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Search: id:A132451
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| A132451 |
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First primitive GF(2)[X] polynomials of degree n with exactly 5 terms. |
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+0
5
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| 0, 0, 0, 0, 47, 91, 143, 285, 539, 1051, 2071, 4179, 8219, 16427, 32791, 65581, 131087, 262183, 524327, 1048659, 2097191, 4194361, 8388651, 16777243, 33554447, 67108935, 134217767, 268435539, 536870935, 1073741907, 2147483663
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OFFSET
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1,5
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COMMENT
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More precisely: minimum value for X=2 of primitive GF(2)[X] polynomials of degree n with exactly 5 terms, or 0 if no such polynomial exists. Applications include maxmimum-length linear feedback shift registers with efficient implementation in both hardware and software. Proof is needed that there exists a primitive GF(2)[X] polynomial P[X] of degree n and exactly 5 terms for all n>4.
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LINKS
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Index entries for sequences operating on GF(2)[X]-polynomials
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EXAMPLE
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a(6)=91, or 1011011 in binary, representing the GF(2)[X] polynomial X^6+X^4+X^3+X^1+1, because it has degree 6 and exactly 5 terms and is primitive, contrary to X^6+X^3+X^2+X^1+1 and X^6+X^4+X^2+X^1+1.
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CROSSREFS
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For n>4, a(n) belongs to A091250. A132452(n) = a(n)-2^n, giving a more compact representation. Cf. A132447, similar with no restriction on number of terms. Cf. A132449, similar with restriction to a most 5 terms. Cf. A132453, similar with restriction to minimal number of terms.
Adjacent sequences: A132448 A132449 A132450 this_sequence A132452 A132453 A132454
Sequence in context: A033232 A146031 A139968 this_sequence A004943 A004963 A061153
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KEYWORD
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nonn
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AUTHOR
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Francois R. Grieu (f(AT)grieu.com), Aug 22 2007
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