nomos-specs/deprecated/carnot/committee_sizes.py

69 lines
3.5 KiB
Python

"""
This algorithm given the number_of_nodes in the network, fraction of Byzantine nodes in the network, network_adversary_threshold,
fraction of Byzantine modes in a committee, adversaries_threshold_per_committee, and the probability of failure_threshold which can be tolerated computes the maximum number_of_committees and committee_size.
The algorithm computes the current_probability for the number_of_nodes=committee_size*number_of_committees+remainder nodes where the committee_size and committee_size+1 number of nodes are assigned, respectively, to the number_of_committees-remainder and remainder number of committees.
Initially, all number_of_nodes are in one committee, and in subsequent iterations, the number_of_committees is increased by two until the current_probability <= failure_threshold. When the latter condition is violated then the algorithm stops and outputs the number_of_committees, committee_size, remainder and current_probability.
A more detailed description of the algorithm, and of its mathematical aspects, is provided in the "Carnot paper" available at https://www.notion.so/Nomos-Specification-419bfb7a939648e9b3894a90d188c3be?pvs=4
"""
import math
from scipy.stats import binom
CARNOT_ADVERSARY_THRESHOLD_PER_COMMITTEE: float = 1/3
CARNOT_NETWORK_ADVERSARY_THRESHOLD: float = 1 / 4
def compute_optimal_number_of_committees_and_committee_size(
number_of_nodes: int,
failure_threshold: float,
adversaries_threshold_per_committee: float,
network_adversary_threshold: float
):
assert failure_threshold > 0
# number_of_nodes is the number of nodes in the network
# failure_threshold is the prob. of failure which can be tolerated
# adversaries_threshold_per_committee is the fraction of Byzantine modes in a committee
# network_adversary_threshold is the fraction of Byzantine nodes in the network
number_of_committees = 1
committee_size = number_of_nodes
remainder = 0
current_probability = 0.0
odd_committee = 0
while current_probability < failure_threshold:
previous_number_of_committees = number_of_committees
previous_committee_size = committee_size
previous_remainder = remainder
previous_probability = current_probability
odd_committee = odd_committee + 1
number_of_committees = 2 * odd_committee + 1
committee_size = number_of_nodes // number_of_committees
remainder = number_of_nodes % number_of_committees
committee_size_probability = binom.cdf(
math.floor(adversaries_threshold_per_committee * committee_size),
committee_size,
network_adversary_threshold
)
if 0 < remainder:
committee_size_plus_one_probability = binom.cdf(
math.floor(adversaries_threshold_per_committee * (committee_size + 1)),
committee_size + 1,
network_adversary_threshold
)
current_probability = (
1 - committee_size_probability ** (number_of_committees - remainder)
* committee_size_plus_one_probability ** remainder
)
else:
current_probability = 1 - committee_size_probability ** number_of_committees
# return the number_of_committees, committee_size, remainder and current_probability
# computed at the previous iteration.
return previous_number_of_committees, previous_committee_size, previous_remainder, previous_probability