IonQ, a quantum computing firm, and the Korea Institute of Science and Technology Information (KISTI) have signed a Memorandum of Understanding to advance hybrid quantum-high efficiency computing applied sciences. The collaboration, revealed at NVIDIA GTC, will combine IonQ’s quantum {hardware} with KISTI’s current supercomputing infrastructure utilizing NVIDIA NVQLink, an open structure designed to attach quantum and classical methods. Researchers will give attention to simulating quantum algorithms and creating AI fashions to speed up quantum applied sciences, with the purpose of increasing South Korea’s nationwide quantum ecosystem. “The scale and scope of this alliance represents a powerful convergence of quantum, AI, and classical supercomputing expertise,” stated Niccolo de Masi, Chairman and CEO of IonQ. “By working with KISTI, we are seeking to create a pathway for South Korea to be a global leader in hybrid quantum-classical research.”
IonQ & KISTI Advance Quantum-HPC Hybrid Technologies
The collaboration, revealed at NVIDIA GTC, goals to speed up analysis into hybrid quantum-high efficiency computing (HPC) applied sciences, leveraging NVIDIA’s accelerated computing platforms to boost quantum capabilities. This effort focuses on constructing a complete ecosystem inside South Korea designed to push the boundaries of computational risk. The MOU outlines a phased strategy to integrating IonQ’s trapped-ion quantum {hardware} with KISTI’s current HPC infrastructure, using NVIDIA’s NVQLink open structure. This connection is meant to facilitate analysis and improvement on functions that demand each quantum and classical processing energy, together with the simulation of complicated quantum algorithms and the event of next-generation {hardware}. Beyond infrastructure, the settlement prioritizes the event of artificial intelligence fashions particularly designed to speed up quantum applied sciences, a vital step towards sensible software.
Jaegyoon Hahm, Director of Center for Quantum Computing Service at KISTI, emphasised the nationwide significance of this initiative. He stated, “This collaboration with IonQ and NVIDIA is a critical step in building a national quantum-HPC infrastructure that can solve the most complex scientific challenges,” indicating a strategic funding in future scientific capabilities. The partnership extends past analysis, encompassing mutual visits, workshops, and coaching applications to domesticate native quantum expertise and develop Korea’s quantum computing ecosystem. IonQ’s dedication to the Asia-Pacific area is additional demonstrated by current collaborations with SK Telecom, Hyundai Motor Company, and several other main tutorial establishments, solidifying its place as a key participant within the world quantum subject.
NVQLink Integration for Quantum Algorithm Simulation
The convergence of quantum and classical computing is quickly shifting from theoretical risk to sensible implementation, with a present emphasis on bridging the hole between the 2 paradigms by superior interconnectivity. While quantum computer systems promise exponential speedups for particular calculations, their utility is at the moment restricted by qubit depend, coherence occasions, and the necessity for classical management methods; due to this fact, hybrid architectures are rising as essentially the most viable path towards near-term quantum benefit. This open structure is designed to straight join quantum processors to GPU-based supercomputers, enabling considerably quicker knowledge switch and processing than conventional strategies. Joint analysis will give attention to simulating quantum algorithms, a computationally intensive process ideally suited to hybrid quantum-classical methods, and exploring functions for next-generation {hardware}. The purpose is to create a platform able to tackling complicated scientific challenges in areas like logistics, chemistry, materials science, and enormous language mannequin fine-tuning. IonQ’s current achievement of 99.99% two-qubit gate fidelity in 2025 underscores the corporate’s dedication to delivering high-performance quantum methods able to interfacing with superior classical computing platforms.
By leveraging NVIDIA AI and accelerated computing platforms alongside IonQ’s trapped-ion quantum methods, we’re guaranteeing that South Korean researchers and enterprises stay on the forefront of the quantum period.
Jaegyoon Hahm, Director of Center for Quantum Computing Service at KISTI
99% Two-Qubit Fidelity & Ecosystem Expansion
This isn’t merely a {hardware} integration; it’s a concerted effort to foster a complete quantum ecosystem inside South Korea, extending past analysis to incorporate expertise improvement and sensible functions. This enchancment issues as a result of increased constancy charges straight translate to extra dependable and sophisticated quantum computations, important for tackling real-world issues. KISTI’s involvement is essential, because the institute intends to make the most of the mixed quantum-HPC capabilities to deal with complicated scientific challenges. The MOU outlines a phased strategy, encompassing joint analysis, mutual visits, and workshops, all geared towards accelerating the sensible software of quantum computing globally.
This collaboration with IonQ and NVIDIA is a important step in constructing a nationwide quantum-HPC infrastructure that may remedy essentially the most complicated scientific challenges.
Jaegyoon Hahm, Director of Center for Quantum Computing Service at KISTI