High-Performance AES Encryption/Decryption Core with Advanced SCA/FI Protection
FortifyIQ’s High-Performance AES IP core delivers fast, secure AES-128/256 encryption and decryption for systems requiring high throughput and certified physical attack resistance. Based on a 20 S-box parallel architecture, the core supports ECB, CBC, and CTR modes (excluding GCM, XTS, and CBC-MAC), offering low-latency processing for both data-at-rest and data-in-motion applications. Integrated RAMBAM-based side-channel and fault injection countermeasures are implemented algorithmically at the RTL level and validated by a Common Criteria accredited lab. Silicon-proven and engineered for compliance with FIPS 140-3 and Common Criteria, this core is ideal for performance-sensitive secure networking, storage, and embedded computing platforms.
High-Throughput AES Core with Advanced SCA/FI Protection for Performance-Critical Systems
High-Performance AES Encryption Core with GCM/XTS Support and Advanced SCA/FI Protection
AES Encryption Core with Extreme SCA Protection for Ultra-High-Security Applications
Ultra-High-Performance AES-GCM Core with RAMBAM-Based SCA/FI Protection
“Summary. The leakage analysis (Welch t-test) on over 30 million traces did not show statistically significant first- and second-order differences between trace sets with fixed and random inputs. The template-based DPA analysis, on the pseudo-random trace set for the profiling phase (15 million traces) and on a sub-set of 300k fix input traces for matching phase targeting the first-round S-box output, and template attack on ciphertext, did not indicate any potential information leakage.”
” The results for the soft IP presented in the report were obtained on the TOE which is the basic hardware implementation of the soft IP without additional levels of security (e.g. that are present in a secure silicon layout). Therefore the internal strength of the soft IP itself was evaluated. This indicates that the investigated features and parameters of the soft IP implementation should be robust against SCA and fault injection attacks in different implementations including ASIC. Nevertheless, according to the Common Criteria rules, the strength of the final composite product must be evaluated on its own.”
