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- # StarPU --- Runtime system for heterogeneous multicore architectures.
- #
- # Copyright (C) 2008-2020 Université de Bordeaux, CNRS (LaBRI UMR 5800), Inria
- #
- # StarPU is free software; you can redistribute it and/or modify
- # it under the terms of the GNU Lesser General Public License as published by
- # the Free Software Foundation; either version 2.1 of the License, or (at
- # your option) any later version.
- #
- # StarPU is distributed in the hope that it will be useful, but
- # WITHOUT ANY WARRANTY; without even the implied warranty of
- # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
- #
- # See the GNU Lesser General Public License in COPYING.LGPL for more details.
- #
- schedlist <- c("greedy", "dm", "random");
- sizelist <- seq(2048, 16384, 1024);
- #sizelist <- seq(2048, 16384, 2048);
- print(schedlist);
- print(sizelist);
- gflops <- function (x, size)
- {
- (2*size*size*size)/(1000000*x);
- }
- parse <- function (size, sched)
- {
- filename = paste("timings-sched/sched", sched, size, sep=".");
- if (file.exists(filename))
- {
- ret <- scan(paste("timings-sched/sched", sched, size, sep="."));
- return(ret);
- };
- return(NULL);
- }
- handle_size <- function (size, sched)
- {
- gflops <- gflops(parse(size, sched), size);
- return(gflops);
- }
- handle_sched <- function(sched)
- {
- gflopstab <- NULL;
- sizetab <- NULL;
- for (size in sizelist)
- {
- list <- handle_size(size, sched);
- gflopstab <- c(gflopstab, list);
- sizetab <- c(sizetab, array(size, c(length(list))));
- }
- return(
- data.frame(gflops=gflopstab, size=sizetab, sched=array(sched, c(length(gflopstab)) ))
- );
- }
- handle_sched_mean <- function(sched)
- {
- meantab <- NULL;
- sizetab <- NULL;
- for (size in sizelist)
- {
- list <- mean(handle_size(size, sched));
- meantab <- c(meantab, list);
- sizetab <- c(sizetab, array(size, c(length(list))));
- }
- return(
- data.frame(gflops=meantab, size=sizetab, sched=array(sched, c(length(meantab)) ))
- # meantab
- );
- }
- handle_sched_max <- function(sched)
- {
- gflopstab <- NULL;
- sizetab <- NULL;
- for (size in sizelist)
- {
- prout <- handle_size(size, sched);
- list <- max(prout);
- print(list);
- gflopstab <- c(gflopstab, list);
- sizetab <- c(sizetab, size);
- }
- return(
- data.frame(gflops=gflopstab, size=sizetab, sched=array(sched, c(length(gflopstab)) ))
- );
- }
- handle_sched_min <- function(sched)
- {
- gflopstab <- NULL;
- sizetab <- NULL;
- for (size in sizelist)
- {
- list <- min((handle_size(size, sched)));
- print("MIN"); print( list);
- gflopstab <- c(gflopstab, list);
- sizetab <- c(sizetab, size);
- }
- return(
- data.frame(gflops=gflopstab, size=sizetab, sched=array(sched, c(length(gflopstab)) ))
- );
- }
- trace_sched <- function(sched, color, style, prout)
- {
- #lines(handle_sched_mean(sched)$size, handle_sched_mean(sched)$gflops, col=color, legend.text=TRUE);
- if (length(handle_sched_mean(sched)))
- {
- if (prout)
- {
- #for (size in sizelist)
- #{
- # #lines(array(size, c(length( handle_size(size, sched) )) ), handle_size(size, sched));
- #}
- convexx <- NULL;
- convexy <- NULL;
- for (point in (handle_sched_min(sched)$size))
- {
- convexx <- c(convexx, point);
- }
- for (point in (handle_sched_min(sched)$gflops))
- {
- convexy <- c(convexy, point);
- }
- for (point in (handle_sched_max(sched)$size))
- {
- convexx <- c(point, convexx);
- }
- for (point in (handle_sched_max(sched)$gflops))
- {
- convexy <- c(point, convexy);
- }
- #lines(handle_sched_min(sched)$size, handle_sched_min(sched)$gflops);
- #lines(handle_sched_max(sched)$size, handle_sched_max(sched)$gflops);
- polygon(convexx, convexy, col="light gray", border=-1);
- lines(handle_sched_mean(sched)$size, handle_sched_mean(sched)$gflops, col=color, type = "o", pch=style, lty=2);
- }
- else
- {
- lines(handle_sched_mean(sched)$size, handle_sched_mean(sched)$gflops, col=color, type = "o", pch=style);
- }
- };
- }
- display_sched <- function()
- {
- xlist <- range(sizelist);
- ylist <- range(c(0,110));
- plot.new();
- plot.window(xlist, ylist);
- trace_sched("random", "black",1, 1);
- trace_sched("dm", "black", 0, 0);
- trace_sched("greedy", "black", 2, 0);
- axis(1, at=sizelist)
- axis(2, at=seq(0, 120, 10), tck=1)
- # axis(4, at=seq(0, 120, 10))
- box(bty="u")
- labels <- c("model", "greedy", "weighted random (mean)")
- legend("bottomright", inset=.05, title="Scheduling policy", labels, lwd=1, pch=c(0, 2, 1),lty=c(1, 1, 2, 1), col="black", bty="y", bg="white")
- mtext("matrix size", side=1, line=2, cex=1.6)
- mtext("GFlops", side=2, line=2, las=0, cex=1.6)
- # title("Impact of the scheduling strategy on blocked Matrix Multiplication");
- }
- display_sched()
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