TLS 1.3 IP

Filter

Foundries

TSMC (1)

Nodes

7nm (1)
16nm (1)
28nm (1)
40nm (1)

IP Type

Silicon IP (22)

Compare 22 IP from 7 vendors (1 - 10)

TLS 1.3 Compliant Crypto Coprocessor
- NIST CAVP certified and OSCCA standard compliant crypto engine suite
- Includes private/public key ciphers, message authentication code, hashes, and key derivation
- Key wrapping function for the secure export of keys
- Public-key coprocessor for digital signatures and key agreements over elliptic/Edward curves
TLS 1.3 Client IP Core
- Optimized Resource Requirements
- Short Session Establishment Time
- Follows RFC 8446
Pipelined AES-GCM/CTR Core
- Scalable architecture configurable from 18 to 128 bits/cycle (up to 128Gbps @ 1GHz)
- Flow-through design
- Interleaved capabilities on any number of contexts
- Stall mitigation when context switching
nQrux™ Confidential Computing Engine (CCE)
- Complete physical isolation of code & data
- Secure code & data transmission with TLS 1.3 Quantum-safe crypto option
High-Speed Elliptic Curve Cryptography Accelerator for ECDH and ECDSA
- Fully digital design
- Portable to any ASIC or FPGA technology
- Fully standard compliant
- Easy to integrate
HKDF/HMAC/SHA-512, SHA-512 IP Core with Extended Functionalities
- Versatility: IP3324B supports the widely used cryptographic hash function SHA-512. It also has native support for commonly used message authentication code (HMAC) based on SHA-512 and key derivation function (HKDF) based on HMAC. This allows using XIP3324B for multiple cryptographic functions —for example, TLS 1.3 —more easily and efficiently than an IP core that supports only SHA-512.
- Constant Latency: The execution time of XIP3324B is independent of the message and key values (apart from message length), and consequently provides protection against timing-based side-channel attacks.
- Performance: XIP3324B provides high performance and reaches hashing speeds of several hundreds of Mbps.
- Compact Size: XIP3324B has compact size (for example, 2483 ALMs and, 6 M20K blocks in Intel ® Cyclone ® 10 GX family) permitting integration into resource constrained FPGA designs.
NIST P-256/P-384 ECDH+ECDSA - Compact ECC IP Cores supporting ECDH and ECDSA on NIST P-256/P-384
- Minimal Resource Requirements
- Secure Architecture
- FIPS 186-4 and SP 800-56A compliant
HKDF/HMAC/SHA-384, SHA-384 IP Core with Extended Functionalities
- Versatility
- Constant Latency
- Performance
Balanced IP Core for ChaCha20-Poly1305 Authenticated Encryption
- Moderate resource requirements
- Performance
- High Throughput with Short Latency
High-Speed IP Core for ChaCha20-Poly1305 Authenticated Encryption
- Moderate resource requirements
- Performance
- High Throughput with Short Latency