Add matrix approach to heat equation

This commit is contained in:
Magnus Ulimoen 2020-09-19 14:00:18 +02:00
parent 0cfd41845b
commit 67f097cf31
4 changed files with 134 additions and 3 deletions

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@ -6,6 +6,7 @@ edition = "2018"
[dependencies] [dependencies]
sbp = { path = "../sbp" } sbp = { path = "../sbp", features = ["sparse"] }
ndarray = "0.13.1" ndarray = "0.13.1"
plotters = { version = "0.3.0", default-features = false, features = ["bitmap_gif", "bitmap_backend", "line_series"] } plotters = { version = "0.3.0", default-features = false, features = ["bitmap_gif", "bitmap_backend", "line_series"] }
sprs = "0.7.0"

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@ -2,7 +2,7 @@ use ndarray::{Array1, ArrayView1};
use plotters::prelude::*; use plotters::prelude::*;
use sbp::{ use sbp::{
integrate::{integrate, Rk4}, integrate::{integrate, Rk4},
operators::{SbpOperator1d2, SBP4}, operators::{SbpOperator1d, SbpOperator1d2, SBP4},
Float, Float,
}; };
@ -13,6 +13,9 @@ fn main() {
dual_dirichlet(v0.view(), 1.0, 1.0); dual_dirichlet(v0.view(), 1.0, 1.0);
// Neumann boundary is introducing energy into the system // Neumann boundary is introducing energy into the system
neumann_dirichlet(v0.view(), -0.2, 1.0); neumann_dirichlet(v0.view(), -0.2, 1.0);
// The sparse formulation
dual_dirichlet_sparse(v0.view(), 1.0, 1.0);
} }
fn dual_dirichlet(v: ArrayView1<Float>, v0: Float, vn: Float) { fn dual_dirichlet(v: ArrayView1<Float>, v0: Float, vn: Float) {
@ -134,3 +137,90 @@ fn neumann_dirichlet(v: ArrayView1<Float>, v0: Float, vn: Float) {
std::mem::swap(&mut v1, &mut v2); std::mem::swap(&mut v1, &mut v2);
} }
} }
fn dual_dirichlet_sparse(v: ArrayView1<Float>, v0: Float, vn: Float) {
let drawing_area = BitMapBackend::gif("dual_dirichlet_sparse.gif", (300, 300), 100)
.unwrap()
.into_drawing_area();
let mut chart = ChartBuilder::on(&drawing_area)
.x_label_area_size(40)
.y_label_area_size(40)
.build_cartesian_2d(0.0..1.01, -1.0..2.0)
.unwrap();
let op = SBP4;
let nx = v.len();
let system = op.diff2_matrix(nx);
let e0 = {
let mut e0 = sprs::CsMat::zero((nx, 1));
e0.insert(0, 0, 1.0);
e0
};
let en = {
let mut en = sprs::CsMat::zero((nx, 1));
en.insert(nx - 1, 0, 1.0);
en
};
let mut hi = op.h_matrix(nx);
hi.map_inplace(|v| 1.0 / v);
let tau = (1.0, -1.0);
let sat0 = {
let d1 = op.d1_vec(nx, true);
let mut mat = &hi * &d1.transpose_view();
mat.map_inplace(|v| v * tau.0);
(&mat * &e0.transpose_view(), mat)
};
let satn = {
let dn = op.d1_vec(nx, false);
let mut mat = &hi * &dn.transpose_view();
mat.map_inplace(|v| v * tau.1);
(&mat * &en.transpose_view(), mat)
};
let system = &system + &(&sat0.0 + &satn.0);
// Stack the two matrices to allow easy book-keeping
// of boundary conditions
let mut bc = sprs::hstack(&[sat0.1.view(), satn.1.view()]).to_csr();
bc.map_inplace(|v| -v);
let system = &system;
let bc = &bc;
let dt = 0.2 / nx.pow(2) as Float / 3.0;
let x = Array1::from_shape_fn((nx,), |i| i as Float / (nx - 1) as Float);
let mut k = [v.to_owned(), v.to_owned(), v.to_owned(), v.to_owned()];
let rhs = move |fut: &mut Array1<Float>, prev: &Array1<Float>, _t: Float| {
fut.fill(0.0);
let prev = prev.as_slice().unwrap();
let fut = fut.as_slice_mut().unwrap();
sprs::prod::mul_acc_mat_vec_csr(system.view(), prev, fut);
sprs::prod::mul_acc_mat_vec_csr(bc.view(), &[v0, vn][..], fut);
};
let mut v1 = v.to_owned();
let mut v2 = v.to_owned();
for i in 0..90 {
if i % 3 == 0 {
drawing_area.fill(&WHITE).unwrap();
chart
.configure_mesh()
.x_desc("x")
.y_desc("y")
.draw()
.unwrap();
chart
.draw_series(LineSeries::new(
x.iter().zip(v1.iter()).map(|(&x, &y)| (x, y)),
&BLACK,
))
.unwrap();
drawing_area.present().unwrap();
}
integrate::<Rk4, _, _, _>(rhs, &v1, &mut v2, &mut 0.0, dt, &mut k);
std::mem::swap(&mut v1, &mut v2);
}
}

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@ -19,8 +19,13 @@ pub trait SbpOperator1d: Send + Sync {
pub trait SbpOperator1d2: SbpOperator1d { pub trait SbpOperator1d2: SbpOperator1d {
fn diff2(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>); fn diff2(&self, prev: ArrayView1<Float>, fut: ArrayViewMut1<Float>);
/// Lacks a scaling of 1/h^2 /// Result of H^-1 * d1, without the 1/h scaling
fn d1(&self) -> &[Float]; fn d1(&self) -> &[Float];
#[cfg(feature = "sparse")]
fn diff2_matrix(&self, n: usize) -> sprs::CsMat<Float>;
#[cfg(feature = "sparse")]
fn d1_vec(&self, n: usize, front: bool) -> sprs::CsMat<Float>;
} }
pub trait SbpOperator2d: Send + Sync { pub trait SbpOperator2d: Send + Sync {

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@ -109,6 +109,41 @@ impl super::SbpOperator1d2 for SBP4 {
fn d1(&self) -> &[Float] { fn d1(&self) -> &[Float] {
&[-88.0 / 17.0, 144.0 / 17.0, -72.0 / 17.0, 16.0 / 17.0] &[-88.0 / 17.0, 144.0 / 17.0, -72.0 / 17.0, 16.0 / 17.0]
} }
#[cfg(feature = "sparse")]
fn diff2_matrix(&self, n: usize) -> sprs::CsMat<Float> {
let mut m = super::sparse_from_block(
Self::D2BLOCK,
Self::D2DIAG,
super::Symmetry::Symmetric,
super::OperatorType::Normal,
n,
);
let hi = (n - 1) as Float;
m.map_inplace(|v| v * hi);
m
}
#[cfg(feature = "sparse")]
fn d1_vec(&self, n: usize, front: bool) -> sprs::CsMat<Float> {
let d1 = &[-11.0 / 6.0, 3.0, -3.0 / 2.0, 1.0 / 3.0];
assert!(n >= d1.len());
let mut d1 = d1.to_vec();
let hi = (n - 1) as Float;
d1.iter_mut().for_each(|v| *v *= hi);
if front {
sprs::CsMat::new((1, n), vec![0, d1.len()], (0..d1.len()).collect(), d1)
} else {
// d_x => -d_x when reversed
d1.iter_mut().for_each(|v| *v *= -1.0);
// Indices are now in reverse order
sprs::CsMat::new(
(1, n),
vec![0, d1.len()],
(0..n).rev().take(d1.len()).collect(),
d1,
)
}
}
} }
#[test] #[test]