Quanta partners with Rigetti for quantum advancements

Quanta Computer, a Taiwanese server maker, is making strategic moves to position itself at the forefront of the future of computing systems. The company has announced a significant investment of $35 million in Rigetti Computing, a pioneer in the field of quantum computing. This investment is part of a collaboration agreement aimed at helping Rigetti scale up the size of its quantum computing systems, signaling a major step forward in the development of quantum technologies.

As Quanta forges ahead with its investment in Rigetti, its rival Foxconn is also making strides in the quantum computing space. Foxconn is actively developing its own trapped ion quantum technology, highlighting the intense competition and innovation taking place in the industry. The race to achieve breakthroughs in quantum computing is heating up, with major players like Quanta and Foxconn vying for leadership positions in this cutting-edge field.

Dr. Subodh Kulkarni, CEO of Rigetti Computing, expressed enthusiasm about the collaboration with Quanta, emphasizing the synergies between the two companies. He stated, “Quanta’s world-leading expertise in notebook and server manufacturing, combined with Rigetti’s pioneering work in superconducting quantum computing, positions us at the forefront of the quantum computing industry.” This partnership is expected to drive advancements in quantum computing technology and pave the way for future innovations.

The investment by Quanta in Rigetti signifies a significant milestone in the maturation of the quantum computing industry, with a focus on preparing for mass production. Rigetti has ambitious plans to launch a 100-qubit system, named Ankaa-4, by the end of 2025, underscoring the rapid progress being made in quantum computing research and development. The collaboration between Quanta and Rigetti is poised to accelerate the commercialization of quantum technologies and bring them closer to mainstream adoption.

Rigetti is spearheading a consortium with a funding of $5.48 million to advance its Alternating-Bias Assisted Annealing (ABAA) manufacturing technique, aimed at reducing defects in superconducting qubits. The consortium includes esteemed institutions such as Iowa State University, the Royal Melbourne Institute of Technology, the University of Connecticut, and Lawrence Livermore National Laboratory. Dr. Kulkarni highlighted the importance of this project in enhancing the performance and scalability of superconducting qubits, stating, “Deepening our understanding of superconducting qubit defects will enable us to further enhance the speed and scalability of our systems, positioning us for continued success in the quantum computing industry.”