Jason Lowery, a distinguished member of the U.S. Space Force, has called upon the Secretary of Defense to delve into the national strategic importance of Proof-of-Work (PoW) systems, with a particular emphasis on Bitcoin. Lowery suggests that these systems could play a pivotal role in fortifying national cybersecurity defenses and preventing cyberattacks that have become increasingly prevalent in the digital age.
As cybersecurity threats continue to evolve and escalate globally, the U.S. Space Force member argues that traditional methods of defense may no longer be sufficient.
Lowery singles out Bitcoin and its PoW system as a potential game-changer in the cybersecurity domain. The decentralized and distributed nature of Bitcoin’s blockchain, powered by PoW consensus, makes it an intriguing candidate for securing critical infrastructure. The U.S. Space Force member contends that by leveraging the computational power of the Bitcoin network, the nation can establish a formidable defense against cyber threats.
Lowery’s proposal envisions a groundbreaking transformation of the global electric power grid into what he refers to as a “macrochip.” This macrochip, in essence, would function as a massive and physically robust computer, utilizing the computational power of the entire electric power grid to counteract and constrain malicious actors in the digital realm. This, according to Lowery, could provide a robust defense mechanism for safeguarding a plethora of sensitive data and messages circulating across the internet.
Naturally, such a revolutionary proposal is met with skepticism. Critics question the practicality and feasibility of transforming the entire electric power grid into a macrochip. Lowery, however, is quick to counter these concerns, emphasizing that the macrochip concept aligns with the evolving landscape of technology and cybersecurity. He envisions a phased implementation, starting with critical infrastructure and gradually expanding to cover a broader spectrum.