Researchers have achieved record-breaking qubit stability, marking a major leap toward practical quantum computers and unlocking new possibilities in cryptography, chemistry, and AI.
AI is rapidly accelerating quantum computing research, turning fragile qubits into practical powerhouses and opening a path to solve problems beyond classical computers.
AI-powered mental health apps are reshaping therapy with 24/7 support, personalized care, and data-driven insights while raising important questions about ethics and privacy.
A new quantum algorithm dramatically accelerates early-stage drug discovery, promising faster, cheaper cures and reshaping how scientists search for life‑saving medicines.
Scientists unveil a quantum algorithm that slashes computation times for complex problems, edging past the limits of classical methods and hinting at a new era of computing.
A new quantum processor design achieves stable operation at room temperature, removing the need for extreme cooling and opening a path to practical quantum computing.
A new quantum algorithm challenges today’s encryption, promising stronger data security while forcing governments, banks, and businesses to rethink cryptography for the quantum era.
AI is transforming quantum computing, speeding up algorithm design, error correction, and simulation to tackle problems too complex for today’s supercomputers.
From 1,000+ qubit processors to early error-corrected systems, 2025 is redefining quantum computing and unlocking real-world applications across industries.
AI-powered code generators are reshaping how developers build software, speeding up delivery, reducing bugs, and opening the door to a new era of intelligent tooling.