India’s digital infrastructure requires urgent modernization and stronger cybersecurity preparedness to remain secure in the era of quantum computing, according to Dr. Amith Singhee, Director of IBM Research India. Speaking about the rapid evolution of quantum technologies, Singhee emphasized that organizations and governments must begin transitioning toward a quantum-safe ecosystem before current encryption systems become vulnerable to future quantum-powered attacks.
During the discussion, Singhee stated that the industry is expected to witness quantum advantage in at least one problem area this year, marking a significant milestone in computing innovation. Quantum advantage refers to a stage where a quantum computer can solve a specific problem faster or more efficiently than traditional classical computers, potentially transforming industries such as healthcare, logistics, finance, materials science, and cybersecurity.
He highlighted that while quantum computing presents enormous opportunities, it also introduces major security concerns for existing digital systems. Current encryption standards that protect banking networks, government databases, enterprise systems, and digital communications could eventually become susceptible to advanced quantum capabilities if organizations fail to prepare in time.
Singhee stressed that India must proactively adopt post-quantum cryptography and quantum-resilient security frameworks to safeguard its expanding digital ecosystem. With the country rapidly scaling digital public infrastructure, cloud adoption, AI deployment, and connected services, the need for long-term cybersecurity readiness is becoming increasingly critical.
The remarks come amid growing global efforts by governments and technology companies to prepare for the next phase of computing transformation. Several countries and enterprises are already investing in quantum research, secure encryption standards, and advanced computing capabilities to address both the opportunities and risks associated with quantum systems.
Industry experts believe that transitioning to a quantum-safe environment will require coordinated efforts across public institutions, enterprises, researchers, and technology providers. The shift is expected to involve upgrading encryption standards, strengthening digital infrastructure, and developing secure communication frameworks capable of resisting future quantum-based threats.
As quantum computing moves closer to real-world implementation, the conversation around cyber resilience, secure infrastructure, and future-ready digital systems is expected to become increasingly central to global technology and national security strategies.
