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CSE 321 Discrete Structures

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1 CSE 321 Discrete Structures
Winter 2008 Lecture 8 Number Theory: Modular Arithmetic

2 Announcements Readings Today: Monday and Wednesday:
3.4 (5th Edition: 2.4) Monday and Wednesday: 3.5, 3.6, 3.7 (5th Edition: 2.5, 2.6)

3 Highlights from Lecture 7
Set Theory and ties to Logic Review of terminology: Complement, Universe of Discourse, Cartesian Product, Cardinality, Power Set, Empty Set, N, Z, Z+, Q, R, Subset, Proper Subset, Venn Diagram, Set Difference, Symmetric Difference, De Morgan’s Laws, Distributive Laws

4 Number Theory (and applications to computing)
Branch of Mathematics with direct relevance to computing Many significant applications Cryptography Hashing Security Important tool set

5 Modular Arithmetic Arithmetic over a finite domain
In computing, almost all computations are over a finite domain

6 What are the values computed?
[-128, 127] public void Test1() { byte x = 250; byte y = 20; byte z = (byte) (x + y); Console.WriteLine(z); } public void Test2() { sbyte x = 120; sbyte y = 20; sbyte z = (sbyte) (x + y); Console.WriteLine(z); } 14 -116

7 Arithmetic mod 7 a +7 b = (a + b) mod 7 a 7 b = (a  b) mod 7 + 1 2 3
1 2 3 4 5 6 X 1 2 3 4 5 6

8 Group Theory A group G=(S, ) is a set S with a binary operator  that is “well behaved”: Closed under  Associative: a ² (b ² c) = (a ² b) ² c Has an identity Each element has an inverse A group is commutative if the ² operator also satisfies a² b = b ² a

9 Groups, mod 7 {0,1,2,3,4,5,6} is a group under +7

10 Multiplicative Inverses
Euclid’s theorem: if x and y are relatively prime, then there exists integers s, t, such that: Prove a  {1, 2, 3, 4, 5, 6} has a multiplicative inverse under 7 sx + ty = 1

11 Generalizations ({0,…, n-1}, +n ) forms a group for all positive integers n ({1,…, n-1}, n ) is a group if and only if n is prime

12 Basic applications Hashing: store keys in a large domain 0…M-1 in a much smaller domain 0…n-1

13 Pseudo Random number generation
Linear Congruential method xn+1 = (a xn + c) mod m m = 10, a = 3, c = 2, x0 = 0

14 Simple cipher Caesar cipher, a = 1, b = 2, . . . Shift cipher
HELLO WORLD Shift cipher f(p) = (p + k) mod 26 f-1(p) = (p – k) mod 26 f(p) = (ap + b) mod 26

15 Modular Exponentiation
1 2 3 4 5 6 a a1 a2 a3 a4 a5 a6 1 2 3 4 5 6

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