| 12345678910111213141516171819202122232425262728293031323334353637383940414243444546474849505152535455565758596061626364656667686970717273747576777879808182838485868788899091929394959697 |
- using LinearAlgebra
- function mandelbrot(pixels, centerr ::Float64, centeri ::Float64, offset ::Int64, dim ::Int64) :: Nothing
- height :: Int64, width :: Int64 = size(pixels)
- zoom :: Float64 = width * 0.25296875
- iz :: Float64 = 1. / zoom
- diverge :: Float32 = 4.0
- max_iterations :: Float32 = ((width/2) * 0.049715909 * log10(zoom));
- imi :: Float64 = 1. / max_iterations
- cr :: Float64 = 0.
- zr :: Float64 = 0.
- ci :: Float64 = 0.
- zi :: Float64 = 0.
- n :: Int64 = 0
- tmp :: Float64 = 0.
- for y = 1:height
- for x = 1:width
- cr = centerr + (x-1 - (dim / 2)) * iz
- zr = cr
- ci = centeri + (y-1+offset - (dim / 2)) * iz
- zi = ci
- n = 0
- for i = 0:max_iterations
- n = i
- if (zr*zr + zi*zi > diverge)
- break
- end
- tmp = zr*zr - zi*zi + cr
- zi = 2*zr*zi + ci
- zr = tmp
- end
- if (n < max_iterations)
- pixels[y,x] = round(15 * n * imi)
- else
- pixels[y,x] = 0
- end
- end
- end
- return
- end
- function mandelbrot_without_starpu(A ::Matrix{Int64}, cr ::Float64, ci ::Float64, dim ::Int64, nslicesx ::Int64)
- width,height = size(A)
- step = height / nslicesx
- for taskx in (1 : nslicesx)
- start_id = floor(Int64, (taskx-1)*step+1)
- end_id = floor(Int64, (taskx-1)*step+step)
- a = view(A, start_id:end_id, :)
- offset ::Int64 = (taskx-1)*dim/nslicesx
- mandelbrot(a, cr, ci, offset, dim)
- end
- end
- function pixels2img(pixels ::Matrix{Int64}, width ::Int64, height ::Int64, filename ::String)
- MAPPING = [[66,30,15],[25,7,26],[9,1,47],[4,4,73],[0,7,100],[12,44,138],[24,82,177],[57,125,209],[134,181,229],[211,236,248],[241,233,191],[248,201,95],[255,170,0],[204,128,0],[153,87,0],[106,52,3]]
- open(filename, "w") do f
- write(f, "P3\n$width $height\n255\n")
- for i = 1:height
- for j = 1:width
- write(f,"$(MAPPING[1+pixels[i,j]][1]) $(MAPPING[1+pixels[i,j]][2]) $(MAPPING[1+pixels[i,j]][3]) ")
- end
- write(f, "\n")
- end
- end
- end
- function min_times(cr ::Float64, ci ::Float64, dim ::Int64, nslices ::Int64)
- tmin=0;
- pixels ::Matrix{Int64} = zeros(dim, dim)
- for i = 1:10
- t = time_ns();
- mandelbrot_without_starpu(pixels, cr, ci, dim, nslices)
- t = time_ns()-t
- if (tmin==0 || tmin>t)
- tmin=t
- end
- end
- pixels2img(pixels,dim,dim,"out$(dim).ppm")
- return tmin
- end
- function display_time(cr ::Float64, ci ::Float64, start_dim ::Int64, step_dim ::Int64, stop_dim ::Int64, nslices ::Int64)
- for dim in (start_dim : step_dim : stop_dim)
- res = min_times(cr, ci, dim, nslices)
- res=res/dim/dim; # time per pixel
- println("$(dim) $(res)")
- end
- end
- display_time(-0.800671,-0.158392,32,32,4096,4)
|
