What changed in IonQ, Inc.'s 10-K — 2023 vs 2024
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Paragraph-level year-over-year comparison of IonQ, Inc.'s 2023 and 2024 10-K annual filings, covering the Business, Risk Factors, Legal Proceedings, Cybersecurity, MD&A and Market Risk sections. Every new, removed and edited paragraph is highlighted side-by-side so you can see exactly what management changed in the 2024 report.
+441 added−432 removedSource: 10-K (2025-02-26) vs 10-K (2024-02-28)
Top changes in IonQ, Inc.'s 2024 10-K
441 paragraphs added · 432 removed · 367 edited across 8 sections
- Item 1A. Risk Factors+268 / −255 · 216 edited
- Item 1. Business+80 / −77 · 70 edited
- Item 7. Management's Discussion & Analysis+66 / −71 · 61 edited
- Item 1C. Cybersecurity+10 / −8 · 7 edited
- Item 3. Legal Proceedings+5 / −10 · 4 edited
Item 1. Business
Business — how the company describes what it does
70 edited+10 added−7 removed130 unchanged
Item 1. Business
Business — how the company describes what it does
70 edited+10 added−7 removed130 unchanged
2023 filing
2024 filing
Biggest changeOur ability to generate revenue sufficient to achieve profitability will depend heavily on the successful development and further commercialization of our quantum computing systems. Our net losses were $157.8 million and $48.5 million for the years ended December 31, 2023 and 2022, respectively, and we expect to continue to incur significant losses for the foreseeable future.
Biggest changeWe are still in the early stages of commercial growth. Since our inception, we have incurred significant operating losses. Our ability to generate revenue sufficient to achieve profitability will depend heavily on the successful development and further commercialization of our quantum computing systems.
We expect that our future quantum computers based on barium ions will be faster, more powerful, more easily interconnected, and that feature more uptime for customers.
We expect that our future quantum computers based on barium ions will be faster, more powerful, more easily interconnected, and will feature more uptime for customers.
The advantages to this approach are that photons are cheap to generate, they can remain coherent depending on the property of the photons used as the qubit, and they integrate well with recently-developed silicon photonics technology; however, the disadvantages of photonic qubit approaches include the lack of high-quality storage 13 devices for the qubits (photons move at the speed of light) and weak gate interactions (photons do not interact with one another easily).
The advantages to this approach are that photons are cheap to generate, they can remain coherent depending on the property of the photons used as the qubit, and they integrate well with recently-developed silicon photonics technology; however, the disadvantages of photonic qubit approaches include the lack of high-quality storage devices for the qubits (photons move at the speed of light) and weak gate interactions (photons do not interact with one another easily).
The point at which a quantum computer is able to perform a particular computation that exceeds its classical counterpart in speed or reduces its cost to solution is known as the point of “quantum advantage.” Given the substantial research and development required to build a modern quantum computer that is both functional and practical, industry experts describe the remaining challenges in quantum computing to achieve quantum advantage as being solved in three phases.
The point at which a quantum computer is able to perform a particular computation that exceeds its classical counterpart in speed or reduces its cost to solution is known as the point of “quantum advantage.” 6 Given the substantial research and development required to build a modern quantum computer that is both functional and practical, industry experts describe the remaining challenges in quantum computing to achieve quantum advantage as being solved in three phases.
The two atomic states have enough frequency separation that the qubit is easy to measure through fluorescence detection when an appropriate laser beam is applied. 8 To build quantum computers, many atomic ions are held in a single trap, and the repulsion from their charges naturally forces them into a stable linear crystal (or chain) of qubits.
The two atomic states have enough frequency separation that the qubit is easy to measure through fluorescence detection when an appropriate laser beam is applied. To build quantum computers, many atomic ions are held in a single trap, and the repulsion from their charges naturally forces them into a stable linear crystal (or chain) of qubits.
None of our employees are subject to a collective bargaining agreement or are represented by a labor union at this time. Corporate Information IonQ, formerly known as dMY Technology Group, Inc. III (“dMY”) was incorporated in the state of Delaware in September 2020, and formed as a special purpose acquisition company. Our wholly owned subsidiary, IonQ Quantum, Inc.
None of our employees are subject to a collective bargaining agreement or are represented by a labor union at this time. 15 Corporate Information IonQ, formerly known as dMY Technology Group, Inc. III (“dMY”) was incorporated in the state of Delaware in September 2020, and formed as a special purpose acquisition company. Our wholly owned subsidiary, IonQ Quantum, Inc.
Various aspects of a photon, such as presence/absence, polarization, frequency (color) or its temporal location can be used to represent a qubit. 6 Solid state : In solid-state-based quantum computers, the qubits are engineered into the system. • Spins in semiconductors : This approach uses the spins of individual electrons or atomic nuclei in a semiconductor matrix.
Various aspects of a photon, such as presence/absence, polarization, frequency (color) or its temporal location can be used to represent a qubit. Solid state : In solid-state-based quantum computers, the qubits are engineered into the system. • Spins in semiconductors : This approach uses the spins of individual electrons or atomic nuclei in a semiconductor matrix.
We have accumulated a broad patent portfolio, both owned and exclusively licensed, across a range of technological fronts that relate to our systems and will continue to protect our inventions in the United States and other countries. Our patent portfolio is deepest in the area of devices, methods and algorithms for controlling and manipulating trapped ions for quantum computing.
We have accumulated a broad patent portfolio, both owned and exclusively licensed, across a range of technological fronts that relate to our systems and will continue to protect our inventions in the United States and other countries. Our patent portfolio is deepest in the area 14 of devices, methods and algorithms for controlling and manipulating trapped ions for quantum computing.
(formerly known as IonQ, Inc., and referred to as “Legacy IonQ” herein), was incorporated in the state of Delaware in September 2015. 14 On March 7, 2021, Legacy IonQ entered into an Agreement and Plan of Merger (the “Merger Agreement”), with dMY and Ion Trap Acquisition Inc., a direct, wholly owned subsidiary of dMY (the “Merger Sub”).
(formerly known as IonQ, Inc., and referred to as “Legacy IonQ” herein), was incorporated in the state of Delaware in September 2015. On March 7, 2021, Legacy IonQ entered into an Agreement and Plan of Merger (the “Merger Agreement”), with dMY and Ion Trap Acquisition Inc., a direct, wholly owned subsidiary of dMY (the “Merger Sub”).
We believe that our proprietary technology, our architecture and the technology exclusively available to us through license agreements will offer us advantages both in terms of research and development, as well as the commercial value of our intended product offerings. Today, we sell specialized quantum computing hardware together with related maintenance and support.
We believe that our proprietary technology, our architecture, and the technology exclusively available to us through license agreements will offer us advantages both in terms of research and development, as well as the commercial value of our intended product offerings. Today, we sell specialized quantum computing and networking hardware together with related maintenance and support.
Classical computers cannot solve these problems because the calculations would take far too long (i.e., millions to trillions of years) or because the problems involve quantum systems that are far too complex to be represented on a classical computer, even if their remarkable pace of development were to continue indefinitely.
Classical computers cannot solve these problems because the calculations would take far 4 too long (i.e., millions to trillions of years) or because the problems involve quantum systems that are far too complex to be represented on a classical computer, even if their remarkable pace of development were to continue indefinitely.
If future generations of more powerful quantum computers are successfully developed, we believe that we could improve the speed and accuracy of virtual high-throughput screening 4 and improve the molecular docking predictions used in structure-based drug discovery, dramatically reducing the development cost of new drugs and reducing the time to market.
If future generations of more powerful quantum computers are successfully developed, we believe that we could improve the speed and accuracy of virtual high-throughput screening and improve the molecular docking predictions used in structure-based drug discovery, dramatically reducing the development cost of new drugs and reducing the time to market.
Our modular architecture benefits from this flexible connectivity, significantly reducing the complexity of implementing a given quantum circuit. 7 • Ion traps require no novel manufacturing capabilities : Ion trap chips consist of electrodes and their electrical connections, which are built using existing technologies. The trap chips themselves are not quantum materials.
Our modular architecture benefits from this flexible connectivity, significantly reducing the complexity of implementing a given quantum circuit. • Ion traps require no novel manufacturing capabilities : Ion trap chips consist of electrodes and their electrical connections, which are built using existing technologies. The trap chips themselves are not quantum materials.
Maintaining identical, replicable, and cost-effective qubits is critical to our potential competitive advantage, and we have developed a process to produce, confine and manipulate atomic ion qubits. To create trapped atomic ion qubits using our approach, a solid source containing the element of interest is either evaporated or laser-ablated to create a vapor of atoms.
Maintaining identical, replicable, and cost-effective qubits is critical to our potential competitive advantage, and we have developed a process to produce, confine and manipulate atomic ion qubits. 9 To create trapped atomic ion qubits using our approach, a solid source containing the element of interest is either evaporated or laser-ablated to create a vapor of atoms.
A 2019 5 publicly available report by a leading third-party consulting firm describes these phases—and the associated technical barriers—as paraphrased below: • Noisy and intermediate-scale quantum (NISQ) computers : The earliest stage of development will see component demonstrations and intermediate-scale system development with limited commercial application.
A 2019 publicly available report by a leading third-party consulting firm describes these phases—and the associated technical barriers—as paraphrased below: • Noisy and intermediate-scale quantum (NISQ) computers : The earliest stage of development will see component demonstrations and intermediate-scale system development with limited commercial application.
Our engineering effort is focused on reducing the size, weight, cost and power consumption of the QPUs that will be the center of each generation of the modular quantum computer, while increasing the number of QPUs manufactured each year. We intend to focus on achieving these engineering efforts over the next several years.
Our engineering effort is focused on reducing the size, weight, cost, and power consumption of the QPUs that will be the center of each generation of the modular quantum computer, while increasing the number of QPUs 11 manufactured each year. We intend to focus on achieving these engineering efforts over the next several years.
A cornerstone of the global agriculture industry, the Haber-Bosch process consumes about one percent of the world’s energy and produces about one percent of the world’s carbon dioxide. Agronomists have attempted to model the core molecule in nature’s nitrogen fixation process, but the molecule is too large for today’s classical supercomputers to simulate.
A cornerstone of the global agriculture industry, the Haber-Bosch process consumes about one percent of the world’s energy and produces about one percent of the world’s carbon dioxide. Agronomists have attempted to model the core molecule in nature’s nitrogen fixation process, but the molecule is too large for today’s classical supercomputers to 5 simulate.
We are also responsible for the prosecution and maintenance of the licensed patents, at our expense and using commercially reasonable efforts. We have the sole right to enforce the licensed patents, at our expense. 12 We may terminate the License Agreement at any time for any reason with at least 90 days’ written notice to UMD.
We are also responsible for the prosecution and maintenance of the licensed patents, at our expense and using commercially reasonable efforts. We have the sole right to enforce the licensed patents, at our expense. We may terminate the License Agreement at any time for any reason with at least 90 days’ written notice to UMD.
We believe that we will find solutions to these challenges and that our proprietary technology and 3 architecture and the technology exclusively available to us through exclusive license agreements will offer advantages both in terms of research and development as well as the ultimate product we wish to offer customers.
We believe that we will find solutions to these challenges and that our proprietary technology and architecture and the technology exclusively available to us through exclusive license agreements will offer advantages both in terms of research and development as well as the ultimate product we wish to offer customers.
Today, we have achieved many engineering firsts in this field and we believe that, with our focus on achieving additional technical milestones over the next few years, we are well positioned to bring quantum computing advantage to the commercial market.
We have achieved many engineering firsts in this field and we believe that, with our focus on achieving additional technical milestones over the next few years, we are well positioned to bring quantum computing advantage to the commercial market.
QCaaS We sell access to our quantum computing solutions via AWS’s Amazon Braket, Microsoft’s Azure Quantum, and Google’s Cloud Marketplace, and directly to select customers via our own cloud service. Making systems available through the cloud in both cases enables wide distribution.
QCaaS We provide access to our quantum computing solutions via AWS’s Amazon Braket, Microsoft’s Azure Quantum, and Google’s Cloud Marketplace, and sell access directly to select customers via our own cloud service. Making systems available through the cloud in both cases enables wide distribution.
We intend to build upon our technological lead by leveraging our world-class team of leaders and engineers who are pioneers in quantum computing, with proven track records in innovation and technical leadership.
We intend to build upon our technological lead by leveraging our world-class team of leaders and engineers who are pioneers in quantum computing and networking, with proven track records in innovation and technical leadership.
Item 1. Business. Overview We are developing quantum computers designed to solve some of the world’s most complex problems, and transform business, society and the planet for the better.
Item 1. Business. Overview We are developing quantum computers and networks designed to solve some of the world’s most complex problems, and transform business, society and the planet for the better.
Yet the system must also be precisely controlled through the application of quantum gate operations, and it must ultimately be measured with high accuracy. A practical quantum computer requires well-isolated, near-perfect qubits that are cheap, replicable and scalable, along with the ability to initialize, control and measure their states.
Yet the system must also be precisely controlled through the application of quantum gate operations, and it must ultimately be measured with high accuracy. A practical quantum computer or network requires well-isolated, near-perfect qubits that are cheap, replicable and scalable, along with the ability to initialize, control and measure their states.
The SEC maintains a website that contains reports, proxy and information statements and other information regarding our filings at www.sec.gov . The information found on our website is not incorporated by reference into this Annual Report or any other report we file with or furnish to the SEC. 15
The SEC maintains a website that contains reports, proxy and information statements and other information regarding our filings at www.sec.gov . The information found on our website is not incorporated by reference into this Annual Report or any other report we file with or furnish to the SEC. 16
We expect our preferred offerings to give the customer’s application engineers direct access to our cutting-edge quantum systems, as well as technical support to pursue their solution development. • Dedicated hardware . We sell certain specialized quantum computing hardware to select customers.
We expect our preferred offerings to give the customer’s application engineers direct access to our cutting-edge quantum systems, as well as technical support to pursue their solution development. • Dedicated hardware . We sell certain specialized quantum computing and networking hardware to select customers.
Our Strategy Our mission is to be the leading quantum computing company enabling the new era of quantum computing. We intend to fulfill our mission by: • Leveraging Our Technology . We believe that our technology offers substantial technological advantages compared to other competing quantum computing systems.
Our Strategy Our mission is to be the leading quantum computing company enabling the new era of quantum computing. We intend to fulfill our mission by: • Leveraging Our Technology . We believe that our technology offers substantial technological advantages compared to other competing quantum computing and networking systems.
To date, we have developed and assembled nine generations of quantum computer prototypes and systems, have constructed quantum operating systems and software tools, and have worked with leading cloud vendors, quantum programming languages and quantum software development kits (“SDKs”). • Selling Direct Access to Quantum Computers .
To date, we have developed and assembled ten generations of quantum computer prototypes and systems, have constructed quantum operating systems and software tools, and have worked with leading cloud vendors, quantum programming languages and quantum software development kits (“SDKs”). • Selling Direct Access to Quantum Computers .
We sell specialized quantum computing hardware to select customers, complemented by access to quantum experts and algorithm development capabilities. We intend to sell direct access to the quantum computers we manufacture, with units offered on a whole system or usage basis.
We sell specialized quantum computing and networking hardware to select customers, complemented by access to quantum experts and algorithm development capabilities. We sell direct access to the quantum computers we manufacture, with units offered on a whole system or usage basis.
Breakthroughs in physics, engineering, and classical computing were prerequisites for building a quantum computer, which is why for many decades the task was beyond the limits of available technology.
Breakthroughs in physics, engineering, and classical computing were prerequisites for building a quantum computer or network, which is why for many decades the task was beyond the limits of available technology.
Option Agreement with Duke University In July 2016, we entered into an option agreement with Duke, which was subsequently amended in December 2020 and March 2021 (as amended, the “Duke Option Agreement”), under which it obtained the right to add Duke's interests in certain patents or other intellectual property to the License Agreement, including if they were developed by Jungsang Kim, Christopher Monroe or Kenneth Brown, a professor at Duke, or by individuals under their respective supervision and such patents or intellectual property relates to the field of quantum information processing devices.
Option Agreement with Duke University In July 2016, we entered into an option agreement with Duke, which was subsequently amended in December 2020 and March 2021 (as amended, the “Duke Option Agreement”), under which we obtained the right to add Duke's interests in certain patents or other intellectual property to the License Agreement, including if they were developed by Jungsang Kim, Christopher Monroe, a professor at Duke and our former Chief Scientist, or Kenneth Brown, a professor at Duke, or by individuals under their respective supervision and such patents or intellectual property relates to the field of quantum information processing devices.
We intend to continue to drive innovation in quantum computing and seek intellectual property protection where appropriate to enhance our proprietary technology position. • Further Developing Our Quantum Computing Partner Ecosystem . We believe our relationships with leading technology enterprises and university research institutes will accelerate innovation, distribution and monetization of our quantum capabilities.
We intend to continue to drive innovation in quantum computing and networking and seek intellectual property protection where appropriate to enhance our proprietary technology position. • Further Developing Our Quantum Computing and Networking Partner Ecosystem . We believe our relationships with leading technology enterprises, government agencies, and university research institutes will accelerate innovation, distribution and monetization of our quantum capabilities.
Agreements with the University of Maryland and Duke University Exclusive License Agreement In July 2016, we entered into a license agreement with the University of Maryland ("UMD") and Duke University (“Duke”), which was subsequently amended in September 2017, October 2017, October 2018, February 2021, April 2021, September 2021, and January 2023 (as amended, the “License Agreement”), under which we obtained a worldwide, royalty-free, sublicensable license under certain patents, know-how and other intellectual property to develop, manufacture and commercialize products for use in certain licensed fields, the scope of which includes the application of the licensed intellectual property in ion trap quantum computing.
Exclusive License Agreement with the University of Maryland and Duke University In July 2016, we entered into a license agreement with the University of Maryland (“UMD”) and Duke University (“Duke”), or the Universities, which was subsequently amended in September 2017, October 2017, October 2018, February 2021, April 2021, September 2021, January 2023, and February 2024 (as amended, the “License Agreement”), under which we obtained a worldwide, royalty-free, sublicensable license under certain patents, know-how and other intellectual property to develop, manufacture and commercialize products for use in certain licensed fields, the scope of which includes the application of the licensed intellectual property in ion trap quantum computing.
Building a Quantum Computer Requirements for Building Useful Quantum Computers Quantum computers are difficult to build and operate because the physical system of qubits must be nearly perfectly isolated from its environment to faithfully store quantum information.
Building a Quantum Computer or a Quantum Network Requirements for Building Useful Quantum Computers and Networks Quantum computers and networks are difficult to build and operate because the physical system of qubits must be nearly perfectly isolated from its environment to faithfully store quantum information.
If this barrier can be overcome, we believe that quantum computing will offer practical solutions to meaningful problems superior to those provided by classical computers. • Full-scale fault tolerance : This last stage will see large modular quantum computers with enough power to tackle a wide array of commercial applications relevant to many sectors of the economy.
If this barrier can be overcome, we believe that quantum computing will offer practical solutions to meaningful problems superior to those provided by classical computers. • Fault-tolerant quantum computing (FTQC) : This last stage will see large modular quantum computers with enough power to tackle a wide array of commercial applications relevant to many sectors of the economy.
Our quantum computing solution is currently delivered via AWS’s Amazon Braket, Microsoft’s Azure Quantum and Google’s Cloud Marketplace. We believe that by offering QCaaS, we can accelerate the adoption of our quantum computing solutions, while efficiently promoting quantum computing across our partner ecosystems. • Continuing to Enhance Our Proprietary Position .
Our quantum computing solution is currently delivered via AWS’s Amazon Braket, Microsoft’s Azure Quantum and Google’s Cloud Marketplace as well as on our own cloud platform. We believe that by offering QCaaS, we can accelerate the adoption of our quantum computing solutions, while efficiently promoting quantum computing across our partner ecosystems. • Continuing to Enhance Our Proprietary Position .
A majority of our employees are engaged in research and development and related functions, and more than half of our research and development employees hold advanced engineering and scientific degrees, including many from the world’s top universities. To date, we have not experienced any work stoppages and maintain good working relationships with our employees.
A majority of our employees are engaged in research and development and related functions, and a significant portion of our research and development employees hold advanced engineering and scientific degrees, including many from the world’s top universities. To date, we have not experienced any work stoppages and maintain good working relationships with our employees.
Approximately 38% of our full-time employees are based in the greater Washington, D.C. metropolitan area and approximately 26% of our full-time employees are based in the greater Seattle, WA metropolitan area. We also engage a small number of consultants and contractors to supplement our permanent workforce.
Approximately 31% of our full-time employees are based in the greater Washington, D.C. metropolitan area and approximately 35% of our full-time employees are based in the greater Seattle, WA metropolitan area. We also engage a small number of consultants and contractors to supplement our permanent workforce.
Our business model is premised on the belief that businesses with access to quantum computers will likely have a competitive advantage in the future. 10 We envision providing quantum computing services, complemented by access to quantum experts and algorithm development capabilities, to solve some of the most challenging issues facing corporations, governments and other large-scale entities today.
Our business model is premised on the belief that businesses with access to quantum computers and networks will likely have a competitive advantage in the future. We provide quantum computing and networking services, complemented by access to quantum experts and algorithm development capabilities, designed to solve some of the most challenging issues facing corporations, governments and other large-scale entities today.
We also anticipate manufacturing and selling complete quantum systems for dedicated use by a single customer, to be hosted on premises by the customer or remotely by us. • Cloud access to quantum computing .
We also expect to manufacture and sell complete quantum systems and networks for dedicated use by a single customer, to be hosted on premises by the customer or remotely by us. • Cloud access to quantum computing .
As of December 31, 2023, we had an accumulated deficit of $352.1 million. We expect to continue to incur losses for the foreseeable future as we prioritize reaching the technical milestones necessary to achieve an increasingly higher number of stable qubits and higher levels of fidelity than presently exists—prerequisites for quantum computing to reach broad quantum advantage.
We expect to continue to incur significant losses for the foreseeable future as we prioritize reaching the technical milestones necessary to achieve an increasingly higher number of algorithmic qubits and higher levels of fidelity than presently exists—prerequisites for quantum computing to reach broad quantum advantage.
Such access is currently limited to a select group of end-users. We expect our standard offerings will include additional bundled value-add services in exchange for an annual commitment, such as reserved system time, consultations with solution scientists, and other application and integration support.
We expect our standard offerings will include additional bundled value-add services in exchange for an annual commitment, such as reserved system time, consultations with solution scientists, and other application and integration support.
Our issued patents expire between 2029 and 2041. Human Capital Management Our employees are critical to our success. As of December 31, 2023, we had a 324 person-strong team of quantum hardware and software developers, engineers, and general and administrative staff.
Human Capital Management Our employees are critical to our success. As of December 31, 2024, we had a 407 person-strong team of quantum hardware and software developers, engineers, and general and administrative staff.
Quantum Error Correction A key milestone in building larger quantum computers is achieving fault-tolerant quantum error-correction. In quantum error-correction, individual physical qubits prone to errors are combined to form an error-corrected qubit (sometimes referred to as a logical qubit) with a much lower error rate.
In quantum error-correction, individual physical qubits prone to errors are combined to form an error-corrected qubit (sometimes referred to as a logical qubit) with a much lower error rate.
The laser beams are tailored by programming radio frequency (“RF”) signals using state-of-the-art digital chipsets, which are custom-configured to generate the signals for qubit manipulation. An operating system manages the quantum computer, maintaining the system in operation.
Our systems employ a set of lasers and a sophisticated optical system to deliver beams precisely tailored to achieve this manipulation. The laser beams are tailored by programming radio frequency (“RF”) signals using state-of-the-art digital chipsets, which are custom-configured to generate the signals for qubit manipulation. An operating system manages the quantum computer, maintaining the system in operation.
This is because the qubits themselves are not in thermal contact with the environment, as they are electromagnetically confined in free space inside a vacuum chamber.
This is because the qubits themselves are not in thermal contact with the environment, as they are electromagnetically confined in free space inside a vacuum chamber. Although modest cryogenics ( 8 themselves do not degrade at room temperature.
Scientific Approaches to Quantum Computing There are a variety of different approaches to (or architectures for) building a quantum computer, each of which involves tradeoffs in meeting the three functional and practical requirements outlined above. Roughly, approaches to performing a quantum computation fall into one of three categories: natural quantum bits, solid state or classical computer simulation.
Scientific Approaches to Quantum Computing There are a variety of different approaches to (or architectures for) building a quantum computer, each of which involves tradeoffs in meeting the three functional and practical requirements outlined above.
Our programmable gate configurations make our systems adaptable. Unlike quantum computer systems that are limited to a single class of problems due to their architecture, we believe that any computational problem with arbitrary internal algorithmic structure could be optimized to run on our system (although this has not been demonstrated at scale).
Unlike quantum computer systems that are limited to a single class of problems due to their architecture, we believe that any computational problem with arbitrary internal algorithmic structure could be optimized to run on our system, although this has not been demonstrated at scale. 10 Quantum Error Correction A key milestone in building larger quantum computers is achieving fault-tolerant quantum error-correction.
IonQ has announced co-development agreements with Hyundai Motor Company to pursue solutions for battery chemistry and with ZapataAI and the US Defense Advanced Research Projects Agency (DARPA), to help establish the next generation of benchmarking for quantum computers. • Preferred compute agreements with clients .
IonQ has announced co-development agreements with Ansys for computer aided design (CAD) and engineering and with the US Defense Advanced Research Projects Agency (DARPA) to help establish the next generation of benchmarking for quantum computers. • Preferred compute agreements with clients .
When appropriate, we may develop full-stack quantum solutions that can be provided directly to customers, regardless of their in-house quantum expertise. • Accelerated high-impact applications development .
When appropriate, we may develop full-stack quantum solutions that can be provided directly to customers, regardless of their in-house quantum expertise. • Accelerated high-impact applications development . We intend to provide opportunities for accelerated applications development to customers seeking compressed development timelines to solve some of their biggest problems and drive efficiencies.
Natural quantum bits : In natural qubit-based quantum computers, a system is built around naturally occurring substrates exhibiting quantum properties. • Atoms : In atomic-based quantum computers, the qubits are represented by internal states of individual atoms trapped and isolated in a vacuum.
Roughly, approaches to performing a quantum computation fall into one of three categories: natural quantum bits, solid state or classical computer simulation. 7 Natural quantum bits : In natural qubit-based quantum computers, a system is built around naturally occurring substrates exhibiting quantum properties. • Atoms : In atomic-based quantum computers, the qubits are represented by internal states of individual atoms trapped and isolated in a vacuum.
As of February 1, 2024, we own or license, on an exclusive basis, 82 issued U.S. patents and 185 pending or allowed U.S. patent applications, 21 issued foreign patents and 137 pending or allowed foreign patent applications, 8 registered U.S. trademarks and 14 pending U.S. trademark applications, and 22 registered international trademarks and 2 pending international trademark applications.
As of February 1, 2025, we own or license, on an exclusive basis, 132 issued U.S. patents and 204 pending or allowed U.S. patent applications, 140 issued foreign patents and 134 pending or allowed foreign patent applications, 13 registered U.S. trademarks and 11 pending U.S. trademark applications, and 23 registered international trademarks and 2 pending international trademark applications.
This contrasts with other approaches, for which we estimate the overhead to be in the range of 1,000:1 to 100,000:1. 9 We believe our architectural decisions will make our systems uniquely capable of achieving scale. We have published a roadmap for scaling to larger quantum computing systems, with concrete technological innovations designed to significantly improve the performance of the systems.
We believe our architectural decisions will make our systems uniquely capable of achieving scale. We have published a roadmap for scaling to larger quantum computing systems, with concrete technological innovations designed to significantly improve the performance of the systems. For example, in 2022, we announced that through our partnership with the U.S.
Application Phase : This second phase is expected to commence if we are successful in demonstrating the commercial viability of quantum advantage in the industry and can therefore commence with developing commercial applications and applying that advantage broadly throughout the market with new customers. • Delivery of a full-scale quantum compute platform .
Our current and future cloud partnerships with AWS’s Amazon Braket, Microsoft’s Azure Quantum, Google’s Cloud Marketplace and other cloud providers are designed and will continue to be designed to make access to quantum computing hardware available to a broader community of quantum programmers. 12 Application Phase : This second phase is expected to commence if we are successful in demonstrating the commercial viability of quantum advantage in the industry and can therefore commence with developing commercial applications and applying that advantage broadly throughout the market with new customers. • Delivery of a full-scale quantum compute platform .
Moreover, to be practical, a quantum computer must be economical in cost and scalable in compute power (i.e., the number of qubits and the number of gate operations) to handle real world problems. The development of large-scale quantum computing systems is still in early stages, and several potential engineering architectures for how to build a quantum computer have emerged.
Moreover, to be practical, a quantum computer or network must be economical in cost and scalable in compute power (i.e., the number of qubits and the number of gate operations) to handle real world problems.
In consideration for the rights granted to us under the License Agreement, we issued UMD and Duke shares of our common stock. Pursuant to Duke’s policy, Jungsang Kim, our Chief Technology Officer and Director, may receive remuneration from Duke relating to any stock we have issued to Duke.
In consideration for the rights granted to us under the License Agreement, we issued UMD and Duke shares of our common stock.
Lease with the University of Maryland In March 2020, we entered into an amended and restated office lease with UMD for the lease of our corporate headquarters and our research and development and manufacturing facility. This lease expires on December 31, 2030. We may terminate this lease with not less than 120 days written notice beginning in year six.
Commercial Agreements with the University of Maryland Lease with the University of Maryland In March 2020, we entered into an amended and restated office lease with UMD for the lease of our corporate headquarters and our research and development and manufacturing facility.
We supplement our offerings with professional services focused on assisting our customers in applying quantum computing to their businesses. We also expect to sell full quantum computing systems to customers, either over the cloud or for local access. We are still in the early stages of commercial growth. Since our inception, we have incurred significant operating losses.
We supplement our offerings with professional services focused on assisting our customers in applying quantum computing and networking to their businesses. We also expect to sell full quantum computing systems to customers, either over the cloud or for local access. We also offer quantum networking products which offer customers secure communication networks and enable networked quantum computing.
Although modest cryogenics ( • All-to-all connectivity : In superconducting and other solid-state architectures, individual qubits are connected via physical wires, hence a particular qubit can only communicate with a further-removed qubit by going through the qubits that lie in-between. In the trapped ion approach, however, qubits are connected by electrostatic repulsion rather than through physical wires.
This allows us to minimize the system size as technology progresses, while scaling the compute power and simultaneously reducing costs. • All-to-all connectivity : In superconducting and other solid-state architectures, individual qubits are connected via physical wires, hence a particular qubit can only communicate with a further-removed qubit by going through the qubits that lie in-between.
As a result, qubits in our existing systems can directly interact with any other qubit in the system.
In the trapped ion approach, however, qubits are connected by electrostatic repulsion rather than through physical wires. As a result, qubits in our existing systems can directly interact with any other qubit in the system.
We intend to provide opportunities for accelerated applications development to customers seeking compressed development timelines to solve some of their biggest problems and drive efficiencies. 11 We expect the technical complexity of the solutions required for quantum algorithms to address how each application area will impact the timing of that market’s inflection point and transition from the development phase to the application phase.
We expect the technical complexity of the solutions required for quantum algorithms to address how each application area will impact the timing of that market’s inflection point and transition from the development phase to the application phase. We expect computational chemistry and optimization to be among the first solutions to transition into broadly available applications.
We are developing quantum computers based on individual atoms as the core qubit technology, which we believe has key advantages in scaling. The ability to produce cheap error-corrected qubits at scale in a modular architecture is one of the key differentiators of our approach.
The ability to produce cheap error-corrected qubits at scale in a modular architecture is one of the key differentiators of our approach.
We believe this is significant because it will allow us to reduce the size of core system components, an important step in the creation of quantum computers small enough to be networked together.
Department of Energy’s Pacific Northwest National Laboratory (“PNNL”), we were able to shrink the barium source material down to a microscopic scale. We believe this is significant because it is evidence of our continued progress to reduce the size of core system components, an important step in the creation of quantum computers small enough to be networked together.
We are also engaged with certain prospects who are interested in purchasing partial or entire quantum computing systems, either over the cloud or for local access. Direct Access Customers By directly integrating with us, customers can reserve dedicated execution windows, receive concierge-level application development support, gain early access to next-generation hardware, or host their own quantum computer.
Direct Access Customers By directly integrating with us, customers can reserve dedicated execution windows, receive concierge-level application development support, gain early access to next-generation hardware, or host their own quantum computer. Such access is currently limited to a select group of end-users.
With our unique architecture, we believe quantum error-correction can be completely coded in software, allowing varying levels and depths of quantum error-correction to be deployed as needed. Because the ion qubits feature very low idle and native error rates and are highly connected, we expect the error-correction overhead to be about 16:1 to achieve the first useful quantum applications.
With our unique architecture, we believe quantum error-correction can be coded in hardware and software, allowing varying levels and depths of quantum error-correction to be deployed as needed.
If our quantum computers achieve full-scale fault tolerance, a diverse array of industries, ranging from quantum chemistry to deeper optimization, may be able to be transitioned to the application phase. Customers and Prospects Quantum Computing Systems and Hardware We sell certain specialized quantum computing hardware to select customers.
Additional markets taking advantage of quantum material science research and optimization speed-ups may come online next if broad-scale quantum advantage becomes accessible. If our quantum computers achieve full-scale fault tolerance, a diverse array of industries, ranging from quantum machine learning to deeper optimization, may be able to be transitioned to the application phase.
In some cases, conflicting marketing messages from these competitors can lead to confusion among our potential customer base.
Competition There are many other approaches to quantum computing that use qubit technology besides the trapped ion approach we are taking. In some cases, conflicting marketing messages from these competitors can lead to confusion among our potential customer base.
We intend to manufacture, own and operate quantum computers, with compute units being offered to potential customers through system hardware sales and on a QCaaS basis. We expect our target markets to experience two stages of quantum algorithm deployment: the development stage and the application stage.
We manufacture, own and operate quantum computers and networks, with compute units being offered to potential customers through system hardware sales and on a QCaaS basis and network units being offered through hardware sales. We manufacture specialized quantum computers for specific use cases for customers including government agencies.
Contracts with the University of Maryland In September 2021, we entered into a contract with UMD to provide certain quantum computing services and facility access (the “UMD Quantum Agreement”) related to the National Quantum Lab at UMD in exchange for payments totaling $14.0 million over three years.
This lease expires on November 30, 2030. 13 Contracts with the University of Maryland In September 2021, we entered into a contract with UMD to provide certain quantum computing services and facility access, and in July 2022, we entered into a contract with UMD to provide customized quantum computing hardware.
Gate Configuration Our qubits are manipulated (for initialization, detection, and forming quantum logic gates) by shining specific laser beams onto the trapped ions. Our systems employ a set of lasers and a sophisticated optical system to deliver beams precisely tailored to achieve this manipulation.
Notably, our architectural approach to scaling quantum computers across several QPUs has also contributed to IonQ's work in quantum networking. Gate Configuration Our qubits are manipulated (for initialization, detection, and forming quantum logic gates) by shining specific laser beams onto the trapped ions.
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For example, in 2022, we announced that through our partnership with the U.S. Department of Energy’s Pacific Northwest National Laboratory (“PNNL”), we were able to shrink the barium source material down to a microscopic scale.
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Our net losses were $331.6 million, $157.8 million and $48.5 million, for the years ended December 31, 2024, 2023 and 2022, respectively. As of December 31, 2024, we had an accumulated deficit of $683.7 million.
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Our current and future cloud partnerships with AWS’s Amazon Braket, Microsoft’s Azure Quantum, Google’s Cloud Marketplace and other cloud providers are designed and will continue to be designed to make access to quantum computing hardware available to a broader community of quantum programmers.
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In a 2024 update of the previously referenced publicly available report, the third-party consulting firm detailed $50 billion in total government and private investment in quantum technology and estimated up to $2 trillion in economic value from quantum computing in the next ten years.
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During the NISQ computing era, we expect quantum machine learning to be the first solution to transition into broadly available applications. Additional markets taking advantage of quantum material science research and optimization speed-ups may come online next if broad-scale quantum advantage becomes accessible.
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The development of large-scale quantum computing and networking systems is still in early stages, and several potential engineering architectures for how to build a quantum computer or network have emerged. We are developing quantum computers based on individual atoms as the core qubit technology, which we believe has key advantages in scaling.
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Any early termination will result in a termination fee ranging from $2.5 million in year six to $0.5 million in year ten, with each year subject to a reduction of $0.5 million. Annual base rent starts at $0.7 million and increases approximately 3.0% each subsequent year.
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The laser-cooling of the qubits themselves is extremely efficient because the atomic ions have very little mass and this requires just a single low-power laser beam (microwatts).
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Over the term of the contract, we estimate that we will make payments to UMD of approximately $1.4 million, including a contribution of $1.0 million to establish the IonQ Endowed Professorship in the College of Computer, Mathematical and Natural Sciences at UMD.
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Our programmable gate configurations make our systems adaptable.
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Item 1A. Risk Factors
Risk Factors — what could go wrong, per management
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Item 1A. Risk Factors
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2023 filing
2024 filing
Biggest changeIf these assumptions or analyses prove to be incorrect, our actual operating results may be materially different from our forecasted results. • We may need additional capital to pursue our business objectives and respond to business opportunities, challenges or unforeseen circumstances, and we cannot be sure that additional financing will be available. • We have not produced a scalable quantum computer and face significant barriers in our attempts to produce quantum computers. • The quantum computing industry is competitive on a global scale and we may not be successful in competing in this industry or establishing and maintaining confidence in our long-term business prospects among current and future partners and customers. • We have experienced in the past, and could also suffer disruptions, outages, defects and other performance and quality problems with our quantum computing systems, our private cloud, our research and development activities, our testbeds, our facilities, or with the public cloud, internet, and other infrastructure on which they rely. • Even if we are successful in developing quantum computing systems and executing our strategy, competitors in the industry may achieve technological breakthroughs that render our quantum computing systems obsolete or inferior to other products. • We may be negatively impacted by any early obsolescence of our quantum computing technology. • We may be unable to reduce the cost per qubit sufficiently, which may prevent us from pricing our quantum systems competitively. • The quantum computing industry is in its early stages and volatile, and if it does not develop, if it develops slower than we expect, if it develops in a manner that does not require use of our quantum computing solutions, if it encounters negative publicity or if our solution does not drive commercial engagement, the growth of our business will be harmed. 16 • If our computers fail to achieve a broad quantum advantage, our business, financial condition and future prospects may be harmed. • We have and may continue to face supply chain issues that could delay the introduction of our product and negatively impact our business and operating results. • If we cannot successfully execute on our strategy or achieve our objectives in a timely manner, our business, financial condition and results of operations could be harmed. • Our products may not achieve market success, but will still require significant costs to develop. • We are highly dependent on our key employees who have specialized knowledge, and our ability to attract and retain senior management and other key employees is critical to our success. • We may not be able to accurately estimate the future supply and demand for our quantum computers, which could result in a variety of inefficiencies in our business and hinder our ability to generate revenue. • Much of our revenue is concentrated in a few customers, and if we lose any of these customers through contract terminations, acquisitions, or other means, our revenue may decrease substantially. • Our systems depend on the use of a particular isotope of an atomic element that provides qubits for our ion trap technology.
Biggest changeIf we cannot successfully overcome those barriers, our business will be negatively impacted and could fail. • We have experienced in the past, and could also suffer future disruptions, outages, defects and other performance and quality problems with our quantum computing systems, our private cloud, or other information systems, our research and development activities, our facilities, our other fixed assets, or with the public cloud, internet, and other infrastructure on which they rely. • Even if we are successful in developing quantum computing systems and executing our strategy, competitors in the industry may achieve technological breakthroughs that render our quantum computing systems obsolete or inferior to other products. • We may be negatively impacted by any early obsolescence of our quantum computing technology. • If our computers fail to achieve a broad quantum advantage, our business, financial condition and future prospects may be harmed. • The quantum computing and networking industry is competitive on a global scale and we may not be successful in competing in this industry or establishing and maintaining confidence in our long-term business prospects among current and future partners and customers. • The quantum computing and networking industry is in its early stages and volatile, and if it does not develop, if it develops slower than we expect, if it develops in a manner that does not require use of our quantum computing solutions, if it encounters negative publicity or if our solution does not drive commercial engagement, the growth of our business will be harmed. • We may not be able to accurately estimate the future supply and demand for our quantum computers, which could result in a variety of inefficiencies in our business and hinder our ability to generate revenue.
Importers are required to present clear and convincing evidence that such goods are not made with forced labor. While we do not source items from the XUAR or from listed parties, and we have increased our supply chain diligence, there is risk that our ability to import components and products may be adversely affected by the UFLPA.
Importers may be required to present clear and convincing evidence that such goods are not made with forced labor. While we do not source items from the XUAR or from listed parties, and we have increased our supply chain diligence, there is risk that our ability to import components and products may be adversely affected by the UFLPA.
In particular, the False Claims Act’s “whistleblower” provisions also allow private individuals, including present and former employees, to sue on behalf of the U.S. government. Any penalties, damages, fines, suspension, or damages could adversely affect our ability to operate our business and our financial results.
In particular, the False Claims Act’s “whistleblower” provisions also allow private individuals, including present and former employees, to sue on behalf of the U.S. government. Any penalties, fines, suspension, or damages could adversely affect our ability to operate our business and our financial results.
In the United States, federal, state, and local governments have enacted numerous data privacy and security laws, including data breach notification laws, personal data privacy laws, consumer protection laws (e.g., Section 5 of the Federal Trade Commission Act), and other similar laws (e.g., wiretapping laws).
In the United States, federal, state, and local governments have enacted numerous privacy and security laws, including data breach notification laws, personal data privacy laws, consumer protection laws (e.g., Section 5 of the Federal Trade Commission Act), and other similar laws (e.g., wiretapping laws).
Additionally, we also target customers in Asia and may be subject to new and emerging data privacy regimes in Asia, including China’s PIPL, Japan’s Act on the Protection of Personal Information, and Singapore’s Personal Data Protection Act.
Additionally, we also target customers in Asia and may be subject to new and emerging data protection and privacy regimes in Asia, including China’s PIPL, Japan’s Act on the Protection of Personal Information, and Singapore’s Personal Data Protection Act.
If there is no lawful manner for us to transfer personal data from the EEA, the UK, or other jurisdictions to the United States, or if the requirements for a legally-compliant transfer are too onerous, we could face significant adverse consequences, including the interruption or degradation of our operations, the need to relocate part of or all of our business or data processing activities to other jurisdictions at significant expense, increased exposure to regulatory actions, substantial fines and penalties, the inability to transfer data and work with partners, vendors and other third parties, and injunctions against our processing or transferring of personal data necessary to operate our business.
If there is no lawful manner for us to transfer personal data from the EEA, the UK, or other jurisdictions to the United States, or if the requirements for a legally-compliant transfer are too onerous, we could face significant adverse consequences, including the interruption or degradation of our operations, the need to relocate part of or all of our business or data processing activities to other jurisdictions at significant expense, increased exposure to regulatory actions, substantial fines and penalties, the inability to transfer data and work with partners, vendors and other third parties, and injunctions against our transferring or other processing of personal data necessary to operate our business.
Accordingly, our business, financial condition, results of operations, and growth prospects may be adversely affected by certain events or activities, including, but not limited to: • changes in government fiscal or procurement policies, or decreases in government funding available for procurement of goods and services generally, or for our federal government contracts specifically; • changes in government programs or applicable requirements; • restrictions in the grant of personnel security clearances to our employees; • ability to maintain facility clearances required to perform on classified contracts for U.S. government and foreign government agencies, as applicable; • changes in the political environment, including before or after a change to the leadership within the government administration, and any resulting uncertainty or changes in policy or priorities and resultant funding; • changes in the government’s attitude towards us as a company or our technology; • appeals, disputes, or litigation relating to government procurement, including but not limited to bid protests by unsuccessful bidders on potential or actual awards of contracts to us or our partners by the government; • the adoption of new laws or regulations or changes to existing laws or regulations; • budgetary constraints, including automatic reductions as a result of “sequestration,” operating under continuing resolutions, disruptions from government shutdowns, or similar measures and constraints imposed by any lapses in appropriations for the federal government or certain of its departments and agencies; • influence by, or competition from, third parties with respect to pending, new, or existing contracts with government customers; • changes in legal obligations or political or social attitudes with respect to security or data privacy issues; • potential delays or changes in the government appropriations or procurement processes, including as a result of events such as war, incidents of terrorism, natural disasters, and public health concerns; and • increased or unexpected costs or unanticipated delays caused by other factors outside of our control.
Accordingly, our business, financial condition, results of operations, and growth prospects may be adversely affected by certain events or activities, including, but not limited to: • changes in government fiscal or procurement policies, or decreases in government funding available for procurement of goods and services generally, or for our federal government contracts specifically; • changes in government programs or applicable requirements; 29 • restrictions in the grant of personnel security clearances to our employees; • ability to maintain facility clearances required to perform on classified contracts for U.S. government and foreign government agencies, as applicable; • changes in the political environment, including before or after a change to the leadership within the government administration, and any resulting uncertainty or changes in policy or priorities and resultant funding; • changes in the government’s attitude towards us as a company or our technology; • appeals, disputes, or litigation relating to government procurement, including but not limited to bid protests by unsuccessful bidders on potential or actual awards of contracts to us or our partners by the government; • the adoption of new laws or regulations or changes to existing laws or regulations; • budgetary constraints, including automatic reductions as a result of “sequestration,” operating under continuing resolutions, disruptions from government shutdowns, or similar measures and constraints imposed by any lapses in appropriations for the federal government or certain of its departments and agencies; • influence by, or competition from, third parties with respect to pending, new, or existing contracts with government customers; • changes in legal obligations or political or social attitudes with respect to security or privacy issues; • potential delays or changes in the government appropriations or procurement processes, including as a result of events such as war, incidents of terrorism, natural disasters, and public health concerns; and • increased or unexpected costs or unanticipated delays caused by other factors outside of our control.
Evolving and scaling our business and operations places increased demands on our management as well as our financial and operational resources to: • effectively manage organizational change; • design scalable processes; • accelerate and/or refocus research and development activities; 18 • expand manufacturing, supply chain and distribution capacity; • increase sales and marketing efforts; • broaden customer-support and services capabilities; • maintain or increase operational efficiencies; • scale support operations in a cost-effective manner; • implement appropriate operational and financial systems; and • maintain effective financial disclosure controls and procedures.
Evolving and scaling our business and operations places increased demands on our management as well as our financial and operational resources to: • effectively manage organizational change; • design scalable processes; • accelerate and/or refocus research and development activities; • expand manufacturing, supply chain and distribution capacity; • increase sales and marketing efforts; • broaden customer-support and services capabilities; • maintain or increase operational efficiencies; • scale support operations in a cost-effective manner; • implement appropriate operational and financial systems; and • maintain effective financial disclosure controls and procedures.
If we or the third parties on which we rely fail, or are perceived to have failed, to address or comply with applicable data privacy and security obligations, we could face significant consequences, including but not limited to: government enforcement actions (e.g., investigations, fines, penalties, audits, inspections, and similar events); litigation (including class-action claims); additional reporting requirements and/or oversight; bans on processing personal data; and orders to destroy or not use personal data.
If we or the third parties on which we rely fail, or are perceived to have failed, to address or comply with applicable privacy, data protection or security obligations, we could face significant consequences, including but not limited to: government enforcement actions (e.g., investigations, fines, penalties, audits, inspections, and similar events); litigation (including class-action claims); additional reporting requirements and/or oversight; bans on processing personal data; and orders to destroy or not use personal data.
There is risk that one or more of these public cloud providers could use their respective control of their public clouds to embed innovations or privileged interoperating capabilities in competing products, bundle competing products, provide us 23 with unfavorable pricing, leverage their public cloud customer relationships to exclude us from opportunities, and treat us and our end users differently with respect to terms and conditions or regulatory requirements than they would treat their similarly situated customers.
There is risk that one or more of these public cloud providers could use their respective control of their public clouds to embed innovations or privileged interoperating capabilities in competing products, bundle competing products, provide us with unfavorable pricing, leverage their public cloud customer relationships to exclude us from opportunities, and treat us and our end users differently with respect to terms and conditions or regulatory requirements than they would treat their similarly situated customers.
The issuance of additional shares or other equity securities of equal or senior rank would have the following effects: • existing stockholders’ proportionate ownership interest in us will decrease; • the amount of cash available per share, including for payment of dividends, if any, may decrease; 46 • the relative voting strength of each previously outstanding share of common stock may be diminished; and • the market price of our common stock may decline.
The issuance of additional shares or other equity securities of equal or senior rank would have the following effects: • existing stockholders’ proportionate ownership interest in us will decrease; • the amount of cash available per share, including for payment of dividends, if any, may decrease; • the relative voting strength of each previously outstanding share of common stock may be diminished; and • the market price of our common stock may decline.
Redemption of the outstanding public warrants could force you (1) to exercise your public warrants and pay the exercise price therefor at a time when it may be disadvantageous for you to do so, (2) to sell your public warrants at the then-current market price when you might otherwise wish to hold your public warrants or (3) to accept the nominal redemption price which, at the time the outstanding public warrants are called for redemption, is likely to be substantially less than the market value of your public warrants.
Redemption of the outstanding public warrants could force you (1) to exercise your public warrants and pay the exercise price at a time when it may be disadvantageous for you to do so, (2) to sell your public warrants at the then-current market price when you might otherwise wish to hold your public warrants or (3) to accept the nominal redemption price which, at the time the outstanding public warrants are called for redemption, is likely to be substantially less than the market value of your public warrants.
Whether actual operating and financial results and business developments will be consistent with our expectations and assumptions as reflected in our forecasts depends on a number of factors, many of which are outside our control, including, but not limited to: • success and timing of development activity; • customer acceptance of our quantum computing systems; • breakthroughs in classical computing or other computing technologies that could eliminate the advantages of quantum computing systems rendering them less practical to customers; • competition, including from established and future competitors; • whether we can obtain sufficient capital to sustain and grow our business; 20 • our ability to manage our growth; • our ability to expand our sales into international markets; • our ability to retain existing key management, integrate recent hires and attract, retain and motivate qualified personnel; and • the overall strength and stability of domestic and international economies.
Whether actual operating and financial results and business developments will be consistent with our expectations and assumptions as reflected in our forecasts depends on a number of factors, many of which are outside our control, including, but not limited to: • success and timing of development activity; • customer acceptance of our quantum computing and networking systems; • breakthroughs in classical computing or other computing technologies that could eliminate the advantages of quantum computing and networking systems rendering them less practical to customers; • competition, including from established and future competitors; • whether we can obtain sufficient capital to sustain and grow our business; • our ability to manage our growth; • our ability to expand our sales into international markets; • our ability to retain existing key management, integrate recent hires and attract, retain and motivate qualified personnel; and • the overall strength and stability of domestic and international economies.
These regulations govern, among other things, the design, development, testing, manufacturing, packaging, labeling, distribution, import/export, sale, marketing, and disposal of our activities and products. We are also subject to international laws and regulations that apply to the utilization of radioactive materials. These are often comparable to, if not more stringent than, the equivalent regulations in the United States.
These regulations govern, among other things, the design, development, testing, manufacturing, packaging, labeling, distribution, import/export, sale, marketing, and disposal of our products. We are also subject to international laws and regulations that apply to the utilization of radioactive materials. These are often comparable to, if not more stringent than, the equivalent regulations in the United States.
The development of our scalable business model will likely require the incurrence of a substantially higher level of costs than incurred to date, while our revenues will not substantially increase until more powerful, scalable computers are produced, which requires a number of technological advancements that may not occur on the currently anticipated timetable or at all.
The development of our scalable business model will likely require the incurrence of a substantially higher level of costs than incurred to date, while our revenues will not substantially increase until more powerful, 18 scalable computers are produced, which requires a number of technological advancements that may not occur on the currently anticipated timetable or at all.
Reliance on any single supplier 26 increases the risks associated with being unable to obtain the necessary atomic samples because the supplier may have laboratory constraints, can be subject to unanticipated shutdowns and/or may be affected by natural disasters and other catastrophic events. Some of these factors may be completely out of our and our suppliers’ control.
Reliance on any single supplier increases the risks associated with being unable to obtain the necessary atomic samples because the supplier may have laboratory constraints, can be subject to unanticipated shutdowns and/or may be affected by natural disasters and other catastrophic events. Some of these factors may be completely out of our and our suppliers’ control.
Sarbanes-Oxley, including the requirements of Section 404, as well as rules and regulations subsequently implemented by the SEC, the Dodd-Frank Wall Street Reform and Consumer Protection Act of 2010 and the rules and regulations promulgated and to be promulgated thereunder, the Public Company Accounting Oversight Board (“PCAOB”) and the securities exchanges, impose additional reporting and other obligations on public companies.
Sarbanes-Oxley, including the requirements of Section 404, as well as rules and regulations subsequently implemented by the SEC, the Dodd-Frank Wall Street Reform and Consumer Protection Act of 2010 and the rules and regulations promulgated and to be promulgated thereunder, the Public Company Accounting Oversight Board (“PCAOB”) and the securities exchanges, impose additional reporting 47 and other obligations on public companies.
We have entered into, and may enter into, strategic partnerships to develop and commercialize our current and future research and development programs with other companies to accomplish one or more of the following: • obtain expertise in relevant markets; • obtain sales and marketing services or support; • obtain equipment and facilities; • develop relationships with potential future customers; and • generate revenue.
We have entered into, and may enter into, strategic partnerships to develop and commercialize our current and future research and development programs with other companies to accomplish one or more of the following: • obtain expertise in relevant markets; 27 • obtain sales and marketing services or support; • obtain equipment and facilities; • develop relationships with potential future customers; and • generate revenue.
This could adversely affect the timing of any quantum advantage being achieved, if at all. Even if the market in which we compete achieves the forecasted growth, our business could fail to grow at similar rates, if at all. Our success will depend upon our ability to expand, scale our operations, and increase our sales capability.
This could adversely affect the timing of any quantum advantage being achieved, if at all. 20 Even if the market in which we compete achieves the forecasted growth, our business could fail to grow at similar rates, if at all. Our success will depend upon our ability to expand, scale our operations, and increase our sales capability.
Unforeseen issues associated with scaling up and constructing quantum computing technology at commercially viable levels, and selling our technology, could negatively impact our business, financial condition and results of operations. Moreover, because of our unique technology, our customers will require particular support and service functions, some of which are not currently available.
Unforeseen issues associated with scaling up and constructing quantum computing and networking technology at commercially viable levels, and selling our technology, could negatively impact our business, financial condition and results of operations. Moreover, because of our unique technology, our customers will require particular support and service functions, some of which are not currently available.
The quantum computing industry is in its early stages and volatile, and if it does not develop, if it develops slower than we expect, if it develops in a manner that does not require use of our quantum computing solutions, if it encounters negative publicity or if our solution does not drive commercial engagement, the growth of our business will be harmed.
The quantum computing and networking industry is in its early stages and volatile, and if it does not develop, if it develops slower than we expect, if it develops in a manner that does not require use of our quantum computing solutions, if it encounters negative publicity or if our solution does not drive commercial engagement, the growth of our business will be harmed.
Currently, there is very little historical basis for making judgments on the demand for our quantum computers or our ability to develop, manufacture, and deliver quantum computers, or our profitability, if any, in the future. If we overestimate our requirements, our suppliers may have excess inventory, which indirectly would increase our costs.
Currently, there is very little historical basis for making judgments on the demand for our quantum computers or our ability to design, develop, manufacture, and deliver quantum computers, or our profitability, if any, in the future. If we overestimate our requirements, our suppliers may have excess inventory, which indirectly would increase our costs.
The enforceability of similar choice of forum provisions in other companies’ certificates of 48 incorporation have been challenged in legal proceedings and there is uncertainty as to whether a court would enforce such provisions. In addition, investors cannot waive compliance with the federal securities laws and the rules and regulations thereunder.
The enforceability of similar choice of forum provisions in other companies’ certificates of incorporation have been challenged in legal proceedings and there is uncertainty as to whether a court would enforce such provisions. In addition, investors cannot waive compliance with the federal securities laws and the rules and regulations thereunder.
You may be unable to sell your securities unless a market can be established or sustained. If we are unable to implement and maintain effective internal control over financial reporting, investors may lose confidence in the accuracy and completeness of financial reports, and the market price of our common stock may decline.
You may be unable to sell your securities unless a market can be established or sustained. If we are unable to maintain effective internal control over financial reporting, investors may lose confidence in the accuracy and completeness of financial reports, and the market price of our common stock may decline.
We have and we may be required to 19 continue to expand our employee base and hire additional employees to support our operations as a public company, which will continue to increase our operating costs in future periods. Our estimates of market opportunity and forecasts of market growth may prove to be inaccurate.
We have and we may be required to continue to expand our employee base and hire additional employees to support our operations as a public company, which will continue to increase our operating costs in future periods. Our estimates of market opportunity and forecasts of market growth may prove to be inaccurate.
Any claims or litigation, even if fully indemnified or insured, could damage our reputation and make it more difficult to compete effectively or to obtain adequate insurance in the future. In addition, the laws and regulations our business is subject to are complex and change frequently.
Any claims or litigation, even if fully indemnified or insured, could damage our reputation and make it more difficult to compete effectively or to obtain adequate insurance in the future. 37 In addition, the laws and regulations our business is subject to are complex and change frequently.
If we cannot attract, train and retain qualified personnel, in this competitive environment, we may experience delays in the development of our quantum computing technologies and be otherwise unable to develop and grow our business as projected, or even at all.
If we cannot attract, train and retain qualified personnel, in this competitive environment, we may experience delays in the development of our quantum computing and networking technologies and be otherwise unable to develop and grow our business as projected, or even at all.
Laws and regulations governing privacy, data protection and data sovereignty are rapidly evolving, extensive, complex, and include inconsistencies and uncertainties that may conflict with other rules or our practices. Further, new laws, rules, and regulations could be enacted with which we are not familiar or with which our current practices do not comply.
Laws and regulations governing privacy, data protection and data sovereignty are rapidly evolving, extensive, complex, and include inconsistencies and uncertainties that may conflict with other rules or our practices. Further, new laws, rules, and regulations could be enacted with which we are not familiar or with which our practices do not comply.
Our growth is also dependent upon our ability to successfully market and sell quantum computing technology. We do not have experience with the mass distribution and sale of quantum computing technology. Our growth and long-term success will depend upon the development of our sales and delivery capabilities.
Our growth is also dependent upon our ability to successfully market and sell quantum computing and networking technology. We do not have experience with the mass distribution and sale of quantum computing and networking technology. Our growth and long-term success will depend upon the development of our sales and delivery capabilities.
Failure to grow at rates similar to that of the quantum computing industry may adversely affect our operating results and ability to effectively compete within the industry. Our operating and financial results forecast relies in large part upon assumptions and analyses we have developed.
Failure to grow at rates similar to that of the quantum computing and networking industry may adversely affect our operating results and ability to effectively compete within the industry. Our operating and financial results forecast relies in large part upon assumptions and analyses we have developed.
The effective operation of our supply chain, including the acquisition of critical components and materials, the development of our quantum computing technologies, the commercialization of our quantum computing technologies and the effective operation of our managerial and operating systems all depend upon our ability to attract, train and retain qualified personnel in the aforementioned specialties.
The effective operation of our supply chain, including the acquisition of critical components and materials, the development of our quantum computing and networking technologies, the commercialization of our quantum computing and networking technologies and the effective operation of our managerial and operating systems all depend upon our ability to attract, train and retain qualified personnel in the aforementioned specialties.
Our contracts may not contain limitations of liability, and even where they do, there can be no assurance that limitations of liability in our contracts are sufficient to protect us from liabilities, damages, or claims related to our data privacy and security obligations.
Our contracts may not contain limitations of liability, and even where they do, there can be no assurance that limitations of liability in our contracts are sufficient to protect us from liabilities, damages, or claims related to our privacy and security obligations.
Any damage to our reputation, including from publicity from legal proceedings against us or companies that work within our industry, governmental proceedings, unfavorable media coverage or class action could adversely affect our business, financial condition and results of operations.
Any damage to our reputation, including from publicity related to legal proceedings against us or companies that work within our industry, governmental proceedings, unfavorable media coverage or class action could adversely affect our business, financial condition and results of operations.
Cyber-attacks, malicious internet-based activity, online and offline fraud, and other similar activities threaten the confidentiality, integrity, and availability of our Sensitive Data and information 29 technology systems, and those of the third parties upon which we rely.
Cyber-attacks, malicious internet-based activity, online and offline fraud, and other similar activities threaten the confidentiality, integrity, and availability of our Sensitive Data and information technology systems, and those of the third parties upon which we rely.
If we cannot evolve and scale our business and operations effectively, we may not be able to execute our business strategies in a cost-effective manner and our business, financial condition, profitability and results of operations could be adversely affected. We may not manage growth effectively.
If we cannot evolve and scale our business and operations effectively, we may not be able to execute our business strategies in a cost-effective manner and our business, financial condition and results of operations could be adversely affected. We may not manage our growth effectively.
If the market for quantum computers in general does not develop as expected, or develops more slowly than expected, our business, prospects, financial condition and operating results could be harmed.
If the market for quantum computers and networks in general does not develop as expected, or develops more slowly than expected, our business, prospects, financial condition and operating results could be harmed.
In addition, we may seek additional capital due to favorable market conditions or strategic considerations even if we believe that we have sufficient funds for current or future operating plans.
In addition, we may seek additional capital due to favorable market conditions or 21 strategic considerations even if we believe that we have sufficient funds for current or future operating plans.
The nascent market for quantum computers is still rapidly evolving, characterized by rapidly changing technologies, competitive pricing and competitive factors, evolving government regulation and industry standards, and changing customer demands and behaviors.
The nascent market for quantum computers and networks is still rapidly evolving, characterized by rapidly changing technologies, competitive pricing and competitive factors, evolving government regulation and industry standards, and changing customer demands and behaviors.
Any of the previously identified or similar threats could cause a security incident or other interruption that could result in unauthorized, unlawful, or accidental acquisition, modification, destruction, loss, alteration, encryption, disclosure of, or access to our Sensitive Data (including proprietary information and intellectual property) or our information technology systems, or those of the 30 third parties upon whom we rely.
Any of the previously identified or similar threats could cause a security incident or other interruption that could result in unauthorized, unlawful, or accidental access to, or acquisition, modification, destruction, loss, alteration, encryption, disclosure, or other processing of our Sensitive Data (including proprietary information and intellectual property) or our information technology systems, or those of the third parties upon whom we rely.
Pursuant to the license agreement with the universities, we were granted an exclusive, worldwide, royalty-free, sublicenseable license for certain patents, know-how (on a non-exclusive basis) and other intellectual property to develop, manufacture and commercialize products for use in certain licensed fields, the scope of which includes the application of the licensed intellectual property in ion trap quantum computing.
Pursuant to the license agreement with the Universities, we were granted an exclusive, worldwide, royalty-free, sublicensable license for certain patents, know-how (on a non-exclusive basis) and other intellectual property to develop, manufacture and commercialize products for use in certain licensed fields, the scope of which includes the application of the licensed intellectual property in ion trap quantum computing.
Any future hedging activities may not offset the full, or in some cases any, adverse financial impact resulting from unfavorable movement in foreign currency exchange rates, which could adversely affect our financial condition and results of operations. 34 Our international operations may subject us to greater than anticipated tax liabilities.
Any future hedging activities may not offset the full, or in some cases any, adverse financial impact resulting from unfavorable movement in foreign currency exchange rates, which could adversely affect our financial condition and results of operations. 36 Our international operations may subject us to greater than anticipated tax liabilities.
In addition, other competitors might be able to compete with us by bundling their other products in a way that does not allow us to offer a competitive solution. Additionally, we must be able to achieve our objectives in a timely manner or quantum computing may lose ground to competitors, including competing technologies.
In addition, other competitors might be able to compete with us by bundling their other products in a way that does not allow us to offer a competitive solution. Additionally, we must be able to achieve our objectives in a timely manner or quantum computing and networking may lose ground to competitors, including competing technologies.
Additionally, certain data privacy and security obligations may require us to implement and maintain specific security measures or industry-standard or reasonable security measures to protect our information technology systems and Sensitive Data. While we have implemented security measures designed to protect against security incidents, there can be no assurance that these measures will be effective.
Additionally, certain privacy and security obligations may require us to implement and maintain specific security measures or industry-standard or reasonable security measures to protect our information technology systems and Sensitive Data. While we have implemented security measures designed to protect against security incidents and other interruptions, there can be no assurance that these measures will be effective.
There is no certainty these research and development milestones will be achieved as quickly as expected, or even at all. We have a history of operating losses and expect to incur significant expenses and continuing losses for the foreseeable future. We have historically experienced net losses from operations.
There is no certainty these research and development milestones will be achieved as quickly as expected, or even at all. We have a history of operating losses and expect to incur significant expenses and continuing losses for the near future. We have historically experienced net losses from operations.
In addition, many countries are focused on developing quantum computing solutions either in the private or public sector and may subsidize quantum computers, which may make it difficult for us to compete. Many of these competitors do not face the same challenges we do in growing our business.
In addition, many countries are focused on developing quantum solutions either in the private or public sector and may subsidize quantum computers or quantum networks, which may make it difficult for us to compete. Many of these competitors do not face the same challenges we do in growing our business.
The quantum computing market is characterized by rapid technological change, changing user requirements, uncertain product lifecycles and evolving industry standards.
The quantum computing and networking market is characterized by rapid technological change, changing user requirements, uncertain product lifecycles and evolving industry standards.
We intend to make investments to support our current business and may require additional funds to respond to business challenges, including the need to develop or enhance our technology, improve our operating infrastructure or 44 acquire complementary businesses and technologies. Additional financing may not be available on favorable terms, if at all.
We intend to make investments to support our current business and may require additional funds to 46 respond to business challenges, including the need to develop or enhance our technology, improve our operating infrastructure or acquire complementary businesses and technologies. Additional financing may not be available on favorable terms, if at all.
These consequences may include: exposure of Sensitive Data (including intellectual property or confidential or proprietary information); government enforcement actions (for example, investigations, fines, penalties, audits, and inspections); additional reporting requirements and/or oversight; restrictions on Processing Sensitive Data (including personal data); litigation (including class claims); indemnification obligations; negative publicity; reputational harm; monetary fund diversions; interruptions in our operations (including availability of data); financial loss; and other similar harms.
These consequences may include: exposure, loss, unavailability, acquisition, or other unauthorized processing of Sensitive Data (including intellectual property or confidential or proprietary information); government enforcement actions (for example, investigations, fines, penalties, audits, and inspections); additional reporting requirements and/or oversight; restrictions on processing Sensitive Data (including personal data); litigation (including class claims); indemnification obligations; negative publicity; reputational harm; monetary fund diversions; interruptions in our operations (including availability of data); financial loss; and other similar harms.
Delays in future generations of our quantum computers or technical failures at other quantum computing companies could limit market acceptance of our solution. Negative publicity concerning our solution or the quantum computing industry as a whole could limit market acceptance of our solution. We believe quantum computing will solve many large-scale problems.
Delays in future generations of our quantum computers or technical failures at other quantum computing and networking companies could limit market acceptance of our solution. Negative publicity concerning our solution or the quantum computing and networking industry as a whole could limit market acceptance of our solution. We believe quantum computing will solve many large-scale problems.
We cannot be sure that our insurance coverage will be adequate or sufficient to protect us from or to mitigate liabilities arising out of our privacy and security practices, that such coverage will continue to be available on commercially reasonable terms or at all, or that such coverage will pay future claims.
We cannot be sure that our insurance coverage will be adequate or sufficient to protect us from or to mitigate liabilities arising out of our privacy and security obligations, that such coverage will continue to be available on commercially reasonable terms or at all, or that such coverage will pay future claims.
In the ordinary course of business, we collect, receive, store, process, generate, use, transfer, disclose, make accessible, protect, secure, dispose of, transmit, and share (collectively, “Processing”) personal data and other sensitive information, including intellectual property, proprietary and confidential business data, trade secrets, sensitive third-party data, business plans, transactions, and financial information of our own, our partners, our vendors and their own supply chains, our customers, or other third parties (collectively, “Sensitive Data”).
In the ordinary course of business, we access, collect, receive, store, generate, use, transfer, disclose, make accessible, protect, secure, dispose of, transmit, share, and otherwise process personal data and other sensitive information, including intellectual property, proprietary and confidential business data, trade secrets, sensitive third-party data, business plans, transactions, and financial information of our own, our partners, our vendors and their own supply chains, our customers, or other third parties (collectively, “Sensitive Data”).
We may at times fail (or be perceived to have failed) in our efforts to comply with our data privacy and security obligations. Moreover, despite our efforts, our personnel or third parties on whom we rely may fail to comply with such obligations, which could negatively impact our business operations.
We may at times fail, or be perceived to have failed, in our efforts to comply with our privacy, data protection or security obligations. Moreover, despite our efforts, our personnel or third parties on whom we rely may fail, or be perceived to have failed, to comply with such obligations, which could negatively impact our business operations.
Some European regulators have ordered certain companies to suspend or permanently cease certain transfers of personal data out of Europe for allegedly violating the EU GDPR’s cross-border data transfer limitations. In addition to data privacy and security laws, we are contractually subject to industry standards adopted by industry groups and may become subject to such obligations in the future.
Some European regulators have ordered certain companies to suspend or permanently cease certain transfers of personal data out of Europe for allegedly violating the EU GDPR’s cross-border data transfer limitations. In addition to privacy, data protection and security laws, we are contractually subject to industry standards adopted by industry groups and may become subject to additional obligations in the future.
Following periods of volatility in the overall market and the market price of a company’s securities, securities class action litigation has often been instituted against such company. Such litigation could result in substantial costs and a diversion of 43 management’s attention and resources.
Following periods of volatility in the overall market and the market price of a company’s securities, securities class action litigation has often been instituted against such company. Such litigation could result in substantial costs and a diversion of 45 management’s attention and resources.
In particular, severe ransomware attacks are becoming increasingly prevalent and could lead to significant interruptions in our operations, loss of Sensitive Data and income, reputational harm, and diversion of funds.
In particular, severe ransomware attacks are becoming increasingly prevalent and could lead to significant interruptions in our operations, loss or unavailability of Sensitive Data and loss of income, reputational harm, and diversion of funds.
In particular, the European Economic Area (“EEA”) and the United Kingdom (“UK”) have significantly restricted the transfer of personal data to the United States and other countries whose privacy laws it believes are inadequate. Other jurisdictions may adopt similarly stringent interpretations of their data localization and cross-border data transfer laws.
In particular, the European Economic Area (“EEA”) and the United Kingdom (“UK”) each has significantly restricted the transfer of personal data to the United States and other countries whose privacy laws it believes are inadequate. Other jurisdictions may adopt similarly stringent interpretations of their data localization and cross-border data transfer laws.
Commercial production of quantum computers may never occur. We have no experience in producing large quantities of our products and are currently constructing advanced generations of our products.
Commercial production of quantum computers or networks may never occur. We have no experience in producing large quantities of our products and are currently constructing advanced generations of our products.
There can be no assurance that we will be able to detect and fix any defects in our quantum computers prior to the sale to potential customers.
There can be no assurance that we will be able to detect and fix any defects in our quantum computers or networks prior to the sale to potential customers.
These risks include, among other things: • lack of familiarity and burdens of complying with foreign laws, legal standards, privacy and cybersecurity standards, regulatory requirements, tariffs and other barriers, and the risk of penalties to our customers and individual members of management or employees if our practices are deemed to not be in compliance; • practical difficulties of enforcing intellectual property rights in countries with varying laws and standards and reduced or varied protection for intellectual property rights in some countries; • an evolving legal framework and additional legal or regulatory requirements for data privacy and cybersecurity, which may necessitate the establishment of systems to maintain data in local markets, requiring us to invest in additional data centers and network infrastructure, and the implementation of additional employee data privacy documentation (including locally compliant data privacy notices and policies), all of which may involve substantial expense and may cause us to need to divert resources from other aspects of our business, all of which may adversely affect our business; • unexpected changes in regulatory requirements, taxes, trade laws, tariffs, export quotas, custom duties or other trade restrictions; • difficulties in managing systems integrators and partners; • increased or unexpected supply chain challenges or delays; • differing technology standards; • different pricing environments, longer sales cycles, longer accounts receivable payment cycles and difficulties in collecting accounts receivable; • increased financial accounting and reporting burdens and complexities; • difficulties in managing and staffing international operations including the proper classification of independent contractors and other contingent workers, differing employer/employee relationships and local employment laws; • increased costs involved with recruiting and retaining an expanded employee population, including highly skilled workers and leaders in the quantum computing industry, outside the United States through cash and equity-based incentive programs, and legal costs and regulatory restrictions in issuing our shares to employees outside the United States; • global political and regulatory changes that may lead to restrictions on immigration and travel for our employees; • fluctuations in exchange rates that may decrease the value of our foreign-based revenue or increase the cost of our foreign operations; • global public health threats or geopolitical events such as tensions in and around Ukraine, Israel and other areas of the world; • potentially adverse tax consequences, including the complexities of foreign value added tax (or other tax) systems, restrictions on the repatriation of earnings, and transfer pricing requirements; and • permanent establishment risks and complexities in connection with international payroll, tax and social security requirements for international employees. 33 Additionally, operating in international markets also requires significant management attention and financial resources.
These risks include, among other things: • lack of familiarity and burdens of complying with foreign laws, legal standards, privacy and cybersecurity standards, regulatory requirements, tariffs and other barriers, and the risk of penalties to our customers and individual members of management or employees if our practices are deemed to not be in compliance; • practical difficulties of enforcing intellectual property rights in countries with varying laws and standards and reduced or varied protection for intellectual property rights in some countries; • an evolving legal framework and additional legal or regulatory requirements for privacy and cybersecurity, which may necessitate the establishment of systems to maintain data in local markets, requiring us to invest in additional data centers and network infrastructure, and the implementation of additional employee privacy documentation (including locally compliant privacy notices and policies), all of which may involve substantial expense and may cause us to need to divert resources from other aspects of our business, all of which may adversely affect our business; • unexpected changes in regulatory requirements, taxes, trade laws, tariffs, export quotas, custom duties or other trade restrictions; • difficulties in managing systems integrators and partners; • increased or unexpected supply chain challenges or delays; • differing technology standards; • different pricing environments, longer sales cycles, longer accounts receivable payment cycles and difficulties in collecting accounts receivable; • increased financial accounting and reporting burdens and complexities; • difficulties in managing and staffing international operations including the proper classification of independent contractors and other contingent workers, differing employer/employee relationships and local employment laws; • increased costs involved with recruiting and retaining an expanded employee population, including highly skilled workers and leaders in the quantum computing industry, outside the United States through cash and equity-based incentive programs, and legal costs and regulatory restrictions in issuing our shares to employees outside the United States; • global political and regulatory changes that may lead to restrictions on immigration and travel for our employees; • fluctuations in exchange rates that may decrease the value of our foreign-based revenue or increase the cost of our foreign operations; • global public health threats or geopolitical events such as tensions in and around Ukraine, Israel and other areas of the world; • degradation in U.S. relationships with targeted countries that could result in those countries disfavoring doing business with U.S. companies; • potentially adverse tax consequences, including the complexities of foreign value added tax (or other tax) systems, restrictions on the repatriation of earnings, and transfer pricing requirements; and • permanent establishment risks and complexities in connection with international payroll, tax and social security requirements for international employees.
In addition, we will need to develop the manufacturing process necessary to make these quantum computers in high volume. We have not yet validated a manufacturing process or acquired the tools or processes necessary to produce high volumes of our quantum computers that meet all commercial requirements.
In addition, we will need to develop the manufacturing process necessary to make these quantum computers in high volume. We have not yet validated a manufacturing process nor acquired the tools, processes, or support functions necessary to produce high volumes of our quantum computers that meet all commercial requirements.
Further, the costs to maintain our director and officer liability insurance may continue to rise to unprecedented levels. Risks associated with our status as a public company may make it more difficult to attract and retain qualified persons to serve on our Board or as executive officers.
Further, the costs to maintain our director and officer liability insurance may rise. Risks associated with our status as a public company may make it more difficult to attract and retain qualified persons to serve on our Board or as executive officers.
We have also experienced, and may in the future further experience, disruptions, outages, defects and other performance and quality problems with the public cloud, internet, private data center providers, and other infrastructure like utility power, water supply, air conditioning, air compression, and other inputs on which our systems and their supporting services rely.
We have also experienced, and may in the future further experience, disruptions, outages, defects and other performance and quality problems with the public cloud, internet, private data center providers, facilities in which we build and deploy our systems and technology, and other infrastructure like utility power, water supply, air conditioning, air compression, and other inputs on which our systems and their supporting services rely.
We believe that the pace of innovation will continue to accelerate as technology changes and different approaches to quantum computing mature on a broad range of factors, including system architecture, error correction, performance and scale, ease of programming, user experience, markets addressed, types of data processed, and data governance and regulatory compliance.
We believe that the pace of innovation will continue to accelerate as technology changes and different approaches to quantum computing mature on a broad range of factors, including system architecture, error correction, performance and scale, integration with classical computing resources, ease of programming, user experience, markets addressed, types of data processed, and data governance and regulatory compliance.
If these policies, materials or statements are found to be deficient, lacking in 38 transparency, deceptive, unfair, or misrepresentative of our practices, we may be subject to investigation, enforcement actions by regulators, or other adverse consequences. Obligations related to data privacy and security are quickly changing, becoming increasingly stringent, and creating regulatory uncertainty.
If these policies, materials or statements are or are perceived to be deficient, lacking in transparency, deceptive, unfair, or misrepresentative of our practices, we may be subject to investigation, enforcement actions by regulators, or other adverse consequences. Obligations related to privacy, data protection and security are quickly changing, becoming increasingly stringent, and creating regulatory uncertainty.
Additionally, we are incorporated into the supply chain of a large number of companies worldwide and, as a result, if our services are compromised, a significant number or, in some instances, all of our customers and their data could be simultaneously affected.
Additionally, we are incorporated into the supply chains of companies worldwide and, as a result, if our services are compromised, a significant number or, in some instances, all of our customers and their data could be simultaneously affected.
Our net operating loss carryforwards are subject to review and possible adjustment by the Internal Revenue Service, and state tax authorities.
Our net operating loss carryforwards and other tax attributes are subject to review and possible adjustment by the Internal Revenue Service, and state tax authorities.
The U.S. government continues to add additional entities, in China and elsewhere, to restricted party lists impacting the ability of U.S. companies to provide items, and, in certain cases, services, to these entities and, in some cases, to receive items or services from these entities.
The U.S. government continues to add additional entities, in China and elsewhere, to restricted party lists impacting the ability of U.S. companies to provide products and technology, and, in certain cases, services, to these entities and, in some cases, to receive products, technology or services from these entities.
These developments may further complicate compliance efforts, and may increase legal risk and compliance costs for us, the third parties upon whom we rely, and our customers. Outside the United States, an increasing number of laws, regulations, and industry standards may govern data privacy and security.
These circumstances and developments may further complicate compliance efforts, and may increase legal risk and compliance costs for us, the third parties upon whom we rely, and our customers. Outside the United States, an increasing number of laws, regulations, industry standards and other obligations may govern privacy, data protection and security.
We have experienced in the past, and could also suffer future disruptions, outages, defects and other performance and quality problems with our quantum computing systems, our private cloud, our research and development activities, our testbeds, our facilities, or with the public cloud, internet, and other infrastructure on which they rely.
We have experienced in the past, and could also suffer future disruptions, outages, defects and other performance and quality problems with our quantum computing systems, our private cloud, or other information systems, our research and development activities, our facilities, our other fixed assets, or with the public cloud, internet, and other infrastructure on which they rely.
Our current competitors include (among others): • large, well-established tech companies that generally compete in all of our markets, including Google, Microsoft, Amazon, Intel and IBM; • countries such as China, Russia, Canada, Australia and the United Kingdom, and those in the European Union and we believe additional countries in the future; • less-established public and private companies with competing technology, including companies located outside the United States; and • new or emerging entrants seeking to develop competing technologies.
Our current competitors include (among others): • large, well-established tech companies that generally compete in all of our markets, including Amazon, Google, IBM, Intel, and Microsoft; • countries such as China, Russia, Australia, Canada, the United Kingdom, and certain countries in the European Union; • less-established public and private companies with competing technology, including companies located outside the United States; and • new or emerging entrants seeking to develop competing technologies.
These provisions, which may delay, prevent or deter a merger, acquisition, tender offer, proxy contest, or other transaction that stockholders may consider favorable, include the following: • a classified board; • advance notice for nominations of directors by stockholders and for stockholders to include matters to be considered at our annual meetings; • certain limitations on convening special stockholder meetings; • limiting the persons who may call special meetings of stockholders; • limiting the ability of stockholders to act by written consent; • restrictions on business combinations with an interested stockholder; • in certain cases, the approval of holders representing at least 66 2/3% of the total voting power of the shares entitled to vote generally in the election of directors will be required for stockholders to adopt, amend or repeal the Bylaws, or amend or repeal certain provisions of the Certificate of Incorporation; • no cumulative voting; • the required approval of holders representing at least 66 2/3% of the total voting power of the shares entitled to vote at an election of the directors to remove directors; and • the ability of the Board to designate the terms of and issue new series of preferred stock without stockholder approval, which could be used, among other things, to institute a rights plan that would have the effect of significantly diluting the stock ownership of a potential hostile acquirer, likely preventing acquisitions.
These provisions, which may delay, prevent or deter a merger, acquisition, tender offer, proxy contest, or other transaction that stockholders may consider favorable, include the following: • a classified board; • advance notice for nominations of directors by stockholders and for stockholders to include matters to be considered at our annual meetings; • certain limitations on convening special stockholder meetings; • limiting the persons who may call special meetings of stockholders; • limiting the ability of stockholders to act by written consent; • restrictions on business combinations with an interested stockholder; • in certain cases, the approval of holders representing at least 66 2/3% of the total voting power of the shares entitled to vote generally in the election of directors will be required for stockholders to adopt, amend or repeal the Bylaws, or amend or repeal certain provisions of the Certificate of Incorporation; • no cumulative voting; • the required approval of holders representing at least 66 2/3% of the total voting power of the shares entitled to vote at an election of the directors to remove directors; and • the ability of the Board to designate the terms of and issue new series of preferred stock without stockholder approval, which could be used, among other things, to institute a rights plan that would have the effect of significantly diluting the stock ownership of a potential hostile acquirer, likely preventing acquisitions. 49 These provisions of our Certificate of Incorporation and Bylaws could discourage potential takeover attempts and reduce the price that investors might be willing to pay for shares of our common stock in the future, which could reduce the market price of our common stock.
Our business depends on our customers’ abilities to implement useful quantum algorithms and sufficient quantum resources for their business. If they are unable to do so due to the nature of their algorithmic challenge or other technical or personnel dilemmas, our growth may be negatively impacted.
Our business depends on our customers’ abilities to implement useful quantum algorithms and sufficient quantum resources for their business. If they are unable to do so, including due to their algorithmic challenge or other technical or personnel dilemmas, our growth may be negatively impacted.
The development and optimization of these algorithms is reliant on employing sufficient talent familiar with quantum computing, a unique skill that requires special training and education. If the market fails to train a sufficient number of engineers, researchers and other key quantum personnel, our customers may not find sufficient talent to partner with us to solve these problems.
The development and optimization of these algorithms is reliant on employing sufficient talent familiar with quantum computing and quantum networking, unique skills that require special training and education. If the market fails to train a sufficient number of engineers, researchers and other key quantum personnel, our customers may not find sufficient talent to partner with us to solve these problems.
We are reliant on third-party suppliers for components necessary to develop and manufacture our quantum computing solutions. As our business grows, we must continue to scale and adapt our supply chain or it could have an adverse impact on our business.
We are reliant on third-party suppliers, including sole source suppliers, for components necessary to develop and manufacture our quantum computing and networking solutions. As our business grows, we must continue to scale and adapt our supply chain or it could have an adverse impact on our business.
The United States administration imposes tariffs on certain products imported into the United States with China as the country of origin, and China has imposed tariffs in response to the actions of the United States.
The United States administration has continued to impose tariffs on certain products imported into the United States with China as the country of origin, and China has imposed tariffs in response to the actions of the United States.
Unfavorable conditions in our industry or the global economy, could limit our ability to grow our business and negatively affect our results of operations. Our results of operations may vary based on the impact of changes in our industry or the global economy on us or our customers and potential customers.
Unfavorable conditions in our industry, the global economy, or other catastrophic events may disrupt our business, could limit our ability to grow, and negatively affect our results of operations. Our results of operations may vary based on the impact of changes in our industry or the global economy on us or our customers and potential customers.
Our data storage and processing activities, including the establishment and operation of future quantum data centers, may subject us to numerous data privacy and security obligations, such as various laws, regulations, guidance, industry standards, external and internal privacy and security policies, contractual requirements and other obligations relating to data privacy, data sovereignty and 37 security.
Our data storage and processing activities, including the establishment and operation of future quantum data centers, may subject us to numerous privacy, data protection and security obligations, such as various laws, regulations, guidance, industry standards, external and internal privacy and security policies, contractual requirements and other obligations relating to privacy, data 39 localization and security.
We and the third parties upon which we rely may process Sensitive Data, and, as a result, we and the third parties upon which we rely face a variety of evolving threats to our information technology systems, data, and physical facilities (such as those where our quantum computers are stored), including but not limited to ransomware attacks or advanced persistent threats, which could cause security incidents.
We and the third parties upon which we rely process Sensitive Data, and, as a result, we and the third parties upon which we rely face a variety of evolving threats to our information technology systems, data, and physical facilities (such as those where our quantum computers are stored), including but not limited to ransomware attacks, advanced persistent threats, and other causes of security incidents.
We may redeem unexpired public warrants prior to their exercise at a time that is disadvantageous to warrantholders, thereby making such warrants worthless.
We may redeem unexpired public warrants prior to their exercise at a time that is disadvantageous to warrant holders, thereby making such warrants worthless.
We also must comply with both local and international laws and regulations relating to the formation, administration, and performance of contracts, which provide public sector customers rights, many of which are not typically found in commercial contracts. For example, in 2021, the U.S.
We also must comply with both local and international laws and regulations relating to the formation, administration, and performance of contracts, which provide public sector customers rights, many of which are not typically found in commercial contracts.
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Item 1C. Cybersecurity
Cybersecurity — threats and controls disclosure
7 edited+3 added−1 removed12 unchanged
Item 1C. Cybersecurity
Cybersecurity — threats and controls disclosure
7 edited+3 added−1 removed12 unchanged
2023 filing
2024 filing
Biggest changeThese risk assessments include identification of reasonably foreseeable internal and external risks, the likelihood and potential damage that could result from such risks, and the sufficiency of existing policies, procedures, systems, and safeguards in place to manage such risks.
Biggest changeThese risk assessments include identification of reasonably foreseeable internal and external risks, the likelihood and potential damage that could result from such risks, and the sufficiency of existing policies, procedures, systems, and safeguards in place to manage such risks. 50 As part of our risk management process, we conduct application security and vulnerability assessments, undergo third-party penetration testing of both our digital and physical assets, maintain ongoing risk assessments, and monitor various third-party risk feeds.
Our security officer, who reports to our VP of Engineering, and is a member of the senior leadership team, collaborates closely with key members of management including our Chief Executive Officer, Chief Financial Officer, Chief Technology Officer, VP of Engineering, and SVP of Product to continuously monitor and evaluate our ongoing risk profile and mitigation strategies.
Our security officer is a member of the senior leadership team, collaborates closely with key members of management including our Chief Executive Officer, Chief Financial Officer, Chief Legal Officer, SVP of Engineering and Technology, and SVP of Product to continuously monitor and evaluate our ongoing risk profile and mitigation strategies.
Our security program is aligned to the National Institute of Standards and Technology Cybersecurity Framework Special Publication (NIST) 800-53 standard, and we have passed a SOC 2 type 1 audit.
Our security program is aligned to the National Institute of Standards and Technology Cybersecurity Framework Special Publication (NIST) 800-53 standard, and we have obtained a SOC 2 Type 2 Certification.
Additional information about cybersecurity risks we face is discussed in Item 1A of Part I, “Risk Factors,” under the heading “If our information technology systems, data, or physical facilities, or those of third parties upon which we rely, are or were compromised, we could experience adverse business consequences resulting from such compromise,” which should be read in conjunction with the information contained within Item 1C, Cybersecurity. 49 Cybersecurity Governance The Company’s Board of Directors oversees the overall risk management process, including cybersecurity risks, directly and through its committees.
Additional information about cybersecurity risks we face is discussed in Item 1A of Part I, “Risk Factors,” under the heading “If our information technology systems, data, or physical facilities, or those of third parties upon which we rely, are or were compromised, we could experience adverse business consequences resulting from such compromise,” which should be read in conjunction with the information contained within Item 1C, Cybersecurity.
As part of our risk management process, we conduct application security and vulnerability assessments, undergo third-party penetration testing, maintain ongoing risk assessments, and monitor various third-party risk feeds. Our risk management processes also assess third party risks, and we perform third-party risk management to identify and mitigate risks from third parties such as vendors, suppliers, and other business partners.
Our risk management processes also assess third party risks , and we perform third-party risk management to identify and mitigate risks from third parties such as vendors, suppliers, and other business partners.
Our security officer also provides ad hoc updates to management on cybersecurity-related news and events and discusses any updates to our cybersecurity risk management and strategy programs as a result of these matters.
Our security officer also provides ad hoc updates to management on cybersecurity-related news and events and discusses any updates to our cybersecurity risk management and strategy programs as a result of these matters. Where in the past we leveraged an outside fractional Chief Information Security Officer (“CISO”), during the year we transitioned to an in-house security leadership team.
A partnership exists between these aforementioned individuals and departments so that identified issues are addressed in a timely manner and incidents are escalated to the appropriate parties as required.
The Company’s overall risks and assessments are monitored via a cross functional team composed of members of senior management, security, legal, and financial reporting. A partnership exists between these aforementioned individuals and departments so that identified issues are addressed in a timely manner and incidents are escalated to the appropriate parties as required.
Removed
Our security officer collaborates closely and regularly with our external consulting firm who provides a fractional Chief Information Security Officer (“CISO”), which includes a cybersecurity expert with recognized expertise and many years of experience. The Company’s overall risks and assessments are monitored via a cross functional team composed of members of senior management, security, legal, and financial reporting.
Added
Cybersecurity Governance The Company’s Board of Directors oversees the overall risk management process, including cybersecurity risks, directly and through its committees.
Added
Our security officer has over a decade of management and executive level information technology experience and reports to our SVP of Engineering and Technology.
Added
Our team includes personnel for supply chain security, governance risk and compliance and security engineering. We continue to leverage external industry partners in key areas including penetration testing, forensics, and for our security operations center. We use industry standard security tools across our program and reevaluate these annually as we digest the evolving threat landscape.
Item 2. Properties
Properties — owned and leased real estate
3 edited+0 added−0 removed0 unchanged
Item 2. Properties
Properties — owned and leased real estate
3 edited+0 added−0 removed0 unchanged
2023 filing
2024 filing
Biggest changeWe also lease approximately 101,000 square feet of space in Bothell, Washington under an agreement that expires in 2030. Most of the facility is used for manufacturing, research and development and general office space. We also signed a lease for approximately 27,000 square feet of space in Arlesheim, Switzerland under an agreement that commenced in 2024 and expires in 2029.
Biggest changeWe also lease approximately 101,000 square feet of space in Bothell, Washington under an agreement that expires in 2030. Most of the facility is used for manufacturing, research and development, servicing customers, and general office space. We also lease approximately 13,000 square feet of space in Arlesheim, Switzerland under an agreement that expires in 2029.
Item 2. Properties. Our principal facility is our corporate headquarters, located in College Park, Maryland, where we lease approximately 32,000 square feet of space from the University of Maryland under an agreement that expires in 2030. Most of the facility is used for research and development, servicing customers, and corporate functions.
Item 2. Properties. Our principal facility is our corporate headquarters, located in College Park, Maryland, where we lease approximately 32,000 square feet of space from the University of Maryland under an agreement that expires in 2030. This facility is used for research and 51 development, servicing customers, and corporate functions.
Most of the facility will be used to service customers, in addition to general office space. We believe that our facilities are sufficient to meet our current needs and we will be able to obtain additional space as needed under commercially reasonable terms. 50
Most of the facility is used for servicing customers and general office space. We believe that our facilities are sufficient to meet our current needs and we will be able to obtain additional space as needed under commercially reasonable terms. 52
Item 3. Legal Proceedings
Legal Proceedings — active lawsuits and investigations
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Item 3. Legal Proceedings
Legal Proceedings — active lawsuits and investigations
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2023 filing
2024 filing
Biggest changeThe IonQ Defendants and Additional Defendants filed oppositions to plaintiffs’ motion on December 1, 2023, and plaintiffs filed their reply on January 8, 2024. Both the IonQ Defendants and Additional Defendants intend to defend the matters vigorously.
Biggest changeThe IonQ Defendants and Additional Defendants filed oppositions to plaintiffs’ motion on December 1, 2023, and plaintiffs filed their reply on January 8, 2024. On July 10, 2024, the plaintiffs' motion for post-judgment relief was denied and the District Court of Maryland directed the clerk to close the case.
Please refer to Note 10, Commitments and Contingencies, to the consolidated financial statements included in this Annual Report for further details on current legal proceedings. Item 4. Mine Safety Disclosures. Not applicable. 51 PART II
Refer to Note 11, Commitments and Contingencies, to the consolidated financial statements included in this Annual Report for further details on current legal proceedings. Item 4. Mine Safety Disclosures. Not applicable. 53 PART II
Given the uncertainty of litigation, the preliminary stage of the case, and the legal standards that must be met for, among other things, class certification and success on the merits, the Company cannot reasonably estimate the possible loss or range of loss, if any, that may result from the associated suit.
Oral argument in the Fourth Circuit occurred on January 31, 2025. Given the uncertainty of litigation and the legal standards that must be met for, among other things, success on the case merits, the Company cannot reasonably estimate the possible loss or range of loss, if any, that may result from the associated suit.
The results of any current or future litigation cannot be predicted with certainty, and regardless of the outcome, litigation can have an adverse impact on us because of defense and settlement costs, diversion of management resources and other factors. On January 12, 2021, dMY Technology Group, Inc.
The results of any current or future litigation cannot be predicted with certainty, and regardless of the outcome, litigation can have an adverse impact on us because of defense and settlement costs, diversion of management resources and other factors. In May 2022, a securities class action complaint captioned Leacock v.
Removed
II, dMY Sponsor II, LLC, dMY, and dMY Sponsor III, LLC (“Sponsor”) accepted service of a lawsuit where they were named as counterclaim defendants in an underlying action by and between GTY Technology Holdings, Inc. (“GTY”), dMY Technology Holdings Inc., dMY Sponsor, LLC, dMY Sponsor II, LLC, dMY Technology Group Inc.
Added
On July 26, 2024, the plaintiffs filed a Notice of Appeal with the Fourth Circuit Court of Appeals seeking to review the trial court's decision. Plaintiffs filed their Opening Brief in the Fourth Circuit on September 9, 2024. A response brief by IonQ Defendants was filed on October 8, 2024 and plaintiffs’ reply brief was filed on October 29, 2024.
Removed
II, dMY and Sponsor (collectively “dMY Defendants”) and Carter Glatt (“Glatt”) and Captains Neck Holdings LLC (“Captains Neck”), an entity of which Mr. Glatt is a member.
Removed
The underlying lawsuit, filed by dMY Technology Group, Inc. and dMY Sponsor, LLC, seeks a declaratory judgment that Glatt and Captains Neck are not entitled to membership units of dMY Sponsor LLC, which was formed by Harry L. You, the co-founder and former President and Chief Financial Officer of GTY when Glatt was still working at GTY.
Removed
The underlying lawsuit contains claims arising from Glatt’s termination of employment from GTY, including theft and misappropriation of confidential GTY information, breach of contract, breach of the duties of loyalty and fiduciary duty and conversion.
Removed
Glatt responded to the underlying lawsuit by adding members of the Sponsor and officers of dMY as additional counterclaim defendants (collectively with the dMY Defendants Glatt and Captains Neck, the “Counterclaim Defendants”) and adding Dune Acquisition Holdings LLC, a newly formed special purpose acquisition company, as a counterclaimant and asserting claims for breach of contract, fraudulent misrepresentation, negligent misrepresentation, tortious interference with business relations, quantum meruit and unjust enrichment. dMY and the Company have never employed Glatt nor maintained any business agreements with him.
Removed
The Counterclaim Defendants denied the claims against them and filed a motion to dismiss the suit. During 2023, the court dismissed the claims against dMY Technology Group, Inc. III (“dMY III”), the former legal registrant of IonQ, Inc and the case is now considered closed. In May 2022, a securities class action complaint captioned Leacock v.
Item 5. Market for Registrant's Common Equity
Market for Common Equity — stock, dividends, buybacks
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Item 5. Market for Registrant's Common Equity
Market for Common Equity — stock, dividends, buybacks
3 edited+3 added−0 removed2 unchanged
2023 filing
2024 filing
Biggest changePurchases of Equity Securities by the Issuer and Affiliated Purchasers None. Item 6. [Reserved]. 52
Biggest changeThe comparisons in the graph below are based upon historical data and are not indicative of, nor intended to forecast, future performance of our common stock. Recent Sales of Unregistered Equity Securities None. 54 Purchases of Equity Securities by the Issuer and Affiliated Purchasers None. Item 6. [Reserved]. 55
Item 5. Market for Registrant’s Common Equity, Related Stockholder Matters and Issuer Purchases of Equity Securities. Market Information Our common stock and public warrants are traded on the NYSE under the symbols “IONQ” and “IONQ WS,” respectively. Holders As of February 21, 2024, there were approximately 285 stockholders of record.
Item 5. Market for Registrant’s Common Equity, Related Stockholder Matters and Issuer Purchases of Equity Securities. Market Information Our common stock and public warrants are traded on the NYSE under the symbols “IONQ” and “IONQ WS,” respectively. Holders As of February 19, 2025, there were approximately 27 stockholders of record.
Payment of cash dividends, if any, in the future will be at the discretion of our Board and will depend on then-existing conditions, including our financial condition, operating results, contractual restrictions, capital requirements, business prospects and other factors our Board may deem relevant. Recent Sales of Unregistered Equity Securities None.
Payment of cash dividends, if any, in the future will be at the discretion of our Board and will depend on then-existing conditions, including our financial condition, operating results, contractual restrictions, capital requirements, business prospects and other factors our Board may deem relevant.
Added
Stock Performance Graph This performance graph shall not be deemed “soliciting material” or“filed” with the SEC for purposes of Section 18 of the Securities Exchange Act of 1934, as amended (the “Exchange Act”), or otherwise subject to the liabilities under that Section or incorporated by reference into any filing of IonQ, Inc. under the Securities Act of 1933, as amended (the “Securities Act”), or the Exchange Act, except as shall be expressly set forth by specific reference in such filing.
Added
The following graph depicts the cumulative total shareholder return from October 1, 2021 (the first day on which the Company's common stock traded on the NYSE) through December 31, 2024 for the Company, the S&P 500 Index and the Nasdaq Computer Index.
Added
The graph assumes $100 was invested in each of the Company’s common stock, the S&P 500 Index and the Nasdaq Computer Index as of market close on October 1, 2021. Data for the S&P 500 Index and Nasdaq Computer Index assumes reinvestment of the full amount of all dividends. No dividends have been declared on our common stock.
Item 7. Management's Discussion & Analysis
Management's Discussion & Analysis (MD&A) — revenue / margin commentary
61 edited+5 added−10 removed32 unchanged
Item 7. Management's Discussion & Analysis
Management's Discussion & Analysis (MD&A) — revenue / margin commentary
61 edited+5 added−10 removed32 unchanged
2023 filing
2024 filing
Biggest changeThe increase was primarily driven by an increase of $10.3 million in payroll-related expenses, including an increase in stock-based compensation of $6.5 million, due to increased headcount, offset by a decrease of $2.2 million in one-time stock-based compensation costs incurred in the year ended December 31, 2022.
Biggest changeThe increase was primarily driven by an increase of $21.4 million of payroll-related expenses, including a $10.0 million cash incentive award for the Company's chief executive officer and an increase in stock-based compensation of $9.6 million, offset by decreases of $0.6 million in professional service fees and allocated overhead costs and $0.5 million in director and officer liability insurance costs. 60 Depreciation and amortization Year Ended December 31, $ % 2024 2023 Change Change (in thousands) Depreciation and amortization $ 18,654 $ 10,375 $ 8,279 80 % Depreciation and amortization expenses increased by $8.3 million, or 80%, to $18.7 million for the year ended December 31, 2024, from $10.4 million for the year ended December 31, 2023.
All statements contained in this Annual Report other than statements of historical fact, including statements regarding our future results of operations and financial position, our business strategy and plans, and our objectives for future operations, are forward-looking statements. The words “believes,” “expects,” “intends,” “estimates,” “projects,” “anticipates,” “will,” “plan,” “may,” “should,” or similar language are intended to identify forward-looking statements.
All statements contained in this Annual Report other than statements of historical fact, including statements regarding our future results of operations and financial position, our business strategy and plans, and our objectives for future operations, are forward-looking statements. The words “believes,” “expects,” “intends,” “estimates,” “projects,” “anticipates,” “will,” “plan,” “may,” “should,” “could,” or similar language are intended to identify forward-looking statements.
We believe that our proprietary technology, our architecture, and the technology exclusively available to us through license agreements will offer us advantages both in terms of research and development, as well as the commercial value of our intended product offerings. Today, we sell specialized quantum computing hardware together with related maintenance and support.
We believe that our proprietary technology, our architecture, and the technology exclusively available to us through license agreements will offer us advantages both in terms of research and development, as well as the commercial value of our intended product offerings. Today, we sell specialized quantum computing and networking hardware together with related maintenance and support.
Research and development expenses also include purchased hardware and software costs related to quantum computing systems constructed for research purposes that are not probable of providing future economic benefit and have no alternate future use as well as costs associated with third-party research and development arrangements.
Research and development expenses also include purchased hardware and software costs related to quantum computing systems constructed for research purposes that are not probable of providing a future economic benefit and have no alternate future use as well as costs associated with third-party research and development arrangements.
If we raise funds through collaborations, or other similar arrangements with third parties, we may have to relinquish valuable rights to our quantum computing technology on terms that may not be favorable to us and/or may reduce the value of our common stock.
If we raise funds through collaborations, or other similar arrangements with third parties, we may have to relinquish valuable rights to our quantum computing and networking technology on terms that may not be favorable to us and/or may reduce the value of our common stock.
Contemporaneously with the Business Combination, dMY changed its name to IonQ, Inc. and Legacy IonQ changed its name to IonQ Quantum, Inc. IonQ became 53 the successor registrant with the SEC, meaning that Legacy IonQ’s financial statements for previous periods have been disclosed in the registrant’s periodic reports filed with the SEC.
Contemporaneously with the Business Combination, dMY changed its name to IonQ, Inc. and Legacy IonQ changed its name to IonQ Quantum, Inc. IonQ became the successor registrant with the SEC, meaning that Legacy IonQ’s financial statements for previous periods have been disclosed in the registrant’s periodic reports filed with the SEC.
Debt financing and equity financing, if available, may involve agreements that 58 include covenants limiting or restricting our ability to take specific actions, such as incurring additional debt, making capital expenditures, or declaring dividends.
Debt financing and equity financing, if available, may involve agreements that include covenants limiting or restricting our ability to take specific actions, such as incurring additional debt, making capital expenditures, or declaring dividends.
Costs to maintain quantum computing systems are expensed as incurred. 60 Judgment is used to determine when hardware and labor costs incurred for our quantum computing systems should be capitalized as a result of our assessment of whether the system will provide a probable future economic benefit and whether or not the costs represent activities necessary to build the systems, maintain the systems or to perform certain research and development functions.
Costs to maintain quantum computing systems are expensed as incurred. 63 Judgment is used to determine when hardware and labor costs incurred for our quantum computing systems should be capitalized as a result of our assessment of whether the system will provide a probable future economic benefit and whether or not the costs represent activities necessary to build the systems, maintain the systems or to perform certain research and development functions.
Overview We are developing quantum computers designed to solve some of the world’s most complex problems, and transform business, society and the planet for the better.
Overview We are developing quantum computers and networks designed to solve some of the world’s most complex problems, and transform business, society and the planet for the better.
Excluded from our available liquidity is $2.4 million of restricted cash, which is primarily recorded in other noncurrent assets in our consolidated balance sheets. We believe that our cash, cash equivalents and investments as of December 31, 2023, will be sufficient to meet our working capital and capital expenditure needs for the next 12 months.
Excluded from our available liquidity is $2.4 million of restricted cash, which is primarily recorded in other noncurrent assets in our consolidated balance sheets. We believe that our cash, cash equivalents and investments as of December 31, 2024, will be sufficient to meet our working capital and capital expenditure needs for the next 12 months.
We expect to continue to make the necessary sales and marketing investments to enable us to increase our market penetration and expand our customer base. General and administrative General and administrative expenses consist of personnel-related expenses, including salaries, benefits and stock-based compensation, and allocated facility and other costs for our corporate, executive, finance, and other administrative functions.
We expect to continue to make the necessary sales and marketing investments to enable us to increase our market penetration and expand our customer base. General and administrative General and administrative expenses consist of personnel-related expenses, including salaries, benefits and stock-based compensation, and allocated overhead costs for our corporate, executive, finance, and other administrative functions.
Until such time as we can generate significant revenue from commercializing our quantum computing technology, if ever, we expect to finance our liquidity needs through our cash, cash equivalents and investments, as well as equity or debt financings or other capital sources, including potential collaborations and other similar arrangements.
Until such time as we can generate significant revenue from commercializing our quantum computing and networking technology, if ever, we expect to finance our liquidity needs 61 through our cash, cash equivalents and investments, as well as equity or debt financings or other capital sources, including potential collaborations and other similar arrangements.
Net cash provided by financing activities during the year ended December 31, 2022, was $1.1 million, primarily resulting from proceeds from stock options exercised. Critical Accounting Estimates This discussion and analysis of financial condition and results of operations is based upon the Company’s consolidated financial statements, which have been prepared in accordance with U.S. GAAP.
Net cash provided by financing activities during the year ended December 31, 2023, was $1.8 million, primarily resulting from proceeds from stock options exercised. Critical Accounting Estimates This discussion and analysis of financial condition and results of operations is based upon the Company’s consolidated financial statements, which have been prepared in accordance with U.S. GAAP.
We expect to continue to incur significant losses for the foreseeable future as we prioritize reaching the technical milestones necessary to achieve an increasingly higher number of stable qubits and higher levels of fidelity than presently exists—prerequisites for quantum computing to reach broad quantum advantage. The Merger Agreement On March 7, 2021, Legacy IonQ, dMY and Ion Trap Acquisition Inc.
We expect to continue to incur significant losses for the foreseeable future as we prioritize reaching the technical milestones necessary to achieve an increasingly higher number of algorithmic qubits and higher levels of fidelity than presently exists—prerequisites for quantum computing to reach broad quantum advantage. 56 The Merger Agreement On March 7, 2021, Legacy IonQ, dMY and Ion Trap Acquisition Inc.
Interest income, net Interest income, net consists of income earned on our money market funds and other available-for-sale investments. 55 Other income (expense), net Other income (expense), net consists of gains and losses that arise from fluctuations in foreign currency exchange rates, realized losses on our available-for-sale investments, and certain other nonoperating expenses.
Interest income, net Interest income, net consists of income earned on our money market funds and other available-for-sale investments. Other income (expense), net Other income (expense), net consists of gains and losses that arise from fluctuations in foreign currency exchange rates and certain other nonoperating expenses.
We also estimate the useful life of our quantum computing systems, both at the time the assets are placed in service and periodically whenever events or changes in circumstances indicate that the useful life may have changed. In assessing useful lives, the Company considers, among other factors, the use of the asset, changes in technology, and the competitive environment.
We also estimate the useful life of our quantum computing systems, both at the time the assets are placed in service and periodically whenever events or changes in circumstances indicate that the useful life may have changed. In assessing useful lives, we consider, among other factors, the use of the asset, changes in technology, and the competitive environment.
If we are unable to raise additional funds through equity or debt financings when needed, we may be required to delay, limit, reduce or terminate our quantum computing development efforts.
If we are unable to raise additional funds through equity or debt financings when needed, we may be required to delay, limit, reduce or terminate our quantum computing and networking development efforts.
Revenue recognition We derive revenue from contracts associated with the design, development, and construction of specialized quantum computing hardware together with related services, from contracts providing access to QCaaS, and from consulting services related to co-developing algorithms on the quantum computing systems.
Revenue recognition We derive revenue from contracts associated with the design, development, construction and sale of specialized quantum computing hardware together with related maintenance and support, from contracts providing access to QCaaS, and from consulting services related to co-developing algorithms on quantum computing systems.
Sales and marketing Sales and marketing expenses consist of personnel-related expenses, including salaries, commissions, benefits and stock-based compensation, costs for direct advertising, marketing and promotional expenditures and allocated facility and other costs for our sales and marketing functions.
Sales and marketing Sales and marketing expenses consist of personnel-related expenses, including salaries, commissions, benefits and stock-based compensation, costs for direct advertising, marketing and promotional expenditures and allocated overhead costs for our sales and marketing functions.
Cash flows The following table summarizes our cash flows for the period indicated: Year Ended December 31, 2023 2022 (in thousands) Net cash provided by (used in) operating activities $ (78,811 ) $ (44,698 ) Net cash provided by (used in) investing activities 68,766 (309,056 ) Net cash provided by (used in) financing activities 1,761 1,096 Cash flows from operating activities Our cash flows from operating activities are significantly affected by the growth of our business, primarily related to research and development, sales and marketing, and general and administrative activities.
Cash flows The following table summarizes our cash flows for the period indicated: Year Ended December 31, 2024 2023 2022 (in thousands) Net cash provided by (used in) operating activities $ (105,683 ) $ (78,811 ) $ (44,698 ) Net cash provided by (used in) investing activities 82,730 68,766 (309,056 ) Net cash provided by (used in) financing activities 41,687 1,761 1,096 Cash flows from operating activities Our cash flows from operating activities are significantly affected by the growth of our business, primarily related to research and development, sales and marketing, and general and administrative activities.
Although we do not believe that inflation has had a material impact on our financial position or results of operations to date, we may experience increases in the near future (especially if inflation rates remain high or continue to rise) on our operating costs, including our labor, due to supply chain constraints, consequences associated with bank failures, geopolitical tensions in and around Ukraine, Israel and other areas of the world, and employee availability and wage increases, which may result in additional stress on our working capital resources.
Although we do not believe that inflation has had a material impact on our financial position or results of operations to date, we may experience increases in the future on our operating costs, including due to supply chain constraints, consequences associated with bank failures, geopolitical tensions in and around Ukraine, Israel and other areas of the world, and employee availability and wage increases, which may result in additional stress on our working capital resources.
We may, in the future, enter into arrangements to acquire or invest in complementary businesses, services, and technologies, which may require us to seek additional equity or debt financing. Our primary uses of cash and investments are to fund our operations as we continue to grow our business.
We may, in the future, enter into arrangements to acquire or invest in complementary businesses, services, and technologies, which may require us to seek additional equity or debt financing. Our primary uses of cash and investments are to fund our operations as we continue to grow our business and our investing activities, including capital expenditures and potential acquisitions.
Cash flows from investing activities Net cash provided by investing activities during the year ended December 31, 2023, was $68.8 million, primarily resulting from maturities of available-for-sale securities of $386.8 million, offset by purchases of available-for-sale investments of $298.4 million, additions of $13.7 million to property and equipment primarily related to the development of our quantum computing systems, and additions of $4.6 million related to capitalized software development costs.
Net cash provided by investing activities during the year ended December 31, 2023, was $68.8 million, primarily resulting from maturities of available-for-sale securities of $386.8 million, offset by purchases of available-for-sale securities of $298.4 million, additions of $13.7 million to property and equipment primarily related to the development of our quantum computing systems, and additions of $4.6 million related to capitalized software development costs. 62 Cash flows from financing activities Net cash provided by financing activities during the year ended December 31, 2024, was $41.7 million, primarily resulting from proceeds from warrants and stock options exercised.
The increase was primarily driven by an increase of $2.3 million and $0.9 million in depreciation expense associated with capitalized quantum computing system costs and other property and equipment, respectively, and an increase of $1.4 million due to amortization of capitalized internally developed software.
The increase was primarily driven by an increase of $3.1 million and $2.8 million in depreciation expense associated with capitalized quantum computing system costs and other property and equipment, respectively, and an increase of $2.4 million due to amortization of capitalized internal-use software.
The increase was primarily driven by progress on our arrangements to build specialized quantum computing hardware, as well as new revenue contracts under which we provided services during the year ended December 31, 2023. 56 Cost of revenue Year Ended December 31, $ % 2023 2022 Change Change (in thousands) Cost of revenue (excluding depreciation and amortization) $ 8,108 $ 2,944 $ 5,164 175 % Cost of revenue increased by $5.2 million, or 175%, to $8.1 million for the year ended December 31, 2023, from $2.9 million for the year ended December 31, 2022.
The increase was primarily driven by progress on our arrangements to build specialized quantum computing hardware, as well as new revenue contracts under which we provided services during the year ended December 31, 2024. 59 Cost of revenue Year Ended December 31, $ % 2024 2023 Change Change (in thousands) Cost of revenue (excluding depreciation and amortization) $ 20,597 $ 8,108 $ 12,489 154 % Cost of revenue increased by $12.5 million, or 154%, to $20.6 million for the year ended December 31, 2024, from $8.1 million for the year ended December 31, 2023.
Net cash used in operating activities during the year ended December 31, 2022, was $44.7 million, resulting primarily from a net loss of $48.5 million, adjusted for non-cash activity, primarily related to the gain recorded as a result of mark-to-market activity for our public warrants offset by stock-based compensation and other working capital activities.
Net cash used in operating activities during the year ended December 31, 2024, was $105.7 million, resulting primarily from a net loss of $331.6 million, adjusted for non-cash activity, primarily related to stock-based compensation, the loss recorded as a result of mark-to-market activity for our public warrants, depreciation and amortization, and other working capital activities.
We have incurred significant losses since our inception and as of December 31, 2023, we had an accumulated deficit of $352.1 million. During the year ended December 31, 2023, we incurred net losses of $157.8 million. We expect to incur significant losses and higher operating expenses for the foreseeable future.
We have incurred significant losses since our inception and as of December 31, 2024, we had an accumulated deficit of $683.7 million. During the year ended December 31, 2024, we incurred net losses of $331.6 million. We expect to incur significant losses and higher operating expenses for the foreseeable future.
In limited situations, for certain contracts executed in prior years, when the standalone selling price was not known, due to it being either highly variable or uncertain, we allocated the transaction price using the residual approach.
In limited situations, for certain contracts executed in prior years, when the standalone selling price was not known, due to it being either highly variable or uncertain, we allocated the transaction price using the residual approach. Estimates related to standalone selling price in recent contracts did not have a material impact on revenue recognized.
The increase was primarily driven by a $44.0 million increase in payroll-related expenses, including an increase in stock-based compensation of $27.1 million, as a result of increased headcount, and a $1.8 million increase in materials, supplies and equipment costs.
The increase was primarily driven by an increase of $33.7 million in payroll-related expenses, including an increase in stock-based compensation of $18.1 million, as a result of increased headcount and new equity grants, and a $5.0 million increase in materials, supplies and equipment costs.
The increase was driven primarily by the increase in labor costs to service contracts, as well as the increase in materials costs for arrangements to build specialized quantum computing hardware, for the year ended December 31, 2023.
The increase was driven primarily by an increase in hardware costs used in the construction of specialized quantum computing hardware, as well as an increase in labor costs to service contracts, for the year ended December 31, 2024.
The increase in net cash used in operations from the prior year period was primarily related to increased research and development activities, increased compensation costs as a result of hiring personnel and increased costs incurred as a public company.
The increase in net cash used in operations from the prior year period was primarily related to increased research and development activities and increased compensation costs.
High interest and inflation rates also present a recent challenge impacting the U.S. economy and could make it more difficult for us to obtain traditional financing on acceptable terms, if at all, in the future.
Impact of the Macroeconomic Climate on Our Business Inflationary factors, interest rates and overhead costs may adversely affect our operating results. High interest and inflation rates also present a recent challenge impacting the U.S. economy and could make it more difficult for us to obtain traditional financing on acceptable terms, if at all, in the future.
Research and development Year Ended December 31, $ % 2023 2022 Change Change (in thousands) Research and development $ 92,321 $ 43,978 $ 48,343 110 % Research and development expense increased by $48.3 million, or 110%, to $92.3 million for the year ended December 31, 2023, from $44.0 million for the year ended December 31, 2022.
Research and development Year Ended December 31, $ % 2024 2023 Change Change (in thousands) Research and development $ 136,827 $ 92,321 $ 44,506 48 % Research and development expense increased by $44.5 million, or 48%, to $136.8 million for the year ended December 31, 2024, from $92.3 million for the year ended December 31, 2023.
Gain (loss) on change in fair value of warrant liabilities Year Ended December 31, $ % 2023 2022 Change Change (in thousands) Gain (loss) on change in fair value of warrant liabilities $ (19,206 ) $ 30,136 $ (49,342 ) (164 )% The gain (loss) on change in fair value of warrant liabilities decreased by $49.3 million, or 164%, to a loss of $19.2 million for the year ended December 31, 2023, from a gain of $30.1 million for the year ended December 31, 2022.
Gain (loss) on change in fair value of warrant liabilities Year Ended December 31, $ % 2024 2023 Change Change (in thousands) Gain (loss) on change in fair value of warrant liabilities $ (117,107 ) $ (19,206 ) $ (97,901 ) (510 )% The change in fair value of warrant liabilities decreased by $97.9 million, or 510%, to a loss of $117.1 million for the year ended December 31, 2024, from a loss of $19.2 million for the year ended December 31, 2023.
Cost of revenue also includes hardware costs for construction of specialized quantum computing hardware. Personnel-related expenses include salaries, benefits, and stock-based compensation. Cost of revenue excludes depreciation and amortization related to our quantum computing systems and related software.
Personnel-related expenses include salaries, benefits, and stock-based compensation. Cost of revenue excludes depreciation and amortization related to our quantum computing systems and related software. Research and development Research and development expenses consist of personnel-related expenses, including salaries, benefits and stock-based compensation, and allocated overhead costs for our research and development functions.
Sales and marketing Year Ended December 31, $ % 2023 2022 Change Change (in thousands) Sales and marketing $ 18,270 $ 8,385 $ 9,885 118 % Sales and marketing expense increased by $9.9 million, or 118%, to $18.3 million for the year ended December 31, 2023, from $8.4 million for the year ended December 31, 2022.
Sales and marketing Year Ended December 31, $ % 2024 2023 Change Change (in thousands) Sales and marketing $ 28,395 $ 18,270 $ 10,125 55 % Sales and marketing expense increased by $10.1 million, or 55%, to $28.4 million for the year ended December 31, 2024, from $18.3 million for the year ended December 31, 2023.
Interest income, net Year Ended December 31, $ % 2023 2022 Change Change (in thousands) Interest income, net $ 19,322 $ 7,093 $ 12,229 172 % Interest income, net increased by $12.2 million, or 172%, to $19.3 million for the year ended December 31, 2023, from $7.1 million for the year ended December 31, 2022.
Interest income, net Year Ended December 31, $ % 2024 2023 Change Change (in thousands) Interest income, net $ 18,249 $ 19,322 $ (1,073 ) (6 )% Interest income, net decreased by $1.1 million, or 6%, to $18.2 million for the year ended December 31, 2024, from $19.3 million for the year ended December 31, 2023.
Fixed fee arrangements may also include a variable component whereby customers pay an amount for usage over contractual minimums contained in the contracts. We have determined that contracts that contain consulting services related to co-developing quantum computing algorithms and the ability to use our quantum computing systems to run such algorithms represent a combined performance obligation that is satisfied over-time.
We have determined that contracts that contain consulting services related to co-developing quantum computing algorithms and the ability to use our quantum computing systems to run such algorithms represent a combined performance obligation that is satisfied over-time.
Results of Operations The following table sets forth our consolidated statements of operations for the periods indicated: Year Ended December 31, 2023 2022 (in thousands) Revenue $ 22,042 $ 11,131 Costs and expenses: Cost of revenue (excluding depreciation and amortization) (1) 8,108 2,944 Research and development (1) 92,321 43,978 Sales and marketing (1) 18,270 8,385 General and administrative (1) 50,722 35,966 Depreciation and amortization 10,375 5,604 Total operating costs and expenses 179,796 96,877 Loss from operations (157,754 ) (85,746 ) Gain (loss) on change in fair value of warrant liabilities (19,206 ) 30,136 Interest income, net 19,322 7,093 Other income (expense), net (85 ) 6 Loss before income tax expense (157,723 ) (48,511 ) Income tax benefit (expense) (48 ) — Net loss $ (157,771 ) $ (48,511 ) (1) Cost of revenue, research and development, sales and marketing, and general and administrative expenses for the periods include stock-based compensation expense as follows: Year Ended December 31, 2023 2022 (in thousands) Cost of revenue $ 2,819 $ 902 Research and development 40,103 13,472 Sales and marketing 6,762 1,298 General and administrative 20,059 15,784 Comparison of the Years Ended December 31, 2023 and 2022 Revenue Year Ended December 31, $ % 2023 2022 Change Change (in thousands) Revenue $ 22,042 $ 11,131 $ 10,911 98 % Revenue increased by $10.9 million, or 98%, to $22.0 million for the year ended December 31, 2023, from $11.1 million for the year ended December 31, 2022.
Income tax benefit (expense) Income tax expense consists of income taxes related to foreign jurisdictions in which we conduct business. 58 Results of Operations The following table sets forth our consolidated statements of operations for the periods indicated: Year Ended December 31, 2024 2023 (in thousands) Revenue $ 43,073 $ 22,042 Costs and expenses: Cost of revenue (excluding depreciation and amortization) (1) 20,597 8,108 Research and development (1) 136,827 92,321 Sales and marketing (1) 28,395 18,270 General and administrative (1) 71,055 50,722 Depreciation and amortization 18,654 10,375 Total operating costs and expenses 275,528 179,796 Loss from operations (232,455 ) (157,754 ) Gain (loss) on change in fair value of warrant liabilities (117,107 ) (19,206 ) Interest income, net 18,249 19,322 Other income (expense), net (275 ) (85 ) Loss before income tax expense (331,588 ) (157,723 ) Income tax benefit (expense) (59 ) (48 ) Net loss $ (331,647 ) $ (157,771 ) (1) Cost of revenue, research and development, sales and marketing, and general and administrative expenses for the periods include stock-based compensation expense as follows: Year Ended December 31, 2024 2023 (in thousands) Cost of revenue $ 4,740 $ 2,819 Research and development 58,696 40,103 Sales and marketing 13,788 6,762 General and administrative 29,654 20,059 Comparison of the Years Ended December 31, 2024 and 2023 Revenue Year Ended December 31, $ % 2024 2023 Change Change (in thousands) Revenue $ 43,073 $ 22,042 $ 21,031 95 % Revenue increased by $21.0 million, or 95%, to $43.1 million for the year ended December 31, 2024, from $22.0 million for the year ended December 31, 2023 .
General and administrative expenses also include expenses for outside professional services, including legal, auditing and accounting services, recruitment expenses, information technology, travel expenses, certain non-income taxes, insurance, and other administrative expenses.
General and administrative expenses also include expenses for outside professional services, including legal, auditing and accounting services, recruitment expenses, information technology, travel expenses, certain non-income taxes, insurance, and other administrative expenses. We expect our general and administrative expenses to increase for the foreseeable future as we scale our support functions with the growth of our business.
The increase was primarily driven by interest income earned on our cash equivalents and available-for-sale investments due to higher interest rates. Liquidity and Capital Resources As of December 31, 2023, we had cash, cash equivalents and available-for-sale securities of $455.9 million.
The decrease was primarily driven by a decrease in the available-for-sale investments balance, offset by higher interest rates. Liquidity and Capital Resources As of December 31, 2024, we had cash, cash equivalents and available-for-sale securities of $363.8 million.
Key Components of Results of Operations Revenue We have generated limited revenues since our inception. We derive revenue from contracts associated with the design, development, construction and sale of specialized quantum computing hardware together with related services, from contracts providing access to QCaaS, and from consulting services related to co-developing algorithms on our quantum computing systems.
Key Components of Results of Operations Revenue We derive revenue from contracts associated with the design, development, construction and sale of specialized quantum computing hardware together with related maintenance and support, from contracts providing access to QCaaS, and from consulting services related to co-developing algorithms on quantum computing systems.In arrangements with the cloud service providers, the cloud service provider is considered the customer and we do not have any contractual relationships with the cloud service providers’ end users.
Research and development Research and development expenses consist of personnel-related expenses, including salaries, benefits and stock-based compensation, and allocated facility and other costs for our research and development functions. Unlike a standard computer, design and development efforts continue throughout the useful life of our quantum computing systems to ensure proper calibration and optimal functionality.
Unlike a standard computer, design and development efforts continue throughout the useful life of our quantum computing systems to ensure proper calibration and optimal functionality.
General and administrative Year Ended December 31, $ % 2023 2022 Change Change (in thousands) General and administrative $ 50,722 $ 35,966 $ 14,756 41 % General and administrative expenses increased by $14.8 million, or 41%, to $50.7 million for the year ended December 31, 2023, from $36.0 million for the year ended December 31, 2022.
General and administrative Year Ended December 31, $ % 2024 2023 Change Change (in thousands) General and administrative $ 71,055 $ 50,722 $ 20,333 40 % General and administrative expenses increased by $20.3 million, or 40%, to $71.1 million for the year ended December 31, 2024, from $50.7 million for the year ended December 31, 2023.
Net cash used in investing activities during the year ended December 31, 2022, was $309.1 million, primarily resulting from purchases of available-for-sale securities of $605.7 million and additions of $9.3 million to property and equipment primarily related to the development of our quantum computing systems, offset by cash received from maturities of available-for-sale investments of $310.0 million. 59 Cash flows from financing activities Net cash provided by financing activities during the year ended December 31, 2023, was $1.8 million, primarily resulting from proceeds from stock options exercised.
Cash flows from investing activities Net cash provided by investing activities during the year ended December 31, 2024, was $82.7 million, primarily resulting from cash received from maturities of available-for-sale securities of $418.1 million, offset by purchases of available-for-sale securities of $296.3 million, additions of $18.0 million to property and equipment primarily related to leasehold improvements, the development of our quantum computing systems, and other supporting equipment, cash paid of $15.5 million for businesses acquired, and additions of $3.9 million related to capitalized software development costs.
The amount of revenue recognized in a period may vary with respect to the allocation of arrangement consideration to performance obligations with different revenue recognition patterns and changes to existing contract terms. For certain contracts, revenue is recognized over time based on the efforts incurred to date relative to the total expected effort, primarily based on a cost-to-cost input measure.
Contracts with customers are evaluated at the time of execution and may vary in terms. The amount of revenue recognized in a period may vary with respect to the allocation of arrangement consideration to performance obligations with different revenue recognition patterns and changes to existing contract terms.
Our future capital requirements and the adequacy of available funds will depend on many factors, including those set forth in the section titled “Risk Factors.” Other than operating expenses and our continued investment in our quantum computers, cash requirements for fiscal year 2024 are expected to consist primarily of capital expenditures for facilities.
Our future capital requirements and the adequacy of available funds will depend on many factors, including those set forth in the section titled “Risk Factors.” Our material contractual commitments as of December 31, 2024, primarily relate to operating lease commitments.
As a result, we expect that our general and administrative expenses will increase in absolute dollars but may fluctuate as a percentage of total revenue over time. Depreciation and amortization Depreciation and amortization expense results from depreciation and amortization of our property and equipment, including our quantum computing systems, and intangible assets that are recognized over their estimated lives.
Depreciation and amortization Depreciation and amortization expense results from depreciation and amortization of our property and equipment, including our quantum computing systems, and intangible assets that are recognized over their estimated lives.
To date, we have estimated the standalone selling price based on other contracts for similar products and services adjusted for differing terms than the contract being evaluated, as well as internal pricing guidelines and market factors. In addition, we take into consideration the estimated costs to be incurred to satisfy the performance obligation plus an appropriate profit margin.
Certain products and services have limited or no history of being sold on a standalone basis, requiring us to estimate the standalone selling price. To date, we have estimated the standalone selling price based on other contracts for similar products and services adjusted for differing terms than the contract being evaluated, as well as internal pricing guidelines and market factors.
In limited situations, for certain contracts executed in prior years, when the standalone selling price was not known, due to it being either highly variable or uncertain, we allocated the transaction price using the residual approach. Contracts with customers are evaluated at the time of execution and may vary in terms.
In addition, we take into consideration the estimated costs to be incurred to satisfy the performance obligation plus an appropriate profit margin. In limited situations, for certain contracts executed in prior years, when the standalone selling price was not known, due to it being either highly variable or uncertain, we allocated the transaction price using the residual approach.
We supplement our QCaaS offering with professional services focused on assisting our customers in applying quantum computing to their businesses. We also expect to sell full quantum computing systems to customers, either over the cloud or for local access. We are still in the early stages of commercial growth. Since our inception we have incurred significant operating losses.
We supplement our offerings with professional services focused on assisting our customers in applying quantum computing and networking to their businesses. We also expect to sell full quantum computing systems to customers, either over the cloud or for local access. We also offer quantum networking products which offer customers secure communication networks and enable networked quantum computing.
Such contracts may also include access to our QCaaS. A contract’s transaction price is allocated to each distinct performance obligation and recognized as revenue when or as the performance obligation is satisfied. When there are multiple performance obligations in a contract, we allocate the transaction price to each performance obligation based on its standalone selling price when available.
Certain of our contracts contain multiple performance obligations, most commonly in contracts for the sale of specialized quantum computing hardware together with related maintenance and support. Such contracts may also include access to our QCaaS. A contract’s transaction price is allocated to each distinct performance obligation and recognized as revenue when or as the performance obligation is satisfied.
We determine standalone selling price based on the observable price of a product or service when we sell the products or services separately in similar circumstances and to similar customers. Certain products and services have limited or no history of being sold on a standalone basis, requiring us to estimate the standalone selling price.
When there are multiple performance obligations in a contract, we allocate the transaction price to each performance obligation based on its standalone selling price when available. We determine standalone selling price based on the observable price of a product or service when we sell the products or services separately in similar circumstances and to similar customers.
The increase was primarily due to an increase of $8.7 million of payroll-related expenses, including an increase in stock-based compensation of $5.5 million, as a result of increased headcount, and increased costs to promote our services and other marketing initiatives of approximately $1.2 million.
The increase was primarily driven by an increase of $10.0 million of payroll-related expenses, including an increase in stock-based compensation of $7.0 million, as a result of increased headcount and new equity grants.
Our ability to generate revenue sufficient to achieve profitability will depend heavily on the successful development and further commercialization of our quantum computing systems. Our net losses were $157.8 million and $48.5 million for the years ended December 31, 2023 and 2022, respectively. As of December 31, 2023, we had an accumulated deficit of $352.1 million.
Our net losses were $331.6 million, $157.8 million and $48.5 million, for the years ended December 31, 2024, 2023 and 2022, respectively. As of December 31, 2024, we had an accumulated deficit of $683.7 million.
For performance obligations related to providing QCaaS access, fixed fees are recognized on a straight-line basis over the access period. We are currently focused on marketing our QCaaS and consulting services and have entered into, and are continuing to enter into, new contracts with customers.
For performance obligations related to providing QCaaS access, fixed fees are recognized on a straight-line basis over the access period. Variable usage fees are recognized in the period they occur.
We have determined that our QCaaS contracts represent a combined, stand-ready performance obligation to provide access to our quantum computing systems together with related maintenance and support. The transaction price generally consists of a fixed fee for a minimum volume of usage to be made available over a defined period of access.
Estimates related to standalone selling price have not had a material impact on revenue recognized in recent periods. We have determined that our QCaaS contracts represent a combined, stand-ready performance obligation to provide access to our quantum computing systems together with related maintenance and support.
We have also engaged with certain prospects who are interested in purchasing entire quantum computers, either over the cloud or for local access. 54 Operating Costs and Expenses Cost of revenue Cost of revenue primarily consists of expenses related to delivering our services, including personnel-related expenses, allocated facility and other costs for customer facing functions, and costs associated with maintaining our in-service quantum computing systems to ensure proper calibration as well as costs incurred for maintaining the cloud on which the QCaaS resides.
Factors considered in these estimates include our historical performance, the availability, productivity and cost of labor, the nature and complexity of work to be performed, the effect of change orders, availability and cost of materials and the effect of any delays in performance. 57 Operating Costs and Expenses Cost of revenue Cost of revenue primarily consists of expenses related to construction of specialized quantum computing hardware and delivery of our services, including personnel-related expenses, hardware costs, allocated overhead costs for customer facing functions, and costs associated with maintaining our in-service quantum computing systems to ensure proper calibration as well as costs incurred for maintaining the cloud on which the QCaaS resides.
However, we may be unable to raise additional funds or enter into such other arrangements when needed on favorable terms or at all. High interest and inflation rates present a recent challenge impacting the U.S. economy and could make it more difficult for us to obtain traditional financing on acceptable terms, if at all, in the future.
However, we may be unable to raise additional funds or enter into such other arrangements when needed on favorable terms or at all.
Our material cash requirements as of December 31, 2023, include operating lease commitments, including the lease of our headquarters in College Park, Maryland and our manufacturing, research and development and general office space in Bothell, Washington. As of December 31, 2023, we have total operating lease obligations of $19.8 million, with $1.9 million payable within 12 months.
As of December 31, 2024, we have total operating lease obligations of $21.9 million, with $3.7 million payable within 12 months. Other than operating lease commitments, cash requirements for fiscal year 2025 are expected to consist primarily of operating expenses and continued investment in our quantum computers.
The remaining increase is primarily due to an increase of $4.9 million in professional services fees as we scale our business as a public company.
The remaining increase is due to an increase in costs to support research and development initiatives, including a $1.9 million increase in professional service fees and a $2.3 million increase in allocated overhead costs.
Removed
Impact of the Macroeconomic Climate on Our Business The recent trends towards rising inflation may materially adversely affect our business and corresponding financial position and cash flows. Inflationary factors, interest rates and overhead costs may adversely affect our operating results.
Added
This section provides an analysis of our financial condition and results of operations for the year ended December 31, 2024, compared to the year ended December 31, 2023.
Removed
In arrangements with the cloud service providers, the cloud service provider is considered the customer and we do not have any contractual relationships with the cloud service providers’ end users. Certain of our contracts contain multiple performance obligations, most commonly in contracts for the sale of specialized quantum computing hardware together with related maintenance and support.
Added
A discussion of our financial condition and results of operations for the year ended December 31, 2023 compared to the year ended December 31, 2022 can be found under Item 7 in our Annual Report on Form 10-K for the year ended December 31, 2023, filed on February 28, 2024, which is available free of charge on the SEC's website at www.sec.gov and our investor relations website at investors.ionq.com.
Removed
We expect our general and administrative expenses to increase for the foreseeable future as we scale headcount with the growth of our business, and as a result of operating as a public company, including compliance with the rules and regulations of the SEC, NYSE, legal, audit, additional insurance expenses, investor relations activities, and other administrative and professional services.
Added
We are still in the early stages of commercial growth. Since our inception, we have incurred significant operating losses. Our ability to generate revenue sufficient to achieve profitability will depend heavily on the successful development and further commercialization of our quantum computing systems.
Removed
Income tax benefit (expense) Income tax expense consists of income taxes related to foreign jurisdictions in which we conduct business.
Added
The transaction price generally consists of a fixed fee for a minimum volume of usage to be made available over a defined period of access. Fixed fee arrangements may also include a variable component whereby customers pay an amount for usage over contractual minimums contained in the contracts.
Removed
Depreciation and amortization Year Ended December 31, $ % 2023 2022 Change Change (in thousands) Depreciation and amortization $ 10,375 $ 5,604 $ 4,771 85 % 57 Depreciation and amortization expenses increased by $4.8 million, or 85%, to $10.4 million for the year ended December 31, 2023, from $5.6 million for the year ended December 31, 2022.
Added
For certain contracts, revenue is recognized over time based on the efforts incurred to date relative to the total expected effort, primarily based on a cost-to-cost input measure. We apply judgment to determine a reasonable method to measure progress and to estimate total expected effort.
Removed
We apply judgment to determine a reasonable method to measure progress and to estimate total expected effort. Factors considered in these estimates include our historical performance, the availability, productivity and cost of labor, the nature and complexity of work to be performed, the effect of change orders, availability and cost of materials and the effect of any delays in performance.
Removed
Emerging Growth Company Status and Smaller Reporting Company Status Under the Jumpstart Our Business Startups Act of 2012 (the “JOBS Act”), emerging growth companies can delay adopting new or revised accounting standards issued subsequent to the enactment of the JOBS Act, until such time as those standards apply to private companies.
Removed
As a result of the market value of the Company's common stock held by non-affiliates as of June 30, 2023, exceeding $700.0 million, we became a large accelerated filer under the Exchange Act as of December 31, 2023, and no longer qualify as an emerging growth company.
Removed
Therefore, we are required to comply with new or revised accounting standards as of the effective dates applicable to public companies that are not emerging growth companies. We were also a smaller reporting company as defined in the Exchange Act until June 30, 2023.
Removed
However, we may continue to use the scaled disclosures permitted for a smaller reporting company through this Annual Report on Form 10-K for the fiscal year ended December 31, 2023 and must begin providing non-scaled larger company disclosure in our first quarterly report in our next fiscal year (i.e., the quarterly report for the three-month period ended March 31, 2024).
Item 7A. Quantitative and Qualitative Disclosures About Market Risk
Market Risk — interest-rate, FX, commodity exposure
3 edited+0 added−2 removed1 unchanged
Item 7A. Quantitative and Qualitative Disclosures About Market Risk
Market Risk — interest-rate, FX, commodity exposure
3 edited+0 added−2 removed1 unchanged
2023 filing
2024 filing
Biggest changeFurther, in the event of a significant decline in interest rates, we would consider taking actions to further mitigate our exposure to the change. Concentration of Credit Risk We deposit our cash, restricted cash, cash equivalents and investments with financial institutions, and, at times, such balances may exceed federally insured limits.
Biggest changeFurther, in the event of a significant decline in interest rates, we would consider taking actions to further mitigate our exposure to the change. Concentration of Credit Risk We deposit our cash, cash equivalents, restricted cash and investments with large, reputable financial institutions, and, at times, such balances may exceed federally insured limits.
Our investments are held in commercial paper, corporate notes and bonds, municipal bonds, and U.S. government and agency securities. The primary objective of our investment activities is to preserve principal while at the same time maximizing yields without significantly increased risk. To achieve this objective, we invest in highly liquid securities depending on our strategic cash needs.
Our investments are held in corporate notes and bonds and U.S. government and agency securities. The primary objective of our investment activities is to preserve principal while at the same time maximizing yields without significantly increased risk. To achieve this objective, we invest in highly liquid securities depending on our strategic cash needs.
Item 7A. Quantitative and Qualitative Disclosures About Market Risk. Interest Rate Risk We had cash, cash equivalents and available-for-sale securities of $455.9 million as of December 31, 2023. We hold our cash and cash equivalents for working capital purposes. Our cash and cash equivalents are held in cash deposits, money market funds, and U.S government and agency securities.
Item 7A. Quantitative and Qualitative Disclosures About Market Risk. Interest Rate Risk We had cash, cash equivalents and available-for-sale securities of $363.8 million as of December 31, 2024. We hold our cash and cash equivalents for working capital purposes. Our cash and cash equivalents are held in cash and checking deposits, money market funds, and U.S government and agency securities.
Removed
While the company has not experienced any losses in such accounts, the failure of Silicon Valley Bank (“SVB”), at which we held cash and cash equivalents in multiple accounts, exposed us to limited credit risk prior to the completion by the Federal Deposit Insurance Corporation of the resolution of SVB in a manner that fully protected all depositors.
Removed
We are in the process of transferring our accounts to one or more additional depository institutions.