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100 Gbit/s IEEE 802.3bj RS Encoder/ Decoder

The Creonic IP cores are the ideal solution for throughputs beyond 10 Gbit/s for FPGA devices and throughputs of up to 100 Gbit/s on state-of-the-art ASIC technologies.

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10GBASE-R PHY FPGA IP

The 10GBASE-R PHY FPGA Intellectual Property (IP) core can be used with either Altera FPGA IP for 10G Ethernet MAC or with a customer-developed Ethernet MAC via a standard XGMII interface running at 156.25 Mbps.

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10GBASE-R PHY FPGA IP

The 10GBASE-R PHY FPGA Intellectual Property (IP) core can be used with either Altera FPGA IP for 10G Ethernet MAC or with a customer-developed Ethernet MAC via a standard XGMII interface running at 156.25 Mbps.

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1G/10Gb Ethernet PHY FPGA IP

The 1G/10G Ethernet PHY Altera FPGA Intellectual Property (IP) core supports functionality of both the standard physical coding sublayer (PCS) and the higher data rate 10G PCS with an appropriate physical medium attachment (PMA). 

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4G LTE/LTE-A CTC

Creonic’s LTE/LTE-A IP core is an advanced, customer proven implementation of the standardized 3GPP turbo code.

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Adjustable Clock

Full standalone hardware only solution of an adjustable Counter Clock

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AES - Advanced Encryption Standard Engine

The AES encryption IP core implements hardware Rijndael encoding and decoding in compliance with the NIST Advanced Encryption Standard. It processes 128-bit blocks, and is programmable for 128-, 192-, and 256-bit key lengths. Two architectural versions are available to suit system requirements. The Standard version (AES-S) is more compact, using a 32-bit datapath and requiring 44/52/60 clock cycles for each data block (128/192/256-bit cipher key, respectively). The Fast version (AES-F) achieves higher throughput, using a 128-bit datapath and requiring 11/13/15 clock cycles for each data block. Various cipher modes can be supported (CBC, CFB, CTR, ECB, LRW, and OFB). The core works with a pre-expanded key, or with optional key expansion logic. The AES core is a fully synchronous design and has been evaluated in a variety of technologies. It is available optimized for ASICs or FPGAs, with complete deliverables.

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AES-GCM: Authenticated Encrypt/Decrypt Engine

The AES-GCM IP core implements NIST Advanced Encryption Standard (AES) in Galois Counter Mode (GCM). GCM is an authenticate-and-encrypt block cipher mode where a Galois Field (GF) multiplier/accumulator is utilized to generate an authentication tag while CTR (Counter) mode is used to encrypt. The core processes 128-bit blocks and is programmable for 128-, 192-, and 256-bit keys. Four architectural versions are available to suit system requirements. The Standard version (AES-GCM-S), more compact using a 32-bit datapath, requires 44/52/60 clocks for each data block (128/192/256-bit key, respectively). The Fast version (AES-GCM-F) achieves higher throughput using a 128-bit datapath and requires 11/13/15 clocks for each data block depending on key size. For high-throughput applications there are two additional versions. The High Throughput AES-GCM-X can process 128 bits/cycle and the Higher Throughput AES-GCM-X2 can process 256 bits/cycle respectively independent of the key size.

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AES-XTS: Storage Encrypt/Decrypt Engine

The AES-XTS encryption IP core implements hardware encryption/decryption for sector-based storage data. It uses the AES block cipher, in compliance with the NIST Advanced Encryption Standard, as a subroutine. The core processes 128 bits per cycle, and is programmable for 128- and 256-bit key lengths. Two architectural versions are available to suit system size and throughput requirements. The High Throughput XTS-X is more compact and can process 128 bits/cycle independent of the key size. The Higher Throughput XTS-X2 can process 256 bits/cycle independent of the key size. Both versions have a 128-bit data path. XTS (XEX-based Tweaked Codebook Mode with Ciphertext Stealing) is a mode of AES that has been specifically designed to encrypt fixed-size data where a possible threat has access to the stored data.

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