Industry Committee on March 25th, 2022

Thank you. That's a very good question.

At present, there is every indication that we will succeed in creating a quantum computer. All our scientific and technological advances are leading us to that goal. Although it is a hard road and there are still a lot of advances to be made, we are not seeing any major obstacles. In recent years, we have gone from small devices to online devices that we can really make work, but there are still challenges to be overcome and work to be done.

Part of the national quantum strategy funds NSERC, the Natural Sciences and Engineering Research Council of Canada, which enables Canadian researchers to explore all sorts of approaches leading to quantum computers, to help them achieve that goal. I talked about strategic choices earlier. Canada could choose a few possible architectures and invest in those avenues. It is possible for Canada to make that choice without it being at the expense of broader exploration, which is needed, thanks to the investments already announced for NSERC.

I am happy to offer some thoughts on that. Yes, as Dr. Blais said, we are confident that quantum computing will come, and there are studies as well from the Global Risk Institute that tell you a little bit about what we in the community are thinking and what the timelines are.

It's very important to understand that the benefit from quantum computing/quantum information is not only the quantum computer itself. Already today, the quantum industry's acting on all aspects. If you have a quantum computer, you need to know what to use it for. That is some of what I said about the medium-term benefit, as well as our going and building up the small-scale or noisy quantum computers—or you wonder what they can be doing. There is already today the interaction between industry and academia to figure out what we can use those things for. As well, that is already a small part the industry. It's not only the quantum computer itself.

That is in addition to the spinoffs of technology for centres and so on—

Okay.

I'll provide very brief input on that. One thing is that the technology on which quantum computers will be based is not necessarily the same technology on which today's conventional computers are based. When you talk about today's semiconductor industry, that's not necessarily what we need for the quantum computer.

That is my short input.

Thank you for the comment and question.

I won't go into strategic choices again, since I have already said enough about that, but there are several points that I could make. One issue I would like to go back to is talent, which is essential. There is the technology, which we have talked about, but there have to be people to create it. The number of people we are training is not very high, as compared to what would be needed. In addition, those few people are immediately hired by companies at the international level. I have students who are approached by multiple companies just a year after starting their doctorates, asking what they will be doing once they get their diplomas. We are in a funny situation.

We have to keep these people. To do that, we have to create an ecosystem of enterprises. I am talking about the budding talent we create here and enterprises we attract. To create new talent, I don't believe the best approach is to ask professors to create an enterprise. If a professor creates a company, they create one and it's over. If the professor leaves to devote themself to their enterprise, then we lose an important channel for students.

Encouraging our students to start their own companies is really a winning formula, to my mind. There are probably some components missing for doing that. In Canada, investors are more timid when it comes to investing in initiatives that call for a long-term investment. The first years, the period when students go from university to a company the size of D-Wave, which we talked about, are critical. I think the national strategy has a role to play in that regard.

At present, the companies working in the quantum field in Canada do participate in worthwhile collaboration with the academic community. That is not the case for all companies, but some of the budding talent companies that have just started up simply have no choice but to work closely with academics. The research they are doing comes out of what is being done in the universities and is really pretty fundamental.

In all honesty, I don't think working in a vacuum is a problem in the quantum field, although it does happen, I agree, in other fields.

I think the innovation zone in quantum sciences and technological applications that has just been announced in Sherbrooke is a good example. It is based on research excellence and local expertise, quantum Sherbrooke in this case, and on investments. These will help students start up their companies and will also encourage companies from outside to come to the Sherbrooke region. The idea is that it will become a much more natural route for our students. Of course, things were extremely difficult for the first student who created an innovative company in Sherbrooke, but they were a little less difficult for the second.

In this ecosystem, we need an assembly of talent to move from quantum science to quantum technology. As well, we have to generate a lot of attraction at the international level. People have to have the feeling that Sherbrooke, in this case, and Canada, more generally, offer them a multitude of possibilities. People have to think that if it should happen not to work out—because young buds are sometimes born and then die—at least three other opportunities are offered to them, because a multitude of other things are going on in that region.

These investments are therefore crucial.

Actually, that will be next week. After this meeting I'm heading to the airport and flying off to Abu Dhabi. There, I'm working with New York University's Abu Dhabi campus, and the idea is to do a hackathon. It's called “Hackathon for Social Good in the Arab World”. I'm going as the quantum computing expert for it.

The hackathon brings in software engineers, computer scientists, people who want to build apps or APIs, just things that can go on your phone. The idea is to do what I think a lot of people at this meeting are caring about: to look at how is quantum computing going to fit into practical applications.

I help a lot in these things. Next week I'm a guest speaker, but also a mentor and enabler. The idea is that we want to take what quantum computing can do today.... And I just want to be a little bit clear here: Quantum computing is a long-term effort, but there's an area called “quantum-inspired computing”, which is where we say, what would a quantum computer be good at, and if we simulate a quantum computer today, could the benefits of the future come around today? Basically, thinking about what a quantum computer will do in the future inspires us to invent new algorithms today, like in optimization areas.

Part of what we're doing next week in Abu Dhabi is that I'll be looking at what the inspiration of quantum computing is doing to drive new algorithms and how to incorporate those new algorithms into apps. Then I'll bring in some of my students from Calgary, and we're doing things like basically flight management. We're working on problems like developing apps so that countries can minimize global temperature rise, and we call that the “objective function”. We're trying to find ways to say, given takeoffs and landings, altitudes, how do we minimize the global temperature rise, and we're doing it all with quantum-inspired computing.

Thanks for asking. That's what I love, and it just turns out that Abu Dhabi is the first place launching a hackathon of that type, so I'm helping them.

There's no official connection between Canada and what's going on in Abu Dhabi. It is a New York University Abu Dhabi campus thing. I'm the lead mentor and pushing it forward, so by my association Canada has a strong presence in this activity.

This is really breaking new ground. As you said, there are grocery apps and all these kinds of things, and we really want to find ways to make quantum computing matter now, and engage the software community. A lot of this is really physicist and computer-scientist driven, but we really want to engage the software community better.

I look at this activity in Abu Dhabi as an experiment on my part. I'm going there and I'll learn a lot. I'm hoping with what I experience there and what successes I see there, I can bring back to Canada and we can start developing a lot more focus on the software side and using quantum inspiration to solve today's problems.