IBM has introduced a reference architecture for integrating Quantum Processing Units (QPUs) into high-performance computing environments, marking a significant step towards quantum-centric supercomputing. This modular framework outlines how QPUs, GPUs, and CPUs can work together seamlessly to tackle complex computational challenges in fields like chemistry and materials science. By establishing a unified stack, the reference architecture enables the efficient deployment of quantum computing resources, paving the way for breakthroughs in various disciplines. The release of this framework is particularly noteworthy as it underscores the growing importance of post-quantum cryptography (PQC) planning, with IBM's advancements narrowing the timeline for cryptographic migration1. This development matters to practitioners as it heightens the urgency for organizations to prepare for the impending transition to quantum-resistant cryptographic protocols, ensuring the long-term security of their data and systems.