Industry Committee on April 1st, 2022

The flavour of how that group of people is formed is very important. If it is simply a part-time job, staffed by people who have skin in the game, there is going to be squabbling over more funding for their own particular version of quantum and their own particular flavour.

The model that I would like to recommend is a team of people that is funded separately, independently and well. The salaries here are in the hundreds of thousands of dollars, but you need to have a team of people that the government could go to and say “Is this bid or this application warranted?” They can be the ones, for example, to choose external experts to do some due diligence.

It's the lack of due diligence, awareness and consulting capability within the government that means we have no single point to go to talk to. There's no team of people, and teams exist. They exist in the U.S. They exist in the U.K. They exist in Australia. I know all of them. I know the ones in Germany. I know the ones in France. There are none in Canada.

I can't even go and speak with a team of quantum experts who are paid by the government to be able to offer policy recommendations to the government. It should not necessarily be me and my part-time staff, or any of the other people around this table. Although we have our views, you need to have a team of independent experts who could navigate or help navigate the space. They're going to be expensive, and they're only going to be more expensive over time.

It's important that they have that independence and not currently wear another hat. Otherwise, you have that natural bias that creeps in, when people start to think territorially.

What I would say is that SR and ED takes this role and, if anything, there should be a quantum addition. It's phenomenal. It's absolutely how we can help to compete, but the only way we can ever match those kinds of salaries is for these companies to be able to raise that kind of capital. That capital can only be raised if we have contracts.

Thank you so much for the question. Governments are focusing on the research side of how to get the hardware systems bigger and better, because they want to be the first ones, as Steph has mentioned, to have a quantum computer inside their geography.

Where governments are not going is procuring and utilizing the technologies that are available today and helping to advance them. In Australia, you're looking at it for transportation. The army is looking at it for autonomous vehicle resupply. In Japan, they've looked at it for piloting and for tsunami evacuation route optimization, as well as how to reduce CO2 emissions during waste collection.

Canada does not have any focus on anything in the near term. If you were to ask if there are different quantum funds and foci out there, and what could be utilized to see benefits within the next one to five years, it might end up being a big zero. Governments can lean in and look at what they are doing for the near term, mid term and long term. That's the one to five years, five to eight years, eight to 10 years, and 10 years and beyond. That's where you're looking at the hybrid technologies that are out there, such as HPC and data centres. That's going to be critically important to navigate through.

There's also no supply chain domestically within Canada. We use superconducting chip fabrication. There is no domestic, commercial-sized superconducting chip fabrication plant in Canada. We have to use one in the United States.

I think we're doing a great job of attracting talent to Canada. Most of the best graduates in this space from Canadian universities have probably not been through Canadian elementary schools. I'm noticing that a lot of people come over after their undergrads to go to our grad schools, and they end up being some of the top graduates.

Attracting students is something that I think our universities are doing very well. It might be worth noting, for example, that a typical Mitacs intern might come and work at 1QBIT, with a starting salary—while they're part of the Mitacs program—at around, say $45,000 and slightly higher. These are the levels that grad students might expect to make as they're going through school. Within about two years, we find that these people are receiving offers at the equivalent of $200,000 Canadian and above to go and staff up many of the organizations around the world, in the United States, Australia, Singapore and Japan.

We understand that we're creating incredible value within these students as they go through the very end of their development process, but we are also investing in those students and making them significantly more valuable, so then retaining them is a nice problem to have. You're creating an investment in students that is making them much more valuable, but because they are much more valuable, they are also therefore more expensive. If you don't compensate them more, then they will be acquired by other organizations.

The important thing is recognizing that because having an opportunity to work at one of these companies is still the bottleneck for giving people industrial experience, once you have someone with that experience, they become tremendously valuable. Keeping them in the country at that point is really a matter of matching the new global standard of salaries that we're seeing emerge.

The things you can keep doing include investing in all of the things at the beginning of the talent pipeline. It seems that there is great work happening there, and things that can be incrementally improved on that front.

What might be something that we can start doing is thinking about the nuts and bolts of Canada's national quantum strategy. How do we define success? What does success look like there? Then, how do we make sure that we're going to be investing in the long term?

Compared to my colleagues here, I'm slightly less optimistic about the very short timelines around quantum computing, even though I'm very aligned in terms of the impact. My concern is that we can't have spikes of funding that then disappear and expect to retain people through that process. I would want to look at a 10-year program that has an understanding of how that scaling up of funding can grow with the organizations and whether we should see an acceleration of this process, to be able to understand that we would need to accelerate that funding, and also to recognize that this is something that's likely to play out over the next 100 years, even though it is just starting now and we can expect some tremendous development over the next decade.

Thank you for your question.

I was referring to the fact that we have to allocate double the resources to provide instruction and services to the entire student body in both official languages.

As far as funding applications are concerned, they can be submitted in the language of the applicant's choice.

I don't have any data on that, specifically, but I would encourage them to come to the University of Ottawa, where they can study in the official language of their choice.

Thank you for your question.

The answer is, yes, there is a lot of work being done in the energy field. E.ON, a German company, is looking at distribution of energy and how to put energy back onto the grid as you're driving an electric vehicle.

As I mentioned, in Japan they're looking at AI and are piloting quantum applications looking at waste collection and reducing CO2 emissions by 60%.

In the United States, there was just a workshop in the Office of Electricity, which D-Wave participated in, looking at a variety of areas where we could utilize quantum computing and quantum hybrid applications for energy.

So the short answer to your question is, yes, there are lots of places to look. We need to get the smart minds together to identify those. That's where a quantum sandbox could throw those questions out and start to develop answers coming in.

Absolutely. Yes. The Quantum Economic Development Consortium, the QED-C, was actually created by congressional law. It has industry, academia, the national labs and government. It's starting to open up its membership to other countries as well, and Canada is one of them.

You also have the Quantum Industry Coalition in the United States, which is a factor of quantum industry. Similarly, we have the quantum industry council in Canada, which Steph and I are both members of. There's also stuff in Japan with Q-STAR. Other consortiums and other think tanks are looking at this in Europe and in the U.K. as well.

We are very coordinated in our efforts. A lot of the focus is on exactly what's been discussed today. How do governments prepare? How do we actually utilize the technology today? How do we look at supply chains? How do we identify talent? What are the best ways in which to navigate?

I appreciate that. We are not members yet of the Canadian business council. However, it is on my list of things to look at. We have been focusing on quantum specifically, because a lot of the issues that these larger organizations tackle are above and beyond where quantum needs to focus.

Over the next year, at the end of 2022 and in 2023, I think those are the areas that a lot of these different quantum organizations are going to navigate into, especially with some use cases in the auto industry—which I'm happy to follow up on privately—of areas that auto manufacturers are looking at for PFAS as well as optimizing manufacturing floors.