A Survey of Recent Developments in Testability, Safety and Security of RISC-V Processors

With the continued success of the open RISC-V architecture, practical deployment of RISC-V processors necessitates an in-depth consideration of their testability, safety and security aspects. This survey provides an overview of recent developments in this quickly-evolving field. We start with discussing the application of state-of-the-art functional and system-level test solutions to RISC-V processors. Then, we discuss the use of RISC-V processors for safety-related applications; to this end, we outline the essential techniques necessary to obtain safety both in the functional and in the timing domain and review recent processor designs with safety features. Finally, we survey the different aspects of security with respect to RISC-V implementations and discuss the relationship between cryptographic protocols and primitives on the one hand and the RISC-V processor architecture and hardware implementation on the other. We also comment on the role of a RISC-V processor for system security and its resilience against side-channel attacks

Fault emulation for reconfigurable scan networks

At around their standardization by the IEEE the interest on Reconfigurable Scan Networks (RSNs) by research and industry sparked. The testing of RSNs also raises new challenges. To analyze and cope with these challenges researchers are required to perform fault simulation. And the industry incorporated RSNs into their designs and need to test them to which also requires fault simulation. But the runtime of it is significantly high due to the RSNs’ structure. This thesis introduces a platform for fault emulation of RSNs and analyzes its feasibility. The speedup compared to fault simulation is presented and advantages, limitations and possible optimizations are evaluated and discussed