Joshua Moerman
11 years ago
6 changed files with 160 additions and 68 deletions
@ -0,0 +1,86 @@ |
|||||
|
#pragma once |
||||
|
|
||||
|
#include <includes.hpp> |
||||
|
#include <utilities.hpp> |
||||
|
#include <bsp.hpp> |
||||
|
#include "wavelet.hpp" |
||||
|
|
||||
|
/* In the following function we assume any in-parameter to be already
|
||||
|
* bsp::pushed. And the functions won't do any bsp::sync at the end. Both |
||||
|
* conventions make it possible to chains functions with lesser syncs. |
||||
|
* |
||||
|
* Distribution is block distribution. |
||||
|
*/ |
||||
|
|
||||
|
namespace wvlt { |
||||
|
namespace par { |
||||
|
// Convenience container of some often-used values
|
||||
|
// n = inputisze, p = nproc(), s = pid()
|
||||
|
// b = blocksize, prev/next = previous and next processor index
|
||||
|
struct distribution { |
||||
|
unsigned int n, p, s, b, prev, next; |
||||
|
|
||||
|
distribution(unsigned int n_, unsigned int p_, unsigned int s_) |
||||
|
: n(n_), p(p_), s(s_), b(n/p), prev((s-1+p)%p), next((s+1)%p) |
||||
|
{} |
||||
|
}; |
||||
|
|
||||
|
inline unsigned int communication_size(unsigned int m){ |
||||
|
return pow_two(m+1) - 2; |
||||
|
} |
||||
|
|
||||
|
inline void step(distribution const & d, double* x, double* other, unsigned int size, unsigned int stride, unsigned int m){ |
||||
|
unsigned int t = d.prev; |
||||
|
unsigned int Cm = communication_size(m); |
||||
|
for(unsigned int i = 0; i < Cm; ++i){ |
||||
|
bsp::put(t, &x[stride*i], other, i, 1); |
||||
|
} |
||||
|
bsp::sync(); |
||||
|
|
||||
|
unsigned int end = pow_two(m); |
||||
|
for(unsigned int i = 1; i < end; i <<= 1){ |
||||
|
wavelet_mul(x, other[0], other[i], size, stride*i); |
||||
|
if(i < end/2) wavelet_mul_base(other, 2*end - 2*i, i); |
||||
|
} |
||||
|
} |
||||
|
|
||||
|
inline void base(distribution const & d, double* x, double* other, unsigned int size, unsigned int m){ |
||||
|
unsigned int t = two_log(d.b); |
||||
|
unsigned int steps = (t-1)/m; |
||||
|
|
||||
|
unsigned int stride = 1; |
||||
|
for(unsigned int i = steps; i; i--){ |
||||
|
step(d, x, other, size, stride, m); |
||||
|
stride <<= m; |
||||
|
} |
||||
|
|
||||
|
unsigned int remaining = (t-1) - m*steps; |
||||
|
if(remaining) |
||||
|
step(d, x, other, size, stride, remaining); |
||||
|
} |
||||
|
|
||||
|
// block distributed parallel wavelet, result is also in block distribution (in-place in x)
|
||||
|
inline void wavelet(distribution const & d, double* x, double* next, double* proczero, unsigned int m){ |
||||
|
// First do the local part
|
||||
|
base(d, x, next, d.b, m); |
||||
|
|
||||
|
// Then do a fan in (i.e. 2 elements to proc zero)
|
||||
|
for(unsigned int i = 0; i < 2; ++i){ |
||||
|
bsp::put(0, &x[i * d.b/2], proczero, d.s * 2 + i); |
||||
|
} |
||||
|
bsp::sync(); |
||||
|
|
||||
|
// proc zero has the privilige/duty to finish the job
|
||||
|
if(d.s == 0) { |
||||
|
wvlt::wavelet(proczero, 2*d.p, 1); |
||||
|
// and to send it back to everyone
|
||||
|
for(unsigned int t = 0; t < d.p; ++t){ |
||||
|
for(unsigned int i = 0; i < 2; ++i){ |
||||
|
bsp::put(t, &proczero[t*2 + i], x, i * d.b/2); |
||||
|
} |
||||
|
} |
||||
|
} |
||||
|
} |
||||
|
} |
||||
|
} |
||||
|
|
Reference in new issue