Published on 00/00/0000
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Published on 00/00/0000
Last updated on 00/00/0000
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QUANTUM
5 min read
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While quantum processors continue to advance, a critical challenge remains: how do we scale from today's few-hundred qubit systems to the millions needed for practical applications?
At Cisco Quantum Labs, we're building the quantum networking infrastructure that will make distributed quantum computing a reality years sooner than previously thought possible. This infrastructure will simultaneously enable innovative use cases in the classical world today.
Our arXiv paper "Quantum Data Center Infrastructures," introduces an architecture for quantum data centers. The challenges for quantum data center network fabric are fundamentally different from classical ones.
Quantum data centers must preserve fragile quantum states, distribute entanglement resources, facilitate teleportation between processors and synchronize operations with sub-nanosecond precision. These capabilities are not in commercial off-the-shelf networking components.
The quantum data center architecture we've developed consists of three layers:
This architecture enables multiple smaller quantum processors to work together as a unified system, potentially accelerating practical quantum applications by years.
One of the fundamental components in our architecture is our quantum network entanglement chip— a quantum networking device that creates pairs of photons that remain connected regardless of distance.
Developed in collaboration with UC Santa Barbara, our prototype:
This breakthrough was in part made possible through academic collaboration with UC Santa Barbara.
Professor Galan Moody, who worked with us, explains: “We’re excited to collaborate with Cisco to co-develop entanglement sources for their quantum network. Integrated photonics enables many sources to be combined onto a single chip, and by packaging these sources with optical fiber and electronic controls, a single device can boost the entanglement rates for many users on their quantum network.”
Our research extends beyond this initial entanglement source. In collaboration with a startup organization, we are also experimenting with a complementary technology using rubidium vapor cells that bridges different quantum systems that operate in different frequencies in our data center architecture.
This dual-frequency source creates entangled pairs where one photon operates at near-IR frequency (close to most quantum computing platforms) while its partner operates at telecom frequency, solving a key integration challenge for heterogeneous quantum environments.
Beyond entanglement: A complete quantum network
A quantum network requires fundamentally new components that work at the quantum mechanics level. When building a quantum network, we can't digitize information as in classical networks - we must preserve quantum properties throughout the entire transmission path. This requires specialized hardware, software, and protocols unlike anything in classical networking.
Our research encompasses the entire quantum networking stack:
We're working with design partners across quantum computing, telecommunications, and financial services to refine our technologies. Financial institutions are particularly interested in secure communication, decision coordination, and ultra-precise time synchronization for various trading applications—applications that can leverage quantum networking today, even before full-scale quantum computers are available.
The future of quantum computing doesn't lie in massive monolithic systems but in networked quantum data centers. This mirrors the evolution of classical computing, which reached its full potential only after networked systems emerged.
Rather than seeing quantum networking as a distant future technology, we view it as the critical path for accelerating the quantum timeline. By intelligently networking smaller quantum processors, we can achieve the scale needed for practical applications years ahead of expectations.
For technical details on our quantum networking research, visit Cisco Quantum Research or download our paper "Quantum Data Center Infrastructures Quantum Data Center Infrastructures."
We will also soon be onsite at CiscoLive in San Diego, with an exclusive Center Stage panel discussion on June 12: “The Quantum Revolution is Closer Than You Think: How Cisco is Building the Future While Securing Today’s Networks." We hope to see you there!
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