QuantWare Unveils VIO Technology for Scalable 100+ Qubit Devices

QuantWare, a leading provider of quantum hardware and QPU scaling technologies, has introduced its VIO technology to its Foundry Services, enabling the fabrication of 100+ qubit devices for its customers. This breakthrough allows companies to scale their design IP to large QPU sizes, solving the industry’s scaling challenges. The VIO scaling platform, developed by QuantWare, enables rapid scaling of quantum processors and drastically reduces crosstalk. Matthijs Rijlaarsdam, CEO of QuantWare, described VIO as “the missing link in scaling up QPUs,” stating that it will help customers scale their designs quickly. The company’s Foundry Services also offer post-fabrication frequency trimming and packaging for these large-scale devices as an option. This development is a significant step forward in the field of quantum computing, paving the way for systems with over 1 million qubits.

Scaling Quantum Processors: QuantWare’s VIO Technology

Quantum computing has made significant strides in recent years, but one of the major hurdles to widespread adoption is the ability to scale up quantum processors (QPUs) while maintaining their performance and reducing errors. To address this challenge, QuantWare, a leading provider of quantum hardware and QPU scaling technologies, has introduced its VIO technology to its Foundry Services. This move enables any company to design and fabricate large-scale QPUs with over 100 qubits.

The VIO scaling platform, developed by QuantWare, allows for rapid scaling of QPUs while drastically reducing crosstalk, a major issue in current QPU designs. By offering VIO in its Foundry Services, QuantWare provides customers with the ability to scale their design IP to large QPU sizes. The company’s proprietary 3D chip architecture is key to solving the scaling bottlenecks faced by the industry.

The first generation of VIO, called VIO-176, allows customers to design QPUs with up to 176 signal lines, providing space for more than 100 qubits in a single QPU. This technology is the same as that used in QuantWare’s 64-qubit Tenor QPU, which is currently available to Early Access partners. The company’s foundry services enable the fabrication of high-quality devices with T1 Transmons exceeding 100μs, junction yields of over 99%, and precise junction targeting with less than 2% spread.

Enabling Large-Scale Quantum Computing

The introduction of VIO technology to QuantWare’s Foundry Services marks a significant milestone in the development of large-scale quantum computing. By providing customers with access to this scaling platform, QuantWare is enabling the creation of QPUs that can tackle complex problems in fields such as chemistry, materials science, and optimization.

QuantWare’s CEO, Matthijs Rijlaarsdam, emphasized the importance of VIO technology in scaling up QPUs, stating that it is “the missing link” in achieving this goal. The company’s strategy is to build on its strong market position in fully packaged products to make VIO technology the go-to scaling platform for customers.

Overcoming Scaling Challenges

Current QPUs face several scaling bottlenecks, including crosstalk, limited signal lines, and reduced yields. QuantWare’s VIO technology addresses these challenges by providing a proprietary 3D chip architecture that enables rapid scaling of QPUs while maintaining their performance.

The company’s foundry services also provide post-fabrication frequency trimming and packaging for large-scale devices as an option. This comprehensive approach ensures that customers can design, fabricate, and deploy high-quality QPUs with minimal errors and maximum performance.

The Future of Quantum Computing

QuantWare’s introduction of VIO technology to its Foundry Services is a significant step towards achieving the company’s vision of unlocking the fastest path towards systems with over 1 million qubits. By providing customers with access to this scaling platform, QuantWare is enabling the development of large-scale quantum computers that can tackle complex problems in various fields.

As the quantum computing industry continues to evolve, the ability to scale up QPUs while maintaining their performance will be critical to achieving widespread adoption. With VIO technology, QuantWare is well-positioned to play a leading role in shaping the future of quantum computing.