CEA-Leti Team Paves the Way for Massive Integration of Qubits, Critical for Achieving Quantum Supremacy

 

GRENOBLE, France – Feb. 4,  2021 – CEA-Leti scientists have opened a pathway to large-scale integration of Si-spin qubits using existing flip-chip processes with die-to-wafer 3D-interconnect technologies developed in-house.  

In a paper presented during the 2020 Electronics System-Integration Technology Conference (ESTC), the team reported preliminary electrical characterizations at cryogenic temperatures of chip assemblies made with 3D interconnects  such as SnAg microbumps and direct Cu bonded pads from Cu/SiO2 hybrid bonding process. The paper, “Die-to-Wafer 3D Interconnections Operating at Sub-Kelvin Temperatures for Quantum Computation”, was awarded a best paper award during the virtual event.

The project also marked the first time a packaging strategy of quantum devices has been demonstrated with interconnects compatible with large-volume production without the use of indium bumps. Indium bump interconnects are indeed nominally used for applications requiring cryogenic temperatures, such as infrared detectors and, more recently, superconducting qubits. The softness of indium accommodates the mechanical stress created by temperature variation. Fully operational quantum multi-chip assemblies hosting superconducting qubits have even recently been demonstrated by Google and MIT researchers using indium bumps.

Compatible with CMOS Technology

Qubits, the building blocks of quantum information, can be made in a broad variety of material systems. But when it comes to the crucial issue of large-scale integration, the range of possible choices narrows significantly. Silicon-spin qubits have a small size and are compatible with CMOS technology. They therefore present advantages for large-scale integration compared to other types of qubits.

“For Si-spin qubits, which are the focus of the Quantum Silicon Grenoble project, there are no strong superconducting requirements for the integration and packaging strategies and so for the choice of the interconnects,” said Candice Thomas, one of the authors of the paper. “The material constraints are less important than for superconducting qubits, thus a wider range of interconnects can be envisioned, such as SnAg microbumps and directly bonded Cu pads from Cu/SiO2 hybrid-bonding processes. SnAg microbumps have the advantage of being widely used in the 3D IC community, and the processes to fabricate them are well known at CEA-Leti with a state-of-the-art pitch as low as 20µm. The motivation to study Cu/SiO2 hybrid bonding lies in its high-resolution potential with a pitch as low as 1µm demonstrated at the institute with a wafer-to-wafer process.”

Achieving Quantum Supremacy

“The reliable operation of these interconnect technologies offers two additional options to hybridize chips with flip-chip processes for quantum computing or any other applications requiring cryogenic temperatures,” Thomas said. “SnAg microbumps and direct Cu bonded pads could be used for different parts of future quantum device packages, depending especially on the needs in terms of pitch and on the type of chips to connect.

“This new packaging approach, designed for quantum-chip integration, paves the way for the large-scale integration of qubits, which is necessary to achieve quantum supremacy,” Thomas continued. “Direct bonding will allow us to go a step further in the large-scale integration strategy of Si-spin qubits.”

Achieving quantum supremacy, i.e. demonstrating that a programmable quantum device can solve a problem that no classical computer can solve in any feasible amount of time, requires large-scale integration of quantum bits through 3D architectures functional at sub-Kelvin temperatures.

The CEA-Leti team’s next steps are to use these 3D interconnect technologies to hybridize a chip with qubits to a multichip module and to verify that the interconnects themselves and the associated interconnect fabrication and stacking processes are not affecting or damaging qubit properties.

About CEA-Leti (France)

Leti, a technology research institute at CEA, is a global leader in miniaturization technologies enabling smart, energy-efficient and secure solutions for industry. Founded in 1967, CEA-Leti pioneers micro-& nanotechnologies, tailoring differentiating applicative solutions for global companies, SMEs and startups. CEA-Leti tackles critical challenges in healthcare, energy and digital migration. From sensors to data processing and computing solutions, CEA-Leti’s multidisciplinary teams deliver solid expertise, leveraging world-class pre-industrialization facilities. With a staff of more than 1,900, a portfolio of 3,100 patents, 10,000 sq. meters of cleanroom space and a clear IP policy, the institute is based in Grenoble, France, and has offices in Silicon Valley and Tokyo. CEA-Leti has launched 65 startups and is a member of the Carnot Institutes network. Follow us on www.leti-cea.com and @CEA_Leti.

Technological expertise

CEA has a key role in transferring scientific knowledge and innovation from research to industry. This high-level technological research is carried out in particular in electronic and integrated systems, from microscale to nanoscale. It has a wide range of industrial applications in the fields of transport, health, safety and telecommunications, contributing to the creation of high-quality and competitive products.

For more information: www.cea.fr/english 

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