#!/usr/bin/env Rscript library(sqldf) library(plyr) library(plot3D) library(ggplot2) args = commandArgs(trailingOnly=TRUE) print(args) if (2 != length(args)) { print("Requires 2 parameters)") q() } file_db = args[1] folder_out = args[2] print(file_db) make_facet_label <- function(variable, value){ return(paste0(value, " KiB")) } #connection = dbConnect(SQLite(), dbname='results.ddnime.db') print(file_db) connection = dbConnect(SQLite(), dbname=file_db) #dbdata = dbGetQuery(connection,'select mnt, siox, avg(duration) as ad, app, procs, blocksize from p group by mnt, siox, procs, blocksize, app') #dbdata = dbGetQuery(connection,'select * from p where tag=="mpio-individual"') #dbdata = dbGetQuery(connection,'select *, (x*y*z) as blocksize from p where count=8') #dbdata = dbGetQuery(connection,'select * from p where count<5') dbdata = dbGetQuery(connection,'select *, (nn*ppn) as procs from p ') dbdata[,"blocksize"] = dbdata$x * dbdata$y * dbdata$z * 4 summary(dbdata) nn_lab <- sprintf(fmt="NN %d", unique(dbdata$nn)) names(nn_lab) <- unique(dbdata$nn) ppn_lab <- sprintf(fmt="PPN %d", unique(dbdata$ppn)) names(ppn_lab) <- unique(dbdata$ppn) breaks <- c(unique(dbdata$blocksize)) fig_w = 4 fig_h = 4 w = c(4, 6, 4) h = c(4, 4, 4) event = c("paper", "isc-pres", "poster") dims_list = data.frame(h, w, event) # df is a data frame fss = unique(dbdata$fs) # lustre, ime, fuse for (fs in fss) { data1 = dbdata[fs == dbdata$fs, ] ifaces = unique(data1$iface) for (iface in ifaces) { # mpio, ime, posix data2 = data1[iface == data1$iface, ] apps = unique(data2$app) for (app in apps) { # benchtool, ior data = data2[app == data2$app, ] #ggplot(data=data, aes(x=nn, y=ropen, colour=as.factor(blocksize/1024), group=blocksize), ymin=0) + ggplot(data=data, aes(x=nn, y=ropen, color=ppn)) + geom_point() + xlab("Nodes") + ylab("Duration in sec") + theme(axis.text.x=element_text(angle=90, hjust=0.95, vjust=0.5)) + theme(legend.position="right") + #scale_y_log10() + scale_x_continuous(breaks = c(unique(data$nn))) + geom_smooth(data=data[data$ppn==8,]) + geom_smooth(data=data[data$ppn==6,]) + geom_smooth(data=data[data$ppn==4,]) + geom_smooth(data=data[data$ppn==2,]) + geom_smooth(data=data[data$ppn==1,]) + scale_colour_gradientn(colours = rainbow(7)) # + geom_abline(slope=0.1089, intercept=0.1315) filename_eps = sprintf("%s/performance_%s_%s_%s_%s.eps", folder_out, app, fs, iface, "readopen") ggsave(filename_eps, width = 6, height = 4) system(sprintf("epstopdf %s", filename_eps)) system(sprintf("rm %s", filename_eps)) ggplot(data=data, aes(x=nn, y=wopen, color=ppn)) + geom_point() + xlab("Nodes") + ylab("Duration in sec") + theme(axis.text.x=element_text(angle=90, hjust=0.95, vjust=0.5)) + theme(legend.position="right") + #scale_y_log10() + scale_x_continuous(breaks = c(unique(data$nn))) + geom_smooth(data=data[data$ppn==8,]) + geom_smooth(data=data[data$ppn==6,]) + geom_smooth(data=data[data$ppn==4,]) + geom_smooth(data=data[data$ppn==2,]) + geom_smooth(data=data[data$ppn==1,]) + scale_colour_gradientn(colours = rainbow(7)) # + geom_abline(slope=0.1089, intercept=0.1315) filename_eps = sprintf("%s/performance_%s_%s_%s_%s.eps", folder_out, app, fs, iface, "writeopen") ggsave(filename_eps, width = 6, height = 4) system(sprintf("epstopdf %s", filename_eps)) system(sprintf("rm %s", filename_eps)) }}}