Rigetti Computing Q3 2025 Earnings Call Transcript

Quartr
Provided by Quartr
November 11, 2025

Key Takeaways

  • Positive Sentiment: Management outlined an accelerated roadmap targeting delivery of a chiplet-based >100‑qubit system with ~99.5% median 2‑qubit gate fidelity by end‑2025, a 150+ qubit system at ~99.7% by ~end‑2026, and 1,000+ qubits at ~99.8% by ~end‑2027 toward eventual quantum advantage.
  • Positive Sentiment: Company announced commercial traction including ~$5.7 million in purchase orders for two 9‑qubit Novera systems and a three‑year, $5.8 million AFRL contract (with Q‑FOX) to advance superconducting‑to‑optical quantum networking, expected to contribute revenue in Q4 and into 2026.
  • Negative Sentiment: Q3 results showed headwinds: revenue fell to $1.9M (from $2.4M YoY), gross margin dropped to 21% (vs. 51% prior year) due to contract mix, OpEx rose to $21M, and operating loss widened to $20.5M despite an improved non‑GAAP net loss of $10.7M.
  • Positive Sentiment: Balance sheet strength: cash, cash equivalents and available‑for‑sale investments were ~$558.9 million at 9/30/25 and rose to ~$600 million after subsequent warrant exercises, with no debt, providing runway and optionality for execution or strategic actions.
  • Neutral Sentiment: Longer‑term scaling may require significant CapEx: current Fremont fab should support the 2026–2027 roadmap, but management flagged potential need for an 8"/12" fab (hundreds of millions of dollars) or foundry partnerships to reach >99.9% fidelity and multi‑thousand qubit scale.
AI Generated. May Contain Errors.
Earnings Conference Call
Rigetti Computing Q3 2025
00:00 / 00:00

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Operator

Good day, and thank you for standing by. Welcome to the Rigetti Computing Third Quarter 2025 Financial Results conference call. At this time, all participants are in listen-only mode. After this speaker's presentation, there will be a question-and-answer session. To ask a question during this session, you will need to press star one one on your telephone. You will then hear an automated message advising your hand is raised. To withdraw your question, please press star one one again. Please be advised that today's conference is being recorded. I would now like to hand the conference over to your first speaker today, Dr. Subodh Kulkarni, CEO. Please go ahead.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Good morning, and thank you for participating in Rigetti's earnings conference call covering the third quarter ended September 30th 2025. Joining me today is Jeff Bertelsen, our CFO, who will review our results in some detail following my overview. Our CTO, David Rivas, is also here to participate in the Q&A session. We will be pleased to answer your questions at the conclusion of our remarks. We would like to point out that this call and Rigetti's third quarter ended September 30th 2025 press release contain forward-looking statements regarding current expectations, objectives, and underlying assumptions regarding our outlook and future operating results.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

These forward-looking statements are subject to a number of risks and uncertainties that would cause actual results to differ materially from those described and are discussed in more detail in our Form 10-K for the year ended December 31st 2024, our Form 10-Q for the three and nine months ended September 30th 2025, and other documents filed by the company from time to time with the Securities and Exchange Commission. These filings identify and address important risks and uncertainties that could cause actual events and results to differ materially from those contained in the forward-looking statements. We urge you to review these discussions of risk factors. During today's call, we will refer to certain non-GAAP financial measures.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

For details on these measures and reconciliations to comparable GAAP measures, and for further information regarding the factors that may affect Rigetti's future operating results, please refer to yesterday's earnings release on Rigetti's website at investors.rigetti.com or to the 8-K furnished with the SEC yesterday after the close. Today, I'm pleased to report that during this past quarter, we saw strong momentum with both the demand for our on-premises quantum computers and the development of collaborations to advance our own R&D and the quantum ecosystem more broadly. On the technology front, we remain on track to deliver our 100+ qubit chiplet-based quantum system with an anticipated 99.5% median two-qubit gate fidelity by the end of 2025. I'm also excited to share our 2026-2027 roadmap updates. We expect to deploy a 150-plus qubit system by or around the end of 2026 with an anticipated 99.7% median two-qubit gate fidelity.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

By or around the end of 2027, we expect to deploy a 1,000+ qubit system with an anticipated 99.8% median two-qubit gate fidelity. In September 2025, we announced purchase orders totaling approximately $5.7 million for two 9-qubit Novera quantum computing systems. Both systems are upgradable, allowing the customers to increase the system qubit count for more complex computations and research. One system is being purchased by an Asian technology manufacturing company. The system will serve as a testbed to develop internal quantum computing expertise. They also plan to benchmark and validate their own quantum computing technologies with the Novera system. The other system is being purchased by a California-based applied physics and artificial intelligence start-up. The system will be used for quantum hardware and error correction research.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Our open and modular architecture continues to allow us to integrate innovative solutions with our technology stack, including our project with QphoX and the Air Force Research Laboratory, or AFRL, to advance superconducting quantum computer networking. In September 2025, we announced a three-year, $5.8 million contract from AFRL to advance superconducting quantum networking. Rigetti will be collaborating with QphoX on the project, a Dutch quantum technology start-up developing leading frequency conversion systems for quantum applications. A key challenge to networking superconducting quantum computers is the need to convert the microwave signals, which are used to control superconducting qubits, to optical photons that can travel along those fibers. This project aims to deliver systems providing entanglement between superconducting qubits and optical photons, the essential building block of quantum networking.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Our new collaborations with the Centre for Development of Advanced Computing, or C-DAC, and Montana State University showcase the increasing maturity of the quantum computing ecosystem. MSU is the first academic institution with an on-premises Rigetti quantum computer in 9-qubit Novera QPU, which will be used by researchers to advance quantum computing R&D. We intend to work with MSU on a variety of initiatives, including research projects related to quantum hardware and hybrid quantum systems, and co-development and testing of enabling quantum technologies and quantum system components. Collectively, these initiatives underscore the importance of public-private partnerships in advancing next-generation quantum technologies. We also signed a memorandum of understanding with C-DAC, India's premier R&D organization of the Ministry of Electronics and Information Technology. With this MOU, Rigetti and C-DAC intend to collaborate on the design and development of hybrid quantum computing systems and related technologies and bring them to market.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

We are proud to be deepening our support for quantum computing capabilities in the academic and government sectors. We are equally excited to support NVIDIA NVQLink, NVIDIA's new open platform for AI supercomputer quantum integration. By providing low-latency and high-throughput integration between quantum hardware and AI supercomputing, NVQLink is a very promising resource to accelerate hybrid computation development on the path towards quantum advantage. We remain engaged with the Defense Advanced Research Projects Agency, or DARPA, on stage A of the Quantum Benchmarking Initiative, or QBI project. On November 6th, DARPA announced the companies initially selected to participate in phase B of the QBI project. Although we were not selected at this time for phase B, we received constructive feedback regarding our proposal and will continue to work with their team. We are optimistic that we will be chosen for phase B in the coming months.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Lastly, I'm also pleased to share that Rigetti plans to open an Italian subsidiary in the coming months. We believe that this development will allow us to accelerate our pursuit of business opportunities and talent in Italy, as the region dedicates more resources and funding to bolstering its quantum initiatives. Thank you. Jeff will now make a few remarks regarding our recent financial performance.

Jeff Bertelsen
Jeff Bertelsen
CFO at Rigetti Computing

Thanks, Subodh. Revenues in the third quarter of 2025 were $1.9 million, compared to $2.4 million in the third quarter of 2024. On a year-over-year basis, our revenue for the quarter was impacted by expiration of the National Quantum Initiative and its pending reauthorization in the U.S. Congress. Renewal of the U.S. National Quantum Initiative, sales to U.S. and foreign governments, and Novera are all important to future sales. The recent sales, Subodh noted in his remarks, the two 9-qubit Novera system sales and the AFRL contract will benefit revenue in the fourth quarter and as we move into 2026. Gross margins in the third quarter of 2025 came in at 21%, compared to 51% in the third quarter of 2024. The lower gross margins on a year-over-year basis was due to the composition of our revenue and variability in the pricing in terms of our contracts.

Jeff Bertelsen
Jeff Bertelsen
CFO at Rigetti Computing

Our recent contracts with the U.K.'s National Quantum Computing Centre for Quantum Systems have a lower gross margin profile than most of our other contracts. On the expense side, total OpEx in the third quarter of 2025 was $21 million, compared to $18.6 million in the same period of the prior year. The increase in total OpEx was due to annual salary increases, new hires, and higher stock-based compensation and consulting costs, primarily in research and development. Stock compensation expense for the third quarter of 2025 was $4.3 million, compared to $3.4 million for the third quarter of 2024. Our operating loss for the third quarter of 2025 came in at $20.5 million, compared to $17.3 million in the prior year period.

Jeff Bertelsen
Jeff Bertelsen
CFO at Rigetti Computing

Our GAAP net loss for the third quarter of 2025 was higher than our GAAP net loss for the third quarter of 2024, primarily due to the non-cash change in the fair value of our derivative warrant and earn-out liabilities. We recorded a $10.7 million, or $0.03 per share, non-GAAP net loss for the third quarter of 2025, compared to a $13.4 million, or $0.07 per share, non-GAAP net loss for the third quarter of 2024. As of September 30, 2025, we had approximately $558.9 million of cash, cash equivalents, and available for sale investments and no debt. Subsequent to September 30, 2025, and through November 6th 2025, proceeds of $46.5 million were received from the exercise of slightly more than $4 million of our public warrants. As of November 6th 2025, cash, cash equivalents, and available for sale investments totaled approximately $600 million. Thank you. We would now be happy to answer your questions.

Operator

Thank you. At this time, we'll conduct the question-and-answer session. As a reminder, to ask the question, you'll need to press star one one on your telephone and wait for your name to be announced. To withdraw your question, please press star one one again. Please stand by while we compile the Q&A roster. Our first question comes from a line of David Williams of The Benchmark Company. Your line is now open.

David Williams
David Williams
Equity Research Analyst at The Benchmark Company

Hey, good morning, Dylan. Thanks for taking my questions. Maybe first, Subodh, just kind of thinking about the DARPA phase B, and just can you talk maybe a little bit about that? You said that you've received some nice or constructive feedback, but can you maybe talk around what is maybe holding that up and when you think we might have an answer or you might see that advancement happen?

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Sure, David. As we mentioned in the press release, DARPA did the initial selection of companies that they have got into phase B. Unfortunately, we were not one of them, but they gave us good constructive input on what we need to do and improve on to get into phase B. We are working on that, and it primarily goes into the area of error correction and some areas of long-range coupling, things that are important in the long term to get to the DARPA fault-tolerant quantum computing milestone in 2033, not as important in the short term to get to quantum advantage. A lot of our focus has been and continues to be on getting to quantum advantage in the next three to five years with 1,000 qubit and 99.9% two-qubit gate fidelity, gate speeds, and with some error correction.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

DARPA's input was more on the FTQC milestone and where we need to increase effort further, specifically in the area of error correction and in long-range coupling. We are incorporating that input. We will continue to talk to DARPA. We are still part of a very large part of phase A, and we'll continue to work with DARPA closely. We are optimistic we'll get into phase B soon. Exactly when, that's hard to know, but we'll continue to work on it. I mean, DARPA's project, as you know, is a seven-year project. Just because we didn't make the initial cut, it's not a big deal. We feel pretty good that we'll make the cut in the next few months here.

David Williams
David Williams
Equity Research Analyst at The Benchmark Company

Okay, great. It sounds like this is more kind of on a conceptual basis versus actual performance or what you're achieving today, but longer term, conceptually, how you would characterize some of the performance metrics. Is that fair to say?

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

That's fair to say. I mean, fundamentally, the data is really good, and they liked it, and we are very proud of the data that we have demonstrated both with our Ankaa system, but more importantly, the Cepheus 36-qubit chiplet-based system with 99.5% two-qubit gate fidelity and about 60 nanosecond gate speeds. That data is really impressive, and that's all positive. Where the constructive criticism came is, how do we do error correction and things like long-range coupling to enable the FTQC milestone seven, eight years from now? It is really the future work that the plan that we have needs further improvement. It is a fair thing to say, as you correctly pointed out.

David Williams
David Williams
Equity Research Analyst at The Benchmark Company

Great. Thanks so much for that. Maybe just secondly here, I think in the past you've talked about 1,000+ qubits and 99% fidelity and around 50 nanosecond gate speeds to achieve quantum advantage. Looking at your roadmap into 2027, you're awfully close to that, maybe just a bit short on the fidelity side. I guess my question is, do you feel, or what is your comfort level that you can get to that 99% fidelity in 2027? Is that kind of a right way to kind of target in terms of when you think you can reach quantum advantage, or do you think that pushes out a little bit further? Thank you.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

That's a good question. Really, we are excited to disclose that the two big milestones, one for 2026, when we believe we will hit 99.7% fidelity at the 150+ qubit level. More importantly, the 2027 milestone, when we believe we will get over 1,000 qubits at 99.8% two-qubit gate fidelity. You're right. I mean, it's a significant jump up from where we are. Frankly, the whole quantum computing industry is, including peers in superconducting quantum computing, but certainly when you look at other modalities, those numbers are impressive. If 1,000 qubit, 99.8% at the 60 nanosecond gate speed, it gets us awfully close to quantum advantage, but not quite there. For quantum advantage, we still think we need the 99.9% two-qubit gate fidelity, as well as some form of error correction.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Between 2027 and 2029, which is when we still believe we will accomplish quantum advantage, is getting the fidelity to that [99.9%] and also error correction. Hopefully, that answers your question.

David Williams
David Williams
Equity Research Analyst at The Benchmark Company

It does. Thank you so much.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Thank you, David.

Operator

Thank you. One moment for our next question. Our next question comes online from Quinn Bolton of Needham & Company. Your line is now open.

Quinn Bolton
Quinn Bolton
Managing Director of Equity Research at Needham & Company

Hi, Subodh and Jeff. I wanted to follow up on David's question, just kind of around the roadmap, getting to 150 qubits next year and 1,000+ in 2027. Subodh, can you just walk us through? Is this still going to be a chiplet-based approach? Is it going to be on 9-qubit tiles, or as you get to the 1,000-qubit system, do you see the number of qubits per tile increasing? Maybe a related question, given DARPA seems to be interested in quantum error correction and long-range coupling, can you achieve long-range coupling on the tile-based system? Can you give us your thoughts on that? Thank you.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Sure. Good questions, Quinn. 150 qubit with 99.7% two-qubit gate fidelity, we definitely are planning on using 9-qubit chiplets. For the 1,000 qubit, our thinking right now is to go up to 36-qubit chiplets to get to the 1,000-qubit level at the 99.8% two-qubit gate fidelity by the end of 2027. That is our plan right now. The main reason we feel confident that we will be able to get to 1,000 qubits at the 99.8% is because of chiplets and the data we are generating with the current 36-qubit system, as well as all the experiments we are doing with the 100-qubit system that we hope to launch here fairly soon. Regarding DARPA's input for error correction and long-range coupling, fundamentally, we have not seen any challenges in using chiplets and long-range coupling.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

The challenges are pretty much the same, whether it's a single monolithic chip or chiplet-based system. Long-range coupling is a challenge for the whole industry, not just us. As far as we have seen, chiplets don't change that challenge. It's still the physical distance between the qubit and how do you couple qubits across the width, across a certain width. It's nothing to do with chiplets per se. We feel pretty good that we need—I mean, we obviously need to improve long-range coupling. That was part of the input, but it doesn't make it worse just because we have chiplets. Hopefully, that answers your question.

Quinn Bolton
Quinn Bolton
Managing Director of Equity Research at Needham & Company

That's great. And then one for Jeff. Jeff, I think you mentioned in your script the AFRL contract, as well as the two 9-qubit Novera sales, would start to generate revenue in the fourth quarter and into 2026. I guess maybe on the two Novera sales, I think you, in the press release, talked about completion or delivery of those systems in the first half of 2026. Is this sort of a revenue rec that you'd be able to rev rec those sales upon delivery? Because they're systems, maybe not just QPUs, is there a percentage completion accounting that is used for those systems? Maybe just walk us through how you rev rec on the Novera sales if they're systems rather than just QPUs. Thank you.

Jeff Bertelsen
Jeff Bertelsen
CFO at Rigetti Computing

Sure. On the two Novera system sales, I mean, we anticipate recognizing the revenue for those upon shipment. Right now, it looks like one of them will go in the first quarter, one in the second quarter. Upon shipment would be the manner of rev rec.

Quinn Bolton
Quinn Bolton
Managing Director of Equity Research at Needham & Company

Excellent. I'll go back to the queue. Thank you.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Thanks.

Operator

Thank you. One moment for our next question. Our next question comes online from Krish Sankar of TD Cowen. Your line is now open.

Steven Chin
Steven Chin
Analyst at TD Cowen

Good morning. Thanks so much for taking my questions. This is Steven calling on behalf of Krish. This first question for others to go to Jeff. Regarding the two Novera system sales that you discussed, just kind of curious, just given the size of the orders, are they both complete systems that include dilution fridges and full control systems, or is one of them potentially just a QPU chip sale? As far as the upgrade option, is that already currently baked into the price that you guys announced, or is that an additional revenue step up or add later on further down the line?

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Sure. I'll take that. They are full systems. They include everything from a dilution refrigerator to control systems. They are complete systems. Regarding upgrade, when the customers upgrade them from 9-qubit to, let's say, 36-qubit or something bigger, it will be an additional revenue opportunity because we have to go and add some cables and those kinds of things inside the dilution refrigerator to account for the additional qubits. Certainly, obviously, the chip has to change too. There will be an additional revenue that comes with the upgrade from 9-qubit to a higher qubit count sometime in the future.

Steven Chin
Steven Chin
Analyst at TD Cowen

Okay. Got it. Thanks so much for that. For my second question, I wanted to ask a little bit about the, I guess, upcoming or future support for NVIDIA's NVQLink interface. I guess, can you talk about some of the, I guess, software or hardware changes that you need to make to your either TPUs or control systems in order to support that? Also related, any thoughts on, in terms of hybrid quantum computer support? Is this really more just for the supercomputing space, or do you think that NVQLink could also allow quantum systems to be placed alongside in the AI data centers for GenAI type of applications? Thank you.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Great question, Steven. If you look at NVIDIA's NVQLink announcement, it's an open format for quantum computers to basically interface directly with AI supercomputers. The idea is indeed to have quantum computing start being used with GenAI and potentially for AGI-type applications. Now, from our viewpoint, this was a natural step. We have always said that we believe in hybrid systems. We have always supported hybrid system standards. That's partly because of the strengths of superconducting quantum computing, where we have speeds that are commensurate with CPU and GPU speeds. It is logical for us to try to interface with HPCs. That's why we believe superconducting quantum computing is most amenable for hybrid computing compared to other modalities which are 1,000x slower, like trapped ion or pure atom modalities.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

For us, it was a logical step when NVIDIA started discussing an open platform like NVQLink. We obviously signed up with it. It fits in with our vision and strategy of having a quantum computer as part of a hybrid ecosystem. We certainly expect products like that to start coming into data centers once we get closer to quantum advantage, although interfaces will be worked out between now and then. The timeline for having quantum computers in data centers doing practical applications does not change because of the NVIDIA announcement. What it does change is the whole notion of how a hybrid system will work and open standards that support hybrid systems. Hopefully, that answers your questions.

Steven Chin
Steven Chin
Analyst at TD Cowen

Yes. Thank you so much.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Thank you.

Operator

Thank you. One moment for our next question. Our next question comes on the line of Craig Ellis of B. Riley Securities. Your line is now open.

Craig Ellis
Craig Ellis
Director of Research and Senior Semiconductor and Capital Equipment Analyst at B. Riley Securities

Yeah. Thanks for taking the question. I wanted to follow up on a couple of the prior questions to start. Subodh, with regard to NVQLink, NVIDIA is very, very strong in the national labs. Rigetti has a very strong position in national labs. Can you talk about what Rigetti's historic strengths with national labs mean for engaging with ecosystem partners that can help accelerate Rigetti's integration with hybrid compute and getting pulled into various workloads, including AI-related workloads with MEQ?

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Sure. So you are indeed right. I mean, NVIDIA has a very strong presence in national labs, and so do we with quantum computing. It is logical for the interfaces to be worked out at national lab level, whether it is for the national lab or the Oak Ridge National Lab or other national labs. Also, the NQI initiative, although not funded at the higher level, the funding has restarted last week, as you probably saw. It is exciting to have national labs get their funding back again to some reasonable level and this NVQLink platform being launched at about the same time period. Certainly, we believe, as we have discussed in the past, that in future, CPUs will continue to be used for sequential computing, and GPUs will be used for parallel computing as they are being used today. QPUs, the quantum processing units, will be used for simultaneous computing.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Everything we have discussed in the past, now we have a chance to start demonstrating it in real life in partnership with NVIDIA, with their NVQLink platform, as well as the CUDA-Q or Quantum platform. Definitely expect more work in this direction, where we will be able to generate data where we take generic applications and split them into sequential, parallel, and simultaneous, and show how the three respective technologies are suitable and the benefit of having the three technologies work together in a complementary way. That we believe is the best way to address future computation needs.

Craig Ellis
Craig Ellis
Director of Research and Senior Semiconductor and Capital Equipment Analyst at B. Riley Securities

That's really helpful, Subodh. Jeff, I wanted to ask a follow-up clarification to you regarding the AFRL deal at $5.8 million. I think that was a three-year deal, three-year deal for $5.8 million. Does that rev rec fairly ratably across 12 quarters, or how do we think about rev rec, and is that kicking off in the fourth quarter or early next year?

Jeff Bertelsen
Jeff Bertelsen
CFO at Rigetti Computing

No. It will be fairly ratable over the three years, Craig. Actually, we got a little bit of it in the third quarter, so it'll be ratable going forward.

Craig Ellis
Craig Ellis
Director of Research and Senior Semiconductor and Capital Equipment Analyst at B. Riley Securities

Got it. Nice to get that going. Lastly, if I could, guys, just any commentary on potential exploration of M&A or other inorganic activity with a cash balance of $600 million as something that might either accelerate or add strength to the roadmap that you just announced, the detailed roadmap out through 2027. Thank you.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

It is a good question, and we discuss both our current cash balance and what the needs are in future, as well as opportunities to do any M&A to help accelerate our roadmap. As you saw, we have been able to accelerate our roadmap quite significantly. We are talking about 99.7% next year with 150 qubit, and more importantly, more than 1,000 qubits, and 99.8% by the end of 2027 roughly. That is really without doing everything organically on our own, which obviously we prefer. We think we have all the necessary technology components internally right now to be able to execute that roadmap. The main reason for that is the success we are having with our chiplet technology. We feel really good about executing that roadmap right now. If we find someone who could help us accelerate our roadmap further, we obviously will take a look at it.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Right now, we believe we are in a leadership position, and we'll continue to execute well to get to that roadmap.

Craig Ellis
Craig Ellis
Director of Research and Senior Semiconductor and Capital Equipment Analyst at B. Riley Securities

That's helpful, and congrats on the roadmap progress, Subodh. Thanks again.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Thank you.

Operator

Thank you. One moment for our next question. Our next question comes from the line of Brian Kinstlinger of Alliance Global Partners. Your line is now open.

Brian Kinstlinger
Brian Kinstlinger
Director of Research and Senior Technology Analyst at Alliance Global Partners

Great. Thanks so much for taking my question. A follow-up on the roadmap. I'm curious what progress you are making currently on fidelity and when you expect to achieve 99.7% medium two-qubit gate fidelity for a 9-qubit chip, and when that has to happen in order to start the tiling process to get to 100 qubits by the end of 2026.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Good question here. I mean, we are making 9-qubit chiplets right now. We are tiling them to get to our milestone for this year, which is 108 qubit, more than 100 qubit at 99.5% before the end of this year. Certainly, as we are doing that work, we are seeing a very good two-qubit fidelity level with the individual nine-qubit chiplets. That gives us confidence that we should be able to get to 99.7% by the end of next year with more than 150 qubits. Regarding the 1,000 qubit, that's a little more challenging, as one of the earlier questions had come up. We believe we are going to increase the size of the chiplet to about 36 qubits. We have to prove that out, that at 36-qubit chiplet, we can tile multiple ones and still maintain high fidelity.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

That's the work we'll be doing next year in anticipation of demonstrating more than 1,000 qubits at 99.8% by the end of 2027. Certainly, all the data we are generating right now with the 9-qubit chiplet gives us high confidence that we will not only be able to execute this year's roadmap, which is more than 100 qubit at 99.5%, but more importantly, end of next year's roadmap, which is more than 150 qubit at 99.7%. The chiplet data is good enough to give us high confidence with both of those milestones, and that's what we are relying on to get us the 1,000 qubit at 99.8% by the end of 2027.

Brian Kinstlinger
Brian Kinstlinger
Director of Research and Senior Technology Analyst at Alliance Global Partners

Okay. Thank you.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Thank you.

Operator

Thank you. One moment for our next question. Our next question comes from the line of Richard Shannon of Craig-Hallum Capital Group. Your line is now open.

Richard Shannon
Richard Shannon
Senior Research Analyst at Craig-Hallum Capital Group

Great. Thanks, Subodh and Jeff. Let me ask a couple of questions here. Looking at your 10Q, and you have a passage in here about you may significantly increase your CapEx, including upgrading your chip fab facility or an entirely new one here. Maybe you can tell us a little bit about what this potential might be when you might decide this and what kind of scale of investment we're talking about here.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Right now, we have a 150 mm chip fab facility in Fremont, California, and it's fairly manual in operation. It's obviously doing a good job of giving us the current data. We feel very good that that fab will continue to give us good data for the next two to three years and be capable of meeting our needs for the next two to three years, including the 1,000 qubit at 99.8% milestone that we talked about by the end of 2027. The challenge we see is getting to more than 99.9% two-qubit gate fidelity with several thousands of qubits.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

We believe that the current fab will have limitations, not capacity limitations, but capability limitations, primarily because your tools at 150 mm are not as good as they are for 200 mm or 300 mm because the semiconductor industry has standardized around 200 mm or 300mm. We think we are going to need 200 mm, 300 mm type tools and more automation in our line for capability, not capacity. We think we are going to need it for beyond the three-year horizon. Now, typically, it takes a couple of years to build a fab. If we need something in three years, there is a high chance we will have to start thinking about real CapEx needed roughly a year or so from now.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

That is what the statement was about, that anticipating that we have to invest in a new fab, we will have to start thinking about CapEx needs roughly a year or so from now. There are various alternatives being discussed by Commerce and other areas where a national lab somewhere in the U.S. is being contemplated. Obviously, if any of those initiatives take off, we will be part of those initiatives. It will not be that Rigetti has to shoulder all the burden for a full 8 in or 12 in fab. To answer your question, I mean, a quantum fab is significantly simpler than a state-of-the-art CMOS fab because our lateral dimensions are a lot more forgiving. Our challenges are vertical dimensions, which come from oxidation and those kinds of things. Also, we have a lot fewer lithographic steps compared to a CMOS fab.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

The combination of forgiving lateral dimensions and a significantly reduced number of lithographic steps, you are talking about hundreds of millions of dollars for a brand new quantum fab of 8 in or 12 in compared to, as you know, we are talking about $20 billion-$25 billion for a brand new CMOS fab because of the lateral dimensions involved as well as the complexity with litho. A quantum fab intrinsically is a lot cheaper, if you will, compared to a brand new CMOS fab. Still, we are talking sizable numbers here, hundreds of millions of dollars. That is what the statement in the 10Q is about, that we may start looking into that if there is no national initiative that Commerce or somebody else leads that allows us to be part of. Does that answer your question?

Richard Shannon
Richard Shannon
Senior Research Analyst at Craig-Hallum Capital Group

It does, Subodh. Let me follow up on that topic here, which is to what degree would you wish to have something standalone versus shared here, but also sharing IP and maybe even worrying about IP leakage here? What's kind of the puts and takes in that sort of decision?

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

The puts and takes are no different than the regular semiconductor industry. I mean, as you know, the most advanced fabs right now are run by companies like TSMC, which are foundry-type models, and there is no IP leakage. They take tremendous care. I mean, NVIDIA and AMD are both making their advanced chips at TSMC right now, and there is no IP contamination. Foundries have mastered art of meeting multiple customer design needs without any IP contamination. Assuming a foundry model takes off and the U.S., as a country, we have a state-of-the-art fab, which does not exist today, by the way. I mean, one way or another, there has to be a brand new fab coming along somewhere in the U.S. for quantum technologies.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Assuming a foundry model is established, we would be happy to take a look at it because we know it works. At the same time, if it does not happen, the numbers are not that daunting. As I said, we are talking hundreds of millions of dollars, not tens of billions of dollars like in CMOS. It is conceivable that we on our own or we in partnership with some other company could do this kind of thing without going to a full all-out foundry model.

Richard Shannon
Richard Shannon
Senior Research Analyst at Craig-Hallum Capital Group

Okay. That's helpful detail here. Maybe a follow-on question here for Jeff. A number of questions here earlier in the call here about the future rev rec for both the AFRL contract as well as the system sales here. How do we think of kind of a general profile of gross margins with additional revenues or kind of general thought process here, especially since gross margins here in the third quarter are lower than what you've seen in the past? Thank you.

Jeff Bertelsen
Jeff Bertelsen
CFO at Rigetti Computing

Sure. Gross margins were lower, as you pointed out, in the third quarter. It really is due to the variability in our contracts. Sometimes we do these contracts for strategic reasons or because they are going to advance our R&D necessarily more than the margin profile. I do think with some of these other sales, particularly some of the Novera sales, margins will be a bit better than certainly what we have seen here in the third quarter and even earlier in the year to a certain extent.

Richard Shannon
Richard Shannon
Senior Research Analyst at Craig-Hallum Capital Group

Okay. Great. That's all for me, guys. Thank you.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Thanks.

Operator

Thank you. One moment for our next question. Our next question comes from the line of Troy Jensen of Cantor Fitzgerald. Your line is now open.

Troy Jensen
Troy Jensen
Managing Director at Cantor Fitzgerald

Hey, gentlemen. Congrats on all the great progress here. Maybe a couple of quick questions for Subodh. Just curious on the 2027 target of 1,000 qubits. What types of applications would your system be able to run at that status?

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Great question, Troy. I mean, this is where I think the exciting part comes in. I mean, the announcements we have done with NVIDIA, with the NVQLink, and the hybrid systems, I think it's all coming together in about the same time period. Imagine a world where there is a hybrid system offering between us, NVIDIA, and a few other companies where you have a 1,000-qubit physical, 1,000 physical qubit at 99.8% two-qubit gate fidelity interfacing smoothly with the state-of-the-art CPUs and GPUs. We believe the kind of applications you'll be able to take on would be the complex ones that struggle with CPU and GPUs today. We are talking about things like drug discovery or financial forecasting or material synthesis, those kinds of applications. We don't think we will be talking about encryption or decryption still at that point with those kinds of metrics.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Certainly, areas where you have thousands of variables that are interacting simultaneously that current CPU and GPU architectures struggle to keep up with, those applications will start coming our way. As I mentioned, a lot of forecasting type applications, whether it's financial forecasting or drug discovery type stuff or weather forecasting kind of stuff, are the ones that I anticipate will start using quantum computing in a hybrid setup in a couple-year time period.

Troy Jensen
Troy Jensen
Managing Director at Cantor Fitzgerald

Perfect. All right. Just a question. I'm just curious here. The customers that are buying these 9-qubit systems, why would they not buy the 36-qubit system now?

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

A good question. We asked the question to them too. They are buying physical on-premise quantum computers right now because they want to fundamentally understand how quantum computers work because they are doing some research on some aspect of quantum computing themselves. They need to understand how fundamentally the hardware works, what kind of pulses do we send, how do we tune, recalibrate, and retune, and all those kinds of things. Nine-qubit is a good starting point for those kinds of things to understand how a quantum computer works. As we discussed, they clearly are interested in upgrading it at the right time. Once they are confident they understand how 9-qubits work, I'm pretty sure they will want to upgrade it to tens of qubits, whether it's 20-odd qubits or 30-odd qubits. We'll see what their interest level is.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

They will certainly be interested in upgrading. That is why the systems are designed so that they are upgradable. There will be an additional revenue recognition at that point because we have to change the chip, we have to change the wiring, and a few other things. Fundamentally, the systems are designed so they can handle up to 50-odd-so qubits.

Troy Jensen
Troy Jensen
Managing Director at Cantor Fitzgerald

Okay. Makes sense. Keep up the good work, gentlemen.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Thank you, Troy.

Operator

Thank you. One moment for our next question. Our next question comes from the line of David Williams of The Benchmark Company. Your line is now open.

David Williams
David Williams
Equity Research Analyst at The Benchmark Company

Hey. Thanks for letting me ask the follow-up here. Just wanted to ask, Subodh, if you kind of think about your foundry, as you spoke about earlier, is there a possibility that you could transfer your technology today to an outside fab that's slightly more advanced, that you could get better fidelity? Just kind of thinking about the 1,000-qubit, is there a potential to maybe get to that 99.9% alternatively using another fab source?

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

A good question, David. We are talking to existing foundries that are doing some quantum computing-related work for some of our peer companies. We are exploring those options. Certainly, if it gives us a bump up in performance, we would love to have. As of today, we haven't found anyone who's quite that capable of running the types of materials and processes that we run for superconducting gate-based quantum computing. We know in the other forms, like superconducting annealing and some other modalities like photonics, there are some foundry companies that are doing some work for some of our peer companies. We are talking to them to see if we can use that model.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

As of right now, all the leaders in superconducting gate camp, including us and other companies like IBM and Google, as far as I know, none of us are using a foundry model at this time. We will continue to explore those options. If an existing foundry meets our requirements, we would love to have it, obviously. It saves us a lot of CapEx if that is the case. As of today, we are not confident that the existing foundries can meet our requirements.

David Williams
David Williams
Equity Research Analyst at The Benchmark Company

Okay. Thanks. Maybe just one last one here on Craig's question about M&A earlier. Do you think you have the right kind of path forward on the control side? You kind of talked about maybe needing to transition to a flexible cabling platform. Is that an area that you could potentially be looking to outside sources for acquiring, or do you think you have that under control today and have the path forward there? Thank you.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

I mean, on the control system itself, as you know, we are partnered with Quanta Computer, who's a leader in CPU, GPU servers. We feel very good about our strategic partnership with Quanta Computer for the control system itself. Regarding the cables that go inside the dilution refrigerator, you're right. We need to move to flex cables in the next two to three years. We have good technology ourselves along with some subcontractors that we use right now. We have a lot of IP in that area as well. We feel generally good about our path forward. Again, as I mentioned, if we find someone who can help us accelerate our roadmap, we will absolutely be willing to take a look at that kind of a company.

Operator

Thank you. One moment for our next question. Our next question comes from the line of Quinn Bolton of Needham & Company. Your line is now open.

Quinn Bolton
Quinn Bolton
Managing Director of Equity Research at Needham & Company

Hey, guys. Thanks for sticking by. Follow-up. Subodh, you'd mentioned the Energy Department announcing, I think it was $625 million, to invest in the National Quantum Research Center. Just wondering, how does that affect the business? And do you have any updates what you're hearing in Washington on just the reauthorization of the NQI Act?

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Yeah. NQI ran out of the original act was signed in 2018, I believe. It ran out of money somewhere towards the end of 2023. NQI reauthorization was supposed to be signed at that time. Obviously, it hasn't happened yet. A lot of discussions have happened. Multiple versions of the bills have gone between the House and Senate with numbers as high as $2.5 billion over five years. That was practically 4x-5x higher than the original NQI, which was $625 million over five years. Now, the latest one that got passed last week is reinstating the original amount. At least we are up from virtually nothing back to $625 million over five years, so $125 million per year, which is better than nothing, but nowhere close to the $2.5 billion that are being discussed.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Now, this is just a first step, is what we understand. There's still discussions going on, and we definitely expect a much better funding situation for DOE in the next few months. Exactly when that will happen, given the current government situation and the time it takes for bills to get signed and appropriated, we can't tell you what exactly the date will be or what the amount will be. Definitely, a much bigger amount is being discussed for DOE in the upcoming months here. At least it's good to get it back to the original amount, which was $625 million over five years.

Quinn Bolton
Quinn Bolton
Managing Director of Equity Research at Needham & Company

Excellent. Okay. Thank you.

Operator

Thank you. One moment for our next question. Our next question comes from the line of Tyler Anderson of Craig-Hallum Capital Group. Your line is now open.

Tyler Anderson
Tyler Anderson
Equity Research Associate at Craig-Hallum Capital Group

Hi, Subodh. This is Tyler Anderson on for Richard Shannon. I have a housekeeping and a technical question. For Q4, what do you guys expect the share count to be? I noticed there were a few warrants that were exercised subsequent to the end of the quarter.

Jeff Bertelsen
Jeff Bertelsen
CFO at Rigetti Computing

Sure, Tyler. I would say it is going to depend on how many warrants get exercised, of course, between November 6th and the end of December. As of November 6th, we had 330 million shares outstanding. I would probably plan on maybe 335 or something like that. Again, it could flux a little bit depending on how many warrants get exercised.

Tyler Anderson
Tyler Anderson
Equity Research Associate at Craig-Hallum Capital Group

Okay. Great. Thank you. These tools that you expect to purchase for new foundries, are you waiting for new tooling to be developed? Or the tools that you expect to purchase, are those upgradable once you have those and new capabilities become released? If they are and you do plan on upgrading them, how does that change the pace of your roadmap in terms of qubit density and fidelity?

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Right now, the roadmap that we have discussed for 2026 and 2027, just to be clear, we are still counting on our Fremont fab to be able to give us those chips. We are not assuming that we need a new fab or even a new foundry somewhere to help us execute that roadmap. The 2026, 2027 milestones we feel are pretty good with the existing fab. As discussed earlier, we are looking at options, including existing foundries that are out there. If an existing foundry model works, that obviously is the easiest one to execute. Assuming it does not, then we are looking at investing in a fab on our own or through some kind of initiative that the U.S. Government initiates. We are open to options. Clearly, a new fab will be either an 8 in or 12 in.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

It is very unlikely that any of our existing tools, except for wet baths and stuff like that, which are relatively small in the big scheme of things, can be repurposed. Most of the tools will have to be new at the 8 in or 12 in level. It will be a substantial new CapEx. We are talking about, again, compared to CMOS, very small numbers, hundreds of millions of dollars. That is assuming that the existing foundry model does not work or we have to take the entire burden ourselves. Hopefully, we will find easier, cheaper alternatives here. Hopefully, that answers your question?

Tyler Anderson
Tyler Anderson
Equity Research Associate at Craig-Hallum Capital Group

Partially. With the tools that you purchased, would those potentially be upgradable for just quantum add-ons that tooling companies are thinking about?

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Yeah, they should be. I mean, fundamentally, they are very similar kind of tools, so they should be upgradable in the future.

Tyler Anderson
Tyler Anderson
Equity Research Associate at Craig-Hallum Capital Group

Is there any capability that you would look for in a foundry if you were to purchase one?

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

I mean, right now, as you know, in the superconducting gate camp, we use what is called Josephson junctions, and then we create gates between the qubits. The materials themselves are superconducting materials like aluminum, tantalum, those kinds of materials, which are not normally available in the CMOS world. There are some unique processes that we do to enable our superconducting gate chips. Again, slightly different materials and slightly different processes, that's what we need. Some foundries that are doing superconducting annealing type approaches have some of the tools that we need, but not all of them. Those are the options we are looking at right now to see whether we can use some of those models after our Fremont fab before we have to commit to a brand new fab ourselves.

Tyler Anderson
Tyler Anderson
Equity Research Associate at Craig-Hallum Capital Group

Awesome. Thank you. Congrats on the roadmap.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Thank you, Tyler.

Operator

Thank you. I'm showing no further questions at this time. I'll now turn it back to Dr. Subodh Kulkarni for closing remarks.

Subodh Kulkarni
Subodh Kulkarni
President and CEO at Rigetti Computing

Thank you for your interest and questions. We look forward to updating you after the end of next quarter. Thanks again.

Operator

Thank you for your participation in today's conference. This has concluded the program. You may now disconnect.

Executives
    • Jeff Bertelsen
      Jeff Bertelsen
      CFO
    • Subodh Kulkarni
      Subodh Kulkarni
      President and CEO
Analysts
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