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UID:pretalx-eu-summit-2026-ZZ7ADW@cfp.riscv-europe.org
DTSTART;TZID=CET:20260609T103000
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DESCRIPTION:Side-channel attacks leveraging microarchitectural features are
  well-studied on x86 and ARM\, but less so on RISC-V. This work implements
  and evaluates Flush+Reload cache-side-channel attacks on user-space softw
 are in a RISC-V system simulated in gem5 full-system mode. We develop both
  eviction-based and cache-block-invalidate (cbo.inval) probes\, establishi
 ng an attack methodology for an unprivileged process using the RISC-V cycl
 e counter. Our experiments reveal timing differences between cached and ev
 icted accesses\, confirming the existence of exploitable timing channels. 
 While key recovery remains partial\, these results demonstrate the feasibi
 lity of cache side-channel attacks on RISC-V and validate gem5 as an effec
 tive platform for microarchitectural security research.
DTSTAMP:20260715T065854Z
LOCATION:Poster Island A
SUMMARY:Microarchitectural Side-Channel Attack on RISC-V - Sadia Shamas\, S
 tefano Di Carlo\, Alessandro Savino
URL:https://cfp.riscv-europe.org/eu-summit-2026/talk/ZZ7ADW/
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UID:pretalx-eu-summit-2026-CEW33C@cfp.riscv-europe.org
DTSTART;TZID=CET:20260609T112000
DTEND;TZID=CET:20260609T113000
DESCRIPTION:Fault Injection Attacks (FIAs) induce transient hardware faults
  to subvert software security mechanisms\, yet assessing fault resilience\
 , especially during early design phases\, remains impractical without spec
 ialized laboratory equipment. Microarchitectural simulation provides a rep
 roducible and scalable alternative. This paper presents InjectV\, a gem5-b
 ased fault injection framework targeting RISC-V systems\, which employs tr
 ace-guided fault injection by identifying Candidate Injection Points (CIPs
 ) at security-critical operations including control-flow branches and cond
 itional comparisons. Supporting transient corruption of architectural regi
 sters and physical memory under full-system simulation\, InjectV demonstra
 tes that guided fault injection requires 95.8% fewer injections than rando
 m exploration to expose successful attacks on the FISSC VerifyPIN benchmar
 ks.
DTSTAMP:20260715T065854Z
LOCATION:Poster Island A
SUMMARY:InjectV: Modeling Fault Injection Attacks in RISC-V Simulation Envi
 ronment - Niccolò Lentini\, Giorgio Fardo\, Stefano Di Carlo\, Alessandro
  Savino
URL:https://cfp.riscv-europe.org/eu-summit-2026/talk/CEW33C/
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UID:pretalx-eu-summit-2026-VVJ8FY@cfp.riscv-europe.org
DTSTART;TZID=CET:20260610T111000
DTEND;TZID=CET:20260610T112000
DESCRIPTION:Vitamin‑V (2023–2025) is a Horizon Europe project building 
 a production‑grade\, open‑source RISC‑V ecosystem for cloud environm
 ents. It extends RISC-V ISA support in three execution platforms (QEMU\, g
 em5\, FPGA)\, enables virtualization and contributes to the development of
  full cloud‑native stacks—OpenStack\, Kubernetes\, Kata Containers\, R
 ustVMM. The project also boosts commercial developments from Semidynamics\
 , ZeroPoint\, and Virtual Open Systems. This paper summarizes the technica
 l outcomes and lessons learned.
DTSTAMP:20260715T065854Z
LOCATION:Poster Island C
SUMMARY:Vitamin-V: Results and Lessons Learnt - Ramon Canal\, Dimitris Gizo
 poulos\, Stefano Di Carlo
URL:https://cfp.riscv-europe.org/eu-summit-2026/talk/VVJ8FY/
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