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Volumes of Bitnets http://omega.albany.edu:8008/bitnets Carlos Rodriguez SUNY Albany.

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Presentation on theme: "Volumes of Bitnets http://omega.albany.edu:8008/bitnets Carlos Rodriguez SUNY Albany."— Presentation transcript:

1 Volumes of Bitnets http://omega.albany.edu:8008/bitnets
Carlos Rodriguez SUNY Albany.

2 Volumes of

3 Meet first bit Adam 1

4 Meet second bit 2 1 or 2 1

5 Complete Bitnets Simplex P Cube T Sphere S t p t p t p x x x 3 3
2 p 2 t 1 1 2 Constant Ricci Scalar 1 x 3 x 2 x Sphere S 3 + 1

6 The Line of n … Tough! Ricci scalar n=3
1 2 n Tough! Ricci scalar n=3 1 2 1 2 3 Based on billions of Monte Carlo iterations! Complete dag so constant curvature!

7 X is the probability that the center node is on.
Explode(n) Star (Naïve Bayes) n+1 1 2 3 n X is the probability that the center node is on. n > 1 Same vol. as Line of 3! Volumes increase very fast, n=2,3,…8 , , , , , , Theorem: Exactly one arrow can be reversed without changing the total Volume!

8 Collapse(n) Star ? n d a b < R > 2 6 10 3 11 54 4 20 14 16 1/2
n n+1 1 n d a b < R > 2 6 10 1/2 3 11 54 4 20 272 14 16 ?

9 Volume matters M compact, dimension d, volume V
Minimum Description Length Generalization power of heat kernels

10 ( Line(n+1), Explode(n) ) v/s Collapse(n)
Explode > Line

11 B = symmetric beta function equal to a ratio of gammas
A Fast Approx. Alg. The vol. of a dag of n nodes of dim. d is: Where: , p(j) is the prob that the parents of node i show jth pattern. Jensen’s inequality applied twice in two different ways shows: From where upper and lower bounds for the volume are obtained as: ai and bi are very simple sums that depend on the local topology of the dag. B = symmetric beta function equal to a ratio of gammas The approximations are exact for total disconnected and for complete dags. The sqrt(UL) is remarkably accurate as an estimate of Z… and it works!

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