Quantum Computing News

84-Qubit Quantum Cloud Service

South Korea Will Get 84-Qubit Quantum Cloud Service to Norma and Rigetti’s Partnership

The South Korean quantum technology business Norma Inc. and the American quantum computing startup Rigetti Computing have inked a Memorandum of Understanding (MOU). This important partnership aims to develop an 84-qubit quantum cloud service in South Korea. During the Q2B Tokyo 2025 conference, this partnership was announced.

The goal of this strategic partnership is to combine Norma’s proprietary software environment, called the Q Platform, with Rigetti’s quantum hardware. The final service is intended to provide cloud-based quantum program development and execution capabilities to South Korean consumers. As part of this service, Rigetti will make an 84-qubit quantum machine available.

Although Rigetti recently introduced the Ankaa-3 processor, the official release did not specifically identify the model of the 84-qubit system that Rigetti will supply to Norma. Another 84-qubit superconducting quantum processor is the Ankaa-3. It was created internally at Rigetti’s Fab-1 plant. According to technical disclosures, the median two-qubit gate integrity of the Ankaa-3 processor was 99.5%. Right now, Rigetti Quantum Cloud Services offers the Ankaa-3.

By integrating its hardware stack with well-known cloud platforms like Microsoft Azure and Amazon Braket, Rigetti has also been extending its global reach and establishing itself as a strong hardware partner for global expansion. Whether the Ankaa-3 will be the particular system used in the Norma integration has not been confirmed by the company.

Norma maintains its position as a middleware provider in the quantum computing ecosystem with this collaboration and others. Its objective is to increase South Korea’s access to quantum computing by utilising global hardware relationships. This strategy backs South Korea’s domestic initiatives to create a competitive quantum environment. A story claims that Rigetti will provide Norma access to the 84-qubit system in order to support it. This access will be integrated with Norma’s Q Platform.

One way to characterise Norma’s Q Platform is as a quantum software development environment. Its design prioritises making the design and implementation of quantum circuits simpler. It is designed to accommodate both novice and expert users. The platform has a visual programming interface and can be integrated with different hardware backends and quantum simulators. Through this MOU, Norma will act as an official partner to encourage the launch of Rigetti’s technology into the South Korean quantum market, according to Norma CEO Hyun Chul Jung. In a post, Mr. Jung mentioned that Norma signed a “surprise MOU” with Rigetti Computing while taking part in Q2B Tokyo 2025.

Similar MOUs have already been inked by Norma with other quantum businesses, such as Maybell Quantum and IQM Quantum Computers. Norma’s strategic emphasis on platform integration and interoperability over direct hardware development is shown in this trend. These collaborations imply that Norma intends to serve as a middleware provider, giving institutions, developers, and researchers access to a range of quantum backends via a single programming environment.

Given South Korea’s growing national interest in quantum technology, the timing of this joint announcement is very pertinent. The South Korean government has committed to making large investments in workforce development and quantum research. This strategy is anticipated to assist in reducing the barrier to experimentation and application creation for local users by incorporating national software platforms, such as Norma’s Q Platform, with international hardware capabilities, such as Rigetti’s 84-qubit system. This kind of global cooperation, which introduces cutting-edge quantum computing capabilities to the market, exemplifies South Korea’s recent initiatives.

This partnership also highlights the increasing significance of modular infrastructure in the global quantum stack. Software platforms like Norma’s Q Platform may be crucial in influencing user experience and acceptance in this broad field as quantum systems, which include various architectures including superconducting, trapped ion, and photonic systems, get increasingly varied.

Although the MOU makes it apparent that the goal is to use U.S. hardware capabilities in a locally controlled framework to operationalize cloud-based quantum computing for the South Korean market, specifics like deployment schedules and information about service access have not yet been made public. The collaboration, which was revealed at Q2B Tokyo 2025, is a step towards international collaboration in providing South Korea with easily available quantum computing resources.