immune to cryptoanalysis cryptosystem - translation to russian
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immune to cryptoanalysis cryptosystem - translation to russian

Damgaard-Jurik cryptosystem; Damgaard–Jurik cryptosystem; Damgård-Jurik cryptosystem; Damgard–Jurik cryptosystem; Damgard-Jurik cryptosystem

immune to cryptoanalysis cryptosystem      
стойкая к криптоанализу криптосистема, криптостойкая система (за) шифрования
primary immune response         
IMMUNE SYSTEM PROCESS THAT FUNCTIONS IN THE CALIBRATED RESPONSE OF AN ORGANISM TO A POTENTIAL INTERNAL OR INVASIVE THREAT
Anamnestic response; Immune responses; Immune reaction; Immunological response; Immune reactions; Secondary immune response; Primary immune response; Anamnestic reaction

общая лексика

первичный иммунологический ответ

первичная иммунная [иммунологическая] реакция

медицина

иммунный первичный ответ

anamnestic response         
IMMUNE SYSTEM PROCESS THAT FUNCTIONS IN THE CALIBRATED RESPONSE OF AN ORGANISM TO A POTENTIAL INTERNAL OR INVASIVE THREAT
Anamnestic response; Immune responses; Immune reaction; Immunological response; Immune reactions; Secondary immune response; Primary immune response; Anamnestic reaction

общая лексика

анамнестическая реакция

вторичный иммунный ответ

бустер-эффект

медицина

иммунный вторичный ответ

Definition

Операционный усилитель

в аналоговой вычислительной технике, Решающий усилитель без цепей обратной связи.

Wikipedia

Damgård–Jurik cryptosystem

The Damgård–Jurik cryptosystem is a generalization of the Paillier cryptosystem. It uses computations modulo n s + 1 {\displaystyle n^{s+1}} where n {\displaystyle n} is an RSA modulus and s {\displaystyle s} a (positive) natural number. Paillier's scheme is the special case with s = 1 {\displaystyle s=1} . The order φ ( n s + 1 ) {\displaystyle \varphi (n^{s+1})} (Euler's totient function) of Z n s + 1 {\displaystyle Z_{n^{s+1}}^{*}} can be divided by n s {\displaystyle n^{s}} . Moreover, Z n s + 1 {\displaystyle Z_{n^{s+1}}^{*}} can be written as the direct product of G × H {\displaystyle G\times H} . G {\displaystyle G} is cyclic and of order n s {\displaystyle n^{s}} , while H {\displaystyle H} is isomorphic to Z n {\displaystyle Z_{n}^{*}} . For encryption, the message is transformed into the corresponding coset of the factor group G × H / H {\displaystyle G\times H/H} and the security of the scheme relies on the difficulty of distinguishing random elements in different cosets of H {\displaystyle H} . It is semantically secure if it is hard to decide if two given elements are in the same coset. Like Paillier, the security of Damgård–Jurik can be proven under the decisional composite residuosity assumption.

What is the Russian for immune to cryptoanalysis cryptosystem? Translation of &#39immune to cryptoan