{"id":140,"date":"2018-01-15T11:45:33","date_gmt":"2018-01-15T11:45:33","guid":{"rendered":"http:\/\/www.passion-project.eu\/?page_id=140"},"modified":"2021-07-20T19:50:51","modified_gmt":"2021-07-20T19:50:51","slug":"deliverables","status":"publish","type":"page","link":"https:\/\/www.passion-project.eu\/documents\/deliverables\/","title":{"rendered":"Deliverables"},"content":{"rendered":"
The report shows the guidelines and the software tool for Metro network design based on the PASSION architecture<\/p>\n
The report shows the\u00a0 industrial-oriented and scientific-oriented dissemination activities of the third + year<\/p>\n
The report addresses the conducted experimental validation of the PASSION network prototype<\/p>\n
The report is the public progress report 3<\/p>\n
The report discusses the integration of all the modules developed in WP3 and WP4 and provide a first set of experimental results.<\/p>\n
The report presents the characterization of the realized chips with different functionalities\u00a0 to understand performance and improve subsequent design for possible performance optimization.<\/p>\n
The report presents the the final results of the packaged Tx modules.<\/p>\n
The report presents the techno-economic analysis and the PASSION vision on future agile high-capacity optical metro networks.<\/p>\n
The report addresses the concept approached for the control and management of the network systems defined in WP2, whose key modules\/devices will be developed in WP3 and WP4.<\/p>\n
The report shows the initial integration results coming from the first prototype combining the VCSEL and drivers on a single submodule<\/p>\n
The report provides details on the hybrid integration of SiPh and InP material platform\u00a0 exploited for the first time for switching circuit concepts<\/p>\n
The report provides the details on the design of the programmable nodes and modular transceiver architectures; the programmable parameters of the system are also identified<\/p>\n
The report provides the test report on measurement results of the second generation PASSION chips<\/p>\n
The report provides the overall network architecture and control aspects definition including specifications and the overall architecture framework of the project considering the requirements defined in D2.1<\/p>\n
The report provides the project advancements obtained in the second-year, evidencing overall objectives, with attention to the work performed and to main results achieved so far<\/p>\n
The report illustrates the second year industrial-oriented and scientific-oriented dissemination activities<\/p>\n
The report describes the design of epitaxially grown layer stacks for realization of arrays of polarization independent optical amplifiers on InP.<\/p>\n
The report describes multicasting switches including spectrum slicing and space switching which will be adopted for compact circuitry on SiPh to be combined to InP amplifiers.<\/p>\n
The report describes the design, and packaging activities of a low power consumption agile WSS.<\/p>\n
The report provides the processes and methods developed to target the PASSION requirements for VCSELs<\/p>\n
The report provides a description of the design, fabrication and testing of the co-integration of VCSELs with passive SiPh PCIs developed in the project<\/p>\n
The report provides a description of the implementation, integration and demonstration plans to be performed during the project<\/p>\n
The report provides a public summary about the design of the Silicon-On-Insulator Photonics Integrated Chips and of the 2-Tb\/s transmitter Module architecture<\/p>\n
The report provides a public summary about the development strategy of the coherent receiver module<\/p>\n
The report provides the project advancements obtained in the first-year, evidencing overall objectives, with attention to the work performed and to main results achieved so far<\/p>\n
The report illustrates the first year industrial-oriented and scientific-oriented dissemination activities<\/p>\n
The report provides the definition of use cases selected according to the project vision
\nand the extraction of the necessary network and systems\/sub-systems requirements<\/p>\n
The report provides a description of the selection and of the first characterization of the electronic drivers for the VCSEL source modulation<\/p>\n
The report gives an overview on the main PASSION dissemination materials, namely videos, flyer and roll-up<\/p>\n
The report describes PASSION Data management plan<\/p>\n
The report presents the initial dissemination plan for PASSION, addressing both scientific and industrial perspectives<\/p>\n
Public summary on the design of the tx module architecture and interfaces: module design, assembly strategy and opto-electrical interfaces<\/p>\n
The switching node architecture proposed in the PASSION project is explained with special emphasis on Circuitry and technology matching to the path functionality in the optical node<\/p>\n
Report on PASSION website development<\/p>\n