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benchmark.py
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"""
Author: Kennan (Kenneract)
Date: Jun.3.2023
Description: A rudimentary RDES demo implementation
benchmarking program.
"""
from rdes import RDESCompressor, RDESDecompressor
import random
import time
def ratioBenchmarkLinear():
"""
Benchmarks compression ratio.
Tests by feeding data which changes by
various constant amounts. Linear.
"""
## Configuration
ROWS = 10000
INCREMENTS = [2**x for x in range(4, 25)]
## Print header
print(f"\tCOMPRESSION RATIO TEST: LINEAR ({ROWS} rows)")
print("Increment\tRDES1\tRDES2\tRDES3")
## Create RDES classes
comp1 = RDESCompressor(variant=1, numCols=1)
comp2 = RDESCompressor(variant=2, numCols=1)
comp3 = RDESCompressor(variant=3, numCols=1)
## Run tests for each increment bracket
for incr in INCREMENTS:
## Initialize all
comp1.reset()
comp2.reset()
comp3.reset()
## Fill with data (increase then decrease)
for i in range(ROWS//2):
## Increase
comp1.writeCompressedRow([incr])
comp2.writeCompressedRow([incr])
comp3.writeCompressedRow([incr])
## Decrease
comp1.writeCompressedRow([0])
comp2.writeCompressedRow([0])
comp3.writeCompressedRow([0])
## Print results
tabs = "\t\t" if len(str(incr))< 8 else "\t"
print(f"{incr}{tabs}{comp1.getCompressionRatio():.3f}\t{comp2.getCompressionRatio():.3f}\t{comp3.getCompressionRatio():.3f}")
def ratioBenchmarkRandom():
"""
Benchmarks compression ratio.
Tests by feeding data which changes at
random, by at most various constants.
Random.
"""
## Configuration
ROWS = 10000
MAX_VARS = INCREMENTS = [2**x for x in range(4, 25)]
## Print header
print(f"\tCOMPRESSION RATIO TEST: RANDOM ({ROWS} rows)")
print("Max Increment\tRDES1\tRDES2\tRDES3")
## Create RDES classes
comp1 = RDESCompressor(variant=1, numCols=1)
comp2 = RDESCompressor(variant=2, numCols=1)
comp3 = RDESCompressor(variant=3, numCols=1)
## Run tests for each max variation bracket
for maxVar in MAX_VARS:
## Initialize all
comp1.reset()
comp2.reset()
comp3.reset()
## Fill with data (increase then decrease)
for i in range(ROWS):
val = int(random.random()*maxVar)
comp1.writeCompressedRow([val])
comp2.writeCompressedRow([val])
comp3.writeCompressedRow([val])
## Print results
tabs = "\t\t" if len(str(maxVar))< 8 else "\t"
print(f"{maxVar}{tabs}{comp1.getCompressionRatio():.3f}\t{comp2.getCompressionRatio():.3f}\t{comp3.getCompressionRatio():.3f}")
def compressionBenchmarkLinear():
"""
Tests the compression and decompression time efficiency
for all RDES variants. Does so with regularly changing
data. Linear.
Decompression values may be flawed as each RDES variant
techincally has a different amount of input data (due to
varying compression ratios)
"""
## Configuration
ROWS = 500000
INCREMENTS = [10**x for x in range(1, 9)]
## Print header
print(f"\tCOMPRESSION TIME TEST: LINEAR ({ROWS} rows)")
print("Increment\tRDES1\t\tRDES2\t\tRDES3")
## Create RDES classes
comp1 = RDESCompressor(variant=1, numCols=1)
comp2 = RDESCompressor(variant=2, numCols=1)
comp3 = RDESCompressor(variant=3, numCols=1)
deco1 = RDESDecompressor(variant=1, numCols=1)
deco2 = RDESDecompressor(variant=2, numCols=1)
deco3 = RDESDecompressor(variant=3, numCols=1)
## Run tests for each increment bracket
for incr in INCREMENTS:
## Initialize all
comp1.reset()
comp2.reset()
comp3.reset()
## Fill with data (increase then decrease)
rdes1CompStart = time.time()
for i in range(ROWS//2):
comp1.writeCompressedRow([incr])
comp1.writeCompressedRow([0])
rdes2CompStart = time.time()
for i in range(ROWS//2):
comp2.writeCompressedRow([incr])
comp2.writeCompressedRow([0])
rdes3CompStart = time.time()
for i in range(ROWS//2):
comp3.writeCompressedRow([incr])
comp3.writeCompressedRow([0])
rdes1DecompStart = time.time()
deco1.decompress(comp1.getCompressedData())
rdes2DecompStart = time.time()
deco2.decompress(comp2.getCompressedData())
rdes3DecompStart = time.time()
deco3.decompress(comp3.getCompressedData())
decompTestEnd = time.time()
## Calculate times
rdes1CompTime = (rdes2CompStart - rdes1CompStart) * 1000
rdes2CompTime = (rdes3CompStart - rdes2CompStart) * 1000
rdes3CompTime = (rdes1DecompStart - rdes3CompStart) * 1000
rdes1DecompTime = (rdes2DecompStart - rdes1DecompStart) * 1000
rdes2DecompTime = (rdes3DecompStart - rdes2DecompStart) * 1000
rdes3DecompTime = (decompTestEnd - rdes3DecompStart) * 1000
## Print results
tabs = "\t\t" if len(str(incr))< 8 else "\t"
print(f"{incr}{tabs}{rdes1CompTime:.0f}ms,{rdes1DecompTime:.0f}ms\t{rdes2CompTime:.0f}ms,{rdes2DecompTime:.0f}ms\t{rdes3CompTime:.0f}ms,{rdes3DecompTime:.0f}ms")
def compressionBenchmarkRandom():
"""
Tests the compression and decompression time efficiency
for all RDES variants. Does so with randomly changing
data. Random.
Decompression values may be flawed as each RDES variant
techincally has a different amount of input data (due to
varying compression ratios)
"""
## Configuration
ROWS = 500000
MAX_VARS = [10**x for x in range(1, 9)]
## Print header
print(f"\tCOMPRESSION TIME TEST: RANDOM ({ROWS} rows)")
print("Max Increment\tRDES1\t\tRDES2\t\tRDES3")
## Create RDES classes
comp1 = RDESCompressor(variant=1, numCols=1)
comp2 = RDESCompressor(variant=2, numCols=1)
comp3 = RDESCompressor(variant=3, numCols=1)
deco1 = RDESDecompressor(variant=1, numCols=1)
deco2 = RDESDecompressor(variant=2, numCols=1)
deco3 = RDESDecompressor(variant=3, numCols=1)
## Run tests for each increment bracket
for maxVar in MAX_VARS:
## Initialize all
comp1.reset()
comp2.reset()
comp3.reset()
## Generate data
data = list([int(random.random()*maxVar) for i in range(ROWS)])
## Fill with data
rdes1CompStart = time.time()
for val in data:
comp1.writeCompressedRow([val])
rdes2CompStart = time.time()
for val in data:
comp2.writeCompressedRow([val])
rdes3CompStart = time.time()
for val in data:
comp3.writeCompressedRow([val])
rdes1DecompStart = time.time()
deco1.decompress(comp1.getCompressedData())
rdes2DecompStart = time.time()
deco2.decompress(comp2.getCompressedData())
rdes3DecompStart = time.time()
deco3.decompress(comp3.getCompressedData())
decompTestEnd = time.time()
## Calculate times
rdes1CompTime = (rdes2CompStart - rdes1CompStart) * 1000
rdes2CompTime = (rdes3CompStart - rdes2CompStart) * 1000
rdes3CompTime = (rdes1DecompStart - rdes3CompStart) * 1000
rdes1DecompTime = (rdes2DecompStart - rdes1DecompStart) * 1000
rdes2DecompTime = (rdes3DecompStart - rdes2DecompStart) * 1000
rdes3DecompTime = (decompTestEnd - rdes3DecompStart) * 1000
## Print results
tabs = "\t\t" if len(str(maxVar))< 8 else "\t"
print(f"{maxVar}{tabs}{rdes1CompTime:.0f}ms,{rdes1DecompTime:.0f}ms\t{rdes2CompTime:.0f}ms,{rdes2DecompTime:.0f}ms\t{rdes3CompTime:.0f}ms,{rdes3DecompTime:.0f}ms")
ratioBenchmarkLinear()
print("\n")
ratioBenchmarkRandom()
print("\n")
compressionBenchmarkLinear()
print("\n")
compressionBenchmarkRandom()