Speaker
Description
This project proposal aims to develop radiation hard read-out architectures for hit rates above 100~MHz/cm$^{2}$ in Tower semiconductor compatible with HEP experiment services for the HL-LHC and beyond with a trigger-less approach for matrix sizes larger or equal to 2$\times$2~cm$^{2}$, where time tagging of events with sub-bunch crossing resolution is crucial to contribute to physics analysis, and tagging with a large enough bunch crossing counter is required by the DAQ system in the experiment. These read-out architectures should provide both a fast synchronous, and slow asynchronous control to allow for calibration systems to be developed, and random memory access for reconfiguration. It is envisioned that these architectures should be compatible with HL-LHC readout standards including lpGBT and VTRX+. The technology being considered for this project is TPSCo 65~nm.
| Type of presentation (in-person/online) | online presentation (zoom) |
|---|---|
| Type of presentation (I. scientific results or II. project proposal) | II. Presentation on project proposal |
