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Michela Ceria edited section_Multivariate_polynomials_on_bits__.tex
about 6 years ago
Commit id: 2f8143c7d30e953c0ee7472fbcf98b1a146f4fa3
deletions | additions
diff --git a/section_Multivariate_polynomials_on_bits__.tex b/section_Multivariate_polynomials_on_bits__.tex
index e328ca7..9a6eecd 100644
--- a/section_Multivariate_polynomials_on_bits__.tex
+++ b/section_Multivariate_polynomials_on_bits__.tex
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\end{center}
Then, we can see that, in $\Fb[x,y]$, $x^3+0y^{12}=x^3=x^3+0*xy^{32}$.
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As seen in section \ref{Sec:Polynomials} for univariate polynomials, the sum and the product of polynomials in $\Fb[x_1,...x_n]$
is are defined as for multivariate polynomials over $\RR$, only taking into account that their coefficients are bits.