Questions tagged [modular-arithmetic]
Modular arithmetic is a system of arithmetic for integers, where numbers "wrap around" upon reaching a certain value… the modulus.
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Is there a jump ahead formula for Inversive congruential generator? An index function for given value? ICG: $x_{i+1} = ax_i^{-1}+c \mod P$
Given a Inversive congruential generator with
$$x_{i+1} = ax_i^{-1}+c \mod P$$
and prime $P$. Constants $a,c$ are selected values to get max cycle length which is equal to $P$. So $x_0 = x_P$. ...
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How to represent the point-at-infinity(Elliptic Curves) in code? [duplicate]
I am writing code for Elliptic Curve Cryptography. I have a class class EllipticCurvePoint.
...
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Why is RSA encryption performed in mod n, but computation of inverse in $\bmod \varphi(n)$
I am studying the principles of RSA and have come across some unintuitive statements. Lets revisit the RSA algorithm:
RSA Key Generation
Output: public key: $k_{pub} = (n,e)$ and private key: $k_{pr}...
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GCD in Montgomery arithmetic
Wikipedia article on Montgomery modular multiplication contains the following statement:
Many operations of interest modulo $N$ can be expressed equally well in Montgomery form. Addition, ...
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2answers
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RSA-CRT exponent reduction
In the implementation of RSA-CRT, the exponent d is reduced mod p-1 ($d_p = d \bmod {(p-1)}$). The only proof I've found for that, is the following (considering $d = k\varphi(p) + d \bmod {\varphi(p)}$...
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EC threshold private key's multiplicative inverse and derived-key sharing
I have two devices, and each has a private key xPriv-i. Each device computes the corresponding EC public key xPub-i, shares it, and the linear combination of the keys is the "real" public key xPub. ...
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Relationship between special RSA modulus and quadratic residue in CL (Camenisch-Lysyanskaya) signature
I'm studying the CL(Camenisch-Lysyanskaya) signature (A signature scheme with efficient protocol proposed by Camenisch-Lysyanskaya).
However, I cannot understand ...
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63 views
structure in modular arithmetic
I was playing around with modular arithmetic when I noticed something.
\begin{align}
g^k &= a \bmod n\\
g^{k+0.5(n-1)} &= b \bmod n
\end{align}
Then $a + b = n$, so you can also write
$$g^{...
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1answer
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Hill Cipher Plaintext Attack: Dealing with Non-uniqueness of Matrix Inverses?
I'm following along with my book. Here is an example of a plaintext attack from it:
It is known that:
plaintext = 'friday'
ciphertext= 'pqcfku'
$m$ = 2
We will use this to form the following matrix ...
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1answer
53 views
Get points of an Elliptic Curve defined over a Finite Field on Twisted Edwards Extended Coordinates
I'm working on a crypto library, and I need to perform some tests for the implementation of:
Point Addition.
Point Subtraction.
Point Doubling.
Scalar Mul Point.
The operations are performed on ...
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4answers
305 views
How to use “mod” related words in technical paper?
Modular reduction is a widely used arithmetic operation. I found many "mod" related words such as
modulo
modulus
modular
Can anyone explains the difference among these words? Please give examples ...
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1answer
127 views
What can be said about the self-power map on groups based on DLP?
Introduction
I've been playing with group representation theory some time, concretely representing groups as permutation groups (Cayley's theorem), where the group $G$ has an embedding into the ...
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1answer
66 views
Probabilistic verification of signature schemes like RSA?
I was wondering if there were any verification algorithm in the literature that enables a "probabilistic" verification of well-known signature schemes?
For RSA signature verification for example, is ...
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2answers
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Discrepancy in modular encryption
I'm trying to work through an encryption assignment and the instructions aren't particularly clear because they don't go hand in hand with the lecture video.
Using encryption key e = 9 in modulo 23,...
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1answer
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What makes the quadratic residuosity problem hard?
The quadratic residuosity problem is the problem of determining whether, for given $r$, $m$, $\exists a.a^2\equiv r\mod m$.
This problem's believed to be hard to solve in general (e.g. an efficient ...
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1answer
113 views
Small solutions to modular arithmetic linear congruence
Let $p$ be a prime number with $N$ bits, let $a,b,c$ be constants. The problem is to find solutions to the equivalent $a x + b y \equiv c \pmod p$ with both having at most $N/2$ bits.
What ...
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Is modular exponentiation always cyclical?
In RSA clock arithmetics is used, and as Fermat's little theorem says, $a^p \bmod p = a$. The exponentiation is cyclical, $a^x = a^{x \bmod p-1} \bmod p$, the same sequence of numbers is repeated in ...
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1answer
51 views
Question about using Montgomery form for elliptic curve operations on bls12-381
Since the prime for bls12-381 is not of a form to allow easy modular reduction , is the best approach to use the Montgomery multiplication + reduction algorithm?
...
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1answer
90 views
What makes the Discrete Logarithm Problem hard?
I am missing a crucial piece of the maths behind the DLP, and I'm hoping someone can give me a really dumbed down answer..
If $h=g^x \bmod p$ and we're working in the group $Z^*_p$, why can I not ...
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Problem with Chaum`s Untraceable Electronic Cash
For example according to protocol I need calculate this:
$b=F^{(1/h)} \bmod pq.$
Where $p$ and $q$ are prime numbers. I have $F$ and $h$. But how can I calculate $b$?
I tried to do this:
$\text{...
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Efficient fields over arithmetic circuits
What sort of fields is efficient over an arithmetic circuit?
Efficient meaning that given a field $\mathbb{F}_p$, reduction (modulo) does not require many multiplications and preferably inversion was ...
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1answer
58 views
Finding a base of an exponent in mod field
I have the following equation:
$$base^{exp} = number \pmod n : base,exp \in \mathbb{N}$$ and another known fact is:
$$gcd(base, number) = 1$$
$$n = 2^{2048}$$ base=...
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1answer
166 views
find $a$ and $k$ for a given el gamal cryptosystem
I am given this question:
Suppose Alice is using the ElGamal Signature scheme with parameters
$p = 31847$, $\alpha = 5$, and $\beta = 25703$
Assuming that we have received signed messages
$(x_1,(\...
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1answer
112 views
How does the squeeze function in the NaCl Poly1305 implementation work?
The NaCl ref implementation of the Poly1305 algorithm uses the following reduction function (which is called squeeze()):
...
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1answer
154 views
How can I exploit the structure of the secp256k1 prime for fast arithmetic?
I'm implementing logic on an FPGA (programmable chip) that does the key verification part of ECDSA on the curve secpk256k1, in which all operations are mod p where $p = 2^{256} - 2^{32} - 2^9 - 2^8 - ...
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1answer
46 views
Additive Differential of XOR
I'm studying about Additive differential of XOR
I saw two papers that are "H.Lipmaa et al., On the Additive Differential Probability of Exclusive-or" and "V.Velichkov et al., The Additive ...
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1answer
398 views
Salsa20 Implementation: Sum of 2 Words with Carries Suppressed
I'm working on the 2nd part of the Salsa20 spec, and I want to implement a closure for the exclusive-or of two words(u32). The author defines the operation as the sum of two words with carries ...
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1answer
204 views
Factoring RSA weak modulus
Given a public key for RSA, I have extracted the modulus which looks like this :
...
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0answers
40 views
Speeding up quotient determination in high-radix montgomery modular multiplication
In this paper Simplifying Quotient Determination in High-Radix Modular Multiplication, the authors have proposed to replace the original modulus $M$ in Montgomery Multiplication $ABR^{-1} \bmod{M}$ to ...
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1answer
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$m^b = z^b \pmod{n}$ - single solution $m = z$?
If i have the following equation:
$$m^b = z^b \pmod{n}$$
Where all numbers are taken from the multiplicative group $\mathbb{Z}_n^*$.
Suppose I know the values $z$ and $b$. Can I state that $z = m$, ...
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Finding generator element for multiplicative group of order $n$ - feasible?
Given a multiplicative group of order $n$, how hard is it to find a generator element (such that all other elements can be expressed as powers of that generator)?
What would be the complexity?
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1answer
295 views
Diffie-Hellman private key recover with non-prime modulus
Say we have a classic Diffie-Hellman key exchange. We have the following parameters of a public key:
p,g,y
Where $p$ is the modulus, $g$ is the base, $y$ is the ...
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0answers
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Hamming Weight of Solutions to the Frobenius Equation
My area of research is algorithms for calculating optimal addition chains.
I have a new high performance algorithm that at its core benefits from estimating the number of set bits ($v(n)$ Hamming ...
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1answer
94 views
Diffie hellman: fixed modulus a risk?
In DH, are algorithms with fixed modulus p (large safe prime) to be avoided?
What if it was changed every x minutes?
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1answer
93 views
What is the difference between subtracting the modulus from a scalar field element and reducing it?
When implementing a Field element, we define the necessary operations on the data structure.
One function that I see is a "scalar reduce" function, which effectively reduces a random scalar so that ...
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1answer
145 views
find additive inverse of modular arithmetic [closed]
For a set to be called as a ring, it should have the following properties
closed
commutative
associative
Identity existence
Inverse existence
but how is Z7 a ring, as there aren't any inverse ...
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2answers
247 views
What prevents the successful use of the Giant-step/Baby-step algorithm solving a discrete log problem implemented with modulo arithmetic?
Does the size of base, exponent, and modulus thwart the Giant-step/Baby-step algorithm in solving DLP using modular arithmetic or is it the use of a property of a particular prime as the modulus, or ...
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1answer
216 views
Determine RSA modulus from encryption oracle
Suppose we have an RSA encryption oracle $E(m)$ which basically just calculates $m^e \mod n$ for a given message $m$. Here $e=65537$ is known but $n$ is not. Can we determine the value of $n$ without ...
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1answer
39 views
Can we find the exact number given remainder of the numbers with mod m?
I have around 1500 numbers. The numbers $x_i$ are calculated as
$x_i$=($p*t_i$) mod m. $p$ constant and same for all the numbers while $t_i$ are chosen randomly everytime. For example the given ...
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1answer
73 views
Collisions in Diffie-Hellman private keys
Given a generator $g$, a large, safe prime $P$ and a result of the DH key exchange $g^{xy} \mod P$, how would I come up with two different $x', y'$ s.t. $g^{x'y'} = g^{xy} \mod P$
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Mixing x into permutation through XOR vs. modular addition
Block ciphers mix key material into the permutation through XOR. Also do pre and post whitening this way.
Chacha/Salsa finishes by 32-bit modular adding key and iv material (among other bits but ...
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3answers
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In modular arithmetic, why is $\left(g^{k_1} \bmod n\right)^{k_2} \bmod n = \left(g^{k_1}\right)^{k_2} \bmod n$? [duplicate]
Why is $\left(g^{k_1} \bmod n\right)^{k_2} \bmod n = \left(g^{k_1}\right)^{k_2} \bmod n$ ?
Note of the editor: I used $=$ where the original question used == because $=$ in a cryptographic context is ...
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Diffie-Hellman key exchange: Why is $(g^{k_1} \bmod n )^{k_2} \bmod n \equiv (g^{k_2} \mod n)^{k_1} \bmod n$
In a Diffie-Hellman key exchange, with a generator $g$ and a modulo $n$, and two keys $k_1$ and $k_2$, why is
$(g^{k_1} \bmod n )^{k_2} \bmod n \equiv (g^{k_2} \mod n)^{k_1} \bmod n$
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How to avoid side channel attacks when handling large numbers?
For cryptography, the platforms have limited size as 32 or 64-bit operations. We definitely need big numbers to implement the encryption/decryption and digital signatures for cryptosystems like RSA, ...
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2answers
158 views
Regular and Efficient doubling in $GF(2^n)$
A naive approach to compute a multiplication $a \cdot b$ in a Galois field of the form $GF(2^n)$ is the russian peasant algorithm. However, it does not run in constant time and therefore is not safe ...
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1answer
118 views
Can modular multiplicative inverse be used to create a secure cipher?
Let $N$ be a large number; and $(e, d, N)$ be a secret-key; where $e$ is a one-time random factor, and large enough (say the more or less the same number of bits as $N$), where $e < N$ and $e * d \...
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1answer
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One Time Pad OTP: with modular math, ciphertext reveals modulus always, yes or no?
Assuming that in the OTP scheme, the key has more values than the alphabet, then: using modular math predetermines that the highest possible value in the ciphertext will reveal the modulus used in ...
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One-Time Pad : How does modulus size greater than alphabet size eliminate perfect secrecy?
If my plaintext alphabet is {0,1,2} has three characters, I understand why I cannot use a modulus less than 3 (decryption won't work).
My key has 100 different values, {0,1,2 .....99} . So key ...
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2answers
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One Time Pad OTP : Optimal modular base per given plaintext space?
Background: my question at :
My pencil and paper One Time Pad works fine without modular math ...... or does it?
I am trying to understand, from a layman's point of view, how to make the best one ...
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1answer
55 views
choices for k in binary finite field modular reduction algorithm
In the Guide to Elliptic Curve Cryptography there's this algorithm:
My question is... what is $k$? Is it just some random value we pick? If so are some numbers better than others?
