High-Performance SHA-2/HMAC Accelerator with Full SHA-2 Family Support and Low Latency SCA/FI Protection
FortifyIQ’s SHA-2/HMAC IP core delivers fast, hardware-accelerated hashing and message authentication, supporting SHA-2-224, 256, 384, and 512, as well as HMAC based on all variants. Designed for secure embedded systems and cryptographic protocols, the core provides high throughput with minimal area overhead. As with all FortifyIQ products, it features efficient and low-latency protection against side-channel and fault injection attacks, implemented entirely at the RTL level. Built for systems targeting FIPS 140-3 and Common Criteria, this core offers a robust and flexible solution for integrity and authentication in high-assurance applications.
Hardware Accelerator for SHA-2 and HMAC with Low Latency SCA/FI Protection
High-Security SHA-2/HMAC Core with Zero Side-Channel Leakage (SHA-224/256 Only)
High-Security SHA-2/HMAC Core with Zero Side-Channel Leakage Guarantee
Versatile Crypto Box IP Core with Robust SCA/FI Protections for Balanced Embedded Systems
“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.”
