HPE Advances Quantum Computing at Scale With Expanded Industry Collaborations

Key Terms

hybrid classical-quantum computing technical

A hybrid classical-quantum computing system pairs conventional digital computers with specialized quantum processors so each handles the tasks it suits best, like a hybrid car using a gas engine for cruising and an electric motor for short bursts. For investors, this matters because it can unlock faster solutions for problems such as complex simulations, cryptography, and large-scale optimization, potentially creating new market leaders, R&D priorities, and capital allocation shifts.

high performance computing (HPC) technical

A high performance computing (HPC) system is a cluster of very powerful computers working together to solve large, complex problems much faster than a normal desktop. For investors, HPC matters because it speeds research, data analysis and product development—like swapping a single worker for a whole team—potentially lowering costs, shortening time to market and giving companies a technical edge that can boost future revenue and competitiveness.

quantum processing unit technical

A quantum processing unit (QPU) is a type of computer chip that uses quantum properties to process information in ways conventional chips cannot, working with units that can represent multiple states at once instead of just 0 or 1. For investors, QPUs matter because they promise radically faster solutions for certain problems—like drug discovery, cryptography, and complex simulations—so companies with credible progress could gain competitive advantage or unlock new markets, while commercialization and scale remain uncertain challenges.

quantum error correction technical

Quantum error correction is a set of methods for detecting and fixing mistakes in quantum computers by encoding fragile quantum information across multiple physical parts, much like using multiple copies or checksums to protect a sensitive digital file. For investors, it matters because reliable error correction is a key technical milestone that determines whether quantum machines can scale from experimental devices to practical tools that could disrupt computing, encryption, drug discovery and other industries.

quantum control technical

Quantum control is the set of techniques for steering and stabilizing the behavior of very small, quantum-scale systems so they perform desired tasks reliably — for example keeping quantum bits (qubits) in the right state or guiding quantum sensors. For investors it matters because effective quantum control is what turns delicate lab demonstrations into practical, scalable products; it's like the steering and suspension that determine whether a prototype car can be mass-produced and sold profitably.

neutral atom technical

A neutral atom is an atom whose positive protons and negative electrons balance so it has no overall electric charge—like a toy with equal weights on both sides that stays level. For investors, neutral atoms matter because whether atoms gain or lose charge controls chemical reactions, electrical conductivity and material stability, which can affect performance, safety, regulatory outcomes and commercial prospects for technologies and products.

ion trap technical

An ion trap is a laboratory device that uses electric or magnetic fields to capture and hold charged particles (ions) so they can be measured and identified. Investors care because ion traps are key components in instruments used for drug discovery, clinical testing, environmental analysis and high‑tech manufacturing; their presence and sales signal spending on research, testing capacity and advanced production—similar to how a reliable engine enables a car to run and be inspected.

quantum bits (qubits) technical

Quantum bits, or qubits, are the basic units of information used by quantum computers; unlike ordinary bits that are either 0 or 1, a qubit can represent multiple values at once and link with other qubits so their states become interdependent. That ability lets certain calculations — such as searching huge datasets, simulating molecules, or optimizing complex systems — potentially run far faster than today’s computers, which matters to investors because it could reshape industries, create new markets, and change competitive and security landscapes.

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Research relationships with Intel, IQM, Qblox, Quantinuum, QuEra Computing, Quantum Machines, Rigetti, and Riverlane to accelerate hybrid classical-quantum computing

LAS VEGAS--(BUSINESS WIRE)-- HPE Discover Las Vegas 2026 – HPE (NYSE: HPE) today announced it has expanded relationships with eight companies to integrate high performance computing (HPC) and quantum computing systems to pave the way for practical and scalable hybrid classical-quantum applications in the future.

As a global leader in HPC¹ with the HPE Cray supercomputing platform, HPE is in a unique position to advance quantum computing and provide the critical HPC and networking infrastructure necessary to enable hybrid application workflows and integrate emerging quantum technologies into existing supercomputing environments. By partnering with quantum processing unit, quantum error correction, and quantum control leaders, HPE is pioneering a hybrid approach that combines classical supercomputing with quantum computing, enabling faster, more efficient solutions to apply to some of the world's most complex scientific and industrial challenges.

“By bringing supercomputing and quantum technologies together in a hybrid platform, we will accelerate the transition from research to real-world application,” said Trish Damkroger, senior vice president and general manager, HPC & AI Infrastructure Solutions at HPE. “Our new strategic collaborations will extend world-class HPC infrastructure to make quantum accessible, scalable and operational.”

Advancing full-stack hybrid quantum supercomputing across multiple modalities

HPE is collaborating with leading companies – Intel, IQM, Qblox, Quantinuum, QuEra Computing, Quantum Machines, Rigetti, and Riverlane – across a diverse set of architectural approaches with the goal of building out a full-stack hybrid quantum supercomputing platform. These collaborations will support the development of integrated testbeds for hybrid algorithm co-design, software interoperability, and system-level performance benchmarking across HPC and AI environments.

HPE is bringing together multiple quantum modalities – including neutral atom, ion trap, superconducting, and silicon spin quantum bits (qubits) – along with quantum error correction and quantum control systems. Through these efforts, HPE is enabling exploration of architectural trade-offs, validation of hybrid workflows, as well as development and benchmarking of quantum application workloads and workflows running on HPC systems and AI factories.

HPE continues to extend the capabilities of classical HPC while building a shared community committed to practical innovation in quantum computing. By enabling the seamless integration of quantum and classical HPC and AI, HPE is shaping the future of hybrid architectures, driving progress in scientific discovery, national security, and industrial innovation.

Explore hybrid classical-quantum computing at HPE Discover demo #629 or attend a quantum computing session at the show:

• “The future of AI and quantum in the public sector” June 16^th, 1-1:45 p.m. PT in Titan 2303, PNL P1604.
• “The next leap: Innovating with quantum, agentic AI, and HPC” June 17^th, 12:15- 1:15 p.m. PT in Titan 2201a, TB1394.

About HPE
HPE (NYSE: HPE) is a leader in essential enterprise technology, bringing together the power of AI, cloud, and networking to help organizations achieve more. As pioneers of possibility, our innovation and expertise advance the way people live and work. We empower our customers across industries to optimize operational performance, transform data into foresight, and maximize their impact. Unlock your boldest ambitions with HPE. Discover more at www.hpe.com.

¹ As verified by the November 2025 TOP500 list, HPE is the builder of the three fastest exascale supercomputers in the world

View source version on businesswire.com: https://www.businesswire.com/news/home/20260615455046/en/

Media Contact:
Cristina Thai
cristina.thai@hpe.com

Source: Hewlett Packard Enterprise