Transforming Timekeeping and Data Scaling with Quantum Technology

Scott Faris, Chief Executive Officer of Eqlipse Quantum, at the World Economic Forum’s Annual meeting 2025, discussed the ‘Transformative Power of Quantum Technology.’ He stressed  on the quantum’s role in revolutionizing GPS and national security, coupled with its role in redefining  healthcare, energy and telecommunications.

• Precision Timekeeping for Faster Synchronization
• Transform GPS Systems and Boost National Security
• Revolutionize Healthcare, Energy, and Telecom sectors

As we are witnessing the rise of quantum computing, it has become increasingly clear how the revolutionary technology is reshaping industries. In such a case, its potential is already becoming apparent in precision timekeeping. For many years, traditional timekeeping systems have worked well for daily activities, but as machines start communicating with one another at an unprecedented rate, the current systems no longer suffice. This is especially true as AI keeps on pushing the limits of data processing. The demand for faster, more accurate synchronization is growing, wherein, quantum technology is emerging as a robust solution to bridge the gap.

Today, the next generation technologies are aiding in devising systems that allow machines to operate at a high speed which one cannot fathom.

This advanced technology is already being applied in numerous fields, wherein, one of the most exciting examples is data centers that have been able to increase their speed by hundreds of times. This is a massive leap forward, especially for industries that could completely rely on real-time data analysis. Furthermore, quantum precision timekeeping offers the scalability that is needed to process enormous amounts of data quickly and efficiently. Hence, the potential for quantum technology to change the way one can handle the data must be realized as the possibilities are truly significant.

Quantum’s Role in GPS and National Security

For decades, technologies have relied heavily on satellites for GPS navigation, but these systems come with significant challenges. Satellites are expensive, it's really hard to maintain, and also vulnerable to geopolitical instability. The increasing need for a more secure and reliable alternative has implied the development of quantum sensor technologies that could completely transform GPS systems. This is where quantum sensors can operate entirely on the ground, eliminating the need for expensive and potentially vulnerable satellites. But quantum technology’s applications go far beyond GPS. Nations around the world are racing to build their own quantum capabilities, recognizing its importance not just for technological advancement but also for national security. Whether it's in secure communications or encryption, quantum technology is poised to secure sensitive data in ways we’ve never seen before. As quantum computing becomes more advanced, it will fundamentally change how it safeguards information and maintains global security. This technology is the next frontier, and its role in military and economic security cannot be exaggerated.

Revolutionizing Healthcare, Energy, and Telecommunications

The impact of quantum technology on security and navigation is impressive. It’s in industries like healthcare, energy, and telecommunications where the world has experienced some of the most exciting advancements. In healthcare, for instance, quantum computing holds the key to accelerating drug discovery and development. With its immense computational power, quantum systems can process biological data at speeds and scales unimaginable with current technology.

Quantum is also making waves in the energy sector. As the world shifts towards renewable energy, the need for more efficient material systems becomes increasingly urgent. Quantum simulations offer a promising way to design materials that are not only more effective but also sustainable over their entire life cycle. This could dramatically accelerate the transition to clean energy and help optimize energy grids, making renewable energy more reliable and cost-effective.

In telecommunications, the potential for quantum technology is equally transformative. Traditional telecom equipment, like antennas, is often bulky, expensive, and energy-intensive. So, what excites more about quantum radio frequency technology is its ability to use clouds of atoms as alternatives to these traditional systems; quantum sensors that are thousands of times more sensitive than current technologies. This could lead to far more efficient signal reception, drastically reducing the energy needed for transmission and opening up new ways to securely distribute information. So, as we think ahead to 6G infrastructure, quantum’s role is becoming increasingly pivotal.

The Challenge of Talent in the Quantum Revolution

The quantum workforce is small and highly specialized, with only a few experts able to advance this field, globally. This talent shortage could limit the growth of quantum technologies unless they find ways to scale the workforce. Fortunately, many of the skills used in related industries, such as semiconductors and photonics, can be applied to quantum technology development. As more professionals from these fields transition to quantum, they look forward to building the talent pool necessary to support this technology's growth.

To sum it up, quantum computing is on the cusp of making a huge impact, and we’re already seeing practical applications that can scale. With the right expertise and infrastructure will definitely reshape the quantum industries with new possibilities for future technological growth.