Rambus DPA Resistant Hardware Cores prevent against the leakage of secret cryptographic key material through attacks when integrated into an SoC or FPGA. .
Rambus DPA Resistant Hardware Cores prevent against the leakage of secret cryptographic key material through attacks when integrated into an SoC or FPGA. .
Rambus DPA Resistant Hardware Cores prevent against the leakage of secret cryptographic key material through side channel and fault injection attacks .
Rambus DPA Resistant Hardware Cores prevent against the leakage of secret cryptographic key material through attacks when integrated into an SoC or FPGA. .
DPA and Fault Injection Resistant AES-32 Cryptographic Core Rambus DPA Resistant Hardware Cores prevent against the leakage of secret cryptographic key material through side channela and fault injection attacks when integrated into an SoC or FPGA. DPA and Fault Injection Resistant AES-32 cryptographic accelerator core
The DPA Resistant Hardware cores offer chipmakers an easy-to-integrate technology-independent soft-macro security solution with built-in side-channel resistance for cryptographic functions across a wide array of devices.
These high-performance cores provide a higher level of protection than standard security cores, while improving time-to-market, as all the cores are validated DPA countermeasures. It is highly flexible for integration with standard cipher modes such as Cipher Block Chaining (CBC), Counter (CTR) and Authenticated Encryption mode / Galois Counter (GCM) modes. The fast AES core performs AES encryption with DPA protection using only 2 clock cycle