Method for protecting an electronic system with modular exponentiation-based cryptography against attacks by physical analysis

The invention concerns a method for protecting an electronic system implementing a cryptographic calculation process involving a modular exponentiation of a quantity (x), said modular exponentiation using a secret exponent (d), characterized in that said secret exponent is broken down into a plurality of k unpredictable values (d₁, d₂, . . . , d_k), the sum of which is equal to said secret exponent.

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