the technology is proven, and the partnerships are locked in, positioning this tiny firm at the center of Americas semiconductor future.
The company has the patents, has the technology, and now has the partnership to supply our nations most critical military applications, giving it a unique role in safeguarding U.S. dominance in the electromagnetic spectrum and beyond.
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