use of org.btrplace.model.constraint.migration.MinMTTRMig in project scheduler by btrplace.
the class UCC15 method decommissioning_20gb.
public SolvingStatistics decommissioning_20gb() throws SchedulerException {
// Set nb of nodes and vms
int nbNodesRack = 24;
int nbSrcNodes = nbNodesRack * 4;
int nbDstNodes = nbNodesRack * 2;
int nbVMs = nbSrcNodes * 2;
// Set mem + cpu for VMs and Nodes
int memVM = 4, cpuVM = 1;
int memSrcNode = 16, cpuSrcNode = 4;
int memDstNode = 16, cpuDstNode = 4;
// Set memoryUsed and dirtyRate (for all VMs)
int tpl1MemUsed = 2000, tpl1MaxDirtySize = 5, tpl1MaxDirtyDuration = 3;
// idle vm
double tpl1DirtyRate = 0;
int tpl2MemUsed = 4000, tpl2MaxDirtySize = 96, tpl2MaxDirtyDuration = 2;
// stress --vm 1000 --bytes 70K
double tpl2DirtyRate = 3;
int tpl3MemUsed = 2000, tpl3MaxDirtySize = 96, tpl3MaxDirtyDuration = 2;
// stress --vm 1000 --bytes 70K
double tpl3DirtyRate = 3;
int tpl4MemUsed = 4000, tpl4MaxDirtySize = 5, tpl4MaxDirtyDuration = 3;
// idle vm
double tpl4DirtyRate = 0;
// New default model
Model mo = new DefaultModel();
Mapping ma = mo.getMapping();
// Create online source nodes and offline destination nodes
List<Node> srcNodes = new ArrayList<>(), dstNodes = new ArrayList<>();
for (int i = 0; i < nbSrcNodes; i++) {
srcNodes.add(mo.newNode());
ma.addOnlineNode(srcNodes.get(i));
}
for (int i = 0; i < nbDstNodes; i++) {
dstNodes.add(mo.newNode());
ma.addOfflineNode(dstNodes.get(i));
}
// Set boot and shutdown time
for (Node n : dstNodes) {
mo.getAttributes().put(n, "boot", 120);
/*~2 minutes to boot*/
}
for (Node n : srcNodes) {
mo.getAttributes().put(n, "shutdown", 17);
/*~30 seconds to shutdown*/
}
// Create running VMs on src nodes
List<VM> vms = new ArrayList<>();
VM v;
for (int i = 0; i < nbSrcNodes; i++) {
if (i % 2 == 0) {
v = mo.newVM();
vms.add(v);
mo.getAttributes().put(v, "memUsed", tpl1MemUsed);
mo.getAttributes().put(v, "coldDirtyRate", tpl1DirtyRate);
mo.getAttributes().put(v, "hotDirtySize", tpl1MaxDirtySize);
mo.getAttributes().put(v, "hotDirtyDuration", tpl1MaxDirtyDuration);
ma.addRunningVM(v, srcNodes.get(i));
v = mo.newVM();
vms.add(v);
mo.getAttributes().put(v, "memUsed", tpl2MemUsed);
mo.getAttributes().put(v, "coldDirtyRate", tpl2DirtyRate);
mo.getAttributes().put(v, "hotDirtySize", tpl2MaxDirtySize);
mo.getAttributes().put(v, "hotDirtyDuration", tpl2MaxDirtyDuration);
ma.addRunningVM(v, srcNodes.get(i));
} else {
v = mo.newVM();
vms.add(v);
mo.getAttributes().put(v, "memUsed", tpl3MemUsed);
mo.getAttributes().put(v, "coldDirtyRate", tpl3DirtyRate);
mo.getAttributes().put(v, "hotDirtySize", tpl3MaxDirtySize);
mo.getAttributes().put(v, "hotDirtyDuration", tpl3MaxDirtyDuration);
ma.addRunningVM(v, srcNodes.get(i));
v = mo.newVM();
vms.add(v);
mo.getAttributes().put(v, "memUsed", tpl4MemUsed);
mo.getAttributes().put(v, "coldDirtyRate", tpl4DirtyRate);
mo.getAttributes().put(v, "hotDirtySize", tpl4MaxDirtySize);
mo.getAttributes().put(v, "hotDirtyDuration", tpl4MaxDirtyDuration);
ma.addRunningVM(v, srcNodes.get(i));
}
}
// Add resource decorators
ShareableResource rcMem = new ShareableResource("mem", 0, 0);
ShareableResource rcCPU = new ShareableResource("cpu", 0, 0);
for (Node n : srcNodes) {
rcMem.setCapacity(n, memSrcNode);
rcCPU.setCapacity(n, cpuSrcNode);
}
for (Node n : dstNodes) {
rcMem.setCapacity(n, memDstNode);
rcCPU.setCapacity(n, cpuDstNode);
}
for (VM vm : vms) {
rcMem.setConsumption(vm, memVM);
rcCPU.setConsumption(vm, cpuVM);
}
mo.attach(rcMem);
mo.attach(rcCPU);
// Add a NetworkView view
Network net = new Network();
Switch swSrcRack1 = net.newSwitch();
Switch swSrcRack2 = net.newSwitch();
Switch swSrcRack3 = net.newSwitch();
Switch swSrcRack4 = net.newSwitch();
Switch swDstRack1 = net.newSwitch();
Switch swDstRack2 = net.newSwitch();
Switch swMain = net.newSwitch();
net.connect(1000, swSrcRack1, srcNodes.subList(0, nbNodesRack));
net.connect(1000, swSrcRack2, srcNodes.subList(nbNodesRack, nbNodesRack * 2));
net.connect(1000, swSrcRack3, srcNodes.subList(nbNodesRack * 2, nbNodesRack * 3));
net.connect(1000, swSrcRack4, srcNodes.subList(nbNodesRack * 3, nbNodesRack * 4));
net.connect(1000, swDstRack1, dstNodes.subList(0, nbNodesRack));
net.connect(1000, swDstRack2, dstNodes.subList(nbNodesRack, nbNodesRack * 2));
net.connect(20000, swMain, swSrcRack1, swSrcRack2, swSrcRack3, swSrcRack4, swDstRack1, swDstRack2);
mo.attach(net);
// net.generateDot(path + "topology.dot", false);
// Set parameters
DefaultParameters ps = new DefaultParameters();
ps.setVerbosity(0);
ps.setTimeLimit(10);
// ps.setMaxEnd(600);
ps.doOptimize(false);
// Migrate all VMs to destination nodes
List<SatConstraint> cstrs = new ArrayList<>();
int vm_num = 0;
for (int i = 0; i < nbDstNodes; i++) {
cstrs.add(new Fence(vms.get(vm_num), Collections.singleton(dstNodes.get(i))));
cstrs.add(new Fence(vms.get(vm_num + 1), Collections.singleton(dstNodes.get(i))));
cstrs.add(new Fence(vms.get(nbVMs - 1 - vm_num), Collections.singleton(dstNodes.get(i))));
cstrs.add(new Fence(vms.get(nbVMs - 2 - vm_num), Collections.singleton(dstNodes.get(i))));
vm_num += 2;
}
// Shutdown source nodes
cstrs.addAll(srcNodes.stream().map(Offline::new).collect(Collectors.toList()));
// Set a custom objective
DefaultChocoScheduler sc = new DefaultChocoScheduler(ps);
Instance i = new Instance(mo, cstrs, new MinMTTRMig());
ReconfigurationPlan p;
try {
p = sc.solve(i);
Assert.assertNotNull(p);
} catch (Exception e) {
e.printStackTrace();
}
// finally {
return sc.getStatistics();
// }
}
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