Can Peraso Inc.’s 60 GHz communications platform solve the drone identification problem in electronic warfare environments? (NASDAQ: PRSO)

Peraso Inc. (NASDAQ: PRSO) has been selected by Israeli defense contractor InTACT to provide its 60 GHz millimeter-wave semiconductor technology for a next-generation drone Identification Friend or Foe system designed to operate in contested electronic warfare environments. The system integrates Peraso Inc.’s beamforming wireless transceivers to enable secure identification links between drones and ground forces, addressing a rapidly emerging operational challenge as unmanned systems proliferate across modern battlefields.

The selection places Peraso Inc. within a rapidly evolving segment of defense communications infrastructure where secure drone identification is becoming essential to operational safety. As military forces deploy larger numbers of reconnaissance, logistics, and strike drones, distinguishing friendly aerial platforms from adversarial systems has become a technical challenge with direct implications for battlefield coordination and force protection.

Why secure identification systems are becoming critical as drone numbers surge across modern battlefields

The rise of unmanned aerial systems has transformed operational airspace into an environment crowded with autonomous and remotely piloted platforms. Drones are now deployed for surveillance, electronic warfare, intelligence gathering, logistics delivery, and strike operations, often operating simultaneously within the same tactical zones.

This expansion has created a fundamental identification problem. Ground forces and counter-drone defense systems must determine rapidly whether an aerial platform belongs to friendly forces or represents a hostile threat. Traditional identification methods developed for manned aircraft often struggle to translate effectively to small autonomous drones operating at lower altitudes and using varied communications protocols.

Military planners increasingly describe modern airspace as “drone-dense,” where dozens of unmanned systems may be active simultaneously. In such environments, even sophisticated air defense networks can face difficulty distinguishing friendly drones from adversarial platforms without reliable identification mechanisms.

The Identification Friend or Foe system developed by InTACT aims to address this challenge by enabling secure authentication between drones and ground forces. The platform allows military operators and counter-UAS systems to verify whether a drone is friendly, reducing the risk of accidental engagement while improving coordination between autonomous systems and human operators. This capability is particularly important in operations involving joint forces or coalition environments where multiple drone types may operate simultaneously across different command structures.

How 60 GHz beamforming communications enable stealthier and more resilient battlefield identification links

At the core of the InTACT system lies Peraso Inc.’s 60 GHz millimeter-wave communications technology, which enables highly directional wireless connections through beamforming antenna arrays. Unlike conventional radio communications that broadcast signals widely, beamforming concentrates signals into narrow directional beams.

This directional architecture significantly reduces the probability that communications signals will be intercepted or detected by adversaries. In electronic warfare environments where hostile forces attempt to jam or monitor radio transmissions, reducing signal exposure becomes a critical advantage.

The use of 60 GHz frequencies also allows the creation of compact antenna arrays that can be integrated easily into drones or soldier-carried equipment. Because millimeter-wave signals operate at higher frequencies than traditional tactical radios, they can support high data rates while maintaining narrow beamwidth characteristics.

Peraso Inc.’s beamforming wireless transceivers are also designed for low power consumption, an important factor for battery-powered drones and portable ground systems. Efficient power usage allows identification systems to operate continuously without significantly reducing drone endurance or mission duration.

Ron Glibbery, chief executive officer of Peraso Inc., indicated that the rapid expansion of drones on modern battlefields is making secure identification technologies increasingly important to prevent friendly-fire incidents and ensure coordination between manned and unmanned systems. He stated that the company’s 60 GHz communications platform is designed to provide secure directional links suited for contested environments and capable of supporting advanced tactical applications. These characteristics position millimeter-wave communications as a potentially valuable technology layer within emerging drone communication networks.

Why electronic warfare environments are forcing militaries to rethink tactical communications technologies

Electronic warfare has become a defining feature of modern military conflict. Adversaries routinely attempt to disrupt communications, interfere with GPS navigation signals, or intercept radio transmissions to gain intelligence on battlefield operations.

In such environments, conventional wireless communication systems can become vulnerable to jamming or interception. Wide-area radio broadcasts may reveal the location of friendly units or allow adversaries to monitor command and control communications.

Directional communications technologies such as millimeter-wave beamforming offer an alternative approach. By transmitting signals through narrow beams that point directly toward a receiving device, these systems reduce the risk of interception and limit the exposure of communications signals to hostile electronic surveillance.

The integration of Peraso Inc.’s mmWave semiconductor technology into InTACT’s identification system therefore reflects a broader shift in how military communications are being designed. Rather than relying solely on broad-spectrum radio transmissions, next-generation systems increasingly incorporate directional links that are more difficult to detect or disrupt. This trend is likely to accelerate as electronic warfare capabilities continue to expand globally.

How the Peraso Inc. and InTACT collaboration illustrates the changing defense technology supply chain

The collaboration between Peraso Inc. and InTACT highlights a broader transformation in defense technology development. Historically, military communication systems were often developed internally by defense contractors using specialized hardware designed exclusively for military applications.

Today, many advanced communication technologies originate within commercial semiconductor and telecommunications sectors before being adapted for defense use. Millimeter-wave wireless technology, initially developed for high-speed broadband connectivity and data networking applications, is increasingly finding new uses in tactical military systems.

Peraso Inc. specializes in mmWave semiconductor solutions designed for high-frequency wireless communications. InTACT focuses on developing tactical identification systems for drone-dense operational environments.

The partnership between the two companies reportedly involves more than two years of development collaboration aimed at adapting millimeter-wave communications technology to drone identification applications. Such partnerships reflect a growing reliance on specialized semiconductor providers within defense supply chains. Rather than developing every communications component internally, defense contractors increasingly integrate commercial technologies that offer advanced capabilities and faster development cycles.For semiconductor companies, defense collaborations also offer potential diversification opportunities beyond consumer electronics and telecommunications markets.

What the proliferation of drones means for future battlefield communications architectures

The rapid growth of unmanned aerial systems is forcing militaries to rethink how battlefield communications networks are structured. Traditional command and control systems were designed primarily for manned platforms and centralized communication hubs. Drone-heavy battlefields require far more distributed communication architectures capable of supporting numerous autonomous systems operating simultaneously.

Secure identification mechanisms represent a foundational component of these emerging networks. Without reliable identification systems, counter-drone defenses risk engaging friendly platforms, while command networks struggle to maintain situational awareness across complex drone operations.

Directional communication technologies such as millimeter-wave beamforming may become increasingly important in this context. By enabling secure point-to-point communication links between drones and ground forces, they provide a mechanism for rapid authentication without broadcasting signals widely across the electromagnetic spectrum. These technologies could eventually form part of broader communication frameworks designed specifically for autonomous military systems.

What investor sentiment toward Peraso Inc. suggests about emerging defense semiconductor opportunities

For Peraso Inc., integration into a defense identification system introduces potential long-term strategic implications beyond a single technology deployment. Defense programs often involve extended development and qualification cycles before progressing to production deployment. Semiconductor technologies embedded within successful military systems can generate sustained demand over the lifespan of those platforms.

At the same time, investors typically treat early-stage defense collaborations cautiously until procurement contracts materialize. Technology selection for development programs does not always translate directly into large-scale production orders. Nevertheless, the selection of Peraso Inc.’s mmWave technology by InTACT indicates that specialized semiconductor solutions are becoming increasingly important within emerging drone communication infrastructures.

More broadly, semiconductor companies are playing a growing role in defense innovation as military systems integrate advanced communications, sensing, and processing technologies originally developed for commercial markets. If drone identification technologies become standard components of counter-UAS ecosystems, suppliers of directional communication chips may benefit from expanding defense demand.

Key takeaways on what Peraso Inc.’s defense collaboration signals for the evolving drone warfare technology market

• Peraso Inc.’s 60 GHz millimeter-wave semiconductor technology has been selected by Israeli defense contractor InTACT for a next-generation drone Identification Friend or Foe system designed for electronic warfare environments.

• The partnership reflects a growing military need for secure identification mechanisms as drone deployments expand rapidly across reconnaissance, logistics, and strike missions.

• Directional beamforming communications at 60 GHz frequencies can reduce the likelihood of signal detection or interception, improving resilience in contested electromagnetic environments.

• The collaboration highlights how commercial semiconductor technologies are increasingly being integrated into tactical military communications systems.

• Drone-heavy battlefields are forcing militaries to redesign communication architectures that support identification, coordination, and authentication among large numbers of autonomous platforms.

• If the identification system progresses into operational deployment, Peraso Inc. could gain exposure to defense markets that often provide longer product lifecycles and stable procurement demand.

• The development also signals a broader shift toward directional communications technologies as electronic warfare capabilities continue to expand globally.