Summary
M-ENGINE proposes a unique solution to the rapidly increasing bandwidth demands of data centers. With the massive growth of AI and social media in an increasingly connected world, data centers are expected to account for 20% of Europe's energy use by 2030, posing a significant challenge to meet the EU's climate goals. Current solutions to increase bandwidth in optical communications involve adding more single-channel lasers, which neither meets the capacity needs nor the energy requirements. Our proposal offers a scalable solution based on the Nobel prize-winning technology of optical frequency combs to provide highly coherent multi-channel lasers for high-capacity, low energy consumption data transmission. M-ENGINE's solution can replace 100s of individual lasers used in connecting data centers with just one compact system. The proposal combines Enlightra's photonic chip technology with X-Celeprint's cutting-edge solution of micro-transfer printing for scalable heterogeneous integration of all necessary photonic and electronic components. Eblana photonics’ high-power distributed feedback lasers will be transformed for transfer printing on the wafer scale, while Deutsches Elektronen-Synchrotron (DESY) and Laboratoire Interdisciplinaire Carnot de Bourgogne (ICB) will contribute recent breakthroughs in chip-integrated frequency combs enabling increased efficiency, stability, and equalized power of the generated data channels. Dublin City University (DCU) will perform independent performance testing for telecom before test devices are sent out to customers for pilot projects. The result will be a scalable photonic chip engine meeting future data needs with reliability, long-term operation, and a clear business case. M-ENGINE's primary market focus will be data centers, but it will have the flexibility to address related markets, such as photonic computing. The consortium aims to create a viable solution in 5 years when the market is expected to be valued at €14Bn.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101137000 |
| Start date: | 01-12-2023 |
| End date: | 30-11-2026 |
| Total budget - Public funding: | 2 499 445,93 Euro - 2 499 445,00 Euro |
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Original description
M-ENGINE proposes a unique solution to the rapidly increasing bandwidth demands of data centers. With the massive growth of AI and social media in an increasingly connected world, data centers are expected to account for 20% of Europe's energy use by 2030, posing a significant challenge to meet the EU's climate goals. Current solutions to increase bandwidth in optical communications involve adding more single-channel lasers, which neither meets the capacity needs nor the energy requirements. Our proposal offers a scalable solution based on the Nobel prize-winning technology of optical frequency combs to provide highly coherent multi-channel lasers for high-capacity, low energy consumption data transmission. M-ENGINE's solution can replace 100s of individual lasers used in connecting data centers with just one compact system. The proposal combines Enlightra's photonic chip technology with X-Celeprint's cutting-edge solution of micro-transfer printing for scalable heterogeneous integration of all necessary photonic and electronic components. Eblana photonics’ high-power distributed feedback lasers will be transformed for transfer printing on the wafer scale, while Deutsches Elektronen-Synchrotron (DESY) and Laboratoire Interdisciplinaire Carnot de Bourgogne (ICB) will contribute recent breakthroughs in chip-integrated frequency combs enabling increased efficiency, stability, and equalized power of the generated data channels. Dublin City University (DCU) will perform independent performance testing for telecom before test devices are sent out to customers for pilot projects. The result will be a scalable photonic chip engine meeting future data needs with reliability, long-term operation, and a clear business case. M-ENGINE's primary market focus will be data centers, but it will have the flexibility to address related markets, such as photonic computing. The consortium aims to create a viable solution in 5 years when the market is expected to be valued at €14Bn.Status
SIGNEDCall topic
HORIZON-EIC-2023-TRANSITIONCHALLENGES-03Update Date
12-03-2024
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