bayesiancnn-data-parsing/energy_measure_sum.jl

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2024-05-10 10:18:47 +00:00
include("aux_func.jl")
using LinearAlgebra
using Statistics
using DataFrames
using Printf
#=
Obtain energy data
=#
#mni_folder_1 = "ini_exp_data/"
mni_folder_100 = "exp_100_epochs/";
cif_folder_100 = "CIFAR_100_epoch/";
mni_folder_acc = "data_bounded/";
cif_folder_acc = "CIFAR_acc_bound/";
mni_folder_wat = "data_budget/";
cif_folder_wat = "CIFAR_energy_bound/";
mni_folder_est = "early_stop_res/";
cif_folder_est = "CIFAR_early_stop/";
bayes_model = "bayes";
freq_model = "freq";
w_type = "watt";
e_type = "exp";
#=
Load GPU data
=#
mni_100_bay_ene = getgpudata(mni_folder_100, bayes_model, w_type, "eo");
mni_100_fre_ene = getgpudata(mni_folder_100, freq_model, w_type, "eo");
cif_100_bay_ene = getgpudata(cif_folder_100, bayes_model, w_type, "eo");
cif_100_fre_ene = getgpudata(cif_folder_100, freq_model, w_type, "eo");
mni_acc_bay_ene = getgpudata(mni_folder_acc, bayes_model, w_type, "eo");
mni_acc_fre_ene = getgpudata(mni_folder_acc, freq_model, w_type, "eo");
cif_acc_bay_ene = getgpudata(cif_folder_acc, bayes_model, w_type, "eo");
cif_acc_fre_ene = getgpudata(cif_folder_acc, freq_model, w_type, "eo");
mni_wat_bay_ene = getgpudata(mni_folder_wat, bayes_model, w_type, "eo");
mni_wat_fre_ene = getgpudata(mni_folder_wat, freq_model, w_type, "eo");
cif_wat_bay_ene = getgpudata(cif_folder_wat, bayes_model, w_type, "eo");
cif_wat_fre_ene = getgpudata(cif_folder_wat, freq_model, w_type, "eo");
mni_est_bay_ene = getgpudata(mni_folder_est, bayes_model, w_type, "eo");
mni_est_fre_ene = getgpudata(mni_folder_est, freq_model, w_type, "eo");
cif_est_bay_ene = getgpudata(cif_folder_est, bayes_model, w_type, "eo");
cif_est_fre_ene = getgpudata(cif_folder_est, freq_model, w_type, "eo");
#=
Define CPU paths
=#
cif = "cifar";
mni = "mnist";
bay = "bayes";
wat = "cpu_watts";
frq = "freq";
ram = "ram_use";
_100 = "100";
acc = "acc";
es = "es";
wbud = "wbud";
#=
Load CPU data
=#
bay_cif_100_ene = readcpudata(cif, bay, wat, _100);
bay_mni_100_ene = readcpudata(mni, bay, wat, _100);
frq_cif_100_ene = readcpudata(cif, frq, wat, _100);
frq_mni_100_ene = readcpudata(mni, frq, wat, _100);
bay_cif_acc_ene = readcpudata(cif, bay, wat, acc);
bay_mni_acc_ene = readcpudata(mni, bay, wat, acc);
frq_cif_acc_ene = readcpudata(cif, frq, wat, acc);
frq_mni_acc_ene = readcpudata(mni, frq, wat, acc);
bay_cif_wbu_ene = readcpudata(cif, bay, wat, wbud);
bay_mni_wbu_ene = readcpudata(mni, bay, wat, wbud);
frq_cif_wbu_ene = readcpudata(cif, frq, wat, wbud);
frq_mni_wbu_ene = readcpudata(mni, frq, wat, wbud);
bay_mni_est_ene = readcpudata(mni, bay, wat, es);
bay_cif_est_ene = readcpudata(cif, bay, wat, es);
frq_cif_est_ene = readcpudata(cif, frq, wat, es);
frq_mni_est_ene = readcpudata(mni, frq, wat, es);
for s = 1:5
bay_cif_acc_ene[s] = round.(getcpuwatt(bay_cif_acc_ene[s]))
bay_cif_est_ene[s] = round.(getcpuwatt(bay_cif_est_ene[s]))
bay_cif_wbu_ene[s] = round.(getcpuwatt(bay_cif_wbu_ene[s]))
bay_cif_100_ene[s] = round.(getcpuwatt(bay_cif_100_ene[s]))
bay_mni_acc_ene[s] = round.(getcpuwatt(bay_mni_acc_ene[s]))
bay_mni_est_ene[s] = round.(getcpuwatt(bay_mni_est_ene[s]))
bay_mni_wbu_ene[s] = round.(getcpuwatt(bay_mni_wbu_ene[s]))
bay_mni_100_ene[s] = round.(getcpuwatt(bay_mni_100_ene[s]))
frq_cif_acc_ene[s] = round.(getcpuwatt(frq_cif_acc_ene[s]))
frq_cif_est_ene[s] = round.(getcpuwatt(frq_cif_est_ene[s]))
frq_cif_wbu_ene[s] = round.(getcpuwatt(frq_cif_wbu_ene[s]))
frq_cif_100_ene[s] = round.(getcpuwatt(frq_cif_100_ene[s]))
frq_mni_acc_ene[s] = round.(getcpuwatt(frq_mni_acc_ene[s]))
frq_mni_est_ene[s] = round.(getcpuwatt(frq_mni_est_ene[s]))
frq_mni_wbu_ene[s] = round.(getcpuwatt(frq_mni_wbu_ene[s]))
frq_mni_100_ene[s] = round.(getcpuwatt(frq_mni_100_ene[s]))
end
for s = 1:5
mni_100_bay_ene[s]["Ene"] = vcat(mni_100_bay_ene[s]["Ene"], bay_mni_100_ene[s])
mni_100_fre_ene[s]["Ene"] = vcat(mni_100_fre_ene[s]["Ene"], frq_mni_100_ene[s])
cif_100_bay_ene[s]["Ene"] = vcat(cif_100_bay_ene[s]["Ene"], bay_cif_100_ene[s])
cif_100_fre_ene[s]["Ene"] = vcat(cif_100_fre_ene[s]["Ene"], frq_cif_100_ene[s])
mni_acc_bay_ene[s]["Ene"] = vcat(mni_acc_bay_ene[s]["Ene"], bay_mni_acc_ene[s])
mni_acc_fre_ene[s]["Ene"] = vcat(mni_acc_fre_ene[s]["Ene"], frq_mni_acc_ene[s])
cif_acc_bay_ene[s]["Ene"] = vcat(cif_acc_bay_ene[s]["Ene"], bay_cif_acc_ene[s])
cif_acc_fre_ene[s]["Ene"] = vcat(cif_acc_fre_ene[s]["Ene"], frq_cif_acc_ene[s])
mni_wat_bay_ene[s]["Ene"] = vcat(mni_wat_bay_ene[s]["Ene"], bay_mni_wbu_ene[s])
mni_wat_fre_ene[s]["Ene"] = vcat(mni_wat_fre_ene[s]["Ene"], frq_mni_wbu_ene[s])
cif_wat_bay_ene[s]["Ene"] = vcat(cif_wat_bay_ene[s]["Ene"], bay_cif_wbu_ene[s])
cif_wat_fre_ene[s]["Ene"] = vcat(cif_wat_fre_ene[s]["Ene"], frq_cif_wbu_ene[s])
mni_est_bay_ene[s]["Ene"] = vcat(mni_est_bay_ene[s]["Ene"], bay_mni_est_ene[s])
mni_est_fre_ene[s]["Ene"] = vcat(mni_est_fre_ene[s]["Ene"], frq_mni_est_ene[s])
cif_est_bay_ene[s]["Ene"] = vcat(cif_est_bay_ene[s]["Ene"], bay_cif_est_ene[s])
cif_est_fre_ene[s]["Ene"] = vcat(cif_est_fre_ene[s]["Ene"], frq_cif_est_ene[s])
end
all_data_ene = Dict(
"mni" => Dict(
1 => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
2 => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
3 => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
4 => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
5 => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
),
"cif" => Dict(
1 => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
2 => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
3 => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
4 => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
5 => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
),
)
for s = 1:5
all_data_ene["mni"][s]["100"]["bay"] = sum(mni_100_bay_ene[s]["Ene"][1:50])
all_data_ene["mni"][s]["100"]["frq"] = sum(mni_100_fre_ene[s]["Ene"][1:50])
all_data_ene["cif"][s]["100"]["bay"] = sum(cif_100_bay_ene[s]["Ene"][1:50])
all_data_ene["cif"][s]["100"]["frq"] = sum(cif_100_fre_ene[s]["Ene"][1:50])
all_data_ene["mni"][s]["acc"]["bay"] = sum(mni_acc_bay_ene[s]["Ene"])
all_data_ene["mni"][s]["acc"]["frq"] = sum(mni_acc_fre_ene[s]["Ene"])
all_data_ene["cif"][s]["acc"]["bay"] = sum(cif_acc_bay_ene[s]["Ene"])
all_data_ene["cif"][s]["acc"]["frq"] = sum(cif_acc_fre_ene[s]["Ene"])
all_data_ene["mni"][s]["wat"]["bay"] = sum(mni_wat_bay_ene[s]["Ene"])
all_data_ene["mni"][s]["wat"]["frq"] = sum(mni_wat_fre_ene[s]["Ene"])
all_data_ene["cif"][s]["wat"]["bay"] = sum(cif_wat_bay_ene[s]["Ene"])
all_data_ene["cif"][s]["wat"]["frq"] = sum(cif_wat_fre_ene[s]["Ene"])
all_data_ene["mni"][s]["est"]["bay"] = sum(mni_est_bay_ene[s]["Ene"])
all_data_ene["mni"][s]["est"]["frq"] = sum(mni_est_fre_ene[s]["Ene"])
all_data_ene["cif"][s]["est"]["bay"] = sum(cif_est_bay_ene[s]["Ene"])
all_data_ene["cif"][s]["est"]["frq"] = sum(cif_est_fre_ene[s]["Ene"])
end
#=
Load Accuracy data
=#
mni_100_bay_exp = getgpudata(mni_folder_100, bayes_model, e_type, "eo");
mni_100_fre_exp = getgpudata(mni_folder_100, freq_model, e_type, "eo");
cif_100_bay_exp = getgpudata(cif_folder_100, bayes_model, e_type, "eo");
cif_100_fre_exp = getgpudata(cif_folder_100, freq_model, e_type, "eo");
mni_acc_bay_exp = getgpudata(mni_folder_acc, bayes_model, e_type, "eo");
mni_acc_fre_exp = getgpudata(mni_folder_acc, freq_model, e_type, "eo");
cif_acc_bay_exp = getgpudata(cif_folder_acc, bayes_model, e_type, "eo");
cif_acc_fre_exp = getgpudata(cif_folder_acc, freq_model, e_type, "eo");
mni_wat_bay_exp = getgpudata(mni_folder_wat, bayes_model, e_type, "eo");
mni_wat_fre_exp = getgpudata(mni_folder_wat, freq_model, e_type, "eo");
cif_wat_bay_exp = getgpudata(cif_folder_wat, bayes_model, e_type, "eo");
cif_wat_fre_exp = getgpudata(cif_folder_wat, freq_model, e_type, "eo");
mni_est_bay_exp = getgpudata(mni_folder_est, bayes_model, e_type, "eo");
mni_est_fre_exp = getgpudata(mni_folder_est, freq_model, e_type, "eo");
cif_est_bay_exp = getgpudata(cif_folder_est, bayes_model, e_type, "eo");
cif_est_fre_exp = getgpudata(cif_folder_est, freq_model, e_type, "eo");
for i = 1:5
mni_100_bay_exp[i] = expdatatodict(mni_100_bay_exp[i])
mni_100_fre_exp[i] = expdatatodict(mni_100_fre_exp[i])
cif_100_bay_exp[i] = expdatatodict(cif_100_bay_exp[i])
cif_100_fre_exp[i] = expdatatodict(cif_100_fre_exp[i])
mni_acc_bay_exp[i] = expdatatodict(mni_acc_bay_exp[i])
mni_acc_fre_exp[i] = expdatatodict(mni_acc_fre_exp[i])
cif_acc_bay_exp[i] = expdatatodict(cif_acc_bay_exp[i])
cif_acc_fre_exp[i] = expdatatodict(cif_acc_fre_exp[i])
mni_wat_bay_exp[i] = expdatatodict(mni_wat_bay_exp[i])
mni_wat_fre_exp[i] = expdatatodict(mni_wat_fre_exp[i])
cif_wat_bay_exp[i] = expdatatodict(cif_wat_bay_exp[i])
cif_wat_fre_exp[i] = expdatatodict(cif_wat_fre_exp[i])
mni_est_bay_exp[i] = expdatatodict(mni_est_bay_exp[i])
mni_est_fre_exp[i] = expdatatodict(mni_est_fre_exp[i])
cif_est_bay_exp[i] = expdatatodict(cif_est_bay_exp[i])
cif_est_fre_exp[i] = expdatatodict(cif_est_fre_exp[i])
end
all_data_exp = Dict(
"mni" => Dict(
1 => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
2 => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
3 => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
4 => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
5 => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
),
"cif" => Dict(
1 => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
2 => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
3 => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
4 => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
5 => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
),
)
for s = 1:5
all_data_exp["mni"][s]["100"]["bay"] =
(mean(mni_100_bay_exp[s]["acc"]) + mean(mni_100_bay_exp[s]["pre"])) / 2
all_data_exp["mni"][s]["100"]["frq"] =
(mean(mni_100_fre_exp[s]["acc"]) + mean(mni_100_fre_exp[s]["pre"])) / 2
all_data_exp["cif"][s]["100"]["bay"] =
(mean(cif_100_bay_exp[s]["acc"]) + mean(cif_100_bay_exp[s]["pre"])) / 2
all_data_exp["cif"][s]["100"]["frq"] =
(mean(cif_100_fre_exp[s]["acc"]) + mean(cif_100_fre_exp[s]["pre"])) / 2
all_data_exp["mni"][s]["acc"]["bay"] =
(mean(mni_acc_bay_exp[s]["acc"]) + mean(mni_acc_bay_exp[s]["pre"])) / 2
all_data_exp["mni"][s]["acc"]["frq"] =
(mean(mni_acc_fre_exp[s]["acc"]) + mean(mni_acc_fre_exp[s]["pre"])) / 2
all_data_exp["cif"][s]["acc"]["bay"] =
(mean(cif_acc_bay_exp[s]["acc"]) + mean(cif_acc_bay_exp[s]["pre"])) / 2
all_data_exp["cif"][s]["acc"]["frq"] =
(mean(cif_acc_fre_exp[s]["acc"]) + mean(cif_acc_fre_exp[s]["pre"])) / 2
all_data_exp["mni"][s]["wat"]["bay"] =
(mean(mni_wat_bay_exp[s]["acc"]) + mean(mni_wat_bay_exp[s]["pre"])) / 2
all_data_exp["mni"][s]["wat"]["frq"] =
(mean(mni_wat_fre_exp[s]["acc"]) + mean(mni_wat_fre_exp[s]["pre"])) / 2
all_data_exp["cif"][s]["wat"]["bay"] =
(mean(cif_wat_bay_exp[s]["acc"]) + mean(cif_wat_bay_exp[s]["pre"])) / 2
all_data_exp["cif"][s]["wat"]["frq"] =
(mean(cif_wat_fre_exp[s]["acc"]) + mean(cif_wat_fre_exp[s]["pre"])) / 2
all_data_exp["mni"][s]["est"]["bay"] =
(mean(mni_est_bay_exp[s]["acc"]) + mean(mni_est_bay_exp[s]["pre"])) / 2
all_data_exp["mni"][s]["est"]["frq"] =
(mean(mni_est_fre_exp[s]["acc"]) + mean(mni_est_fre_exp[s]["pre"])) / 2
all_data_exp["cif"][s]["est"]["bay"] =
(mean(cif_est_bay_exp[s]["acc"]) + mean(cif_est_bay_exp[s]["pre"])) / 2
all_data_exp["cif"][s]["est"]["frq"] =
(mean(cif_est_fre_exp[s]["acc"]) + mean(cif_est_fre_exp[s]["pre"])) / 2
end
#=
# Per size efficiency
=#
efficiency_per_size = Dict(
"frq" => Dict(
"mni" => Dict(
"100" => Dict("1" => 0.0, "2" => 0.0, "3" => 0.0, "4" => 0.0, "5" => 0.0),
"est" => Dict("1" => 0.0, "2" => 0.0, "3" => 0.0, "4" => 0.0, "5" => 0.0),
"acc" => Dict("1" => 0.0, "2" => 0.0, "3" => 0.0, "4" => 0.0, "5" => 0.0),
"wat" => Dict("1" => 0.0, "2" => 0.0, "3" => 0.0, "4" => 0.0, "5" => 0.0),
),
"cif" => Dict(
"100" => Dict("1" => 0.0, "2" => 0.0, "3" => 0.0, "4" => 0.0, "5" => 0.0),
"est" => Dict("1" => 0.0, "2" => 0.0, "3" => 0.0, "4" => 0.0, "5" => 0.0),
"acc" => Dict("1" => 0.0, "2" => 0.0, "3" => 0.0, "4" => 0.0, "5" => 0.0),
"wat" => Dict("1" => 0.0, "2" => 0.0, "3" => 0.0, "4" => 0.0, "5" => 0.0),
),
),
"bay" => Dict(
"mni" => Dict(
"100" => Dict("1" => 0.0, "2" => 0.0, "3" => 0.0, "4" => 0.0, "5" => 0.0),
"est" => Dict("1" => 0.0, "2" => 0.0, "3" => 0.0, "4" => 0.0, "5" => 0.0),
"acc" => Dict("1" => 0.0, "2" => 0.0, "3" => 0.0, "4" => 0.0, "5" => 0.0),
"wat" => Dict("1" => 0.0, "2" => 0.0, "3" => 0.0, "4" => 0.0, "5" => 0.0),
),
"cif" => Dict(
"100" => Dict("1" => 0.0, "2" => 0.0, "3" => 0.0, "4" => 0.0, "5" => 0.0),
"est" => Dict("1" => 0.0, "2" => 0.0, "3" => 0.0, "4" => 0.0, "5" => 0.0),
"acc" => Dict("1" => 0.0, "2" => 0.0, "3" => 0.0, "4" => 0.0, "5" => 0.0),
"wat" => Dict("1" => 0.0, "2" => 0.0, "3" => 0.0, "4" => 0.0, "5" => 0.0),
),
),
)
data_type = ["mni", "cif"]
model_type = ["bay", "frq"]
experiment_type = ["100", "est", "acc", "wat"]
what = collect(Iterators.product(model_type, data_type, experiment_type, 1:5))
for t in what
#@printf "model: $(t[1]), data: $(t[2]), experiment: $(t[3]), size: $(t[4])")
#@printf all_data_exp[t[2]][t[4]][t[3]][t[1]]/all_data_ene[t[2]][t[4]][t[3]][t[1]] )
efficiency_per_size[t[1]][t[2]][t[3]][string(t[4])] =
all_data_exp[t[2]][t[4]][t[3]][t[1]] / all_data_ene[t[2]][t[4]][t[3]][t[1]]
end
save_pickle("efficiency_per_size_sum_old.pkl", efficiency_per_size)
save_pickle("energy_complete_sum_old.pkl", all_data_ene)
#=
# Accuracy means
=#
#=
comp_exp = Dict(
"mni" => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
"cif" => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
)
comp_exp["mni"]["100"]["frq"] =
(
all_data_exp["mni"][1]["100"]["frq"] +
all_data_exp["mni"][2]["100"]["frq"] +
all_data_exp["mni"][3]["100"]["frq"] +
all_data_exp["mni"][4]["100"]["frq"] +
all_data_exp["mni"][5]["100"]["frq"]
) / 5
comp_exp["mni"]["100"]["bay"] =
(
all_data_exp["mni"][1]["100"]["bay"] +
all_data_exp["mni"][2]["100"]["bay"] +
all_data_exp["mni"][3]["100"]["bay"] +
all_data_exp["mni"][4]["100"]["bay"] +
all_data_exp["mni"][5]["100"]["bay"]
) / 5
comp_exp["cif"]["100"]["frq"] =
(
all_data_exp["cif"][1]["100"]["frq"] +
all_data_exp["cif"][2]["100"]["frq"] +
all_data_exp["cif"][3]["100"]["frq"] +
all_data_exp["cif"][4]["100"]["frq"] +
all_data_exp["cif"][5]["100"]["frq"]
) / 5
comp_exp["cif"]["100"]["bay"] =
(
all_data_exp["cif"][1]["100"]["bay"] +
all_data_exp["cif"][2]["100"]["bay"] +
all_data_exp["cif"][3]["100"]["bay"] +
all_data_exp["cif"][4]["100"]["bay"] +
all_data_exp["cif"][5]["100"]["bay"]
) / 5
comp_exp["mni"]["acc"]["frq"] =
(
all_data_exp["mni"][1]["acc"]["frq"] +
all_data_exp["mni"][2]["acc"]["frq"] +
all_data_exp["mni"][3]["acc"]["frq"] +
all_data_exp["mni"][4]["acc"]["frq"] +
all_data_exp["mni"][5]["acc"]["frq"]
) / 5
comp_exp["mni"]["acc"]["bay"] =
(
all_data_exp["mni"][1]["acc"]["bay"] +
all_data_exp["mni"][2]["acc"]["bay"] +
all_data_exp["mni"][3]["acc"]["bay"] +
all_data_exp["mni"][4]["acc"]["bay"] +
all_data_exp["mni"][5]["acc"]["bay"]
) / 5
comp_exp["cif"]["acc"]["frq"] =
(
all_data_exp["cif"][1]["acc"]["frq"] +
all_data_exp["cif"][2]["acc"]["frq"] +
all_data_exp["cif"][3]["acc"]["frq"] +
all_data_exp["cif"][4]["acc"]["frq"] +
all_data_exp["cif"][5]["acc"]["frq"]
) / 5
comp_exp["cif"]["acc"]["bay"] =
(
all_data_exp["cif"][1]["acc"]["bay"] +
all_data_exp["cif"][2]["acc"]["bay"] +
all_data_exp["cif"][3]["acc"]["bay"] +
all_data_exp["cif"][4]["acc"]["bay"] +
all_data_exp["cif"][5]["acc"]["bay"]
) / 5
comp_exp["mni"]["wat"]["frq"] =
(
all_data_exp["mni"][1]["wat"]["frq"] +
all_data_exp["mni"][2]["wat"]["frq"] +
all_data_exp["mni"][3]["wat"]["frq"] +
all_data_exp["mni"][4]["wat"]["frq"] +
all_data_exp["mni"][5]["wat"]["frq"]
) / 5
comp_exp["mni"]["wat"]["bay"] =
(
all_data_exp["mni"][1]["wat"]["bay"] +
all_data_exp["mni"][2]["wat"]["bay"] +
all_data_exp["mni"][3]["wat"]["bay"] +
all_data_exp["mni"][4]["wat"]["bay"] +
all_data_exp["mni"][5]["wat"]["bay"]
) / 5
comp_exp["cif"]["wat"]["frq"] =
(
all_data_exp["cif"][1]["wat"]["frq"] +
all_data_exp["cif"][2]["wat"]["frq"] +
all_data_exp["cif"][3]["wat"]["frq"] +
all_data_exp["cif"][4]["wat"]["frq"] +
all_data_exp["cif"][5]["wat"]["frq"]
) / 5
comp_exp["cif"]["wat"]["bay"] =
(
all_data_exp["cif"][1]["wat"]["bay"] +
all_data_exp["cif"][2]["wat"]["bay"] +
all_data_exp["cif"][3]["wat"]["bay"] +
all_data_exp["cif"][4]["wat"]["bay"] +
all_data_exp["cif"][5]["wat"]["bay"]
) / 5
comp_exp["mni"]["est"]["frq"] =
(
all_data_exp["mni"][1]["est"]["frq"] +
all_data_exp["mni"][2]["est"]["frq"] +
all_data_exp["mni"][3]["est"]["frq"] +
all_data_exp["mni"][4]["est"]["frq"] +
all_data_exp["mni"][5]["est"]["frq"]
) / 5
comp_exp["mni"]["est"]["bay"] =
(
all_data_exp["mni"][1]["est"]["bay"] +
all_data_exp["mni"][2]["est"]["bay"] +
all_data_exp["mni"][3]["est"]["bay"] +
all_data_exp["mni"][4]["est"]["bay"] +
all_data_exp["mni"][5]["est"]["bay"]
) / 5
comp_exp["cif"]["est"]["frq"] =
(
all_data_exp["cif"][1]["est"]["frq"] +
all_data_exp["cif"][2]["est"]["frq"] +
all_data_exp["cif"][3]["est"]["frq"] +
all_data_exp["cif"][4]["est"]["frq"] +
all_data_exp["cif"][5]["est"]["frq"]
) / 5
comp_exp["cif"]["est"]["bay"] =
(
all_data_exp["cif"][1]["est"]["bay"] +
all_data_exp["cif"][2]["est"]["bay"] +
all_data_exp["cif"][3]["est"]["bay"] +
all_data_exp["cif"][4]["est"]["bay"] +
all_data_exp["cif"][5]["est"]["bay"]
) / 5
#=
# Energy means
=#
comp_ene = Dict(
"mni" => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
"cif" => Dict(
"100" => Dict("bay" => 0.0, "frq" => 0.0),
"acc" => Dict("bay" => 0.0, "frq" => 0.0),
"wat" => Dict("bay" => 0.0, "frq" => 0.0),
"est" => Dict("bay" => 0.0, "frq" => 0.0),
),
)
comp_ene["mni"]["100"]["frq"] =
(
all_data_ene["mni"][1]["100"]["frq"] +
all_data_ene["mni"][2]["100"]["frq"] +
all_data_ene["mni"][3]["100"]["frq"] +
all_data_ene["mni"][4]["100"]["frq"] +
all_data_ene["mni"][5]["100"]["frq"]
) / 5
comp_ene["mni"]["100"]["bay"] =
(
all_data_ene["mni"][1]["100"]["bay"] +
all_data_ene["mni"][2]["100"]["bay"] +
all_data_ene["mni"][3]["100"]["bay"] +
all_data_ene["mni"][4]["100"]["bay"] +
all_data_ene["mni"][5]["100"]["bay"]
) / 5
comp_ene["cif"]["100"]["frq"] =
(
all_data_ene["cif"][1]["100"]["frq"] +
all_data_ene["cif"][2]["100"]["frq"] +
all_data_ene["cif"][3]["100"]["frq"] +
all_data_ene["cif"][4]["100"]["frq"] +
all_data_ene["cif"][5]["100"]["frq"]
) / 5
comp_ene["cif"]["100"]["bay"] =
(
all_data_ene["cif"][1]["100"]["bay"] +
all_data_ene["cif"][2]["100"]["bay"] +
all_data_ene["cif"][3]["100"]["bay"] +
all_data_ene["cif"][4]["100"]["bay"] +
all_data_ene["cif"][5]["100"]["bay"]
) / 5
comp_ene["mni"]["acc"]["frq"] =
(
all_data_ene["mni"][1]["acc"]["frq"] +
all_data_ene["mni"][2]["acc"]["frq"] +
all_data_ene["mni"][3]["acc"]["frq"] +
all_data_ene["mni"][4]["acc"]["frq"] +
all_data_ene["mni"][5]["acc"]["frq"]
) / 5
comp_ene["mni"]["acc"]["bay"] =
(
all_data_ene["mni"][1]["acc"]["bay"] +
all_data_ene["mni"][2]["acc"]["bay"] +
all_data_ene["mni"][3]["acc"]["bay"] +
all_data_ene["mni"][4]["acc"]["bay"] +
all_data_ene["mni"][5]["acc"]["bay"]
) / 5
comp_ene["cif"]["acc"]["frq"] =
(
all_data_ene["cif"][1]["acc"]["frq"] +
all_data_ene["cif"][2]["acc"]["frq"] +
all_data_ene["cif"][3]["acc"]["frq"] +
all_data_ene["cif"][4]["acc"]["frq"] +
all_data_ene["cif"][5]["acc"]["frq"]
) / 5
comp_ene["cif"]["acc"]["bay"] =
(
all_data_ene["cif"][1]["acc"]["bay"] +
all_data_ene["cif"][2]["acc"]["bay"] +
all_data_ene["cif"][3]["acc"]["bay"] +
all_data_ene["cif"][4]["acc"]["bay"] +
all_data_ene["cif"][5]["acc"]["bay"]
) / 5
comp_ene["mni"]["wat"]["frq"] =
(
all_data_ene["mni"][1]["wat"]["frq"] +
all_data_ene["mni"][2]["wat"]["frq"] +
all_data_ene["mni"][3]["wat"]["frq"] +
all_data_ene["mni"][4]["wat"]["frq"] +
all_data_ene["mni"][5]["wat"]["frq"]
) / 5
comp_ene["mni"]["wat"]["bay"] =
(
all_data_ene["mni"][1]["wat"]["bay"] +
all_data_ene["mni"][2]["wat"]["bay"] +
all_data_ene["mni"][3]["wat"]["bay"] +
all_data_ene["mni"][4]["wat"]["bay"] +
all_data_ene["mni"][5]["wat"]["bay"]
) / 5
comp_ene["cif"]["wat"]["frq"] =
(
all_data_ene["cif"][1]["wat"]["frq"] +
all_data_ene["cif"][2]["wat"]["frq"] +
all_data_ene["cif"][3]["wat"]["frq"] +
all_data_ene["cif"][4]["wat"]["frq"] +
all_data_ene["cif"][5]["wat"]["frq"]
) / 5
comp_ene["cif"]["wat"]["bay"] =
(
all_data_ene["cif"][1]["wat"]["bay"] +
all_data_ene["cif"][2]["wat"]["bay"] +
all_data_ene["cif"][3]["wat"]["bay"] +
all_data_ene["cif"][4]["wat"]["bay"] +
all_data_ene["cif"][5]["wat"]["bay"]
) / 5
comp_ene["mni"]["est"]["frq"] =
(
all_data_ene["mni"][1]["est"]["frq"] +
all_data_ene["mni"][2]["est"]["frq"] +
all_data_ene["mni"][3]["est"]["frq"] +
all_data_ene["mni"][4]["est"]["frq"] +
all_data_ene["mni"][5]["est"]["frq"]
) / 5
comp_ene["mni"]["est"]["bay"] =
(
all_data_ene["mni"][1]["est"]["bay"] +
all_data_ene["mni"][2]["est"]["bay"] +
all_data_ene["mni"][3]["est"]["bay"] +
all_data_ene["mni"][4]["est"]["bay"] +
all_data_ene["mni"][5]["est"]["bay"]
) / 5
comp_ene["cif"]["est"]["frq"] =
(
all_data_ene["cif"][1]["est"]["frq"] +
all_data_ene["cif"][2]["est"]["frq"] +
all_data_ene["cif"][3]["est"]["frq"] +
all_data_ene["cif"][4]["est"]["frq"] +
all_data_ene["cif"][5]["est"]["frq"]
) / 5
comp_ene["cif"]["est"]["bay"] =
(
all_data_ene["cif"][1]["est"]["bay"] +
all_data_ene["cif"][2]["est"]["bay"] +
all_data_ene["cif"][3]["est"]["bay"] +
all_data_ene["cif"][4]["est"]["bay"] +
all_data_ene["cif"][5]["est"]["bay"]
) / 5
=#
#=
Accuracy
=#
for s = 1:5
@printf "MNIST Bayes accuracy size %i 100: %-.8f\n" s all_data_exp["mni"][s]["100"]["bay"]
end
for s = 1:5
@printf "MNIST Freq accuracy size %i 100: %-.8f\n" s all_data_exp["mni"][s]["100"]["frq"]
end
for s = 1:5
@printf "CIFAR Bayes accuracy size %i 100: %-.8f\n" s all_data_exp["cif"][s]["100"]["bay"]
end
for s = 1:5
@printf "CIFAR Freq accuracy size %i 100: %-.8f\n" s all_data_exp["cif"][s]["100"]["frq"]
end
for s = 1:5
@printf "MNIST Bayes accuracy size %i Est: %-.8f\n" s all_data_exp["mni"][s]["est"]["bay"]
end
for s = 1:5
@printf "MNIST Freq accuracy size %i Est: %-.8f\n" s all_data_exp["mni"][s]["est"]["frq"]
end
for s = 1:5
@printf "CIFAR Bayes accuracy size %i Est: %-.8f\n" s all_data_exp["cif"][s]["est"]["bay"]
end
for s = 1:5
@printf "CIFAR Freq accuracy size %i Est: %-.8f\n" s all_data_exp["cif"][s]["est"]["frq"]
end
for s = 1:5
@printf "MNIST Bayes accuracy size %i Wat: %-.8f\n" s all_data_exp["mni"][s]["wat"]["bay"]
end
for s = 1:5
@printf "MNIST Freq accuracy size %i Wat: %-.8f\n" s all_data_exp["mni"][s]["wat"]["frq"]
end
for s = 1:5
@printf "CIFAR Bayes accuracy size %i Wat: %-.8f\n" s all_data_exp["cif"][s]["wat"]["bay"]
end
for s = 1:5
@printf "CIFAR Freq accuracy size %i Wat: %-.8f\n" s all_data_exp["cif"][s]["wat"]["frq"]
end
for s = 1:5
@printf "MNIST Bayes accuracy size %i Acc: %-.8f\n" s all_data_exp["mni"][s]["acc"]["bay"]
end
for s = 1:5
@printf "MNIST Freq accuracy size %i Acc: %-.8f\n" s all_data_exp["mni"][s]["acc"]["frq"]
end
for s = 1:5
@printf "CIFAR Bayes accuracy size %i Acc: %-.8f\n" s all_data_exp["cif"][s]["acc"]["bay"]
end
for s = 1:5
@printf "CIFAR Freq accuracy size %i Acc: %-.8f\n" s all_data_exp["cif"][s]["acc"]["frq"]
end
#=
Energy
=#
for s = 1:5
@printf "MNIST Bayes energy size %i 100: %-.8f\n" s all_data_ene["mni"][s]["100"]["bay"]
end
for s = 1:5
@printf "MNIST Freq energy size %i 100: %-.8f\n" s all_data_ene["mni"][s]["100"]["frq"]
end
for s = 1:5
@printf "CIFAR Bayes energy size %i 100: %-.8f\n" s all_data_ene["cif"][s]["100"]["bay"]
end
for s = 1:5
@printf "CIFAR Freq energy size %i 100: %-.8f\n" s all_data_ene["cif"][s]["100"]["frq"]
end
for s = 1:5
@printf "MNIST Bayes energy size %i Est: %-.8f\n" s all_data_ene["mni"][s]["est"]["bay"]
end
for s = 1:5
@printf "MNIST Freq energy size %i Est: %-.8f\n" s all_data_ene["mni"][s]["est"]["frq"]
end
for s = 1:5
@printf "CIFAR Bayes energy size %i Est: %-.8f\n" s all_data_ene["cif"][s]["est"]["bay"]
end
for s = 1:5
@printf "CIFAR Freq energy size %i Est: %-.8f\n" s all_data_ene["cif"][s]["est"]["frq"]
end
for s = 1:5
@printf "MNIST Bayes energy size %i Wat: %-.8f\n" s all_data_ene["mni"][s]["wat"]["bay"]
end
for s = 1:5
@printf "MNIST Freq energy size %i Wat: %-.8f\n" s all_data_ene["mni"][s]["wat"]["frq"]
end
for s = 1:5
@printf "CIFAR Bayes energy size %i Wat: %-.8f\n" s all_data_ene["cif"][s]["wat"]["bay"]
end
for s = 1:5
@printf "CIFAR Freq energy size %i Wat: %-.8f\n" s all_data_ene["cif"][s]["wat"]["frq"]
end
for s = 1:5
@printf "MNIST Bayes energy size %i Acc: %-.8f\n" s all_data_ene["mni"][s]["acc"]["bay"]
end
for s = 1:5
@printf "MNIST Freq energy size %i Acc: %-.8f\n" s all_data_ene["mni"][s]["acc"]["frq"]
end
for s = 1:5
@printf "CIFAR Bayes energy size %i Acc: %-.8f\n" s all_data_ene["cif"][s]["acc"]["bay"]
end
for s = 1:5
@printf "CIFAR Freq energy size %i Acc: %-.8f\n" s all_data_ene["cif"][s]["acc"]["frq"]
end
#=
#=
Efficiency
=#
for s = 1:5
@printf "MNIST Bayes efficiency size %i 100: %-.8f\n" s all_data_exp["mni"][s]["100"]["bay"]/all_data_ene["mni"][s]["100"]["bay"]
end
for s = 1:5
@printf "MNIST Freq efficiency size %i 100: %-.8f\n" s all_data_exp["mni"][s]["100"]["frq"]/all_data_ene["mni"][s]["100"]["frq"]
end
for s = 1:5
@printf "CIFAR Bayes efficiency size %i 100: %-.8f\n" s all_data_exp["cif"][s]["100"]["bay"]/all_data_ene["cif"][s]["100"]["bay"]
end
for s = 1:5
@printf "CIFAR Freq efficiency size %i 100: %-.8f\n" s all_data_exp["cif"][s]["100"]["frq"]/all_data_ene["cif"][s]["100"]["frq"]
end
for s = 1:5
@printf "MNIST Bayes efficiency size %i Est: %-.8f\n" s all_data_exp["mni"][s]["est"]["bay"]/all_data_ene["mni"][s]["est"]["bay"]
end
for s = 1:5
@printf "MNIST Freq efficiency size %i Est: %-.8f\n" s all_data_exp["mni"][s]["est"]["frq"]/all_data_ene["mni"][s]["est"]["frq"]
end
for s = 1:5
@printf "CIFAR Bayes efficiency size %i Est: %-.8f\n" s all_data_exp["cif"][s]["est"]["bay"]/all_data_ene["cif"][s]["est"]["bay"]
end
for s = 1:5
@printf "CIFAR Freq efficiency size %i Est: %-.8f\n" s all_data_exp["cif"][s]["est"]["frq"]/all_data_ene["cif"][s]["est"]["frq"]
end
for s = 1:5
@printf "MNIST Bayes efficiency size %i Wat: %-.8f\n" s all_data_exp["mni"][s]["wat"]["bay"]/all_data_ene["mni"][s]["wat"]["bay"]
end
for s = 1:5
@printf "MNIST Freq efficiency size %i Wat: %-.8f\n" s all_data_exp["mni"][s]["wat"]["frq"]/all_data_ene["mni"][s]["wat"]["frq"]
end
for s = 1:5
@printf "CIFAR Bayes efficiency size %i Wat: %-.8f\n" s all_data_exp["cif"][s]["wat"]["bay"]/all_data_ene["cif"][s]["wat"]["bay"]
end
for s = 1:5
@printf "CIFAR Freq efficiency size %i Wat: %-.8f\n" s all_data_exp["cif"][s]["wat"]["frq"]/all_data_ene["cif"][s]["wat"]["frq"]
end
for s = 1:5
@printf "MNIST Bayes efficiency size %i Acc: %-.8f\n" s all_data_exp["mni"][s]["acc"]["bay"]/all_data_ene["mni"][s]["acc"]["bay"]
end
for s = 1:5
@printf "MNIST Freq efficiency size %i Acc: %-.8f\n" s all_data_exp["mni"][s]["acc"]["frq"]/all_data_ene["mni"][s]["acc"]["frq"]
end
for s = 1:5
@printf "CIFAR Bayes efficiency size %i Acc: %-.8f\n" s all_data_exp["cif"][s]["acc"]["bay"]/all_data_ene["cif"][s]["acc"]["bay"]
end
for s = 1:5
@printf "CIFAR Freq efficiency size %i Acc: %-.8f\n" s all_data_exp["cif"][s]["acc"]["frq"]/all_data_ene["cif"][s]["acc"]["frq"]
end
#=
Metric per experiment
=#
@printf "MNIST LeNet 100 Ratio: %-.8f\n" comp_exp["mni"]["100"]["frq"] / comp_ene["mni"]["100"]["frq"]
@printf "MNIST Bayes 100 Ratio: %-.8f\n" comp_exp["mni"]["100"]["bay"] / comp_ene["mni"]["100"]["bay"]
@printf "CIFAR LeNet 100 Ratio: %-.8f\n" comp_exp["cif"]["100"]["frq"] / comp_ene["cif"]["100"]["frq"]
@printf "CIFAR Bayes 100 Ratio: %-.8f\n" comp_exp["cif"]["100"]["bay"] / comp_ene["cif"]["100"]["bay"]
@printf "MNIST LeNet Est Ratio: %-.8f\n" comp_exp["mni"]["est"]["frq"] / comp_ene["mni"]["est"]["frq"]
@printf "MNIST Bayes Est Ratio: %-.8f\n" comp_exp["mni"]["est"]["bay"] / comp_ene["mni"]["est"]["bay"]
@printf "CIFAR LeNet Est Ratio: %-.8f\n" comp_exp["cif"]["est"]["frq"] / comp_ene["cif"]["est"]["frq"]
@printf "CIFAR Bayes Est Ratio: %-.8f\n" comp_exp["cif"]["est"]["bay"] / comp_ene["cif"]["est"]["bay"]
@printf "MNIST LeNet Wat Ratio: %-.8f\n" comp_exp["mni"]["wat"]["frq"] / comp_ene["mni"]["wat"]["frq"]
@printf "MNIST Bayes Wat Ratio: %-.8f\n" comp_exp["mni"]["wat"]["bay"] / comp_ene["mni"]["wat"]["bay"]
@printf "CIFAR LeNet Wat Ratio: %-.8f\n" comp_exp["cif"]["wat"]["frq"] / comp_ene["cif"]["wat"]["frq"]
@printf "CIFAR Bayes Wat Ratio: %-.8f\n" comp_exp["cif"]["wat"]["bay"] / comp_ene["cif"]["wat"]["bay"]
@printf "MNIST LeNet Acc Ratio: %-.8f\n" comp_exp["mni"]["acc"]["frq"] / comp_ene["mni"]["acc"]["frq"]
@printf "MNIST Bayes Acc Ratio: %-.8f\n" comp_exp["mni"]["acc"]["bay"] / comp_ene["mni"]["acc"]["bay"]
@printf "CIFAR LeNet Acc Ratio: %-.8f\n" comp_exp["cif"]["acc"]["frq"] / comp_ene["cif"]["acc"]["frq"]
@printf "CIFAR Bayes Acc Ratio: %-.8f\n" comp_exp["cif"]["acc"]["bay"] / comp_ene["cif"]["acc"]["bay"]
#=
Final Metric
=#
mni_tot_frq_exp =
(
comp_exp["mni"]["100"]["frq"] +
comp_exp["mni"]["acc"]["frq"] +
comp_exp["mni"]["wat"]["frq"] +
comp_exp["mni"]["est"]["frq"]
) / 4
mni_tot_bay_exp =
(
comp_exp["mni"]["100"]["bay"] +
comp_exp["mni"]["acc"]["bay"] +
comp_exp["mni"]["wat"]["bay"] +
comp_exp["mni"]["est"]["bay"]
) / 4
cif_tot_frq_exp =
(
comp_exp["cif"]["100"]["frq"] +
comp_exp["cif"]["acc"]["frq"] +
comp_exp["cif"]["wat"]["frq"] +
comp_exp["cif"]["est"]["frq"]
) / 4
cif_tot_bay_exp =
(
comp_exp["cif"]["100"]["bay"] +
comp_exp["cif"]["acc"]["bay"] +
comp_exp["cif"]["wat"]["bay"] +
comp_exp["cif"]["est"]["bay"]
) / 4
mni_tot_frq_ene =
(
comp_ene["mni"]["100"]["frq"] +
comp_ene["mni"]["acc"]["frq"] +
comp_ene["mni"]["wat"]["frq"] +
comp_ene["mni"]["est"]["frq"]
) / 4
mni_tot_bay_ene =
(
comp_ene["mni"]["100"]["bay"] +
comp_ene["mni"]["acc"]["bay"] +
comp_ene["mni"]["wat"]["bay"] +
comp_ene["mni"]["est"]["bay"]
) / 4
cif_tot_frq_ene =
(
comp_ene["cif"]["100"]["frq"] +
comp_ene["cif"]["acc"]["frq"] +
comp_ene["cif"]["wat"]["frq"] +
comp_ene["cif"]["est"]["frq"]
) / 4
cif_tot_bay_ene =
(
comp_ene["cif"]["100"]["bay"] +
comp_ene["cif"]["acc"]["bay"] +
comp_ene["cif"]["wat"]["bay"] +
comp_ene["cif"]["est"]["bay"]
) / 4
@printf "LeNet-5 on MNIST Efficiency Metric: %-.8f\n" mni_tot_frq_exp/mni_tot_frq_ene
@printf "LeNet-5 on CIFAR Efficiency Metric: %-.8f\n" cif_tot_frq_exp/cif_tot_frq_ene
@printf "BCNN on MNIST Efficiency Metric: %-.8f\n" mni_tot_bay_exp/mni_tot_bay_ene
@printf "BCNN on CIFAR Efficiency Metric: %-.8f\n" cif_tot_bay_exp/cif_tot_bay_ene
=#