Difference between revisions of "Michael Rogenmoser"
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Revision as of 14:19, 25 January 2022
I finished my B.Sc. and M.Sc. in electrical engineering at ETH Zürich in 2020 and 2021, respectively. Since summer 2021, I am pursuing a Ph.D. in the Circuits and Systems group of Prof. Luca Benini.
My main research areas are:
- Fault Tolerant architectures for Space
- Multicore processors
- Reliability in SoCs
If you are interested any projects, or would like to chat about space, feel free to send me an email or drop by my office.
Contents
Contact
- e-mail: michaero@iis.ee.ethz.ch
- phone: +41 44 632 54 33
- office: ETZ J71.2
- github: micprog
Projects
Available Projects
- Designing a Fault-Tolerant On-Chip Interconnect (1-2S/M)
- Enhancing our DMA Engine with Fault Tolerance
- Scan Chain Fault Injection in a PULP SoC (1S)
- Towards Formal Verification of the iDMA Engine (1-3S/B)
Reserved Projects
Projects In Progress
- Designing a Scalable Miniature I/O DMA (1-2B/1-3S/M)
- Fault-Tolerant Floating-Point Units (M)
- Creating a Free and Open-Source Verification Environment for Our New DMA Engine (1-3S/B)
- Implementation of a Cache Reliability Mechanism (1S/M)
- On-Board Software for PULP on a Satellite
- A RISC-V fault-tolerant many-core accelerator for 5G Non-Terrestrial Networks (1-2S/B)
- Radiation Testing of a PULP ASIC
Completed Projects
- Extension and Evaluation of TinyDMA (1-2S/B/2-3G)
- Design of an Area-Optimized Soft-Error Resilient Processing Core for Safety-Critical Systems (1M)
- MCU Bus and Memory Generator: implementation of a Highly Configurable bus and memory subsystem for a RISC-V based microcontroller.
- Implementing Configurable Dual-Core Redundancy
- Running Rust on PULP
- Enhancing our DMA Engine with Vector Processing Capabilities (1-2S/B)
- Adding Linux Support to our DMA Engine (1-2S/B)
- Triple-Core PULPissimo
- Watchdog Timer for PULP
- Hypervisor Extension for Ariane (M)