Design & Reuse
1480 IP
1051
4.0
Gen-Z Link Layer IP Core
The IntelliProp IPC-GZ198A-ZM Gen-Z Link Layer is an IP Core that allows companies to build Gen-Z compliant devices. The IPC-GZ198A-ZM is compliant wi...
1052
4.0
Gen-Z Physical Layer for 802.3 IP Core
The IntelliProp IPC-GZ196A-ZM Gen-Z Physical Layer for 802.3 is an IP Core that allows companies to attach a Gen-Z core to an 802.3 Phy. The IPC-GZ196...
1053
4.0
Gen-Z Physical Layer for PCIe IP Core
The IntelliProp IPC-GZ197A-ZM Gen-Z Physical Layer for PCIe is an IP Core that allows companies to attach a Gen-Z core to a PCIe Phy. The IPC-GZ197A-Z...
1054
4.0
Gen-Z Requester IP Core
The IntelliProp IPC-GZ190A-HI Gen-Z Requester is an IP Core that allows companies to build Gen-Z compliant Requester devices. The IPC-GZ190A-HI is com...
1055
4.0
Gen-Z Responder IP Core
The IntelliProp IPC-GZ189A-DT Gen-Z Responder is an IP Core that allows the building of Gen-Z compliant media devices. The IPC-GZ189A-DT is compliant ...
1056
4.0
Gen-Z Switch IP Core
The IntelliProp IPC-GZ201A-ZM Gen-Z Switch is an IP Core that allows companies to build Gen-Z compliant components. The IPC-GZ201A-ZM is compliant wit...
1057
4.0
AES Encryption Core with XTS
The IntelliProp IPC-BL120A-ZM is an AES-XTS Encryption Core supporting 128 or 256 bit encryption. The IPC-BL120A-ZM provides encryption/decryption bas...
1058
4.0
AES-CTR Encryption Core
The IntelliProp IPC-BL204A-ZM is an AES-CTR (Counter Mode) Encryption Core supporting 128 or 256 bit encryption. The IPC-BL204A-ZM provides encryption...
1059
4.0
AES-GCM Encryption Core
The IntelliProp IPC-BL193A-ZM is an AES-GCM (Galois Counter Mode) Encryption Core supporting 128 or 256 bit encryption. The IPC-BL193A-ZM provides enc...
1060
4.0
SHA3 core for accelerating NIST FIPS 202 Secure Hash Algorithm
eSi-SHA3 is area-efficient hardware accelerator core for the SHA3 and SHAKE cryptographic hashing algorithms compliant with the NIST FIPS 202 standar...
1061
4.0
Licensable baseband controller core + Licensable upper and lower protocol stacks
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1062
4.0
NIST FIPS-197 Compliant High Throughput Rate AES IP Core
ntAES128 core implements the NIST FIPS-197 Advanced Encryption Standard and can be programmed to either encrypt or decrypt 128-bit blocks of data usin...
1063
4.0
NIST FIPS-197 Compliant Ultra-Low Power AES IP Core
ntAES8 core implements NIST FIPS-197 Advanced Encryption Standard. ntAES8 core can be programmed to encrypt or decrypt 128-bit blocks of data using a ...
1064
4.0
NVMe Target IP Core
The IntelliProp IPC-NV163A-DT NVMe Target IP core allows companies to build high speed NVMe based storage products. The IPC-NV163A-DT provides a hardw...
1065
3.0
802.11i CCM (CTR+CBC) AES Core for WiFi WLAN
Implementation of the new WLAN security standard 802.11i requires the NIST standard AES cipher in CTR and CBC modes (a.k.a. CCM) for encryption and me...
1066
3.0
802.11i CCMP/TKIP IP Core
Implementation of the WLAN security standard (802.11i) requires the NIST standard AES cipher in CTR and CBC modes (a.k.a. CCM) for encryption and mess...
1067
3.0
802.15.3 CCM AES Core
Implementation of the new WPAN security standard (802.15.3) requires the NIST standard AES cipher in CTR and CBC modes (a.k.a. CCM) for encryption and...
1068
3.0
P1619/802.1ae (MACSec) GCM/XEX/XTS-AES Core
General Description LAN security standard IEEE 802.1ae (MACSec) uses AES cipher in the GCM mode, while the disk/tape encryption standard IEEE P1619 us...
1069
3.0
32/64/128/256/512/1024/2048/4096 Point FFT Core
The FFT4096 core the FFT and IFFT computations for N input samples, where N can be any power of 2 between 32 and 4096 (32, 64, 128,...…4096), in hardw...
1070
3.0
Kasumi Encryption Core
The KSM1 core implements Kasumi encryption in compliance with the ETSI SAGE specification. It processes 64-bit blocks using 128-bit key. Basic core is...
1071
3.0
MBOA MAC AES Core
Implementation of the new WPAN security standard for MBOA MAC requires the NIST standard AES cipher in CTR and CBC modes (a.k.a. CCM) for encryption ...
1072
3.0
Advanced Encryption Standard (AES) core
The AES / Rijndael core can handle input block sizes of 128, 192 or 256 bit. The Decoder needs the key and the cipher text as input. The start_de sign...
1073
3.0
IEEE 802.11 WAPI Encryption Core
Implementation of the new Chinese security standard (WAPI) requires running the SMS4 cipher in the WPI mode for encryption and message authentication....
1074
3.0
IEEE 802.16e (WiMAX) AES Core
Implementation of the new WLAN security standard (802.16e) requires the NIST standard AES cipher in CTR and CBC modes (a.k.a. CCM) for encryption and ...
1075
3.0
Generic CCM AES Core
The CCM1 cores are tuned for mid-performance generic AES-CCM applications per NIST SP 800-38C. Specific protocol implementations are available in inte...
1076
3.0
Generic CCM AES Core with CMAC Option
The CCM2 cores are tuned for mid-performance generic AES-CCM applications per NIST SP 800-38C. CCM2 core uses flow-trough design with dedicated input...
1077
3.0
AES IP Core
Encryption and Decryption are fed with an input of 128 bits length and an initial key of one of the supported key lengths (128, 192 and 256). The AES...
1078
3.0
SHA1 core
The eSi-SHA1 core is an easy to use SHA1 hash accelerator peripheral. SHA1 is a cryptographic hash function designed by the United States National Sec...
1079
3.0
ChaCha20 stream cipher core
The eSi-CHACHA20 core is an easy to use CHACHA20 stream cipher hardware accelerator that is compliant with the IETF RFC7539 standard. ChaCha20, alo...
1080
3.0
High-Performance Lossless Compression Core
Lossless data compression is a class of data compression algorithms that allows the exact original data to be reconstructed from the compressed data. ...
1081
3.0
High-Performance Lossless Compression/Encryption Combo Core
Lossless data compression is a class of data compression algorithms that allows the exact original data to be reconstructed from the compressed data. ...
1082
3.0
NIST AES Key Wrap/Unwrap Core
AKW1 implements the NIST standard AES key wrap and unwrap. Core contains the base AES core AES1 and is available for immediate licensing. The design ...
1083
3.0
Elliptic Curve Point Multiply and Verify Core
Elliptic Curve Cryptography (ECC) is a public-key cryptographic technology that uses the mathematics of so called “elliptic curves” and it is a part o...
1084
3.0
Ultra-Compact 3GPP Cipher Core
The ZUC1 core implements ZUC stream cipher in compliance with the 3GPP Confidentiality and Integrity Algorithms 128-EEA3 & 128-EIA3 version 1.6. It pr...
1085
3.0
Ultra-Compact Advanced Encryption Standard (AES, FIPS-197) Core
The AES core implements Rijndael cipher encoding and decoding in compliance with the NIST Advanced Encryption Standard. It processes 128-bit data bloc...
1086
3.0
Ultra-Compact Data Encryption Standard (DES/3DES) Core
The DES1 ASIC/FPGA core is an implementation of the DES and triple DES encryption and decryption in compliance with the NIST Data Encryption Standard....
1087
3.0
SNOW 3G Encryption Core
The SNOW3G1 core implements SNOW 3G stream cipher in compliance with the ETSI SAGE specification version 1.1. It produces the keystream that consists ...
1088
3.0
Poly1305 core
The eSi-POLY1305 core is an easy to use POLY1305 accelerator peripheral that is fully compliant with the RFC7539 IETF standard. Poly1305, along wi...
1089
3.0
Combined ChaCha20 and Poly1305 core
The eSi-CHACHA20-POLY1305 core is an easy to use APB hardware accelerator peripheral that is fully compliant with the IETF RFC7539 standard Poly1...
1090
3.0
Configurable AES Core
eSi-AES is a range of sophisticated AES cores for use in ASIC or FPGA technologies. They can be configured to customer the requirements to enable a...
1091
3.0
FortifyIQ High-Performance Hybrid Classical and Post-Quantum High-assurance (SCA/DPA/FIA resistant) Cryptography IP Core (ECC/RSA, ML-KEM, ML-DSA)
FortifyIQ’s High-Performance Hybrid Cryptography IP core delivers accelerated support for both classical (RSA, ECC) and post-quantum (ML-KEM, ML-DSA) ...
1092
3.0
FortifyIQ HMAC-SHA256 Secure Core: Hardware Accelerator for SHA-2 and HMAC with Low Latency SCA/FI Protection
FortifyIQ’s SHA-2/HMAC IP core delivers high-speed, hardware-accelerated SHA-2-224/256 hashing and HMAC computation, optimized for secure embedded sys...
1093
3.0
FortifyIQ Hybrid Classical and Post-Quantum High-assurance (SCA/DPA/FIA resistant) Cryptography IP Core (ECC/RSA, ML-KEM, ML-DSA)
FortifyIQ’s Hybrid Cryptography IP core combines traditional asymmetric algorithms, such as RSA and ECC, with post-quantum standards including ML-KEM ...
1094
3.0
FortifyIQ's Compact DPA and FIA Hardened Post-Quantum ML-KEM IP Core for Resource-Constrained Devices (SCA/DPA/FIA resistant)
As quantum computing threatens traditional public-key cryptography, resource-constrained devices must adopt quantum-resistant algorithms without compr...
1095
3.0
FortifyIQ's Compact Post-Quantum ML-DSA Secure Cryptographic Signature IP Core for Resource-Constrained Devices (SCA/DPA/FIA resistant)
As digital signature algorithms face obsolescence in the quantum era, embedded systems require quantum-resistant alternatives that balance performance...
1096
3.0
LRW-AES Core
LRW3 implements the NIST standard AES cipher in the LRW mode for encryption and decryption. The LRW3 family of cores covers a wide range of area / thr...
1097
3.0
LRW-AES Core
Implementation of the older drafts standard IEEE P1619 required the NIST standard AES cipher in the LRW mode for encryption (AES-LRW). Note that the n...
1098
3.0
LRW-AES Core
Implementation of the new encrypted shared storage media standard IEEE P1619 with AES cipher in the LRW mode....
1099
3.0
Cryptographically Secure Pseudo Random number Generator IP Core
The PRNG1 core implements a cryptographically secure pseudo-random number generator per NIST publication SP800-90. Basic core is small (6,500 gates)...
1100
3.0
USB 2.0 (LS, FS & HS) On-The-Go IP Core
A 'Dual-Role' USB On-The-Go IP Core that operates as both an USB peripheral or as an USB OTG host in a point-to-point communications with another USB ...