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Xscape Photonics Selected for ARPA-E SCALEUP 

Xscape Photonics has been selected by the U.S. Department of Energy’s Advanced Research Projects Agency–Energy (ARPA-E) for support under the SCALEUP Ready program, providing funding to accelerate the commercial scale-up of its photonic technology for high-performance computing.

The Santa Clara, California-based company is developing a scalable comb laser designed for integrated photonic computing platforms. The technology is intended to address the growing energy and data-movement challenges associated with high-performance computing and AI infrastructure by enabling high-bandwidth optical connectivity between computing resources.

Under the project, Xscape Photonics plans to advance the manufacturing and commercialization of its comb laser technology. ARPA-E said the effort is aimed at enabling integrated photonic computing platforms while strengthening U.S. capabilities in advanced semiconductor and photonics technologies.

Xscape Photonics was one of two companies selected in the latest round of the SCALEUP Ready program. ARPA-E announced commitments of up to $40 million across the two projects. The other selection, Thea Energy, will establish a domestic production line for modular high-temperature superconducting magnets used in fusion energy systems.

The SCALEUP Ready program is designed to help technologies previously supported by ARPA-E move from successful research and development toward commercial-scale manufacturing and deployment. Projects are intended to demonstrate manufacturability, reliability, system integration, and performance at scales that can support subsequent private-sector investment and commercialization.

Profile: Xscape Photonics
Silicon Photonics • Multi-Wavelength Lasers • AI Data Center Interconnects
Founded2022
OriginsSpun out of silicon photonics, nonlinear photonics, and optical interconnect research originating at Columbia University.
CEOVivek Raghunathan, Co-Founder and CEO; former silicon photonics product architect and program leader at Broadcom, with prior roles at Rockley Photonics and Intel.
Core TechnologySilicon Photonics Optical Frequency Combs Multi-Wavelength Lasers DWDM Optical Links
ChromX PlatformChromX is Xscape’s proprietary silicon photonics platform for scaling high-bandwidth optical connectivity in AI systems. It combines multi-wavelength light sources with dense wavelength-division multiplexing to increase the amount of data carried by optical links.
Multi-Wavelength LaserAn on-chip, optically pumped multi-wavelength laser source designed to generate many optical wavelengths from a compact source, enabling highly parallel optical channels for WDM-based AI interconnects.
Problem AddressedEscape bandwidth bottlenecks between GPUs, accelerators, memory, and networking fabrics as electrical interconnects face increasing bandwidth, power, and thermal constraints.
ArchitectureUses dense wavelength-division multiplexing (DWDM) to transmit many independent optical data channels over photonic links, targeting substantially higher aggregate bandwidth density than conventional low-wavelength-count optical interfaces.
Performance TargetXscape says its integrated optical fabrics are designed to enable petabit-per-second-scale chip-escape bandwidth with energy efficiency below one picojoule per bit.
AI Infrastructure RoleTargets optical connectivity for GPU-to-GPU, GPU-to-memory, chip-to-chip, and node-to-node communication in large-scale AI clusters and high-performance computing systems.
ProductsFalconX EagleX Evaluation Kit
Manufacturing PartnerTower Semiconductor collaborated with Xscape on prototyping and validation-kit availability for its on-chip multi-wavelength laser technology.
Strategic InvestorsNVIDIA Cisco Investments Altair
Funding$44 million Series A announced in 2024, following earlier seed financing that included a $10 million investment from Altair.
Government ProgramSelected in July 2026 for the U.S. Department of Energy ARPA-E SCALEUP Ready program to accelerate commercial scale-up of its photonic technology.
Strategic ObjectiveMove high-bandwidth data communication inside AI systems from increasingly constrained electrical interconnects toward massively parallel, energy-efficient optical fabrics capable of scaling future AI compute architectures.
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