Difference between revisions of "SW/HW Predictability and Security"
From iis-projects
Line 3: | Line 3: | ||
== Real-Time Embedded Systems == | == Real-Time Embedded Systems == | ||
Please continue to [[Real-Time Embedded Systems]] if you are interested in designing hardware or writing software for timing predictable embedded systems. | Please continue to [[Real-Time Embedded Systems]] if you are interested in designing hardware or writing software for timing predictable embedded systems. | ||
− | |||
<!-- | <!-- | ||
== Predictable Execution == | == Predictable Execution == |
Latest revision as of 21:03, 19 November 2021
We are in the processes of creating a top-level information page, in the meantime please continue directly to the specific subsections below.
Contents
Real-Time Embedded Systems
Please continue to Real-Time Embedded Systems if you are interested in designing hardware or writing software for timing predictable embedded systems.
Cryptography
Please continue to Cryptography if you are interested in cryptographic hardware.
Fault Tolerance
Please continue to Fault Tolerance if you are interested in circuits tolerant to radiation-induced soft errors.
Projects
Available Projects
- Fast Accelerator Context Switch for PULP
- FPGA mapping of RPC DRAM
- Non-blocking Algorithms in Real-Time Operating Systems
- PULP Freertos with LLVM
- Resource Partitioning of RPC DRAM
Projects In Progress
Completed Projects
- Resource Partitioning of Caches
- Development of statistics and contention monitoring unit for PULP
- Peripheral Event Linking System for Real-time Capable Energy Efficient SoCs
- CLIC for the CVA6
- SCMI Support for Power Controller Subsystem
- PULP’s CLIC extensions for fast interrupt handling
- Hypervisor Extension for Ariane (M)