“Ultimately the goal is to minimize the number of wires into the fridge,” says Jim Clarke, director of quantum hardware at Intel. “Intel recognized that quantum controls were an essential piece of the puzzle we needed to solve in order to develop a large-scale commercial quantum system.” The solution is to bring as many of the control and readout electronics into the fridge, perhaps even integrating them onto the qubit chip itself.
Horse Ridge integrates control electronics onto a chip meant to operate inside the fridge with the qubit chip. Horse Ridge is programmed with instructions that correspond to basic qubit operations. It translates those instructions into microwave pulses that can manipulate the state of the qubits.
The chip is designed to work at 4 kelvins, a slightly higher temperature than the qubit chip itself. The company used its 22-nanometer FinFET process to build the chip, though the transistors that make up the control circuitry needed substantial reengineering.
“If you take a transistor and cool it to 4K, it’s not a forgone conclusion that it will work,” says Clarke. “There are a lot of fundamental characteristics of devices that are temperature dependent.”
The Intel team had to characterize how devices at that temperature switch on and off. And they had to use the model they developed to re-optimize the devices’ speed, performance, and power consumption under cryogenic conditions. The devices themselves had to be designed to throw off so little heat that they won’t disturb the delicate condition of the qubits. “Any little bit of heat and you scramble the information,” he says.
According to Clarke, Horse Ridge is a particularly important development, because it helps pave the way for the company’s next-generation qubit technology, called silicon spin qubits. These qubits resemble transistors in structure and have the potential to operate at 1 kelvin instead of the millikelvins needed for the superconducting qubits Intel and other have been using. That difference could mean that more control and readout electronics can be place inside the refrigerator with the qubit chip, because they can throw off more heat without the disturbing the qubits.
As Intel and Delft further develop the technology, they eventually hope to integrate more capabilities onto Horse Ridge and eventually integrate those onto the qubit chip itself.
Other companies with big quantum computing efforts are working on the same problem, of course. Google described a cryogenic control circuit earlier this year for its machine.
Source: IEEE Semiconductors