Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to...
Transcript of Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to...
![Page 1: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/1.jpg)
IdeaAlgorithm and Its Correctness
Primality Testing : AKS Algorithm
Sumit Sidana, PhD CSE
Paper by
Manindra Aggarwal,
Neeraj Kayal and Nitin Saxena
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 2: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/2.jpg)
IdeaAlgorithm and Its Correctness
Outline
1 Idea
2 Algorithm and Its Correctness
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 3: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/3.jpg)
IdeaAlgorithm and Its Correctness
Generalization of Fermat's Little Theorem
Important Result
Let a ∈ Z , n ∈ N, n ≥ 2, (a, n) =1.Then n is prime if and only if
(X + a)n = X n + a(mod n).Proof. For 0<i<n,the coeecient of x i in
((X + a)n − (X n + a) is(ni
)an−i .
Suppose n is prime.Then(ni
)= 0(modn) and hence all
coeecients are zero .Suppose n is composite. Consider a prime q that is a factor ofn and let qk |n .Then qk does not divide
(nq
)and is coprime to
an−q and hence the coeecient of X q is not zero(mod n).Thus ((X + a)n − (X n + a) is not identically zero over Zn
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 4: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/4.jpg)
IdeaAlgorithm and Its Correctness
Generalization of Fermat's Little Theorem
Important Result
Let a ∈ Z , n ∈ N, n ≥ 2, (a, n) =1.Then n is prime if and only if
(X + a)n = X n + a(mod n).Proof. For 0<i<n,the coeecient of x i in
((X + a)n − (X n + a) is(ni
)an−i .
Suppose n is prime.Then(ni
)= 0(modn) and hence all
coeecients are zero .Suppose n is composite. Consider a prime q that is a factor ofn and let qk |n .Then qk does not divide
(nq
)and is coprime to
an−q and hence the coeecient of X q is not zero(mod n).Thus ((X + a)n − (X n + a) is not identically zero over Zn
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 5: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/5.jpg)
IdeaAlgorithm and Its Correctness
Problem
However , the above test takes time Ω(n) because we need toevaluate n coeecients in the LHS in the worst case .
There are two problems which we are facing right now :-Evaluating (X + a)n requires n multiplications.-(X + a)n has n+1 coeecients which take ω(n) time in worstcase to evaluate .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 6: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/6.jpg)
IdeaAlgorithm and Its Correctness
Solutions to Problems
Solutions
Use repeated Squaring to calculate (X + a)n .
Evaluate both sides of (1) modulo a polynomial of the formX r − 1 for an appropriately chosen r .
Test if the following equation is satised(X + a)n = X n + a(mod X r − 1, n)
All Primes n satisfy the equation for all values of a and r .
Problem Now is that some composites n may also satisfy theequation for few values of a and r .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 7: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/7.jpg)
IdeaAlgorithm and Its Correctness
Solutions to Problems
Solutions
Use repeated Squaring to calculate (X + a)n .
Evaluate both sides of (1) modulo a polynomial of the formX r − 1 for an appropriately chosen r .
Test if the following equation is satised(X + a)n = X n + a(mod X r − 1, n)
All Primes n satisfy the equation for all values of a and r .
Problem Now is that some composites n may also satisfy theequation for few values of a and r .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 8: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/8.jpg)
IdeaAlgorithm and Its Correctness
Solutions to Problems
Solutions
Use repeated Squaring to calculate (X + a)n .
Evaluate both sides of (1) modulo a polynomial of the formX r − 1 for an appropriately chosen r .
Test if the following equation is satised(X + a)n = X n + a(mod X r − 1, n)
All Primes n satisfy the equation for all values of a and r .
Problem Now is that some composites n may also satisfy theequation for few values of a and r .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 9: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/9.jpg)
IdeaAlgorithm and Its Correctness
Solutions to Problems
Solutions
Use repeated Squaring to calculate (X + a)n .
Evaluate both sides of (1) modulo a polynomial of the formX r − 1 for an appropriately chosen r .
Test if the following equation is satised(X + a)n = X n + a(mod X r − 1, n)
All Primes n satisfy the equation for all values of a and r .
Problem Now is that some composites n may also satisfy theequation for few values of a and r .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 10: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/10.jpg)
IdeaAlgorithm and Its Correctness
Solutions to Problems
Solutions
Use repeated Squaring to calculate (X + a)n .
Evaluate both sides of (1) modulo a polynomial of the formX r − 1 for an appropriately chosen r .
Test if the following equation is satised(X + a)n = X n + a(mod X r − 1, n)
All Primes n satisfy the equation for all values of a and r .
Problem Now is that some composites n may also satisfy theequation for few values of a and r .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 11: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/11.jpg)
IdeaAlgorithm and Its Correctness
Solutions to Problems
Solutions
Use repeated Squaring to calculate (X + a)n .
Evaluate both sides of (1) modulo a polynomial of the formX r − 1 for an appropriately chosen r .
Test if the following equation is satised(X + a)n = X n + a(mod X r − 1, n)
All Primes n satisfy the equation for all values of a and r .
Problem Now is that some composites n may also satisfy theequation for few values of a and r .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 12: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/12.jpg)
IdeaAlgorithm and Its Correctness
Solution to the above Problem
We show for an appropriately chosen r if the equation issatised for several a's then n must be a prime power .
The number of a's and the appropriate r are both bounded bya polynomial in log n.
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 13: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/13.jpg)
IdeaAlgorithm and Its Correctness
Outline
1 Idea
2 Algorithm and Its Correctness
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 14: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/14.jpg)
IdeaAlgorithm and Its Correctness
Algorithm
Algorithm
Input: Integer n > 1 .1. If (n = ab for a ∈ N and b > 1), output COMPOSITE .2.Find the smallest r such that or (n) > log2n.3.If 1 <(a,n)<n for some a≤r output COMPOSITE .4.If n ≤ r ,output PRIME .5.For a = 1 to b2
√r log(n)cdo
if ((X + a)n 6= X n + a(mod X r − 1, n)), output COMPOSITE ;6.Output Prime .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 15: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/15.jpg)
IdeaAlgorithm and Its Correctness
If n is prime then Algorithm Returns Prime .
If n is prime then Algorithm Returns Prime .
1. If (n = ab for a ∈ N and b > 1), output COMPOSITE .2.Find the smallest r such that or (n) > log2n.3.If 1 <(a,n)<n for some a≤r output COMPOSITE .4.If n ≤ r ,output PRIME .5.For a = 1 to 2
√r log(n)do
if ((X + a)n 6= X n + a(mod X r − 1, n)), output COMPOSITE ;6.Output Prime .
If n is prime steps (1),(3) and (5) cannot return Composite.Then Either Step (4) or (6) is going to output prime .
If step(4) returns prime then n must be prime .
If it would not have been prime then step(3) would have founda prime p|n output COMPOSITE.
Therefore, algorithm returns prime if n is prime .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 16: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/16.jpg)
IdeaAlgorithm and Its Correctness
If n is prime then Algorithm Returns Prime .
If n is prime then Algorithm Returns Prime .
1. If (n = ab for a ∈ N and b > 1), output COMPOSITE .2.Find the smallest r such that or (n) > log2n.3.If 1 <(a,n)<n for some a≤r output COMPOSITE .4.If n ≤ r ,output PRIME .5.For a = 1 to 2
√r log(n)do
if ((X + a)n 6= X n + a(mod X r − 1, n)), output COMPOSITE ;6.Output Prime .
If n is prime steps (1),(3) and (5) cannot return Composite.Then Either Step (4) or (6) is going to output prime .
If step(4) returns prime then n must be prime .
If it would not have been prime then step(3) would have founda prime p|n output COMPOSITE.
Therefore, algorithm returns prime if n is prime .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 17: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/17.jpg)
IdeaAlgorithm and Its Correctness
If n is prime then Algorithm Returns Prime .
If n is prime then Algorithm Returns Prime .
1. If (n = ab for a ∈ N and b > 1), output COMPOSITE .2.Find the smallest r such that or (n) > log2n.3.If 1 <(a,n)<n for some a≤r output COMPOSITE .4.If n ≤ r ,output PRIME .5.For a = 1 to 2
√r log(n)do
if ((X + a)n 6= X n + a(mod X r − 1, n)), output COMPOSITE ;6.Output Prime .
If n is prime steps (1),(3) and (5) cannot return Composite.Then Either Step (4) or (6) is going to output prime .
If step(4) returns prime then n must be prime .
If it would not have been prime then step(3) would have founda prime p|n output COMPOSITE.
Therefore, algorithm returns prime if n is prime .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 18: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/18.jpg)
IdeaAlgorithm and Its Correctness
If n is prime then Algorithm Returns Prime .
If n is prime then Algorithm Returns Prime .
1. If (n = ab for a ∈ N and b > 1), output COMPOSITE .2.Find the smallest r such that or (n) > log2n.3.If 1 <(a,n)<n for some a≤r output COMPOSITE .4.If n ≤ r ,output PRIME .5.For a = 1 to 2
√r log(n)do
if ((X + a)n 6= X n + a(mod X r − 1, n)), output COMPOSITE ;6.Output Prime .
If n is prime steps (1),(3) and (5) cannot return Composite.Then Either Step (4) or (6) is going to output prime .
If step(4) returns prime then n must be prime .
If it would not have been prime then step(3) would have founda prime p|n output COMPOSITE.
Therefore, algorithm returns prime if n is prime .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 19: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/19.jpg)
IdeaAlgorithm and Its Correctness
If n is prime then Algorithm Returns Prime .
If n is prime then Algorithm Returns Prime .
1. If (n = ab for a ∈ N and b > 1), output COMPOSITE .2.Find the smallest r such that or (n) > log2n.3.If 1 <(a,n)<n for some a≤r output COMPOSITE .4.If n ≤ r ,output PRIME .5.For a = 1 to 2
√r log(n)do
if ((X + a)n 6= X n + a(mod X r − 1, n)), output COMPOSITE ;6.Output Prime .
If n is prime steps (1),(3) and (5) cannot return Composite.Then Either Step (4) or (6) is going to output prime .
If step(4) returns prime then n must be prime .
If it would not have been prime then step(3) would have founda prime p|n output COMPOSITE.
Therefore, algorithm returns prime if n is prime .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 20: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/20.jpg)
IdeaAlgorithm and Its Correctness
More Observations
Observations
1. If (n = ab for a ∈ N and b > 1), output COMPOSITE .2.Find the smallest r such that or (n) > log2n.3.If 1 <(a,n)<n for some a≤r output COMPOSITE .4.If n ≤ r ,output PRIME .5.For a = 1 to 2
√r log(n)do
if ((X + a)n 6= X n + a(mod X r − 1, n)), output COMPOSITE ;6.Output Prime .
If the algorithm does not halt after step(3) or step(4) thenfollowing observations are evident :
n > r
There must exist a prime divisor p of n such that p> r.
(n,r) = 1 ⇒ p, n ∈ Z ∗r
Also let l = 2√r log n.
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 21: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/21.jpg)
IdeaAlgorithm and Its Correctness
More Observations
Observations
1. If (n = ab for a ∈ N and b > 1), output COMPOSITE .2.Find the smallest r such that or (n) > log2n.3.If 1 <(a,n)<n for some a≤r output COMPOSITE .4.If n ≤ r ,output PRIME .5.For a = 1 to 2
√r log(n)do
if ((X + a)n 6= X n + a(mod X r − 1, n)), output COMPOSITE ;6.Output Prime .
If the algorithm does not halt after step(3) or step(4) thenfollowing observations are evident :
n > r
There must exist a prime divisor p of n such that p> r.
(n,r) = 1 ⇒ p, n ∈ Z ∗r
Also let l = 2√r log n.
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 22: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/22.jpg)
IdeaAlgorithm and Its Correctness
More Observations
Observations
1. If (n = ab for a ∈ N and b > 1), output COMPOSITE .2.Find the smallest r such that or (n) > log2n.3.If 1 <(a,n)<n for some a≤r output COMPOSITE .4.If n ≤ r ,output PRIME .5.For a = 1 to 2
√r log(n)do
if ((X + a)n 6= X n + a(mod X r − 1, n)), output COMPOSITE ;6.Output Prime .
If the algorithm does not halt after step(3) or step(4) thenfollowing observations are evident :
n > r
There must exist a prime divisor p of n such that p> r.
(n,r) = 1 ⇒ p, n ∈ Z ∗r
Also let l = 2√r log n.
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 23: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/23.jpg)
IdeaAlgorithm and Its Correctness
More Observations
Observations
1. If (n = ab for a ∈ N and b > 1), output COMPOSITE .2.Find the smallest r such that or (n) > log2n.3.If 1 <(a,n)<n for some a≤r output COMPOSITE .4.If n ≤ r ,output PRIME .5.For a = 1 to 2
√r log(n)do
if ((X + a)n 6= X n + a(mod X r − 1, n)), output COMPOSITE ;6.Output Prime .
If the algorithm does not halt after step(3) or step(4) thenfollowing observations are evident :
n > r
There must exist a prime divisor p of n such that p> r.
(n,r) = 1 ⇒ p, n ∈ Z ∗r
Also let l = 2√r log n.
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 24: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/24.jpg)
IdeaAlgorithm and Its Correctness
More Observations
Observations
1. If (n = ab for a ∈ N and b > 1), output COMPOSITE .2.Find the smallest r such that or (n) > log2n.3.If 1 <(a,n)<n for some a≤r output COMPOSITE .4.If n ≤ r ,output PRIME .5.For a = 1 to 2
√r log(n)do
if ((X + a)n 6= X n + a(mod X r − 1, n)), output COMPOSITE ;6.Output Prime .
If the algorithm does not halt after step(3) or step(4) thenfollowing observations are evident :
n > r
There must exist a prime divisor p of n such that p> r.
(n,r) = 1 ⇒ p, n ∈ Z ∗r
Also let l = 2√r log n.
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 25: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/25.jpg)
IdeaAlgorithm and Its Correctness
More Observations
Observations
1. If (n = ab for a ∈ N and b > 1), output COMPOSITE .2.Find the smallest r such that or (n) > log2n.3.If 1 <(a,n)<n for some a≤r output COMPOSITE .4.If n ≤ r ,output PRIME .5.For a = 1 to 2
√r log(n)do
if ((X + a)n 6= X n + a(mod X r − 1, n)), output COMPOSITE ;6.Output Prime .
If the algorithm does not halt after step(3) or step(4) thenfollowing observations are evident :
n > r
There must exist a prime divisor p of n such that p> r.
(n,r) = 1 ⇒ p, n ∈ Z ∗r
Also let l = 2√r log n.
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 26: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/26.jpg)
IdeaAlgorithm and Its Correctness
General Denitions
Introspective Numbers
Call a number m introspective if(X + a)m = Xm + a(mod X r − 1, p)∀1 ≤ a ≤ l .
If m1 and m2 are introspective numbers then so is m1m2
Proof-(X + a)m2 − (Xm2 + a) = (X r − 1)g(x) + p.h(x) for someg(x),p(x)
⇒(Xm1 + a)m2 − (Xm1m2 + a)
= (Xm1r − 1)g(Xm1) + p.h(Xm1)
= 0(mod X r − 1, p)
⇒ (X + a)m1m2 = (Xm1 + a)m2
= Xm1m2 + a(modX r − 1, p)
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 27: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/27.jpg)
IdeaAlgorithm and Its Correctness
General Denitions
Introspective Numbers
Call a number m introspective if(X + a)m = Xm + a(mod X r − 1, p)∀1 ≤ a ≤ l .
If m1 and m2 are introspective numbers then so is m1m2
Proof-(X + a)m2 − (Xm2 + a) = (X r − 1)g(x) + p.h(x) for someg(x),p(x)
⇒(Xm1 + a)m2 − (Xm1m2 + a)
= (Xm1r − 1)g(Xm1) + p.h(Xm1)
= 0(mod X r − 1, p)
⇒ (X + a)m1m2 = (Xm1 + a)m2
= Xm1m2 + a(modX r − 1, p)
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 28: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/28.jpg)
IdeaAlgorithm and Its Correctness
General Denitions
Introspective Numbers
Call a number m introspective if(X + a)m = Xm + a(mod X r − 1, p)∀1 ≤ a ≤ l .
If m1 and m2 are introspective numbers then so is m1m2
Proof-(X + a)m2 − (Xm2 + a) = (X r − 1)g(x) + p.h(x) for someg(x),p(x)
⇒(Xm1 + a)m2 − (Xm1m2 + a)
= (Xm1r − 1)g(Xm1) + p.h(Xm1)
= 0(mod X r − 1, p)
⇒ (X + a)m1m2 = (Xm1 + a)m2
= Xm1m2 + a(modX r − 1, p)Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 29: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/29.jpg)
IdeaAlgorithm and Its Correctness
p and n as Introspective Numbers .
Numbers of the form pinj
If algorithm outputs Composite at step (5) then we are done .
If the algorithm does not output Composite at step(5) thensuch n has veried l equations .
(X + a)n = X n + a(mod X r − 1, n)0 ≤ a ≤ l .
This implies (X + a)n = X n + a(mod X r − 1, p)
and For Prime Factor of n ,p we have :(X + a)p = X p + a(mod X r − 1, p).
Hence for each m of the form pinj we have(X + a)m = Xm + a for a = 1...l
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 30: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/30.jpg)
IdeaAlgorithm and Its Correctness
p and n as Introspective Numbers .
Numbers of the form pinj
If algorithm outputs Composite at step (5) then we are done .
If the algorithm does not output Composite at step(5) thensuch n has veried l equations .
(X + a)n = X n + a(mod X r − 1, n)0 ≤ a ≤ l .
This implies (X + a)n = X n + a(mod X r − 1, p)
and For Prime Factor of n ,p we have :(X + a)p = X p + a(mod X r − 1, p).
Hence for each m of the form pinj we have(X + a)m = Xm + a for a = 1...l
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 31: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/31.jpg)
IdeaAlgorithm and Its Correctness
p and n as Introspective Numbers .
Numbers of the form pinj
If algorithm outputs Composite at step (5) then we are done .
If the algorithm does not output Composite at step(5) thensuch n has veried l equations .
(X + a)n = X n + a(mod X r − 1, n)0 ≤ a ≤ l .
This implies (X + a)n = X n + a(mod X r − 1, p)
and For Prime Factor of n ,p we have :(X + a)p = X p + a(mod X r − 1, p).
Hence for each m of the form pinj we have(X + a)m = Xm + a for a = 1...l
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 32: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/32.jpg)
IdeaAlgorithm and Its Correctness
p and n as Introspective Numbers .
Numbers of the form pinj
If algorithm outputs Composite at step (5) then we are done .
If the algorithm does not output Composite at step(5) thensuch n has veried l equations .
(X + a)n = X n + a(mod X r − 1, n)0 ≤ a ≤ l .
This implies (X + a)n = X n + a(mod X r − 1, p)
and For Prime Factor of n ,p we have :(X + a)p = X p + a(mod X r − 1, p).
Hence for each m of the form pinj we have(X + a)m = Xm + a for a = 1...l
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 33: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/33.jpg)
IdeaAlgorithm and Its Correctness
p and n as Introspective Numbers .
Numbers of the form pinj
If algorithm outputs Composite at step (5) then we are done .
If the algorithm does not output Composite at step(5) thensuch n has veried l equations .
(X + a)n = X n + a(mod X r − 1, n)0 ≤ a ≤ l .
This implies (X + a)n = X n + a(mod X r − 1, p)
and For Prime Factor of n ,p we have :(X + a)p = X p + a(mod X r − 1, p).
Hence for each m of the form pinj we have(X + a)m = Xm + a for a = 1...l
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 34: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/34.jpg)
IdeaAlgorithm and Its Correctness
p and n as Introspective Numbers .
Numbers of the form pinj
If algorithm outputs Composite at step (5) then we are done .
If the algorithm does not output Composite at step(5) thensuch n has veried l equations .
(X + a)n = X n + a(mod X r − 1, n)0 ≤ a ≤ l .
This implies (X + a)n = X n + a(mod X r − 1, p)
and For Prime Factor of n ,p we have :(X + a)p = X p + a(mod X r − 1, p).
Hence for each m of the form pinj we have(X + a)m = Xm + a for a = 1...l
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 35: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/35.jpg)
IdeaAlgorithm and Its Correctness
p and n as Introspective Numbers .
Numbers of the form pinj
If algorithm outputs Composite at step (5) then we are done .
If the algorithm does not output Composite at step(5) thensuch n has veried l equations .
(X + a)n = X n + a(mod X r − 1, n)0 ≤ a ≤ l .
This implies (X + a)n = X n + a(mod X r − 1, p)
and For Prime Factor of n ,p we have :(X + a)p = X p + a(mod X r − 1, p).
Hence for each m of the form pinj we have(X + a)m = Xm + a for a = 1...l
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 36: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/36.jpg)
IdeaAlgorithm and Its Correctness
Two sets I and P
We now dene two sets I and P .
I = (ni .pj |i , j ≥ 0) .
P = (∏l
a=0(X + a)ea |ea ≥ 0).
Clearly ,Every member of set I is introspective for everymember of set P .
Also, let Î= pinj |0 ≤ i , j ≤√t .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 37: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/37.jpg)
IdeaAlgorithm and Its Correctness
Two sets I and P
We now dene two sets I and P .
I = (ni .pj |i , j ≥ 0) .
P = (∏l
a=0(X + a)ea |ea ≥ 0).
Clearly ,Every member of set I is introspective for everymember of set P .
Also, let Î= pinj |0 ≤ i , j ≤√t .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 38: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/38.jpg)
IdeaAlgorithm and Its Correctness
Two sets I and P
We now dene two sets I and P .
I = (ni .pj |i , j ≥ 0) .
P = (∏l
a=0(X + a)ea |ea ≥ 0).
Clearly ,Every member of set I is introspective for everymember of set P .
Also, let Î= pinj |0 ≤ i , j ≤√t .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 39: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/39.jpg)
IdeaAlgorithm and Its Correctness
Two sets I and P
We now dene two sets I and P .
I = (ni .pj |i , j ≥ 0) .
P = (∏l
a=0(X + a)ea |ea ≥ 0).
Clearly ,Every member of set I is introspective for everymember of set P .
Also, let Î= pinj |0 ≤ i , j ≤√t .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 40: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/40.jpg)
IdeaAlgorithm and Its Correctness
Groups G and eld F
We dene a group G = nipj modulo r and let t be the orderof this group .
Let Qr (X ) be the r th cyclotomic polynomial over Fp.
Polynomial Qr (X ) divides X r − 1 and factors into irreduciblefactors of degree or (p) .
Let h(x) be one such irreducible factor .
Since or (p) > 1 ,degree of h(X) is greater than 1 .
Let F be eld which consists of the set of all residues ofPolynomials in P modulo h(X) .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 41: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/41.jpg)
IdeaAlgorithm and Its Correctness
Groups G and eld F
We dene a group G = nipj modulo r and let t be the orderof this group .
Let Qr (X ) be the r th cyclotomic polynomial over Fp.
Polynomial Qr (X ) divides X r − 1 and factors into irreduciblefactors of degree or (p) .
Let h(x) be one such irreducible factor .
Since or (p) > 1 ,degree of h(X) is greater than 1 .
Let F be eld which consists of the set of all residues ofPolynomials in P modulo h(X) .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 42: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/42.jpg)
IdeaAlgorithm and Its Correctness
Groups G and eld F
We dene a group G = nipj modulo r and let t be the orderof this group .
Let Qr (X ) be the r th cyclotomic polynomial over Fp.
Polynomial Qr (X ) divides X r − 1 and factors into irreduciblefactors of degree or (p) .
Let h(x) be one such irreducible factor .
Since or (p) > 1 ,degree of h(X) is greater than 1 .
Let F be eld which consists of the set of all residues ofPolynomials in P modulo h(X) .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 43: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/43.jpg)
IdeaAlgorithm and Its Correctness
Groups G and eld F
We dene a group G = nipj modulo r and let t be the orderof this group .
Let Qr (X ) be the r th cyclotomic polynomial over Fp.
Polynomial Qr (X ) divides X r − 1 and factors into irreduciblefactors of degree or (p) .
Let h(x) be one such irreducible factor .
Since or (p) > 1 ,degree of h(X) is greater than 1 .
Let F be eld which consists of the set of all residues ofPolynomials in P modulo h(X) .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 44: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/44.jpg)
IdeaAlgorithm and Its Correctness
Groups G and eld F
We dene a group G = nipj modulo r and let t be the orderof this group .
Let Qr (X ) be the r th cyclotomic polynomial over Fp.
Polynomial Qr (X ) divides X r − 1 and factors into irreduciblefactors of degree or (p) .
Let h(x) be one such irreducible factor .
Since or (p) > 1 ,degree of h(X) is greater than 1 .
Let F be eld which consists of the set of all residues ofPolynomials in P modulo h(X) .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 45: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/45.jpg)
IdeaAlgorithm and Its Correctness
Groups G and eld F
We dene a group G = nipj modulo r and let t be the orderof this group .
Let Qr (X ) be the r th cyclotomic polynomial over Fp.
Polynomial Qr (X ) divides X r − 1 and factors into irreduciblefactors of degree or (p) .
Let h(x) be one such irreducible factor .
Since or (p) > 1 ,degree of h(X) is greater than 1 .
Let F be eld which consists of the set of all residues ofPolynomials in P modulo h(X) .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 46: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/46.jpg)
IdeaAlgorithm and Its Correctness
Some Results
Clearly, t ≥ ordr (n)
Any m ∈Î is atmost n2√t
|Î| = (√t + 1)2 > t.
Since |G| =t ,at least two numbers in Î must be equal modulor .⇒ m1 = m2 + kr
(X + a)m1 = (Xm1 + a) = (Xm2+kr + a) = Xm2 + a =(X + a)m2(mod X r − 1, p)
Consider the Polynomial Zm1 − Zm2 has several roots namely,X+a , for a = 1,2,...,l .
If m1,m2 ∈ Î are such that(X + a)m1 = (X + a)m2(mod X r − 1, p) for a = 1,2,...,l thenwe want conditions under which m1 = m2
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 47: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/47.jpg)
IdeaAlgorithm and Its Correctness
Some Results
Clearly, t ≥ ordr (n)
Any m ∈Î is atmost n2√t
|Î| = (√t + 1)2 > t.
Since |G| =t ,at least two numbers in Î must be equal modulor .⇒ m1 = m2 + kr
(X + a)m1 = (Xm1 + a) = (Xm2+kr + a) = Xm2 + a =(X + a)m2(mod X r − 1, p)
Consider the Polynomial Zm1 − Zm2 has several roots namely,X+a , for a = 1,2,...,l .
If m1,m2 ∈ Î are such that(X + a)m1 = (X + a)m2(mod X r − 1, p) for a = 1,2,...,l thenwe want conditions under which m1 = m2
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 48: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/48.jpg)
IdeaAlgorithm and Its Correctness
Some Results
Clearly, t ≥ ordr (n)
Any m ∈Î is atmost n2√t
|Î| = (√t + 1)2 > t.
Since |G| =t ,at least two numbers in Î must be equal modulor .⇒ m1 = m2 + kr
(X + a)m1 = (Xm1 + a) = (Xm2+kr + a) = Xm2 + a =(X + a)m2(mod X r − 1, p)
Consider the Polynomial Zm1 − Zm2 has several roots namely,X+a , for a = 1,2,...,l .
If m1,m2 ∈ Î are such that(X + a)m1 = (X + a)m2(mod X r − 1, p) for a = 1,2,...,l thenwe want conditions under which m1 = m2
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 49: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/49.jpg)
IdeaAlgorithm and Its Correctness
Some Results
Clearly, t ≥ ordr (n)
Any m ∈Î is atmost n2√t
|Î| = (√t + 1)2 > t.
Since |G| =t ,at least two numbers in Î must be equal modulor .⇒ m1 = m2 + kr
(X + a)m1 = (Xm1 + a) = (Xm2+kr + a) = Xm2 + a =(X + a)m2(mod X r − 1, p)
Consider the Polynomial Zm1 − Zm2 has several roots namely,X+a , for a = 1,2,...,l .
If m1,m2 ∈ Î are such that(X + a)m1 = (X + a)m2(mod X r − 1, p) for a = 1,2,...,l thenwe want conditions under which m1 = m2
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 50: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/50.jpg)
IdeaAlgorithm and Its Correctness
Some Results
Clearly, t ≥ ordr (n)
Any m ∈Î is atmost n2√t
|Î| = (√t + 1)2 > t.
Since |G| =t ,at least two numbers in Î must be equal modulor .⇒ m1 = m2 + kr
(X + a)m1 = (Xm1 + a) = (Xm2+kr + a) = Xm2 + a =(X + a)m2(mod X r − 1, p)
Consider the Polynomial Zm1 − Zm2 has several roots namely,X+a , for a = 1,2,...,l .
If m1,m2 ∈ Î are such that(X + a)m1 = (X + a)m2(mod X r − 1, p) for a = 1,2,...,l thenwe want conditions under which m1 = m2
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 51: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/51.jpg)
IdeaAlgorithm and Its Correctness
Some Results
Clearly, t ≥ ordr (n)
Any m ∈Î is atmost n2√t
|Î| = (√t + 1)2 > t.
Since |G| =t ,at least two numbers in Î must be equal modulor .⇒ m1 = m2 + kr
(X + a)m1 = (Xm1 + a) = (Xm2+kr + a) = Xm2 + a =(X + a)m2(mod X r − 1, p)
Consider the Polynomial Zm1 − Zm2 has several roots namely,X+a , for a = 1,2,...,l .
If m1,m2 ∈ Î are such that(X + a)m1 = (X + a)m2(mod X r − 1, p) for a = 1,2,...,l thenwe want conditions under which m1 = m2
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 52: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/52.jpg)
IdeaAlgorithm and Its Correctness
Some Results
Clearly, t ≥ ordr (n)
Any m ∈Î is atmost n2√t
|Î| = (√t + 1)2 > t.
Since |G| =t ,at least two numbers in Î must be equal modulor .⇒ m1 = m2 + kr
(X + a)m1 = (Xm1 + a) = (Xm2+kr + a) = Xm2 + a =(X + a)m2(mod X r − 1, p)
Consider the Polynomial Zm1 − Zm2 has several roots namely,X+a , for a = 1,2,...,l .
If m1,m2 ∈ Î are such that(X + a)m1 = (X + a)m2(mod X r − 1, p) for a = 1,2,...,l thenwe want conditions under which m1 = m2
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 53: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/53.jpg)
IdeaAlgorithm and Its Correctness
We want to show that it has more roots than its degree .If wecan show that ,we will force m1 = m2.
In a eld , a non zero polynomial of degree d has atmost droots .
If we show m1 = m2 then pi1nj1 = pi2nj2 ⇒ n is a primepower.
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 54: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/54.jpg)
IdeaAlgorithm and Its Correctness
Forcing m1 = m2
If η is the primitive r th root of unity , then η + a is the rootof the equation h(Z ) = Zm1 − Zm2 .
Also note that if α and β are the roots of h then so are αβ.
Let S = (∏l
a=1(η + a)ea |ea ∈ 0, 1)
Each element of S is the root of h .
If we force number of roots to be greater than degree we get2l > n2
√t ⇒ l > 2
√tlog n Then we force m1 = m2 .
Now we need to force each root of S to be distinct for aboveclaim to be true .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 55: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/55.jpg)
IdeaAlgorithm and Its Correctness
Forcing m1 = m2
If η is the primitive r th root of unity , then η + a is the rootof the equation h(Z ) = Zm1 − Zm2 .
Also note that if α and β are the roots of h then so are αβ.
Let S = (∏l
a=1(η + a)ea |ea ∈ 0, 1)
Each element of S is the root of h .
If we force number of roots to be greater than degree we get2l > n2
√t ⇒ l > 2
√tlog n Then we force m1 = m2 .
Now we need to force each root of S to be distinct for aboveclaim to be true .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 56: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/56.jpg)
IdeaAlgorithm and Its Correctness
Forcing m1 = m2
If η is the primitive r th root of unity , then η + a is the rootof the equation h(Z ) = Zm1 − Zm2 .
Also note that if α and β are the roots of h then so are αβ.
Let S = (∏l
a=1(η + a)ea |ea ∈ 0, 1)
Each element of S is the root of h .
If we force number of roots to be greater than degree we get2l > n2
√t ⇒ l > 2
√tlog n Then we force m1 = m2 .
Now we need to force each root of S to be distinct for aboveclaim to be true .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 57: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/57.jpg)
IdeaAlgorithm and Its Correctness
Forcing m1 = m2
If η is the primitive r th root of unity , then η + a is the rootof the equation h(Z ) = Zm1 − Zm2 .
Also note that if α and β are the roots of h then so are αβ.
Let S = (∏l
a=1(η + a)ea |ea ∈ 0, 1)
Each element of S is the root of h .
If we force number of roots to be greater than degree we get2l > n2
√t ⇒ l > 2
√tlog n Then we force m1 = m2 .
Now we need to force each root of S to be distinct for aboveclaim to be true .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 58: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/58.jpg)
IdeaAlgorithm and Its Correctness
Forcing m1 = m2
If η is the primitive r th root of unity , then η + a is the rootof the equation h(Z ) = Zm1 − Zm2 .
Also note that if α and β are the roots of h then so are αβ.
Let S = (∏l
a=1(η + a)ea |ea ∈ 0, 1)
Each element of S is the root of h .
If we force number of roots to be greater than degree we get2l > n2
√t ⇒ l > 2
√tlog n Then we force m1 = m2 .
Now we need to force each root of S to be distinct for aboveclaim to be true .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 59: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/59.jpg)
IdeaAlgorithm and Its Correctness
Forcing m1 = m2
If η is the primitive r th root of unity , then η + a is the rootof the equation h(Z ) = Zm1 − Zm2 .
Also note that if α and β are the roots of h then so are αβ.
Let S = (∏l
a=1(η + a)ea |ea ∈ 0, 1)
Each element of S is the root of h .
If we force number of roots to be greater than degree we get2l > n2
√t ⇒ l > 2
√tlog n Then we force m1 = m2 .
Now we need to force each root of S to be distinct for aboveclaim to be true .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 60: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/60.jpg)
IdeaAlgorithm and Its Correctness
Background for Bounds on r
If we take our earlier P =∏l
a=0(X + a)ea |ea ≥ 0 they are alldistinct polynomials of Fp[X ] if a=1....l do not divide n (and p)
But this can be shown : l = 2√
(r)log n ≤ r and p > r .
We also need to show : If f (X ) and g(X ) are two distinctelements of P ,then so are g(η) andf (η)
Proof - For everym = pinj , g(X )m = g(Xm)(modX r − 1, p). Hence if f (X )and g(X ) are two distinct elements of P such thatf (η) = g(η)⇒ g(η)m = g(ηm) = f (η)m = f (ηm)
This shows ηm is the root ofQ(X ) = f (X )− g(X ) for every m ∈ G .
So there are at least t roots of Q(X) in F.
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 61: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/61.jpg)
IdeaAlgorithm and Its Correctness
Background for Bounds on r
If we take our earlier P =∏l
a=0(X + a)ea |ea ≥ 0 they are alldistinct polynomials of Fp[X ] if a=1....l do not divide n (and p)
But this can be shown : l = 2√
(r)log n ≤ r and p > r .
We also need to show : If f (X ) and g(X ) are two distinctelements of P ,then so are g(η) andf (η)
Proof - For everym = pinj , g(X )m = g(Xm)(modX r − 1, p). Hence if f (X )and g(X ) are two distinct elements of P such thatf (η) = g(η)⇒ g(η)m = g(ηm) = f (η)m = f (ηm)
This shows ηm is the root ofQ(X ) = f (X )− g(X ) for every m ∈ G .
So there are at least t roots of Q(X) in F.
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 62: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/62.jpg)
IdeaAlgorithm and Its Correctness
Background for Bounds on r
If we take our earlier P =∏l
a=0(X + a)ea |ea ≥ 0 they are alldistinct polynomials of Fp[X ] if a=1....l do not divide n (and p)
But this can be shown : l = 2√
(r)log n ≤ r and p > r .
We also need to show : If f (X ) and g(X ) are two distinctelements of P ,then so are g(η) andf (η)
Proof - For everym = pinj , g(X )m = g(Xm)(modX r − 1, p). Hence if f (X )and g(X ) are two distinct elements of P such thatf (η) = g(η)⇒ g(η)m = g(ηm) = f (η)m = f (ηm)
This shows ηm is the root ofQ(X ) = f (X )− g(X ) for every m ∈ G .
So there are at least t roots of Q(X) in F.
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 63: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/63.jpg)
IdeaAlgorithm and Its Correctness
Background for Bounds on r
If we take our earlier P =∏l
a=0(X + a)ea |ea ≥ 0 they are alldistinct polynomials of Fp[X ] if a=1....l do not divide n (and p)
But this can be shown : l = 2√
(r)log n ≤ r and p > r .
We also need to show : If f (X ) and g(X ) are two distinctelements of P ,then so are g(η) andf (η)
Proof - For everym = pinj , g(X )m = g(Xm)(modX r − 1, p). Hence if f (X )and g(X ) are two distinct elements of P such thatf (η) = g(η)⇒ g(η)m = g(ηm) = f (η)m = f (ηm)
This shows ηm is the root ofQ(X ) = f (X )− g(X ) for every m ∈ G .
So there are at least t roots of Q(X) in F.
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 64: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/64.jpg)
IdeaAlgorithm and Its Correctness
Background for Bounds on r
If we take our earlier P =∏l
a=0(X + a)ea |ea ≥ 0 they are alldistinct polynomials of Fp[X ] if a=1....l do not divide n (and p)
But this can be shown : l = 2√
(r)log n ≤ r and p > r .
We also need to show : If f (X ) and g(X ) are two distinctelements of P ,then so are g(η) andf (η)
Proof - For everym = pinj , g(X )m = g(Xm)(modX r − 1, p). Hence if f (X )and g(X ) are two distinct elements of P such thatf (η) = g(η)⇒ g(η)m = g(ηm) = f (η)m = f (ηm)
This shows ηm is the root ofQ(X ) = f (X )− g(X ) for every m ∈ G .
So there are at least t roots of Q(X) in F.
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 65: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/65.jpg)
IdeaAlgorithm and Its Correctness
Background for Bounds on r
If we take our earlier P =∏l
a=0(X + a)ea |ea ≥ 0 they are alldistinct polynomials of Fp[X ] if a=1....l do not divide n (and p)
But this can be shown : l = 2√
(r)log n ≤ r and p > r .
We also need to show : If f (X ) and g(X ) are two distinctelements of P ,then so are g(η) andf (η)
Proof - For everym = pinj , g(X )m = g(Xm)(modX r − 1, p). Hence if f (X )and g(X ) are two distinct elements of P such thatf (η) = g(η)⇒ g(η)m = g(ηm) = f (η)m = f (ηm)
This shows ηm is the root ofQ(X ) = f (X )− g(X ) for every m ∈ G .
So there are at least t roots of Q(X) in F.
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 66: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/66.jpg)
IdeaAlgorithm and Its Correctness
Since these polynomials are of degree atmost l If we ensurethat t > l ,we show Q(X) = 0⇒ f(X) = g(X)
We want to ensure t > l = 2√r log n > 2
√tlog n⇒ t >
4(log2n) + 2 and since t > ordr (n)
It is enough to show ordr (n) > 4(log2n) + 2 .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 67: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/67.jpg)
IdeaAlgorithm and Its Correctness
Finding such an r
LCM of 1,2,3,.....2k+1 numbers is at least 22k .
Suppose we run through all r till some odd number say R andfail to get one such that ordr (n) > T = 4(log2n) + 2.
⇒ for each r ≤ R nimod r = 1 for some i < R
Each r ≤ R divides∏T
i=0(ni − 1) ≤ nT2and hence LCM of all
r ≤ R divides it .
By the rst result on LCM 2R−1 ≤ nT2that is
R ≤ T 2log n + 1 .
Therefore if we take r > T 2log n + 1 ,we are sure to r suchthat ordr (n) ≥ T = 4log2 n + 2 .
Hence there is a number r = O(log5 n) ≥ T .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 68: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/68.jpg)
IdeaAlgorithm and Its Correctness
Finding such an r
LCM of 1,2,3,.....2k+1 numbers is at least 22k .
Suppose we run through all r till some odd number say R andfail to get one such that ordr (n) > T = 4(log2n) + 2.
⇒ for each r ≤ R nimod r = 1 for some i < R
Each r ≤ R divides∏T
i=0(ni − 1) ≤ nT2and hence LCM of all
r ≤ R divides it .
By the rst result on LCM 2R−1 ≤ nT2that is
R ≤ T 2log n + 1 .
Therefore if we take r > T 2log n + 1 ,we are sure to r suchthat ordr (n) ≥ T = 4log2 n + 2 .
Hence there is a number r = O(log5 n) ≥ T .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 69: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/69.jpg)
IdeaAlgorithm and Its Correctness
Finding such an r
LCM of 1,2,3,.....2k+1 numbers is at least 22k .
Suppose we run through all r till some odd number say R andfail to get one such that ordr (n) > T = 4(log2n) + 2.
⇒ for each r ≤ R nimod r = 1 for some i < R
Each r ≤ R divides∏T
i=0(ni − 1) ≤ nT2and hence LCM of all
r ≤ R divides it .
By the rst result on LCM 2R−1 ≤ nT2that is
R ≤ T 2log n + 1 .
Therefore if we take r > T 2log n + 1 ,we are sure to r suchthat ordr (n) ≥ T = 4log2 n + 2 .
Hence there is a number r = O(log5 n) ≥ T .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 70: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/70.jpg)
IdeaAlgorithm and Its Correctness
Finding such an r
LCM of 1,2,3,.....2k+1 numbers is at least 22k .
Suppose we run through all r till some odd number say R andfail to get one such that ordr (n) > T = 4(log2n) + 2.
⇒ for each r ≤ R nimod r = 1 for some i < R
Each r ≤ R divides∏T
i=0(ni − 1) ≤ nT2and hence LCM of all
r ≤ R divides it .
By the rst result on LCM 2R−1 ≤ nT2that is
R ≤ T 2log n + 1 .
Therefore if we take r > T 2log n + 1 ,we are sure to r suchthat ordr (n) ≥ T = 4log2 n + 2 .
Hence there is a number r = O(log5 n) ≥ T .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 71: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/71.jpg)
IdeaAlgorithm and Its Correctness
Finding such an r
LCM of 1,2,3,.....2k+1 numbers is at least 22k .
Suppose we run through all r till some odd number say R andfail to get one such that ordr (n) > T = 4(log2n) + 2.
⇒ for each r ≤ R nimod r = 1 for some i < R
Each r ≤ R divides∏T
i=0(ni − 1) ≤ nT2and hence LCM of all
r ≤ R divides it .
By the rst result on LCM 2R−1 ≤ nT2that is
R ≤ T 2log n + 1 .
Therefore if we take r > T 2log n + 1 ,we are sure to r suchthat ordr (n) ≥ T = 4log2 n + 2 .
Hence there is a number r = O(log5 n) ≥ T .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 72: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/72.jpg)
IdeaAlgorithm and Its Correctness
Finding such an r
LCM of 1,2,3,.....2k+1 numbers is at least 22k .
Suppose we run through all r till some odd number say R andfail to get one such that ordr (n) > T = 4(log2n) + 2.
⇒ for each r ≤ R nimod r = 1 for some i < R
Each r ≤ R divides∏T
i=0(ni − 1) ≤ nT2and hence LCM of all
r ≤ R divides it .
By the rst result on LCM 2R−1 ≤ nT2that is
R ≤ T 2log n + 1 .
Therefore if we take r > T 2log n + 1 ,we are sure to r suchthat ordr (n) ≥ T = 4log2 n + 2 .
Hence there is a number r = O(log5 n) ≥ T .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm
![Page 73: Primality Testing : AKS Algorithm · 2014-04-08 · Idea Algorithm and Its Crrectnesso Solutions to Problems Solutions Use repeated Squaring to calculate (X + a )n. Evaluate both](https://reader030.fdocuments.us/reader030/viewer/2022040919/5e95a70ac3d3573681013695/html5/thumbnails/73.jpg)
IdeaAlgorithm and Its Correctness
Finding such an r
LCM of 1,2,3,.....2k+1 numbers is at least 22k .
Suppose we run through all r till some odd number say R andfail to get one such that ordr (n) > T = 4(log2n) + 2.
⇒ for each r ≤ R nimod r = 1 for some i < R
Each r ≤ R divides∏T
i=0(ni − 1) ≤ nT2and hence LCM of all
r ≤ R divides it .
By the rst result on LCM 2R−1 ≤ nT2that is
R ≤ T 2log n + 1 .
Therefore if we take r > T 2log n + 1 ,we are sure to r suchthat ordr (n) ≥ T = 4log2 n + 2 .
Hence there is a number r = O(log5 n) ≥ T .
Sumit Sidana, PhD CSE Primality Testing : AKS Algorithm