298 lines
7.9 KiB
Julia
298 lines
7.9 KiB
Julia
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using PlotlyJS
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using PlotlyJS: savefig
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using Statistics: mean, std
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include("aux_func.jl")
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data = load_pickle("efficiency_per_size.pkl");
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#all_data_ene["mni"][s]["100"]["bay"]
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data_type = ["mni", "cif"]
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model_type = ["bay", "frq"]
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experiment_type = ["100", "est", "acc", "wat"]
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# MNIST 100 efficency
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bayes_100_mnist_eff = []
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for s = 1:5
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push!(
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bayes_100_mnist_eff,
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data[model_type[1]][data_type[1]][experiment_type[1]][string(s)],
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)
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end
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freqs_100_mnist_eff = []
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for s = 1:5
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push!(
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freqs_100_mnist_eff,
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data[model_type[2]][data_type[1]][experiment_type[1]][string(s)],
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)
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end
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# MNIST est efficency
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bayes_est_mnist_eff = []
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for s = 1:5
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push!(
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bayes_est_mnist_eff,
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data[model_type[1]][data_type[1]][experiment_type[2]][string(s)],
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)
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end
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freqs_est_mnist_eff = []
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for s = 1:5
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push!(
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freqs_est_mnist_eff,
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data[model_type[2]][data_type[1]][experiment_type[2]][string(s)],
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)
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end
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# MNIST wat efficency
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bayes_wat_mnist_eff = []
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for s = 1:5
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push!(
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bayes_wat_mnist_eff,
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data[model_type[1]][data_type[1]][experiment_type[4]][string(s)],
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)
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end
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freqs_wat_mnist_eff = []
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for s = 1:5
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push!(
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freqs_wat_mnist_eff,
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data[model_type[2]][data_type[1]][experiment_type[4]][string(s)],
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)
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end
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# MNIST acc efficency
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bayes_acc_mnist_eff = []
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for s = 1:5
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push!(
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bayes_acc_mnist_eff,
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data[model_type[1]][data_type[1]][experiment_type[3]][string(s)],
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)
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end
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freqs_acc_mnist_eff = []
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for s = 1:5
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push!(
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freqs_acc_mnist_eff,
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data[model_type[2]][data_type[1]][experiment_type[3]][string(s)],
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)
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end
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# CIFAR 100 efficency
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bayes_100_cifar_eff = []
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for s = 1:5
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push!(
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bayes_100_cifar_eff,
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data[model_type[1]][data_type[2]][experiment_type[1]][string(s)],
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)
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end
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for i = 1:5
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t_std = std(bayes_100_cifar_eff)
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if (bayes_100_cifar_eff[i] > 2 * t_std) || (bayes_100_cifar_eff[i] < 2 * t_std)
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bayes_100_cifar_eff[i] = mean(bayes_100_cifar_eff)
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end
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end
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freqs_100_cifar_eff = []
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for s = 1:5
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push!(
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freqs_100_cifar_eff,
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data[model_type[2]][data_type[2]][experiment_type[1]][string(s)],
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)
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end
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for i = 1:5
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t_std = std(freqs_100_cifar_eff)
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if (freqs_100_cifar_eff[i] > 2 * t_std) || (freqs_100_cifar_eff[i] < 2 * t_std)
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freqs_100_cifar_eff[i] = mean(freqs_100_cifar_eff)
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end
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end
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# CIFAR est efficency
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bayes_est_cifar_eff = []
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for s = 1:5
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push!(
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bayes_est_cifar_eff,
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data[model_type[1]][data_type[2]][experiment_type[2]][string(s)],
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)
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end
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freqs_est_cifar_eff = []
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for s = 1:5
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push!(
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freqs_est_cifar_eff,
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data[model_type[2]][data_type[2]][experiment_type[2]][string(s)],
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)
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end
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# CIFAR wat efficency
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bayes_wat_cifar_eff = []
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for s = 1:5
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push!(
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bayes_wat_cifar_eff,
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data[model_type[1]][data_type[2]][experiment_type[4]][string(s)],
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)
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end
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freqs_wat_cifar_eff = []
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for s = 1:5
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push!(
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freqs_wat_cifar_eff,
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data[model_type[2]][data_type[2]][experiment_type[4]][string(s)],
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)
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end
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# CIFAR acc efficency
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bayes_acc_cifar_eff = []
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for s = 1:5
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push!(
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bayes_acc_cifar_eff,
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data[model_type[1]][data_type[2]][experiment_type[3]][string(s)],
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)
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end
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freqs_acc_cifar_eff = []
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for s = 1:5
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push!(
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freqs_acc_cifar_eff,
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data[model_type[2]][data_type[2]][experiment_type[3]][string(s)],
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)
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end
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avg_rate_bcnn = (-8.266684252643054e-5 * 1000)
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avg_rate_fcnn = (0.00022035677966088333 * 1000)
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en_plot = plot(
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[
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scatter(
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x = ["1", "2", "3", "4", "5"],
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y = (-avg_rate_fcnn .* freqs_100_mnist_eff),
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name = "LeNet 100",
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marker = attr(symbol = 4, color = "rgb(211,120,000)", line_width = 1.0),
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),
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scatter(
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x = ["1", "2", "3", "4", "5"],
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y = (-avg_rate_fcnn .* freqs_est_mnist_eff),
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name = "LeNet est",
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marker = attr(symbol = 17, color = "rgb(255,170,017)", line_width = 1.0),
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),
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scatter(
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x = ["1", "2", "3", "4", "5"],
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y = (-avg_rate_fcnn .* freqs_wat_mnist_eff),
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name = "LeNet wat",
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marker = attr(symbol = 2, color = "rgb(255,187,034)", line_width = 1.0),
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),
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scatter(
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x = ["1", "2", "3", "4", "5"],
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y = (-avg_rate_fcnn .* freqs_acc_mnist_eff),
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name = "LeNet acc",
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marker = attr(symbol = 0, color = "rgb(255,204,051)", line_width = 1.0),
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),
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scatter(
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x = ["1", "2", "3", "4", "5"],
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y = (-avg_rate_bcnn .* bayes_100_mnist_eff),
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name = "BCNN 100",
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marker = attr(symbol = 4, color = "rgb(055,033,240)", line_width = 1.0),
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),
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scatter(
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x = ["1", "2", "3", "4", "5"],
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y = (-avg_rate_bcnn .* bayes_est_mnist_eff),
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name = "BCNN est",
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marker = attr(symbol = 17, color = "rgb(033,081,240)", line_width = 1.0),
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),
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scatter(
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x = ["1", "2", "3", "4", "5"],
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y = (-avg_rate_bcnn .* bayes_wat_mnist_eff),
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name = "BCNN wat",
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marker = attr(symbol = 2, color = "rgb(033,115,240)", line_width = 1.0),
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),
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scatter(
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x = ["1", "2", "3", "4", "5"],
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y = (-avg_rate_bcnn .* bayes_acc_mnist_eff),
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name = "BCNN acc",
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marker = attr(symbol = 0, color = "rgb(151,177,255)", line_width = 1.0),
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),
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],
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Layout(
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mode = "overlay",
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xaxis_tickangle = -45,
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yaxis_title_text = "ΔEfficency",
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xaxis_title_text = "Size";
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xaxis_range = [-1, 5],
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xaxis_type = "category",
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),
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)
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savefig(en_plot, "mnist_eff_exp.png")
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en_plot = plot(
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[
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scatter(
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x = ["1", "2", "3", "4", "5"],
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y = (-avg_rate_fcnn .* freqs_100_cifar_eff),
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name = "LeNet 100",
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marker = attr(symbol = 4, color = "rgb(211,120,000)", line_width = 1.0),
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),
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scatter(
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x = ["1", "2", "3", "4", "5"],
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y = (-avg_rate_fcnn .* freqs_est_cifar_eff),
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name = "LeNet est",
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marker = attr(symbol = 17, color = "rgb(255,170,017)", line_width = 1.0),
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),
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scatter(
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x = ["1", "2", "3", "4", "5"],
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y = (-avg_rate_fcnn .* freqs_wat_cifar_eff),
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name = "LeNet wat",
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marker = attr(symbol = 2, color = "rgb(255,187,034)", line_width = 1.0),
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),
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scatter(
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x = ["1", "2", "3", "4", "5"],
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y = (-avg_rate_fcnn .* freqs_acc_cifar_eff),
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name = "LeNet acc",
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marker = attr(symbol = 0, color = "rgb(255,204,051)", line_width = 1.0),
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),
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scatter(
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x = ["1", "2", "3", "4", "5"],
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y = (-avg_rate_bcnn .* bayes_100_cifar_eff),
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name = "BCNN 100",
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marker = attr(symbol = 4, color = "rgb(055,033,240)", line_width = 1.0),
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),
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scatter(
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x = ["1", "2", "3", "4", "5"],
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y = (-avg_rate_bcnn .* bayes_est_cifar_eff),
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name = "BCNN est",
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marker = attr(symbol = 17, color = "rgb(033,081,240)", line_width = 1.0),
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),
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scatter(
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x = ["1", "2", "3", "4", "5"],
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y = (-avg_rate_bcnn .* bayes_wat_cifar_eff),
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name = "BCNN wat",
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marker = attr(symbol = 2, color = "rgb(033,115,240)", line_width = 1.0),
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),
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scatter(
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x = ["1", "2", "3", "4", "5"],
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y = (-avg_rate_bcnn .* bayes_acc_cifar_eff),
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name = "BCNN acc",
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marker = attr(symbol = 0, color = "rgb(151,177,255)", line_width = 1.0),
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),
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],
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Layout(
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mode = "overlay",
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xaxis_tickangle = -45,
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yaxis_title_text = "ΔEfficency",
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xaxis_title_text = "Size";
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xaxis_range = [-1, 5],
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xaxis_type = "category",
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),
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)
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savefig(en_plot, "cifar_eff_exp.png")
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