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AES-C

AES Encryption & Decryption IP Core − Single Configurable Block Cipher Mode

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The AES-C IP core from Alma Technologies implements the FIPS-197 Advanced Encryption Standard. It can be programmed to encrypt or decrypt 128-bit blocks of data, using 128-, 192-, or 256-bit cipher-key. An included configurable wrapper surrounds the AES-C core and implements its fixed Block Cipher mode of operation. This configurable wrapper supports the ECB, CBC, CFB, OFB and CTR Block Cipher modes. The AES-C core is available in two variations, the standard AES32-C and the fast AES128-C.



AES-C block diagram | Alma Technologies


AES32-C has a 32-bit internal datapath, while the AES128-C uses 128-bit datapath. The AES32-C variation is more compact in size, but offers a lower throughput than the AES128-C. The AES32-C needs 44/52/60 clock cycles to encrypt or decrypt an input block using 128/192/256-bit cipher-key, respectively, while only 11/13/15 clock cycles are required for the same by the AES128-C core.

During each step of the encryption or decryption processing the core requires a previously calculated Round Key Value, derived from the cipher-key using a key expansion algorithm. These Round Key Values must be stored to the internal Round Key Table, from which the core retrieves the appropriate one for each processing step. Alternatively, instead of directly programming the Round Key Values to the Round Key Table, an optional Key Expander module can be provided. This module automatically calculates the Round Key Values and fills the internal Round Key Table according to the cipher-key given to the core.

The AES-C core is equipped with easy-to-use fully stallable interfaces for both input and output. These are designed to permit the user application to pause the produced output data stream when it is not able to receive data, or to pause the input stream towards the core according to data arrival rate.

IP Deliverables

Clear-text RTL sources for ASIC designs, or pre-synthesized and verified Netlist for FPGA and SoC devices

Release Notes, Design Specification and Integration Manual documents

Bit Accurate Model (BAM) and test vector generation binaries, including sample scripts

Pre-compiled RTL simulation model and gate-level simulation netlist for the FPGA Netlist license

Self-checking testbench environment sources, including sample BAM generated test cases

Simulation and sample Synthesis (for ASICs) or Place & Route (for FPGAs) scripts

Specifications »


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