configure using validatorsPerNode1/2 instead of chi1/2

Signed-off-by: Csaba Kiraly <csaba.kiraly@gmail.com>
2023-03-13 15:00:43 +01:00 · 2023-03-13 15:00:43 +01:00 · 065086f88c
parent 45fe454204
commit 065086f88c
6 changed files with 31 additions and 23 deletions
--- a/DAS/shape.py
+++ b/DAS/shape.py
@ -3,7 +3,7 @@
 class Shape:
    """This class represents a set of parameters for a specific simulation."""

-    def __init__(self, blockSize, numberValidators, failureRate, class1ratio, chi1, chi2, netDegree, bwUplinkProd, bwUplink1, bwUplink2, run):
+    def __init__(self, blockSize, numberValidators, failureRate, class1ratio, chi, vpn1, vpn2, netDegree, bwUplinkProd, bwUplink1, bwUplink2, run):
        """Initializes the shape with the parameters passed in argument."""
        self.run = run
        self.numberValidators = numberValidators
@ -11,8 +11,9 @@ class Shape:
        self.failureRate = failureRate
        self.netDegree = netDegree
        self.class1ratio = class1ratio
-        self.chi1 = chi1
-        self.chi2 = chi2
+        self.chi = chi
+        self.vpn1 = vpn1
+        self.vpn2 = vpn2
        self.bwUplinkProd = bwUplinkProd
        self.bwUplink1 = bwUplink1
        self.bwUplink2 = bwUplink2
@ -25,8 +26,9 @@ class Shape:
        shastr += "-nbv-"+str(self.numberValidators)
        shastr += "-fr-"+str(self.failureRate)
        shastr += "-c1r-"+str(self.class1ratio)
-        shastr += "-chi1-"+str(self.chi1)
-        shastr += "-chi2-"+str(self.chi2)
+        shastr += "-chi-"+str(self.chi)
+        shastr += "-vpn1-"+str(self.vpn1)
+        shastr += "-vpn2-"+str(self.vpn2)
        shastr += "-bwupprod-"+str(self.bwUplinkProd)
        shastr += "-bwup1-"+str(self.bwUplink1)
        shastr += "-bwup2-"+str(self.bwUplink2)
--- a/DAS/simulator.py
+++ b/DAS/simulator.py
@ -126,8 +126,9 @@ class Simulator:
        self.result = Result(self.shape)
        for val in self.validators:
            val.shape.failureRate = shape.failureRate
-            val.shape.chi1 = shape.chi1
-            val.shape.chi2 = shape.chi2
+            val.shape.chi = shape.chi
+            val.shape.vpn1 = shape.vpn1
+            val.shape.vpn2 = shape.vpn2

        # In GossipSub the initiator might push messages without participating in the mesh.
        # proposerPublishOnly regulates this behavior. If set to true, the proposer is not
--- a/DAS/validator.py
+++ b/DAS/validator.py
@ -55,17 +55,17 @@ class Validator:
        self.sendQueue = deque()
        self.amIproposer = amIproposer
        self.logger = logger
-        if self.shape.chi1 < 1 or self.shape.chi2 < 1:
+        if self.shape.chi < 1:
            self.logger.error("Chi has to be greater than 0", extra=self.format)
-        elif self.shape.chi1 > self.shape.blockSize or self.shape.chi2 > self.shape.blockSize:
-            self.logger.error("Chi has to be smaller than %d" % blockSize, extra=self.format)
+        elif self.shape.chi > self.shape.blockSize:
+            self.logger.error("Chi has to be smaller than %d" % self.shape.blockSize, extra=self.format)
        else:
            if self.amIproposer:
                self.chi = 1 # not used
            elif self.ID <= shape.numberValidators * shape.class1ratio:
-                self.chi = shape.chi1
+                self.chi = shape.chi * shape.vpn1
            else:
-                self.chi = shape.chi2
+                self.chi = shape.chi * shape.vpn2 # TODO: union of random subsets vpn2 times
            if amIproposer:
                self.rowIDs = range(shape.blockSize)
                self.columnIDs = range(shape.blockSize)
--- a/DAS/visualizer.py
+++ b/DAS/visualizer.py
@ -13,7 +13,7 @@ class Visualizer:
        self.execID = execID
        self.folderPath = "results/"+self.execID
        self.parameters = ['run', 'blockSize', 'failureRate', 'numberValidators', 'netDegree',
-                           'chi1', 'chi2', 'bwUplinkProd', 'bwUplink1', 'bwUplink2']
+                           'chi', 'vpn1', 'vpn2', 'bwUplinkProd', 'bwUplink1', 'bwUplink2']
        self.minimumDataPoints = 2

    def plottingData(self):
@ -30,8 +30,9 @@ class Visualizer:
                failureRate = int(root.find('failureRate').text)
                numberValidators = int(root.find('numberValidators').text)
                netDegree = int(root.find('netDegree').text)
-                chi1 = int(root.find('chi1').text)
-                chi2 = int(root.find('chi2').text)
+                chi = int(root.find('chi').text)
+                vpn1 = int(root.find('vpn1').text)
+                vpn2 = int(root.find('vpn2').text)
                bwUplinkProd = int(root.find('bwUplinkProd').text)
                bwUplink1 = int(root.find('bwUplink1').text)
                bwUplink2 = int(root.find('bwUplink2').text)
@ -41,7 +42,7 @@ class Visualizer:
                for combination in combinations(self.parameters, 4):
                    # Get the indices and values of the parameters in the combination
                    indices = [self.parameters.index(element) for element in combination]
-                    selectedValues = [run, blockSize, failureRate, numberValidators, netDegree, chi1, chi2, bwUplinkProd, bwUplink1, bwUplink2]
+                    selectedValues = [run, blockSize, failureRate, numberValidators, netDegree, chi, vpn1, vpn2, bwUplinkProd, bwUplink1, bwUplink2]
                    values = [selectedValues[index] for index in indices]
                    names = [self.parameters[i] for i in indices]
                    keyComponents = [f"{name}_{value}" for name, value in zip(names, values)]
--- a/config_example.py
+++ b/config_example.py
@ -45,11 +45,15 @@ blockSizes = range(32,65,16)
 # Per-topic mesh neighborhood size
 netDegrees = range(6, 9, 2)

+# number of rows and columns a validator is interested in
+chis = range(1, 5, 2)
+
+# ratio of class1 nodes (see below for parameters per class)
 class1ratios = np.arange(0, 1, .2)

-# Number of rows and columns a validator is interested in
-chis1 = range(1, 5, 2)
-chis2 = range(10, 30, 20)
+# Number of validators per beacon node
+validatorsPerNode1 = [1]
+validatorsPerNode2 = [2, 4, 8, 16, 32]

 # Set uplink bandwidth. In segments (~560 bytes) per timestep (50ms?)
 # 1 Mbps ~= 1e6 / 20 / 8 / 560 ~= 11
@ -64,9 +68,9 @@ deterministic = False
 randomSeed = "DAS"

 def nextShape():
-    for run, fr, class1ratio, chi1, chi2, blockSize, nv, netDegree, bwUplinkProd, bwUplink1, bwUplink2 in itertools.product(
-        runs, failureRates, class1ratios, chis1, chis2, blockSizes, numberValidators, netDegrees, bwUplinksProd, bwUplinks1, bwUplinks2):
+    for run, fr, class1ratio, chi, vpn1, vpn2, blockSize, nv, netDegree, bwUplinkProd, bwUplink1, bwUplink2 in itertools.product(
+        runs, failureRates, class1ratios, chis, validatorsPerNode1, validatorsPerNode2, blockSizes, numberValidators, netDegrees, bwUplinksProd, bwUplinks1, bwUplinks2):
        # Network Degree has to be an even number
        if netDegree % 2 == 0:
-            shape = Shape(blockSize, nv, fr, class1ratio, chi1, chi2, netDegree, bwUplinkProd, bwUplink1, bwUplink2, run)
+            shape = Shape(blockSize, nv, fr, class1ratio, chi, vpn1, vpn2, netDegree, bwUplinkProd, bwUplink1, bwUplink2, run)
            yield shape
--- a/study.py
+++ b/study.py
@ -40,7 +40,7 @@ def study():
            print("You need to pass a configuration file in parameter")
            exit(1)

-    shape = Shape(0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0)
+    shape = Shape(0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0)
    sim = Simulator(shape, config)
    sim.initLogger()
    results = []