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HASH-IP-57

https://www.rambus.com/security/crypto-accelerator-cores/hash-ip-57/

HASH-IP-57 hash accelerators, MD5, SHA-1, SHA-2, SHA-3 accelerators Contact Us The HASH-IP-57 (EIP-57) is IP for accelerating the various secure hash integrity algorithms like MD5 (RFC1231), SHA-1 (FIPS-180-2), SHA-2 (FIPS-180-3/4) and SHA-3 (FIPS-202), supporting the NIST MAC mode up to 6.4 Gbps @ 450MHz. Designed for fast integration, low gate count and full transforms, the […]

HMAC-IP-59

https://www.rambus.com/security/crypto-accelerator-cores/hmac-ip-59/

HMAC-IP-59 MD5, SHA-1, SHA-2, SHA-3 Hash based HMAC, accelerators Contact Us HMAC-IP-59 (EIP-59) is IP for accelerating the various single pass HMAC (FIPS-198-1) algorithms using secure hash integrity algorithms like MD5 (RFC1231), SHA-1 (FIPS-180-2), SHA-2 (FIPS-180-3/4) and SHA-3 (FIPS-202), up to 8 Gbps. Designed for fast integration, low gate count and full transforms, the HMAC-IP-59 […]

POLY-IP-53

https://www.rambus.com/security/crypto-accelerator-cores/poly-ip-53/

POLY-IP-53 Poly1305-based MAC Accelerators Contact Us Poly-IP-53 (EIP-53) is IP for accelerating the Poly1305 hash-based message authentication algorithm (RFC7539), supporting the NIST MAC mode up to 6.4 Gbps @ 450MHz. Designed for fast integration, low gate count and full transforms, the Poly-IP-53 accelerator provides a reliable and cost-effective embedded IP solution that is easy to […]

PKA-IP-28

https://www.rambus.com/security/crypto-accelerator-cores/pka-ip-28/

PKA-IP-28 RSA/ECC Public Key Accelerators Contact Us The PKA-IP-28 is a family of Public Key Accelerator IP cores designed for full scalability and an optimal “performance over gate count” deployment. Proven in silicon, the PKA-IP-28 public key accelerator addresses the unique needs of semiconductor OEMs and provides a reliable and cost-effective solution that is easy […]

TRNG-IP-76

https://www.rambus.com/security/crypto-accelerator-cores/trng-ip-76/

TRNG-IP-76 FIPS-Certified True Random Number Generators Contact Us The TRNG-IP-76 is a FIPS-compliant IP core for True Random Number Generation (TRNG) with an optional post-processor and several internal self-tests. Designed for easy integration into ASICs and SOCs, the 100% digital standard cell based TRNG-IP-76 provides a reliable and cost-effective embedded IP solution for our customer’s […]

Root of Trust Solutions

https://www.rambus.com/security/root-of-trust/

Root of Trust IP Protecting data at rest Contact Us Secure Programmable and Firmware-Controlled Root of Trust IP Providing a hardware-based foundation for security, Rambus offers a portfolio of robust Root of Trust eHSM solutions, ranging from feature-rich programmable security co-processors with Quantum Safe Cryptography and side-channel attack (SCA) protection to highly compact, firmware-controlled designs. […]

Protocol Engines

https://www.rambus.com/security/protocol-engines/

Security Protocol Engine IP Protecting data in motion Contact Us MACsec, IPsec and TLS Security Protocol Engine IP For data in motion protection, Rambus offers a family of secure protocol-aware high-throughput data plane processing engines for MACsec, IPsec and TLS. Solutions cover layer 2 MACsec link encryption, layer 3 IPsec processing or layer 4 TLS […]

Software Protocols

https://www.rambus.com/security/software-protocols/

Security Software Protocols and Toolkits Protecting communications and devices Contact Us Secure Software Toolkits and Libraries Rambus secure software toolkits and libraries feature a complete range of capabilities that secure communications, as well as offer cryptographic services that are FIPS-certified or protected against side channel attacks. The Security Protocol Toolkits provide high interoperability and portability […]

Data Security on AI Chips: Hard to protect? (Interview)

https://www.rambus.com/blogs/data-security-ai-chips/

Rambus fellow Helena Handschuh recently participated in a Semiconductor Engineering industry panel discussion about securing data running on AI/ML silicon. As the panel participants note, AI systems are designed to process data at high speeds, not limit access. This is precisely why the semiconductor industry is struggling to more effectively secure AI/ML data and prevent […]

Rambus’ Ben Levine talks IoT security and cryptography with EDA Café

https://www.rambus.com/blogs/rambus-ben-levine-talks-iot-security-and-cryptography-with-eda-cafe-2/

Ben Levine, Senior Director of Product Marketing at Rambus, recently sat down with Sanjay Gangal of EDA Café to discuss IoT security and cryptography. According to Levine, security should be embedded in every chip. More specifically, says Levine, a separate hardware-based security core can help protect both the SoC itself and the system it powers. […]