DocumentCode
2454594
Title
Some improvements to total degree tests
Author
Friedl, Katalin ; Sudan, Madhu
Author_Institution
Comput. & Autom. Inst., Hungarian Acad. of Sci., Budapest, Hungary
fYear
1995
fDate
4-6 Jan 1995
Firstpage
190
Lastpage
198
Abstract
A low-degree test is a collection of simple, local rules for checking the proximity of an arbitrary function to a low-degree polynomial. Each rule depends on the function´s values at a small number of places. If a function satisfies many rules then it is close to a low-degree polynomial. Low-degree tests play an important role in the development of probabilistically checkable proofs. In this paper we present two improvements to the efficiency of low-degree tests. Our first improvement concerns the smallest field size over which a low-degree test can work. We show how to test that a function is a degree d polynomial over prime fields of size only d+2. Our second improvement shows a better efficiency of the low-degree test of Rubinfeld and Sudan (1993) than previously known. We show concrete applications of this improvement via the notion of “locally checkable codes”. This improvement translates into better tradeoffs on the size versus probe complexity of probabilistically checkable proofs than previously known
Keywords
computational complexity; probability; theorem proving; local rules; locally checkable codes; low-degree test; prime fields; probabilistically checkable proofs; probe complexity; total degree tests; Automation; Computer science; Concrete; Galois fields; Holography; Polynomials; Probes; Testing; USA Councils;
fLanguage
English
Publisher
ieee
Conference_Titel
Theory of Computing and Systems, 1995. Proceedings., Third Israel Symposium on the
Conference_Location
Tel Aviv
Print_ISBN
0-8186-6915-2
Type
conf
DOI
10.1109/ISTCS.1995.377032
Filename
377032
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