MIPSBLEED uncovers timing leaks in L1 data cache, L1 instruction cache, and execution engine of SMT-enabled MIPS processors and demonstrates a single-trace key recovery attack on elliptic curve cryptography.
Cache attacks and countermeasures: The case of AES
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
cs.CR 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Systematizes constant time models, identifies a specification gap in private key loading, and confirms timing leaks in OpenSSL and BoringSSL where BoringSSL leaks more strongly despite a stricter model.
citing papers explorer
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MIPSBLEED: Uncovering Microarchitectural Timing Leaks in Pervasive Embedded Processors
MIPSBLEED uncovers timing leaks in L1 data cache, L1 instruction cache, and execution engine of SMT-enabled MIPS processors and demonstrates a single-trace key recovery attack on elliptic curve cryptography.
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SoK: The Constant Time Model
Systematizes constant time models, identifies a specification gap in private key loading, and confirms timing leaks in OpenSSL and BoringSSL where BoringSSL leaks more strongly despite a stricter model.