Questions tagged [finite-fields]
Finite fields are fields (number systems with addition, subtraction, multiplication, and division) with only finitely many elements. They arise in abstract algebra, number theory, and cryptography. The order of a finite field is always a prime power, and for each prime power $q$ there is a single isomorphism type. It is usually denoted by $\mathbb{F}_q$ or $\operatorname{GF}(q)$.
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Which is the characteristic of a field K? [closed]
Calculate the characteristic of a field K knowing that $x^4 = x$ for each x $\in$ K.
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Determining the distance of linear code using parity-check matrix
A matrix $H$ over $\Bbb F_2$ has as the first seven rows $I_7$ and the other rows are all of the vectors of $\{0,1\}^7$ with exactly three $1$'s per vector (weight-$3$ vectors). I know that this can ...
- 1,634
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Finding LFSR periods
We have LFSR with corresponding linear automata $A \in F_2^{n\times n}, B \in F_2^n$. We know that this LFSR's generating function is $B^T * (A - I_n * x)^{-1} * S$, where $S$ is the state from $F_2^n$...
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Characterization of an irreducible polynomial mod p
Let $p$ be an odd prime, and let $n=p^k$ where $k\ge 1$. Define
$P_n$ to be the set of non-zero polynomials of degree at most $k-1$
and coefficients in $[0,p-1]$. Thus $|P_n|=n-1$.
Now let $f$ be a ...
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Orders of all the elements in polynomial quotient ring
Consider a quotient ring $\dfrac{F_p[x]}{(f)}$, where $p$ is prime. I want to find all the possible orders in this ring.
I know that with given factorization of $f(x) = f_1(x)^{k_1} * ... * f_n(x)^{...
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2
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For multiplications over a finite field, what happens to the elements which, after modulo the reducing polynomial, still don't fit in the field?
To the best of my understanding, performing multiplication over finite-field elements looks like:
Multiply the elements together in their polynomial representation; and then
if the resulting ...
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31
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How can they use a solved irreducible to factor a polynomial? [closed]
I am having difficulty understanding a concept in a Galois field, at an introductory level.
I am using the book "Error Control Coding: Fundamentals and Applications" by Shu Lin and Daniel ...
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Finding small root of $y = ax + b$ over a finite field
Take $a, b \in \mathbb Z / p\mathbb Z$, $p$ being a large prime number.
Suppose there exists a small root $(x, y)$, $x = O(\sqrt p)$ and $y = O(\sqrt p)$ to the equation $y = ax + b \mod p$.
How could ...
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1
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Question on smooth affine curves over finite fields and Hasse-Weil [closed]
I don't have a strong background in algebraic geometry, so my question could seems trivial, but I would like to know more about it. So if you have a book to recomend, thanks in advance!
Suppose you ...
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Counting mutually annihilating matrices over finite fields
Let $q=p^n$ and let $A,B$ be two $n \times n$ matrices over $\mathbb{F}_q$ such that $AB=BA=0_n$.
Let $0 \leq k \leq n$ be the nullity of a fixed $A$ (i.e. the dimension of the nullspace $\ker A$, of $...
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How to use the automorphism of extended field to represent the elements of subfield?
how to prove the content of the red line?
$Z,Z(a)$are finite fields
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1
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Proving this polynomial is in $ K[X]$
This appears in a bigger context, but in summary, I have $K\subset L$ extension of finite fields and $\alpha\in L$ such that $L=K(\alpha)$. Also, $G=Aut_K L$. Now, I need to prove the following:
$$f_K^...
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Vandermonde submatrix corresponding to $n$th roots of unity and efficiently solving linear system of equations
Let $n>k$, $n|q-1$. We have an $k*k$ linear system of equations $Ax=b$ over a finite field $\mathbb{F}_q$. Matrix $A$ is full rank and it is a submatrix of Vandermonde matrix $V$ corresponding to $...
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Why doesn't linearity of squaring over Galois Field imply linearity of cubing?
I am reading through this paper and in $\S$3.3 it describes how for $GF(2^{128})$ it is easy to show that squaring is linear, i.e. because the field is of characteristic 2 so the cross term vanishes. ...
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Every field extension of a finite field is separable? [closed]
I understand this is true if our extension is finite, but is it true in the general case where we have no restriction on the order of the field extension? I know how to prove that every element of ...
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1
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Generating de Bruijn sequence over Galois fields using primitive polynomial
This question is related to Greg Slodkowicz's question and the discussion about this paper.
We define a de Bruijn sequence of order $k$ over the set of $l$ distinct symbols as a cyclic sequence of ...
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number of rational points of hyper elliptic curve $y^5=-x^2+x$ over $\Bbb{F}_{121}$
Let $C$ be a curve given by $y^5=-x^2+x$ defined over $\overline{\Bbb{F}_{11}}$.
I want to calculate $\# C(\Bbb{F}_{11})$ and $\# C(\Bbb{F}_{11^2})$.
I calculated $\# C(\Bbb{F}_{11})=\#\{(0,0),(1,0),(...
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Minimum polynomial of generator of finite extension
Let $K\subset L$ be an extension of finite fields and $G=Aut_K L$. Prove: for $\alpha\in L$ with $L=K(\alpha)$, we have
$$f_K^{\alpha}= \prod_{\sigma\in G} (X-\sigma(\alpha)) $$
What is the ...
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How to prove set of all separable elements is a subfield?
If K is a finite extension in a char p field, how do we prove that the set of all separable elements in K is a subfield? I've tried working with the tower law for field extensions, but I'm not really ...
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Rank over $\mathbb F_p$ compared to rank over $\mathbb R$.
I'm looking at the rank of certain square matrices given some constraints on the entries. The matrix entries are in $\mathbb Z_p$, and I want to minimize the rank under some conditions.
Suppose I know ...
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Polynomial irreducibility over $\mathbb{F} _{7^n}$
I recently came across this question from a while ago.
In it, an affirmation is made: The smallest extension of $\mathbb{F}_7$ in which an irreducible cubic polynomial has a root is $\mathbb{F}_{7^3}$....
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Structural description for the order of $\mathrm{GL}_n(\mathbb F_q)$
This question is inspired by the cute answer to Order of general- and special linear groups over finite fields.
The formula
$$
|\mathrm{GL}_n(\mathbb F_q)|=q^{\frac{n(n-1)}2}(q-1)(q^2-1)\cdots(q^n-1).
...
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Using quadratic extensions, show that there is only one field of order $p^2$ for an odd prime $p$.
I understand that this result has been proven before, but I am trying to prove it in another way that I can't seem to find on SE.
The question goes as follows:
Let $E$ be a quadratic extension of a ...
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0
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Monomial permutation polynomial [duplicate]
https://arxiv.org/pdf/1211.6044.pdf Theorem 1.14 (2):
The monomial $x^n$ is a permutation polynomial of $F_q$ if and only if $gcd(n, q − 1) = 1$.
Let's pick $n=2$ and $q=6$ so $gcd(2,5) = 1$ in this ...
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Irreducible polynomial in $\mathbb{F}_2$
Let $t$ a transcendental element on $\mathbb{F}_2$. Prove that $f(x)=x^3-t^3$ is irreducible in $\mathbb{F}_2(t^3)[x]$.
If $f$ is reducible, then we have a solution of $x^3-t^3$, we can call it $\...
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Subset sum problem with fixed linear constraints
I am currently troubled by a problem that seems to be a generalization of the NP-hard subset sum problem over a finite field $\mathbb{F}$. For simplicity, let's assume $\mathbb{F}$ is of a large prime ...
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Finding ${\rm Aut}_{\mathbb{F}_{27}}(\mathbb{F}_{19683})$
I have to find the set of $\mathbb{F}_{27}$-Automorphisms of $\mathbb{F}_{19683}$, where $\mathbb{F}_n:=\mathbb{Z}/\mathbb{Z}_n$.
I know that since $27=3^3$ and $19683=3^9$ and $3\vert{9}$, there ...
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Determining the degrees of the irreducible factors of $X^{19}-1$
I'm trying to find the degrees of the irreducible factors of $X^{19}-1$ in $\mathbb{F}_7[X]$ and $\mathbb{F}_{7^3}[X]$.
I'm really struggling with how to approach this question. I did notice that $X^{...
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Examples of Clifford algebras over finite fields
Yesterday I was in a discussion about solving an applied problem using clifford algebras over a finite field. While this is not (seemingly) disallowed by the definition of a clifford algebra (which ...
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Can Fast Fourier Transform (FFT) be implemented using Clifford Algebra over GF(3)?
Background. Fast Fourier Transform (FFT) is an algorithm used to quickly calculate the discrete Fourier transform (DFT) of a sequence. It is widely used in signal processing, image analysis, and data ...
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Normal basis on tower | composite fields
I'm trying to help someone with normal basis tower fields, specifically for isomorphic mapping of $GF(2^8)$ to $GF(((2^2)^2)^2)$. At the time I originally posted this question, I was familiar with ...
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$\mathfrak{B}=((1,2,0)^t ,(2,1,2)^t ,(3,1,1)^t)$ is a basis of $\mathbb{R}^3$. For what prime numbers p is $\mathfrak{B}$ a basis of $\mathbb{F}^3_p$?
I'm not quite sure, but it seems to me that $\mathbb{F}^3_p$ is the finite field in three dimensions with $p$ elements inside it, where $p$ is the prime number(s) we are looking for. A finite field is ...
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Let $V = \mathbb F_p^9$ and $W \subset V$ a dimension $5$ subspace. Find the number of subspaces $U \subset V$ with $\dim(U) = 6, \dim(W \cap U) = 3$
Let $K = \mathbb F_p$ be a finite field with $p$ elements where $p$ is a prime Let $V = K^9$ be a vector space, and let $W \subset V$ be a subspace of $V$ such that $\dim(W) = 5$. Find the number of ...
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Enumerating monomorphisms of finite-dimensional $\mathbb{F}_2$-algebras
I want to enumerate the monomorphisms of finite-dimensional $\mathbb{F}_2$-algebras.
Of course, each such monomorphism is a linear map between finite-dimensional $\mathbb{F}_2$-vector spaces, and so ...
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Non-identically zero polynomials of degree $n$ over $\mathbb{F}_n$
Let $\mathbb{F}_n$ be a finite field, and $X \subset \mathbb{F}_n^n$ be of size $2^n - 1$. Must there exist $P$ such that
$P \in \mathbb{F}_n[x_1, ..., x_n]$,
$P$ is of degree $n$,
$P$ is zero on $X$,...
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Given a support set calculating Walsh transform.
I have support set of length 120 of a bent function over $GF(256)$.
$GF(256)=<\beta>$ is generated by the polynomial $x^8+ x^4 + x^3 + x^2 + 1$. The support set is of the form
{$\alpha 0 1 0$, $\...
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Is the absolute trace of $\frac{xy}{(x+y^4)^2}$ equal to zero?
Let $\mathbb{F}_{q}$ with $q=2^m$ be the finite field of $q$ elements. Let $x,y \in \mathbb{F}_{q}$. Let $m$ be any integer. If $xy(x+y)=1$ and $x+y^4\neq 0$, then experiment data for $m=3,4,5,6,7,...
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Largest number of shards for linear erasure codes over a finite field
I'm wondering about the largest linear erasure codes you can make given that shards are an elements of a particular finite field.
If you have $D$ data shards and $P$ parity shards, and a finite field $...
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is there a ring map from $\mathbb{Z}[e^{2\pi i/(p-1)}]$ to $\mathbb{Z}$ mod p where p prime?
I have learned about splitting fields and finite fields and some related concepts from my maths courses and I got suspicious that $F_p$ can be though of as not just as splitting field for $x^{p-1} - 1$...
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Decomposition of Galois group into direct product using the main theorem
I have a question concerning the main theorem of Galois theory: If $K$ is a field with finite Galois extensions $M,Z$, so that $K\subset M\subset Z$, the theorem says that $$Gal(Z/K)/Gal(Z/M)\cong Gal(...
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BCH Code generator polynomial
I understood that for BCH codes the native approach to get a generator polynomial over $\text{GF}(q)$ with root $\alpha$ and ability of correcting $t$ errors
$$g(x) = (x - \alpha)...(x-\alpha^{2t})$$ ...
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In a finite field $GF(p^n)$, is it true that $a^{1 + p + p^2 + ... + p^{n-1}}$ always belongs to $GF(p)$?
Consider a finite field $F = GF({p^n})$, and $a \in F$ with $a \not = 0$.
How can we prove that $a^{1 + p + p^2 + ... + p^{n-1}}$ belongs to $GF(p)$?
This is a key fact of Itoh-Tsujii algorithm, but I ...
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XOR-Product Modulo Prime
Every natural number seems to map to a polynomial in binary field GF(2). For example, $11 = 1011_2 \mapsto x^3 + x + 1$, and $x^3 + x + 1 \mid_{x=2}$ gives 11. How naturally can I go between natural ...
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Conditions on $K(X)/K(X^n)$ being Galois
Statement: $K(X)/K(X^n)$ is Galois if and only if $p$ doesn't divide $n$ and $K$ contains all the zeroes of the separable polynom $g := X^n-1 \in K[X]$. (the polynom is certainly separable because $p$ ...
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0
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Why is $\mathbb{F}_{p^r}$ the splitting field of the polynomial $X^{p^r-1}-1$? [duplicate]
Why is $\mathbb{F}_{p^r}$ the splitting field of the polynomial $X^{p^r-1}-1$? This is mentioned on my lecture notes but I don’t have a reference for this fact (and I couldn’t find it online).
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Issue with Elliptic Curve over finite field division
$G$ is the generator point, In spec256k1, I want to divide $5020G$ over $2$ which works and gives me a point where the scalar is $2510$. To do that I first find ...
user1142553
1
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2
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How to solve a system of equations over a finite field?
I need to solve a system of equations over $\mathbb{Z}_{11}$.
My system is:
$$ \left\{
\begin{array}{l}
2x + 5y + z = 8 \\
7x + 6y + 8z = 10 \\
10x + 3y + 4z = 6
\end{array}
\right.
$$
In matrix form:...
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1
answer
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How large can $X\subset \mathbb{F}_2^{10}$ be without solutions to $x_1+\cdots+x_n=0$ for $n\le4$?
Suppose some 10-bit binary numbers, $X\subset \mathbb{F}_2^{10}$. I'd like to construct $X$ as large as possible with no solutions to $x_1+\cdots+x_n=0$ for $x_i\in X$ and $n\le 4$. Explicitly,
The ...
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1
answer
29
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$(\mathbb{F}[T] \ / \ P^2 \mathbb{F}[T])^*$ cyclic if and only if $\text{deg}(P)=1$ where $P$ is an irreducible polynomial over a finite field [duplicate]
I am asked to prove that if $\mathbb{F}$ is a finite field of size $p$ prime and $P\in \mathbb{F}[T]$ is an irreducible polynomial over $\mathbb{F}$ then $(\mathbb{F}[T] \ / \ P^2 \mathbb{F}[T])^*$ is ...
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1
answer
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Weird result in a finite field
Consider the field $\mathbb{Z}_{5}[x]_{x^2 + x + 1}$. In this field, the polynomial $x^3$ is equal to
$$
\begin{align}
x^3
&\equiv_{x^2 + x + 1} x^3 - x(x^2 + x + 1) \\
&\equiv_{x^2 + x + 1} x^...
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