| Source DB | nl |
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| Institution | UGent |
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| Code | 94731f64-1ccf-4f30-bc9a-74e2ef579a3a |
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| Unit | 16a28d37-6005-49e4-be1b-46b8c76f6640
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| Begin | 1/1/2015 |
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| End | 12/31/2020 |
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| title fr |
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| title nl | Schaalbare gedragsmodellen voor siliciumfotonica op grote schaal
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| title en | Scalable behavioral models for large-scale silicon photonics
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| Description fr |
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| Description nl | Siliciumfotonica (Silicon Photonics) is de eerste technologie die grootschalige circuits mogelijk maakt. Daarbij wordt efficient circuitontwerp steeds belangrijker. In dit project ontwikkelen we betrouwbare gedragsmodellen voor siliciumfotonica bouwblokken, en bestuderen we de impact van variabiliteit. Tot slot willen we variabiliteitsanalyse (vb. Polynomial Chaos) toepassen om de impact van de fabricage op de werking van grotere circuits te kunnen voorspellen.
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| Description en | Silicon Photonics is the first technology that al;lows for large-scale integrated circuits. Efficient circuit design techniques is becoming an increasing bottleneck. In this project we develop reliable behavioral models vor silicon photonic building blocks, and analyse the impact of variability. Finally we want to apply variability analysis (e.g. Polynomial Chaos) to predict the impact of variability on larger circuits.
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| Qualifiers | - behavioral models - fotonica - gedragsmodellen - photonics - variabiliteit - variability - |
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| Personal | Knockaert Luc, Dhaene Tom, Spina Domenico, Bogaerts Wim, Couckuyt Ivo |
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