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William Ball 2021-07-01 08:09:24 -04:00
parent 9e00cffb28
commit 08eebc050f
7 changed files with 482 additions and 254383 deletions
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fractal_dimension/bai_finch_rust/perf.data.txt
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fractal_dimension/bai_finch_rust/src/main.rs
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@ -1,13 +1,11 @@
#![allow(dead_code)] #![allow(dead_code)]
use num_complex::Complex64; use num_complex::Complex64;
use nalgebra::{VecStorage, Const};
use rayon::prelude::*;
type F = f64; type F = f64;
type Matrix2x2 = nalgebra::SMatrix<Complex64, 2, 2>; type Matrix2x2 = nalgebra::SMatrix<Complex64, 2, 2>;
type MatrixBig = nalgebra::Matrix<Complex64, Const<NC2>, Const<NC2>, VecStorage<Complex64, Const<NC2>, Const<NC2>>>; type MatrixBig = nalgebra::DMatrix<Complex64>;
type MatrixBigr = nalgebra::Matrix<f64, Const<NC2>, Const<NC2>, VecStorage<f64, Const<NC2>, Const<NC2>>>; type MatrixBigr = nalgebra::DMatrix<f64>;
const G: Matrix2x2 = Matrix2x2::new( const G: Matrix2x2 = Matrix2x2::new(
Complex64::new(2.0 / 12.0, -2.0 / 12.0), Complex64::new(2.0 / 12.0, -2.0 / 12.0),
@ -23,13 +21,45 @@ const R: Matrix2x2 = Matrix2x2::new(
Complex64::new(-6.0 / 12.0, -8.0 / 12.0), Complex64::new(-6.0 / 12.0, -8.0 / 12.0),
); );
const NC: usize = 10; const NC: usize = 5;
const K0: i32 = 100; const K0: i32 = 100;
const LC: usize = 5; const LC: usize = 3;
const NC2: usize = NC * NC; const NC2: usize = NC * NC;
const UPPER_BOUND: i32 = 10_000;
fn fancy_l(q: f64) -> MatrixBigr { fn fancy_l(q: f64) -> MatrixBigr {
MatrixBigr::from_diagonal_element(2.0) * (fancy_m(q) + fancy_f(q)).map(|z| z.re) let mut fancy_l = MatrixBigr::zeros(NC2, NC2);
for m in 0..NC {
for n in 0..NC {
for r in 0..NC {
for s in 0..NC {
if m <= n {
let mut sum_m = Complex64::new(0.0, 0.0);
for k in 1..K0 {
sum_m += normal_m(k, q, n as i32, s as i32)
* normal_m(k as i32, q, m as i32, r as i32).conj();
}
let sum_f = (0..=LC)
.map(|l: usize| -> Complex64 {
zeta(l as f64 + 2.0 * q, K0)
* (0..=l)
.map(|lp| {
normal_f(q, m as i32, r as i32, (l - lp) as i32)
* normal_f(q, n as i32, s as i32, lp as i32).conj()
})
.sum::<Complex64>()
})
.sum::<Complex64>();
fancy_l[(m * NC + n, r * NC + s)] = 2.0 * (sum_m.re + sum_f.re);
} else {
fancy_l[(m * NC + n, r * NC + s)] = fancy_l[(n * NC + m, s * NC + r)];
}
}
}
}
}
fancy_l
// MatrixBigr::from_diagonal_element(NC2, NC2, 2.0) * (fancy_m(q) + fancy_f(q)).map(|z| z.re)
} }
fn integral_choose(n: i32, k: i32) -> f64 { fn integral_choose(n: i32, k: i32) -> f64 {
@ -100,7 +130,6 @@ fn normal_f(q: f64, n: i32, s: i32, l: i32) -> Complex64 {
} }
fn zeta(s: f64, k0: i32) -> f64 { fn zeta(s: f64, k0: i32) -> f64 {
const UPPER_BOUND: i32 = 40_000;
(k0..=UPPER_BOUND) (k0..=UPPER_BOUND)
.into_iter() .into_iter()
.map(|j| (j as f64).powf(-s)) .map(|j| (j as f64).powf(-s))
@ -109,7 +138,7 @@ fn zeta(s: f64, k0: i32) -> f64 {
} }
fn fancy_f(q: f64) -> MatrixBig { fn fancy_f(q: f64) -> MatrixBig {
let mut fancy_f = MatrixBig::zeros(); let mut fancy_f = MatrixBig::zeros(NC2, NC2);
for m in 0..NC { for m in 0..NC {
for n in 0..NC { for n in 0..NC {
for r in 0..NC { for r in 0..NC {
@ -158,7 +187,7 @@ fn normal_m(k: i32, q: f64, n: i32, s: i32) -> Complex64 {
} }
fn fancy_m(q: f64) -> MatrixBig { fn fancy_m(q: f64) -> MatrixBig {
let mut fancy_m = MatrixBig::zeros(); let mut fancy_m = MatrixBig::zeros(NC2, NC2);
for m in 0..NC { for m in 0..NC {
for n in 0..NC { for n in 0..NC {
for r in 0..NC { for r in 0..NC {
@ -201,22 +230,22 @@ fn secant_method(f: fn(F) -> F, target: F, x0: F, x1: F, accuracy: F, iterations
x0 x0
} }
fn power_method<const N: usize>( fn power_method(
vec: nalgebra::SVector<f64, N>, vec: nalgebra::DVector<f64>,
mat: nalgebra::SMatrix<f64, N, N>, mat: nalgebra::DMatrix<f64>,
iterations: usize, iterations: usize,
tolerance: f64, tolerance: f64,
) -> f64 { ) -> f64 {
let mut previous = vec; let mut previous_entry = vec[0];
let mut previous_val = 0f64; let mut previous_val = 0f64;
let mut current = mat * vec; let mut current = mat.clone() * vec;
let mut current_val = current[0] / previous[0]; let mut current_val = current[0] / previous_entry;
let mut count = 0; let mut count = 0;
while count < iterations && (current_val - previous_val).abs() > tolerance { while count < iterations && (current_val - previous_val).abs() > tolerance {
previous_val = current_val; previous_val = current_val;
previous = current; previous_entry = current[0];
current = mat * current; current = mat.clone() * current;
current_val = current[0] / previous[0]; current_val = current[0] / previous_entry;
count += 1; count += 1;
} }
@ -224,13 +253,19 @@ fn power_method<const N: usize>(
current_val current_val
} }
fn test(x: f64) -> f64 {
x.cos() - x
}
fn lambda(q: f64) -> f64 { fn lambda(q: f64) -> f64 {
let lq = fancy_l(q); let lq = fancy_l(q);
let mut phi0 = nalgebra::SVector::zeros(); let mut phi0 = nalgebra::DVector::zeros(NC2);
phi0[0] = 1.0; phi0[0] = 1.0;
power_method(phi0, lq, 50, std::f64::EPSILON) power_method(phi0, lq, 50, std::f64::EPSILON)
} }
fn main() { fn main() {
secant_method(lambda, 1.0, 1.3, 1.31, f64::EPSILON, 10); secant_method(lambda, 1.0, 1.3, 1.31, f64::EPSILON, 100);
// secant_method(test, 0.0, 0.0, 1.0, f64::EPSILON, 100);
// println!("{}", normal_m(10, 1.3, 2, 2));
} }

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