IBM Launches $100 Million Partnership with Global Universities to Develop Novel Technologies Towards a 100,000-Qubit Quantum-Centric Supercomputer
Landmark 10-year partnerships with the University of
IBM Quantum milestones to lay foundation for integration of large-scale classical and quantum systems
Collaborations will develop detailed blueprint to pioneer quantum-centric supercomputing
Quantum-centric supercomputing is an entirely new, and as of now, unrealized, era of high-performance computing. A 100,000-qubit system would serve as a foundation to address some of the world's most pressing problems that even the most advanced supercomputers of today may never be able to solve.
For example, such a powerful quantum system could unlock entirely new understandings of chemical reactions and the dynamics of molecular processes. In turn, this could enable researchers to help study climate change through modeling better methods to capture carbon; discover materials to build batteries for electric vehicles and energy grids towards the goal of being cleaner and more sustainable; and uncover more effective and energy-efficient fertilizers.
To usher in this powerful new paradigm, a global collaboration and an activation of talent and resources across industries and research institutions is being initiated. By partnering with the University of
Moving forward, IBM intends to expand these partnerships to include Argonne National Laboratory and Fermilab National Accelerator Laboratory, both of which are members of the Chicago Quantum Exchange and home to two respective Department of Energy quantum hubs. Importantly, the two laboratories offer capabilities and expertise that can facilitate delivering the technologies envisaged in the race to build a quantum-centric supercomputer.
"Over the past several years, IBM has been at the forefront of introducing quantum technology to the world," said Arvind Krishna, Chairman and CEO, IBM. "We have achieved significant progress along our roadmap and mission to globally establish useful quantum technology, so much so that we can now, with our partners, truly begin to explore and develop a new class of supercomputing anchored by quantum."
"Achieving breakthroughs at scale in quantum technology requires deeply rooted and productive collaboration around the world and across a broad range of industry, academic, and government partners," said Paul Alivisatos, President of the University of
"We expect our partnership will lead to scientific breakthroughs, acceleration of the adoption of quantum computing for the coming era, and active engagement into the critical societal challenges of humanity. We also aim to contribute to the realization of a better future society by nurturing diverse talents," said Dr. Teruo Fujii, the President of the University of
Building the Blocks of Quantum-Centric Supercomputing
The plans for this quantum-centric supercomputer are expected to involve innovations at all levels of the computing stack, and encompass the convergence of the fields of quantum computing and quantum communication, as well as the seamless integration of quantum and classical workflows via the hybrid cloud.
Because such a computer has never been made before, the first step will be to lay out a blueprint. The design will have to integrate classical computers and quantum computers – a challenging task to date – as well as break new ground in quantum communication and computing technology.
The foundation of this system will include milestones IBM has already outlined on its Quantum Development Roadmap. This includes the ability to scale and connect growing numbers of quantum processors through quantum interconnects, as well as technology to mitigate errors to fully harness noisy yet powerful quantum processors.
By the end of 2023, IBM intends to debut three cornerstones of its necessary architecture for quantum-centric supercomputers. One is the new 133-qubit 'IBM Heron' processor. This processor is a complete redesign of IBM's previous generations of quantum processors, with a new two-qubit gate to allow higher performance. It will also be compatible with future extensions to enable modular connected processors to grow the size of the computer.
The second is the introduction of IBM Quantum System Two. The new flagship system is designed to be modular and flexible to introduce elements of scaling in its underlying components, including classical control electronics and high-density cryogenic wiring infrastructure. This system is targeted to be online by the end of 2023.
The third is the introduction of middleware for quantum, a set of tools to run workloads on both classical and quantum processors. This includes tools for decomposing, parallel execution, and reconstructing workloads to enable efficient solutions at scale.
Over the next decade, IBM plans to work with university partners and its worldwide quantum ecosystem to evolve how its quantum processors can be connected via quantum interconnects. This work will aim to enable high-efficiency, high-fidelity inter-processor quantum operations and a reliable, flexible, and affordable system component infrastructure to allow scaling to 100,000 qubits.
IBM's collaboration with the University of
In conjunction with IBM, researchers at the University of
For more about the path to a 100,000-qubit quantum-centric supercomputer, read the IBM Research blog.
Statements regarding IBM's future direction and intent are subject to change or withdrawal without notice and represent goals and objectives only.
About IBM
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