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Cores2D.qml
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import QtQuick
import QtQuick.Window
import QtQuick.Controls 6.2
import QtQuick.Layouts
import GUI_Cluster
Rectangle {
//Component.onCompleted: listNodes.buildClusterComponents();
id: screen
//anchors.fill: parent
color: "#999999"
property Cluster_Architecture listNodes: null
property int cols: parent ? parent.twoD_columns : 0
ScrollView{
anchors.fill: parent
clip: true
ColumnLayout {
anchors{
margins: 5
}
spacing: 3
Repeater {
id: outerrepeater
model: screen.listNodes.count
delegate: Rectangle {
property int ranks_in_node: listNodes.nodeAt(model.index).count
property int node_index: model.index
property int columns2D: cols
property int rows2D: Math.ceil(ranks_in_node/cols)
width: screen.width
height: rows2D * (60 + grid.spacing) + 35
Layout.preferredWidth: width
Layout.preferredHeight: height
color: "#999999"
Rectangle{
width: parent.width
height: 20
Text {
text: listNodes.nodeAt(model.index).getName();
}
}
Grid{
id: grid
x: 5
y: 30
width: parent.width - 10
height: parent.height-20 // Hoehe - 20 für den Namen
columns: columns2D
//rows: rows2D
spacing: 1
//spacing: calculate_spacing(ranks_in_node, columns)
/*onRowsChanged: {
console.log("Columns: " + columns)
console.log("Rows: " + rows)
}*/
Repeater{
model: ranks_in_node
delegate: Rectangle {
id: datarect
property real send_ds: get_send_ds(node_index, model.index);
property real recv_ds: get_recv_ds(node_index, model.index);
height: 60//Math.ceil(ranks_in_node/parent.columns))
width: (parent.width/parent.columns) -1
color: createColor(node_index, model.index)
ColumnLayout{
anchors.fill: parent
width: parent.width
Text{
text: "Proc: " + listNodes.nodeAt(node_index).rankAt(model.index).getId()
font.pixelSize: 10
color: "#383936"
visible: (width <= parent.width)
}
Text{
text: "Send: " + parse_ds(send_ds)
visible: (width <= parent.width) && ((option == "send/recv ratio (per proc)") || option == "max send ratio (across all procs)")
}
Text{
text: "Recv: " + parse_ds(recv_ds)
visible: (width <= parent.width) && ((option == "send/recv ratio (per proc)") || option == "max recv ratio (across all procs)")
}
Text{
text: "Wait: " + waitForLatePercent(node_index, model.index, "send")
visible: (width <= parent.width) && (option == "wait for late sender (per proc)")
}
Text{
text: "Wait: " + waitForLatePercent(node_index, model.index, "recv")
visible: (width <= parent.width) && (option == "wait for late recver (per proc)")
}
}
/*Component.onCompleted: {
console.log("Rectangle, modelindex: " + model.index)
}*/
}
}
}
}
}
}
}
function get_send_ds(nodeIndex, modelIndex){
if(p2p && collective){
let sum1 = Number(listNodes.nodeAt(nodeIndex).rankAt(modelIndex).p2p_send_datasize);
let sum2 = Number(listNodes.nodeAt(nodeIndex).rankAt(modelIndex).coll_send_datasize);
let sum = sum1 + sum2;
return sum;
}
else if(p2p){
return listNodes.nodeAt(nodeIndex).rankAt(modelIndex).p2p_send_datasize;
}
else if(collective){
return listNodes.nodeAt(nodeIndex).rankAt(modelIndex).coll_send_datasize;
}
else {
return 0;
}
}
function parse_ds(datasize) {
function formatValue(value) {
// Entferne ".00", wenn keine Nachkommastellen nötig sind
return value % 1 === 0 ? value.toString() : value.toFixed(2);
}
if (datasize < 1000) {
return datasize + " Byte";
} else if (datasize < 1000000) {
return formatValue(datasize / 1000) + " KB";
} else if (datasize < 1000000000) {
return formatValue(datasize / 1000000) + " MB";
} else {
return formatValue(datasize / 1000000000) + " GB";
}
}
function get_recv_ds(nodeIndex, modelIndex){
if(p2p && collective){
var sum = Number(listNodes.nodeAt(nodeIndex).rankAt(modelIndex).p2p_recv_datasize) + Number(listNodes.nodeAt(nodeIndex).rankAt(modelIndex).coll_recv_datasize);
return sum;
}
else if(p2p){
return listNodes.nodeAt(nodeIndex).rankAt(modelIndex).p2p_recv_datasize;
}
else if(collective){
return listNodes.nodeAt(nodeIndex).rankAt(modelIndex).coll_recv_datasize;
}
else {
return 0;
}
}
function createColor(nodeIndex, modelIndex){
var coll_data, p2p_data, coll_time_diff, p2p_time_diff, p2p_lates, coll_lates, time_diff, weight_p2p, weight_coll;
var send_ds = get_send_ds(nodeIndex, modelIndex);
var recv_ds = get_recv_ds(nodeIndex, modelIndex);
var full_percent, send_percent, recv_percent = 1;
var red, green, blue = 255;
if(option == "send/recv ratio (per proc)"){
gradient1 = "green"
gradient2 = "red"
full_percent = Number(send_ds) + Number(recv_ds)
send_percent = send_ds / full_percent
recv_percent = recv_ds / full_percent
red = recv_percent * 255; // Je höher der Empfangsanteil, desto mehr Rot
green = send_percent * 255; // Je höher der Sendeanteil, desto mehr Grün
blue = 255 - (red + green); // Rest wird in Blau gemischt
if(full_percent === 0){
red = 224;
green = 224;
blue = 224;
}
}
else if(option == "max send ratio (across all procs)"){
gradient1 = "green"
gradient2 = "white"
if(p2p && collective){
full_percent = Number(listNodes.coll_send_max) + Number(listNodes.p2p_send_max);
} else if(p2p){
full_percent = Number(listNodes.p2p_send_max);
} else if(collective){
full_percent = Number(listNodes.coll_send_max);
}
send_percent = send_ds / full_percent
green = 255;
red = 255 - send_percent*255; // Je höher der Empfangsanteil, desto mehr Rot
blue = 255 - send_percent*255; // Rest wird in Blau gemischt
if(full_percent === 0){
red = 224;
green = 224;
blue = 224;
}
}
else if(option == "max recv ratio (across all procs)"){
if(p2p && collective){
full_percent = Number(listNodes.coll_recv_max) + Number(listNodes.p2p_recv_max);
//console.log(modelIndex + ": " +listNodes.p2p_recv_max);
} else if(p2p){
full_percent = Number(listNodes.p2p_recv_max);
} else if(collective){
full_percent = Number(listNodes.coll_recv_max);
}
recv_percent = recv_ds / full_percent
red = 255;
green = 255 - recv_percent*255;
blue = 255 - recv_percent*255;
if(full_percent === 0){
red = 224;
green = 224;
blue = 224;
}
}
else if(option == "wait for late sender (per proc)"){
var lateSenderData = 1;
coll_data = Number(listNodes.nodeAt(nodeIndex).rankAt(modelIndex).coll_late_sender);
p2p_data = Number(listNodes.nodeAt(nodeIndex).rankAt(modelIndex).p2p_late_sender);
coll_time_diff = Number(listNodes.nodeAt(nodeIndex).rankAt(modelIndex).coll_timediff);
p2p_time_diff = Number(listNodes.nodeAt(nodeIndex).rankAt(modelIndex).p2p_timediff);
if(p2p && collective){
if(coll_data === 0) {
lateSenderData = p2p_data/p2p_time_diff;
} else if (p2p_data === 0){
lateSenderData = coll_data/coll_time_diff;
} else {
p2p_lates = p2p_data/p2p_time_diff;
coll_lates = coll_data/coll_time_diff;
time_diff = p2p_time_diff + coll_time_diff;
weight_p2p = (p2p_time_diff/time_diff) * p2p_lates;
weight_coll = (coll_time_diff/time_diff) * coll_lates;
lateSenderData = weight_p2p + weight_coll;
}
} else if(p2p) {
lateSenderData = p2p_data/p2p_time_diff;
} else if(coll) {
lateSenderData = coll_data/coll_time_diff;;
}
blue = 255;
red = 255 - lateSenderData*255;
green = 255 - lateSenderData*255;
if(isNaN(lateSenderData)){
blue = red = green = 224;
}
}
else if(option == "wait for late recver (per proc)"){
var lateRecvrData;
coll_data = Number(listNodes.nodeAt(nodeIndex).rankAt(modelIndex).coll_late_recvr);
p2p_data = Number(listNodes.nodeAt(nodeIndex).rankAt(modelIndex).p2p_late_recvr);
coll_time_diff = Number(listNodes.nodeAt(nodeIndex).rankAt(modelIndex).coll_timediff);
p2p_time_diff = Number(listNodes.nodeAt(nodeIndex).rankAt(modelIndex).p2p_timediff);
if(p2p && collective){
if(coll_data === 0) {
lateRecvrData = p2p_data/p2p_time_diff;
} else if (p2p_data === 0){
lateRecvrData = coll_data/coll_time_diff;
} else {
p2p_lates = p2p_data/p2p_time_diff;
coll_lates = coll_data/coll_time_diff;
time_diff = p2p_time_diff + coll_time_diff;
weight_p2p = (p2p_time_diff/time_diff) * p2p_lates;
weight_coll = (coll_time_diff/time_diff) * coll_lates;
lateRecvrData = weight_p2p + weight_coll;
}
} else if(p2p) {
lateRecvrData = p2p_data/p2p_time_diff;
} else if(coll) {
lateRecvrData = coll_data/coll_time_diff;;
}
blue = 255;
red = 255 - lateRecvrData*255;
green = 255 - lateRecvrData*255;
if(isNaN(lateRecvrData)){
blue = red = green = 224;
}
}
//console.log("Red: " + red + " Green: " + green + " Blue: " + blue)
return "#" + componentToHex(red) + componentToHex(green) + componentToHex(blue);
}
function waitForLatePercent(nodeIndex, modelIndex, send_recv){
var coll_data, p2p_data, coll_time_diff, p2p_time_diff, p2p_lates, coll_lates, time_diff, weight_p2p, weight_coll;
var full_percent, send_percent, recv_percent = 1;
if(send_recv == "send"){
var lateSenderData = 1;
coll_data = Number(listNodes.nodeAt(nodeIndex).rankAt(modelIndex).coll_late_sender);
p2p_data = Number(listNodes.nodeAt(nodeIndex).rankAt(modelIndex).p2p_late_sender);
coll_time_diff = Number(listNodes.nodeAt(nodeIndex).rankAt(modelIndex).coll_timediff);
p2p_time_diff = Number(listNodes.nodeAt(nodeIndex).rankAt(modelIndex).p2p_timediff);
if(coll_data == 0 && p2p_data == 0 && coll_time_diff == 0 && p2p_time_diff == 0){
return "0.00%"
}
if(p2p && collective){
if(coll_data === 0) {
return (p2p_data/p2p_time_diff * 100).toFixed(2) + "%";
} else if (p2p_data === 0){
return (coll_data/coll_time_diff * 100).toFixed(2) + "%";
} else {
p2p_lates = p2p_data/p2p_time_diff;
coll_lates = coll_data/coll_time_diff;
time_diff = p2p_time_diff + coll_time_diff;
weight_p2p = (p2p_time_diff/time_diff) * p2p_lates;
weight_coll = (coll_time_diff/time_diff) * coll_lates;
return (weight_p2p + weight_coll).toFixed(2) + "%";
}
} else if(p2p) {
return (p2p_data/p2p_time_diff * 100).toFixed(2)+ "%" ;
} else if(coll) {
return (coll_data/coll_time_diff * 100).toFixed(2) + "%";
}
} else if(send_recv == "recv"){
var lateRecvrData;
coll_data = Number(listNodes.nodeAt(nodeIndex).rankAt(modelIndex).coll_late_recvr);
p2p_data = Number(listNodes.nodeAt(nodeIndex).rankAt(modelIndex).p2p_late_recvr);
coll_time_diff = Number(listNodes.nodeAt(nodeIndex).rankAt(modelIndex).coll_timediff);
p2p_time_diff = Number(listNodes.nodeAt(nodeIndex).rankAt(modelIndex).p2p_timediff);
if(coll_data == 0 && p2p_data == 0 && coll_time_diff == 0 && p2p_time_diff == 0){
return "0.00%"
}
if(p2p && collective){
if(coll_data === 0) {
return (p2p_data/p2p_time_diff * 100).toFixed(2) + "%";
} else if (p2p_data === 0){
return (coll_data/coll_time_diff * 100).toFixed(2) + "%";
} else {
p2p_lates = p2p_data/p2p_time_diff;
coll_lates = coll_data/coll_time_diff;
time_diff = p2p_time_diff + coll_time_diff;
weight_p2p = (p2p_time_diff/time_diff * 100) * p2p_lates;
weight_coll = (coll_time_diff/time_diff) * coll_lates;
return (weight_p2p + weight_coll * 100).toFixed(2) + "%";
}
} else if(p2p) {
return (p2p_data/p2p_time_diff * 100).toFixed(2) + "%";
} else if(coll) {
return (coll_data/coll_time_diff * 100).toFixed(2) + "%";
}
}
}
function componentToHex(c) {
//console.log("test");
var hex = Math.round(c).toString(16);
return hex.length == 1 ? "0" + hex : hex;
}
}