Quantum Computing Solutions

Quantum Computing Discover the possibilities of quantum computing

The immediate future is hybrid quantum-classical computing—let us help navigate your journey.

Watch Video

Quantum Computing Prepare now for the quantum computing disruption and maximize your future

Quantum computing stands to be one of the most disruptive technologies in human history. With limitless potential, it promises to revolutionize the way we solve complex problems, unlocking groundbreaking progress across a vast array of use cases. As quantum computing continues to evolve, so does Dell Technologies’ commitment to shaping its future.

Understanding the basics of quantum computing

Learn the essential basics of this emerging technology. Unlike classical computers, quantum
computers follow a completely different set of rules that redefine how computing works.
Read Blog

Dell prepares for the quantum future

Hybrid Quantum-Classical Computing Stay ahead of the curve with Dell

Quantum computing tackles computational challenges once thought insurmountable, complementing existing high-performance computing (HPC) systems. At Dell, we believe the future lies in Hybrid Quantum-Classical Computing (HQCC) where quantum processors and classical systems work in tandem to unlock revolutionary solutions. With deep research, structured insights, and tailored infrastructure, Dell can help you be ready for this transformative technology.
Read Brochure

The intersection of HQCC & AI

AI is woven into every emerging technology, and quantum computing is no exception. At Dell, we’re exploring the synergy between them, focusing on AI for HQCC and HQCC for AI to drive advancements in both fields.

AI enhances quantum computing by optimizing workloads, improving algorithm efficiency, and accelerating development without dedicated quantum hardware. Techniques like AI-driven transpilation and error mitigation are critical steps toward quantum advantage—the point where quantum computing surpasses classical systems.

Conversely, hybrid quantum-classical computing has the potential to advance AI itself, delivering unparalleled compute power and energy efficiency for increasingly complex models. As AI demands grow, quantum computing will play a vital role in meeting future challenges.
Explore how AI is Igniting a New Era Explore the Rise of AI Agents

Insights & Research Dell’s impact on quantum computing innovation

We have been shaping the quantum computing landscape for years, bringing expert insights, research, and real-world solutions.

Viewing of 6
Big Data Analysis With AI Technology.

Dell & IQM on quantum error mitigation

Quantum error mitigation is a crucial step toward achieving quantum utility. Dell and IQM showcase how AI-driven techniques enhance fidelity and accelerate progress in hybrid quantum-classical computing systems.
Read Whitepaper

Dell and IonQ: HQCC for today and beyond

Dell and IonQ teamed up in 2022 to deliver integrated hybrid quantum-classical solutions, targeting a wide range of algorithms, applications, and use cases.

Read Whitepaper

Harness HQCC with Dell and NVIDIA

Discover the power of hybrid quantum computing with Dell’s PowerEdge and NVIDIA’s cuQuantum.

Read Blog

Dell and EY on business optimization

Quantum Computing’s scalability depends on the problem’s nature and size. Dell and EY aim to unlock its cast potential for business optimization.

Read Whitepaper

The race to build quantum skills

Dell Technologies CTO & Chief AI Officer emphasizes the importance of preparing nations with the knowledge in quantum computing to tackle potential threats when the technology becomes viable.
Read Article

A vision board for AI, GenAI, and QC

AI is evolving fast, but scaling it globally will require more than standalone innovation. Discover why aligning AI with edge, security, and quantum architectures is key to building a future-ready ecosystem.
Read Blog

Driving quantum innovation with Dell Infrastructure

Quantum processors don’t work alone—they rely on a robust classical infrastructure to operate effectively. We provide the HPC foundation essential for hybrid quantum-classical environments, enabling seamless integration and scalable deployment.

Explore Dell HPC
Viewing of 3

Dell PowerEdge Servers

Delivering the processing power, capacity, throughput, and scale to power advanced HPC.
Explore

Dell PowerSwitch

Modernize network edge for bandwidth intensive applications, PoE powered devices, and IoT.

Explore

Dell PowerScale Storage

The world’s most flexible scaleout NAS solution, designed for reliability at any scale.

Explore

How to make the quantum computing leap

Dell engineers share how quantum computing accelerates business processes, enabling faster data processing than ever before.
Read Article

Industries & Use Cases

Unlock the potential of quantum computing

Financial Services

Fraud detection, risk optimization, and secure data communication.

Healthcare and Life Sciences

Advanced diagnostics, genomics, and clinical trial enhancements.

Manufacturing

Design simulation, fabrication optimization, and quality control.

Supply Chain and Logistics

Supply Chain and Logistics

Disruption management, warehouse optimization, and fleet management.

Digital Services and IT

Digital Services and IT

Video streaming predictions and search engine optimization.

Agriculture and Material Sciences

Agriculture and Material Sciences

Reservoir simulation, quantum chemistry, and product lifecycle optimization.

Prepare for quantum computing's impact on cryptography

Quantum computing is set to reshape security, making the evolution of cryptography critical. Dell helps enterprises transition to quantum-safe frameworks, providing expert guidance and research-driven insights.
Read Blog

See how you can prepare for the quantum

Contact a Dell Expert

Frequently asked questions

HQCC combines quantum processors with traditional HPC infrastructure to handle advanced computational workloads. Certain tasks are processed by classical systems, while others leverage quantum computing’s unique strengths.

While Dell Does not develop quantum processors, we provide the high-performance classical infrastructure essential for supporting hybrid quantum-classical environments. These systems are critical for running quantum workloads efficiently.

Virtually every industry, from healthcare and finance to manufacturing and logistics, stands to benefit from quantum computing’s transformative possibilities

Quantum computing has the potential to solve problems that are unsolvable by classical computers. It can revolutionize fields such as cryptography, healthcare, logistics, and materials science by providing faster and more accurate solutions.

Hybrid quantum-classical computing combines the strengths of quantum and classical systems to solve problems more efficiently. For example, classical computers handle tasks like managing input data and optimizing results, while quantum systems perform complex computations, such as molecular simulations. This collaboration enhances performance, reduces computational time, and allows organizations to unlock value from today’s quantum hardware without replacing their existing systems.

Quantum computing introduces risks to traditional cryptography by potentially breaking widely used encryption methods, such as RSA and Diffie-Hellman, through algorithms like Shor's and Grover's. However, researchers are actively developing quantum-resistant cryptography, such as lattice-based encryption and quantum key distribution (QKD), to safeguard data. These advancements ensure robust security for sensitive information, even in a post-quantum era.