#United States #Boston #Dell Technologies #HPC #QuEra Computing

QuEra and Dell Technologies: A Quantum Leap in Hybrid Computing

QuEra Computing, a pioneer in neutral-atom quantum computing, is taking a significant step forward in the realm of high-performance computing (HPC) by collaborating with Dell Technologies. Together, they are set to redefine the integration of quantum and classical computing systems. This exciting partnership will be highlighted at the Supercomputing 2025 conference (SC25), offering a glimpse into the future of computing that combines the strengths of both technologies.

The Vision Behind the Collaboration

The collaboration aims to leverage Dell's robust infrastructure alongside QuEra's state-of-the-art quantum processing units (QPUs). The focus is on creating practical pathways that allow HPC environments to seamlessly incorporate quantum computing capabilities. This integration is crucial for users who require enhanced processing power to tackle complex computational problems that classical systems struggle to solve.

At SC25, attendees will witness a compelling demonstration showcasing how quantum and classical resources can efficiently work together. A video presentation will outline a prototype deployment where QuEra's quantum systems are paired with Dell's HPC technology, exemplifying low-latency hybrid operations.

Advancements in Hybrid Quantum-Classical Workflows

The significance of this demonstration lies in its validation of QuEra's quantum processors as key players in HPC. By harnessing the capabilities of Dell's systems, QuEra demonstrates that quantum processors can integrate into existing infrastructures with minimal disruption. The experimental prototype not only serves as a proof of concept but sets a concrete benchmark for future developments in hybrid computing.

The setup at QuEra’s headquarters in Boston includes a Dell-based HPC mini-cluster, comprising Dell PowerEdge servers equipped with NVIDIA GPUs. Additionally, the Dell Quantum Intelligent Orchestrator (QIO) plays an essential role in managing workloads across diverse computing resources. This integration offers a real-world research environment, enabling rapid experimentation and cooperation between classical and quantum technologies.

The Role of Quantum Intelligent Orchestrator (QIO)

QIO is a cutting-edge prototype designed to orchestrate workloads across various compute resources. Its modular design allows it to remain agnostic to different quantum computing systems, ensuring flexibility in managing quantum and classical interactions. This innovative platform is set to transform how users approach hybrid computing environments, facilitating a more integrated and efficient workflow.

Practical Applications: GHZ State Generation

One of the exciting features of the SC25 demo involves simulating the generation of Greenberger-Horne-Zeilinger (GHZ) states, a critical benchmark for multi-qubit entanglement. This demonstration highlights QuEra's distinct advantages in neutral-atom quantum computing, showcasing:

• - Qubit Shuttling: This unique capability allows for the dynamic rearrangement of atoms to optimize logical circuit execution and connectivity among qubits.
• - Parallel Gate Execution: Highlighting the ability to implement quantum gates across multiple qubits simultaneously, this feature significantly boosts the speed of application execution, resulting in greater scalability.

Together, these functionalities empower QuEra's systems to explore practical algorithms at scale, establishing pathways for further innovative research and development in quantum computations.

The Future of Hybrid Computing

As we look toward the future, it is evident that hybrid computing involving CPUs, GPUs, and QPUs will become increasingly prevalent in data centers. This evolution requires an intelligent infrastructure that can manage workloads across various computational environments.

Dell Technologies brings its extensive expertise in orchestration and infrastructure, while QuEra's neutral-atom systems provide a powerful, energy-efficient quantum platform. The partnership highlights a collective commitment to advancing hybrid quantum-classical computing, poised to address some of the world's most complex computational challenges, especially when integrated with AI technologies.

Implications Across Sectors

The significance of the collaboration extends beyond technical integration. For HPC centers, it introduces a tested model for orchestrating quantum workloads alongside traditional resources through established schedulers. Hyperscalers can envision a clear path toward providing unified cloud services that blend classical and quantum computing capabilities.

Enterprises and governmental organizations will benefit from the increased transparency and benchmarks available to compare traditional and quantum-enhanced performance. This creates a fertile ground for further investment and development in quantum technologies.

Looking Ahead

As QuEra and Dell Technologies prepare for their joint showcase at SC25, both companies see this as the beginning of an impactful collaboration aimed at fulfilling the promise of quantum computing. The integration of AI, quantum advancements, and high-performance computing not only marks a turning point in technology but also signals the dawn of a new computing era.

For those interested in experiencing this hybrid computing revolution, the demonstration will be available at both QuEra's booth (#6556) and Dell's booth (#6659) during the event, ensuring that attendees can engage with this groundbreaking technology first-hand.

About QuEra Computing

Founded with a mission to harness quantum computing for tangible benefits, QuEra Computing leads the industry in neutral-atom quantum technology. With a global footprint spanning Boston, Tokyo, and the UK, QuEra helps enterprises leverage quantum capabilities to solve classically intractable problems, bridging the gap between theoretical potential and practical application. As the world transitions toward realizing quantum's capabilities, QuEra remains at the forefront, pushing the boundaries of what is possible in computational science.

For more information about QuEra Computing and its innovative technologies, visit quera.com.