quoracle/examples/case_study.py

# See https://stackoverflow.com/a/19521297/3187068
import matplotlib
matplotlib.use('pdf')
font = {'size': 8}
matplotlib.rc('font', **font)

from quoracle import *
import datetime
import matplotlib.pyplot as plt

def main() -> None:
    def seconds(x: int) -> datetime.timedelta:
        return datetime.timedelta(seconds=x)

    a = Node('a', write_capacity=2000, read_capacity=4000, latency=seconds(1))
    b = Node('b', write_capacity=1000, read_capacity=2000, latency=seconds(1))
    c = Node('c', write_capacity=2000, read_capacity=4000, latency=seconds(3))
    d = Node('d', write_capacity=1000, read_capacity=2000, latency=seconds(4))
    e = Node('e', write_capacity=2000, read_capacity=4000, latency=seconds(5))
    fr = {
        1.00: 0.,
        0.90: 10.,
        0.80: 20.,
        0.70: 100.,
        0.60: 100.,
        0.50: 100.,
        0.40: 60.,
        0.30: 30.,
        0.20: 30.,
        0.10: 20.,
        0.00: 0.,
    }

    maj = QuorumSystem(reads=majority([a, b, c, d, e]))
    grid = QuorumSystem(reads=a*b + c*d*e)
    paths = QuorumSystem(reads=a*b + a*c*e + d*e + d*c*b)

    print('0-resilient Capacities')
    print(maj.uniform_strategy().capacity(read_fraction=fr))
    print(maj.capacity(read_fraction=fr))
    print(grid.capacity(read_fraction=fr))
    print(paths.capacity(read_fraction=fr))
    print()

    print('0-resilient Searched')
    start = datetime.datetime.now()
    opt = search(nodes=[a, b, c, d, e],
                 resilience=1,
                 read_fraction=fr)
    stop = datetime.datetime.now()
    print((stop - start))
    sigma = opt.strategy(read_fraction=fr)
    print(opt)
    print(sigma)
    print(sigma.capacity(read_fraction=fr))
    print()

    for (sigma, name, filename, size) in [
        (maj.uniform_strategy(),
         'Majority Quorum System',
         'majority_uniform',
         (3.25, 2)),
        (sigma,
         'Searched Quorum System',
         'searched',
         (3.25, 1.75)),
    ]:
        fig, ax = plt.subplots(figsize=size)
        plot_node_throughput_on(
            ax,
            sigma,
            nodes = [a, b, c, d, e],
            read_fraction=0.5,
            draw_node_capacities=False,
        )
        ax.set_xlabel('Node')
        ax.set_ylabel('Throughput\n(commands per second)')
        fig.tight_layout()
        fig.savefig(f'{filename}_throughputs.pdf')

    print('1-resilient Capacities')
    print(maj)
    print(maj.capacity(read_fraction=fr, f=1))
    print(grid.capacity(read_fraction=fr, f=1))
    print(paths.capacity(read_fraction=fr, f=1))
    print()

    print('1-resilient Searched')
    start = datetime.datetime.now()
    opt = search(nodes=[a, b, c, d, e], resilience=1, read_fraction=fr, f=1)
    stop = datetime.datetime.now()
    print(stop - start)
    sigma = opt.strategy(read_fraction=fr, f=1)
    print(opt)
    print(sigma)
    print(sigma.capacity(read_fraction=fr))
    print()

    print('Latency Optimal Capacities and Latencies')
    print(maj.uniform_strategy().capacity(read_fraction=fr),
          maj.uniform_strategy().latency(read_fraction=fr))
    print(maj.capacity(read_fraction=fr, optimize='latency', load_limit=1/2000),
          maj.latency(read_fraction=fr, optimize='latency', load_limit=1/2000))
    print(grid.capacity(read_fraction=fr, optimize='latency', load_limit=1/2000),
          grid.latency(read_fraction=fr, optimize='latency', load_limit=1/2000))
    print(paths.capacity(read_fraction=fr, optimize='latency', load_limit=1/2000),
          paths.latency(read_fraction=fr, optimize='latency', load_limit=1/2000))
    print()

    print('Latency Optimal Searched')
    start = datetime.datetime.now()
    opt = search(nodes=[a, b, c, d, e], resilience=1, read_fraction=fr,
                 optimize='latency', load_limit=1/2000)
    stop = datetime.datetime.now()
    print(stop - start)
    sigma = opt.strategy(read_fraction=fr, optimize='latency', load_limit=1/2000)
    print(opt)
    print(sigma)
    print(sigma.capacity(read_fraction=fr))
    print(sigma.latency(read_fraction=fr))
    print()


if __name__ == '__main__':
    main()
Moved random scripts to examples directory. I'll clean these up later. 2021-02-04 19:42:05 +00:00			`# See https://stackoverflow.com/a/19521297/3187068`
			`import matplotlib`
			`matplotlib.use('pdf')`
			`font = {'size': 8}`
			`matplotlib.rc('font', **font)`

Renamed quorums to quoracle. 2021-02-05 04:59:10 +00:00			`from quoracle import *`
Work on numbers for paper. 2021-02-03 07:03:57 +00:00			`import datetime`
Moved random scripts to examples directory. I'll clean these up later. 2021-02-04 19:42:05 +00:00			`import matplotlib.pyplot as plt`
Work on numbers for paper. 2021-02-03 07:03:57 +00:00
			`def main() -> None:`
			`def seconds(x: int) -> datetime.timedelta:`
			`return datetime.timedelta(seconds=x)`

			`a = Node('a', write_capacity=2000, read_capacity=4000, latency=seconds(1))`
			`b = Node('b', write_capacity=1000, read_capacity=2000, latency=seconds(1))`
			`c = Node('c', write_capacity=2000, read_capacity=4000, latency=seconds(3))`
			`d = Node('d', write_capacity=1000, read_capacity=2000, latency=seconds(4))`
			`e = Node('e', write_capacity=2000, read_capacity=4000, latency=seconds(5))`
			`fr = {`
			`1.00: 0.,`
			`0.90: 10.,`
			`0.80: 20.,`
			`0.70: 100.,`
			`0.60: 100.,`
			`0.50: 100.,`
			`0.40: 60.,`
			`0.30: 30.,`
			`0.20: 30.,`
			`0.10: 20.,`
			`0.00: 0.,`
			`}`

			`maj = QuorumSystem(reads=majority([a, b, c, d, e]))`
			`grid = QuorumSystem(reads=ab + cd*e)`
			`paths = QuorumSystem(reads=ab + ace + de + dcb)`

Moved random scripts to examples directory. I'll clean these up later. 2021-02-04 19:42:05 +00:00			`print('0-resilient Capacities')`
			`print(maj.uniform_strategy().capacity(read_fraction=fr))`
Work on numbers for paper. 2021-02-03 07:03:57 +00:00			`print(maj.capacity(read_fraction=fr))`
			`print(grid.capacity(read_fraction=fr))`
			`print(paths.capacity(read_fraction=fr))`
			`print()`

Moved random scripts to examples directory. I'll clean these up later. 2021-02-04 19:42:05 +00:00			`print('0-resilient Searched')`
Small tweaks to paper examples. 2021-02-05 23:43:31 +00:00			`start = datetime.datetime.now()`
Work on numbers for paper. 2021-02-03 07:03:57 +00:00			`opt = search(nodes=[a, b, c, d, e],`
			`resilience=1,`
			`read_fraction=fr)`
Small tweaks to paper examples. 2021-02-05 23:43:31 +00:00			`stop = datetime.datetime.now()`
			`print((stop - start))`
Work on numbers for paper. 2021-02-03 07:03:57 +00:00			`sigma = opt.strategy(read_fraction=fr)`
			`print(opt)`
			`print(sigma)`
			`print(sigma.capacity(read_fraction=fr))`
			`print()`

Moved random scripts to examples directory. I'll clean these up later. 2021-02-04 19:42:05 +00:00			`for (sigma, name, filename, size) in [`
Small tweaks to paper examples. 2021-02-05 23:43:31 +00:00			`(maj.uniform_strategy(),`
			`'Majority Quorum System',`
			`'majority_uniform',`
			`(3.25, 2)),`
			`(sigma,`
			`'Searched Quorum System',`
			`'searched',`
			`(3.25, 1.75)),`
Moved random scripts to examples directory. I'll clean these up later. 2021-02-04 19:42:05 +00:00			`]:`
			`fig, ax = plt.subplots(figsize=size)`
			`plot_node_throughput_on(`
			`ax,`
			`sigma,`
			`nodes = [a, b, c, d, e],`
			`read_fraction=0.5,`
Small tweaks to paper examples. 2021-02-05 23:43:31 +00:00			`draw_node_capacities=False,`
Moved random scripts to examples directory. I'll clean these up later. 2021-02-04 19:42:05 +00:00			`)`
			`ax.set_xlabel('Node')`
Small tweaks to paper examples. 2021-02-05 23:43:31 +00:00			`ax.set_ylabel('Throughput\n(commands per second)')`
Moved random scripts to examples directory. I'll clean these up later. 2021-02-04 19:42:05 +00:00			`fig.tight_layout()`
			`fig.savefig(f'{filename}_throughputs.pdf')`

			`print('1-resilient Capacities')`
Work on numbers for paper. 2021-02-03 07:03:57 +00:00			`print(maj)`
			`print(maj.capacity(read_fraction=fr, f=1))`
			`print(grid.capacity(read_fraction=fr, f=1))`
			`print(paths.capacity(read_fraction=fr, f=1))`
			`print()`

Moved random scripts to examples directory. I'll clean these up later. 2021-02-04 19:42:05 +00:00			`print('1-resilient Searched')`
Small tweaks to paper examples. 2021-02-05 23:43:31 +00:00			`start = datetime.datetime.now()`
Work on numbers for paper. 2021-02-03 07:03:57 +00:00			`opt = search(nodes=[a, b, c, d, e], resilience=1, read_fraction=fr, f=1)`
Small tweaks to paper examples. 2021-02-05 23:43:31 +00:00			`stop = datetime.datetime.now()`
			`print(stop - start)`
Work on numbers for paper. 2021-02-03 07:03:57 +00:00			`sigma = opt.strategy(read_fraction=fr, f=1)`
			`print(opt)`
			`print(sigma)`
			`print(sigma.capacity(read_fraction=fr))`
			`print()`

Moved random scripts to examples directory. I'll clean these up later. 2021-02-04 19:42:05 +00:00			`print('Latency Optimal Capacities and Latencies')`
			`print(maj.uniform_strategy().capacity(read_fraction=fr),`
			`maj.uniform_strategy().latency(read_fraction=fr))`
Work on numbers for paper. 2021-02-03 07:03:57 +00:00			`print(maj.capacity(read_fraction=fr, optimize='latency', load_limit=1/2000),`
			`maj.latency(read_fraction=fr, optimize='latency', load_limit=1/2000))`
			`print(grid.capacity(read_fraction=fr, optimize='latency', load_limit=1/2000),`
			`grid.latency(read_fraction=fr, optimize='latency', load_limit=1/2000))`
			`print(paths.capacity(read_fraction=fr, optimize='latency', load_limit=1/2000),`
			`paths.latency(read_fraction=fr, optimize='latency', load_limit=1/2000))`
			`print()`

Moved random scripts to examples directory. I'll clean these up later. 2021-02-04 19:42:05 +00:00			`print('Latency Optimal Searched')`
Small tweaks to paper examples. 2021-02-05 23:43:31 +00:00			`start = datetime.datetime.now()`
			`opt = search(nodes=[a, b, c, d, e], resilience=1, read_fraction=fr,`
			`optimize='latency', load_limit=1/2000)`
			`stop = datetime.datetime.now()`
			`print(stop - start)`
Work on numbers for paper. 2021-02-03 07:03:57 +00:00			`sigma = opt.strategy(read_fraction=fr, optimize='latency', load_limit=1/2000)`
			`print(opt)`
			`print(sigma)`
			`print(sigma.capacity(read_fraction=fr))`
			`print(sigma.latency(read_fraction=fr))`
			`print()`


			`if __name__ == '__main__':`
			`main()`