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modexp

Modular exponentiation core for implementing public key algorithms such as RSA, DH, ElGamal etc.

The core calculates the following function:

C = M ** e mod N

M is a message with a length of n bits e is the exponent with a length of m bits N is the modulus with a length of n bits

The size n be one and up to and including 8192 bits in steps of 32 bits.

The size m be one and up to and including 8192 bits in steps of 32 bits.

The core has a 32-bit memory like interface, but provides status signals to inform the system that a given operation has is done. Additionally, any errors will also be asserted.

The core is written in Verilog 2001 and suitable for implementation in FPGA and ASIC devices. No vendor specific macros are used in the code.

Implementation details

The core is iterative with 32-bit operands and not the fastest core on the planet.

Future developments

FPGA-results

Altera Cyclone-V

Xilinx Artix-7 100T

Xilinx Spartan-6 LX45

Status

(2015-04-27)

Modexp simulation with exponent and modolus with up to 1280 bits simulates. The auto test generation system works. Implementation in different FPGA types and vendors works.

(2015-04-23)

The Montgomery multiplication module works. The Residue calculation module works. Top level integration and debugging is onging. The core does not yet work and there are dragons to be found.

(2014-12-07)

Renamed the core tom modexp from rsa to make it more clear that it provides generic modular exponentiation, not RSA.

(2014-10-01)

Very early phase. Started to collect information and drawing some rough ideas on paper.

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