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diff --git a/scripts/graphs/common.r b/scripts/graphs/common.r
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+
+# ==================================================================================================
+# This file is part of the CLBlast project. The project is licensed under Apache Version 2.0. This
+# project uses a tab-size of two spaces and a max-width of 100 characters per line.
+#
+# Author(s):
+#   Cedric Nugteren <www.cedricnugteren.nl>
+#
+# This file implements the common performance scripts, such as creating a graph.
+#
+# ==================================================================================================
+
+# Colours
+black     = "#000000"
+grey      = "#888888"
+purplish  = "#550077" # [ 85,  0,119] lumi=26
+blueish   = "#4765b1" # [ 71,101,177] lumi=100
+redish    = "#d67568" # [214,117,104] lumi=136
+greenish  = "#9bd4ca" # [155,212,202] lumi=199
+colourset = c(blueish, redish, greenish, purplish)
+
+# Sets the graph markers (circles, triangles, etc.)
+pchs = c(15, 18, 17, 12)
+
+# Other constants
+kilo = 1024
+mega = 1024*1024
+
+# R options
+options("width"=170)
+
+# ==================================================================================================
+
+# Constants
+num_runs <- 4
+devices <- c("-platform","-device")
+options_string <- "-q -no_abbrv -cblas 0"
+library_names <- c("CLBlast", "clBLAS")
+
+# Command-line arguments
+command_line <- commandArgs(trailingOnly=TRUE)
+if (length(command_line) != 2) {
+  print("Usage for device Z on platform Y: Rscript xxxxx.r Y Z")
+  quit()
+}
+platform_id <- command_line[1]
+device_id <- command_line[2]
+
+# Selects the device
+devices_values <- c(platform_id, device_id)
+devices_string <- paste(devices, devices_values, collapse=" ")
+
+# ==================================================================================================
+
+# The main function
+main <- function(routine_name, precision, test_names, test_values,
+                test_xlabels, test_xaxis, metric_gflops) {
+
+  # Names
+  display_name <- toupper(routine_name)
+  if (precision == 16) { display_name <- gsub("^X","H",display_name); }
+  if (precision == 32) { display_name <- gsub("^X","S",display_name); }
+  if (precision == 64) { display_name <- gsub("^X","D",display_name); }
+  if (precision == 3232) { display_name <- gsub("^X","C",display_name); }
+  if (precision == 6464) { display_name <- gsub("^X","Z",display_name); }
+  executable <- paste("./clblast_client_", routine_name, sep="")
+
+  # Configures the outputfile
+  pdf(paste(display_name, ".pdf", sep=""), height=8, width=13)
+  par(mfrow=c(2, 3))
+  par(oma=c(0, 0, 0, 0))
+  par(mar=c(4.6, 4.4, 1.5, 0)) # bottom, left, top, right [c(5.1, 4.1, 4.1, 2.1)]
+  par(mgp=c(2.8, 0.6, 0)) # location of xlab/ylab, tick-mark labels, tick marks [c(3, 1, 0)]
+
+  # Loops over the test-cases
+  for (test_id in 1:length(test_names)) {
+    params_values <- test_values[[test_id]]
+
+    # Loops over the commands within a single list (within a case)
+    for (command_id in 1:length(params_values)) {
+
+      # Runs the client and captures the result
+      params_string <- paste(parameters, params_values[[command_id]], collapse=" ")
+      arguments <- paste(devices_string, params_string, options_string, sep=" ")
+      print(paste("Running", executable, arguments, sep=" "))
+      raw_result_string <- system2(command=executable, args=arguments, stdout=TRUE)
+
+      # Filter the string: only lines containing a ";" can be valid lines
+      result_string <- c()
+      for (line in raw_result_string) {
+        if (grepl(";",line)) {
+          result_string <-
+           c(result_string, line)
+        }
+      }
+
+      # Reads the result into a dataframe
+      command_db <- read.csv(text=result_string, sep=";")
+
+      # Append the results to the final dataframe
+      if (command_id == 1) {
+        db <- command_db
+      } else {
+        db <- rbind(db, command_db)
+      }
+    }
+    print(db)
+
+    # Sets the values on the x-axis and their labels (test dependent)
+    if (is.character(test_xaxis[[test_id]][[1]])) {
+      xdata <- db[,test_xaxis[[test_id]][[1]]]
+      xtics <- xdata
+      log_scale <- test_xaxis[[test_id]][[2]]
+    }
+    else {
+      xdata <- test_xaxis[[test_id]][[1]]
+      xtics <- test_xaxis[[test_id]][[2]]
+      log_scale <- ""
+    }
+
+    # Plots the graph with GFLOPS on the Y-axis
+    if (metric_gflops) {
+      plot_graph(xdata=xdata, ydata=list(db$GFLOPS_1, db$GFLOPS_2), log_setting=log_scale,
+                 xmin=min(xdata), xmax=max(xdata),
+                 ymin=0, ymax=max(max(db$GFLOPS_1),max(db$GFLOPS_2)),
+                 xtics=xtics,
+                 xlabel=test_xlabels[[test_id]], ylabel="GFLOPS (higher is better)",
+                 graph_title=paste(display_name, test_names[[test_id]], sep=" "),
+                 multiple=50, experiment_names=library_names)
+    # Plots the graph with GB/s on the Y-axis
+    } else {
+      plot_graph(xdata=xdata, ydata=list(db$GBs_1, db$GBs_2), log_setting=log_scale,
+                 xmin=min(xdata), xmax=max(xdata),
+                 ymin=0, ymax=max(max(db$GBs_1),max(db$GBs_2)),
+                 xtics=xtics,
+                 xlabel=test_xlabels[[test_id]], ylabel="GB/s (higher is better)",
+                 graph_title=paste(display_name, test_names[[test_id]], sep=" "),
+                 multiple=10, experiment_names=library_names)
+    }
+  }
+}
+
+# ==================================================================================================
+
+# Plots data
+plot_graph <- function(xdata, ydata, log_setting,
+                       xmin, xmax, ymin, ymax,
+                       xtics, xlabel, ylabel,
+                       graph_title,
+                       multiple, experiment_names) {
+
+  # Update the ymax to the next multiple of something
+  ymax <- multiple*ceiling(ymax/multiple)
+
+  # Add kilo or mega to the x-labels
+  for (i in 1:length(xtics)) {
+    if (!is.na(as.numeric(xtics[i]))) {
+      if (as.numeric(xtics[i])%%mega == 0) {
+        xtics[i] <- paste(as.character(as.numeric(xtics[i])/mega), "M", sep="")
+      } else if (as.numeric(xtics[i])%%kilo == 0) {
+        xtics[i] <- paste(as.character(as.numeric(xtics[i])/kilo), "K", sep="")
+      }
+    }
+  }
+
+  # Creates an initial graph with axis but without data
+  par(new=F)
+  plot(x=xmin:xmax, y=rep(1, length(xmin:xmax)), log=log_setting,
+       main="", xlab="", ylab="",
+       ylim=c(ymin, ymax), xlim=c(xmin, xmax), axes=F, "n")
+  axis(side=2, las=2)
+  axis(side=1, at=xdata, labels=xtics, las=2)
+  title(xlab=xlabel, line=-1)
+  title(ylab=ylabel, line=2)
+  title(graph_title, line=-2)
+  par(new=T)
+
+  # Loops over all experiments
+  num_experiments <- length(ydata)
+  for (id in 1:num_experiments) {
+
+    # Plots the data for this experiment
+    plot(x=xdata, y=ydata[[id]], log=log_setting,
+         col=colourset[id], pch=pchs[id], lty=1, lwd=1, cex=1,
+         xlab="", ylab="", ylim=c(ymin, ymax), xlim=c(xmin, xmax),
+         axes=F, "b", xpd=T)
+    par(new=T)
+  }
+
+  # Add a legend
+  legend("bottomright", experiment_names,
+         lwd=1, ncol=1, col=colourset, pch=pchs, lty=1, cex=1,
+         bty="n", xpd=T)
+
+  # Done
+  par(new=F)
+}
+
+# ==================================================================================================