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While for ElGamal you need to exchange information only twice, once to exchange public keys and the second to exchange the encrypted message
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While for ElGamal you need to exchange information only twice, once to exchange public keys and the second to exchange the encrypted message
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\subsubsection*{6.3.4}
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\subsubsection*{6.3.4}
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If the discrite logarithm problem is easy to solve then Elgamal is also easy to solve. While for this case the being able to solve the discrite logarithm problem does not help an attacker with breaking the algorithm because the attacker only knows the result of the exponenciation and does not know the value of the base which is publicly known with Elgamal.
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If the discrite logarithm problem is easy to solve then Elgamal is also easy to solve. While for this case the being able to solve the discrite logarithm problem does not help an attacker with breaking the algorithm because the attacker only knows the result of the exponenciation and does not know the value of the base which is publicly known with Elgamal.
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The Diffle-Hellman problem also does not apply since that problem rellies on. if we know $g^x$ and $g^y$ being able to figure out $g^{xy}$ but on this case the problem is slightly different. Is being able to figure out $g^x^y$.
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The Diffle-Hellman problem also does not apply since that problem rellies on. if we know $g^x$ and $g^y$ being able to figure out $g^{xy}$ but on this case the problem is slightly different. Is being able to figure out $(g^x)^y$.
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Therefore this problem does not depend on the discrite logarithm problem
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Therefore this problem does not depend on the discrite logarithm problem
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