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Line 4: }} The '''Gilbert-Varshamov bound for linear codes''' is related to the general [[Gilbert–Varshamov bound]], which gives a lower bound on the maximal number of elements in an [[Error correction code\|error-correcting code]] of a given block length and minimum [[Hamming weight]] over a [[field (mathematics)\|field]] <math>\mathbb{F}_q</math>. This may be translated into a statement about the maximum rate of a code with given length and minimum distance. The Gilbert–Varshamov bound for [[linear code\|linear codes]] asserts the existence of ''q''-ary linear codes for any relative minimum distance less than the given bound that simultaneously ~~has~~have high rate. The existence proof uses [[probabilistic method]], and thus is not constructive. The Gilbert–Varshamov bound is the best in terms of relative distance for codes over alphabets of size less than 49.{{citation needed\|date=May 2013}}

Gilbert–Varshamov bound for linear codes: Difference between revisions