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Needs and Requirements for Future Missions
REQ- Overview of the specific demands and challenges posed by upcoming space applications.
- Focus on aligning microcircuit design goals with mission objectives.
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Radiation-hardened technologies
TEC- Advances in CMOS and non-CMOS solutions for radiation resilience
- Exploration of advanced node technologies, including UDSM and FinFET architectures
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Methodologies for Radiation Hardening
MET- Techniques for radiation hardening at cell, circuit, and system levels
- Innovative approaches to improve reliability under extreme conditions
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Custom Cell, Circuit, and System Design
DES- Design strategies for analogue, mixed-signal, and full custom digital circuits
- Development of cryogenic microcircuits for ultra-low-temperature operations
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Intellectual Property and Re-usability
IPR- Creation and integration of analogue and mixed-signal IP cores
- Development of reusable full custom digital IP cores and digital cell libraries
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Radiation Effects
RAD- In-depth exploration of radiation effect mechanisms
- Advanced modelling techniques to predict radiation impacts
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Radiation Test Results
TST- Comparative analysis of simulation and measurement data
- Evaluation of test methodologies for validating radiation tolerance
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Qualification
QUA- Adherence to ESCC and ECSS standards for component and system qualification
- Key practices for ensuring compliance and reliability
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Space Applications
APP- Presentation of practical use cases and mission-specific applications
- Exploration of the interplay between design and operational environments
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In-Orbit Experiences and Flight Heritage
ORB- Insights from real-world deployments of microcircuits
- Lessons learned and performance metrics from flight-proven systems
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Other topics
OTH- Relevant subjects and innovations in analogue, mixed-signal, and custom microcircuit design that fall outside the scope of the listed tracks.
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