From subsecret
Benchmark of internal time precision
Model | range of 60 sec delay() call | avg. duration of 60 sec delay() call |
---|---|---|
Arduino 101 | 59998-59999 | 59998,5625 |
Arduino Mega 2560 (clone) | 59989-59994 | 59991,75 |
Benchmark of digital sensor read (100000 digitalRead())
Model | Duration |
---|---|
Arduino 101 | |
Arduino Mega 2560 (clone) |
Benchmark of analog sensor read
Benchmark of pi calculation
Model | size of double | duration (internal time used for measurement) | pi value |
---|---|---|---|
Arduino 101 | 8 | 3879 ms. | 3.1415936536 |
Arduino Mega 2560 (clone) | 4 | 58338 ms. | 3.1415972709 |
Test programs:
Python program for measuring response time
import time import serial def millis(): return int(round(time.time() * 1000)) ser = serial.Serial('/dev/ttyACM0', 9600) while True: start = millis() data= "recv: "+ser.readline() end = millis() print (end-start) print data
Time precision benchmark
void setup() { Serial.begin(9600); } void loop() { while (true) { unsigned long start = millis(); delay(60000); unsigned elap = millis() - start; Serial.println(elap); } }
Pi benchmark (adapted from http://forum.arduino.cc/index.php?topic=138802.0)
#define ITERATIONS 1000000L // number of iterations void setup() { Serial.begin(9600); } void loop() { unsigned long start, time; unsigned long niter = ITERATIONS; double x = 1.0; double pi = 1.0; unsigned long i = 0; start = millis(); Serial.print("Sizeof(double)="); Serial.print(sizeof(double)); Serial.println(); for ( i = 2; i < niter; i++) { x *= -1.0; pi += x / (2.0 * (double)i - 1); } time = millis() - start; pi = pi * 4.0; Serial.print("# of trials = "); Serial.println(niter); Serial.print("Estimate of pi = "); Serial.println(pi, 10); Serial.print("Time: "); Serial.print(time); Serial.println(" ms"); Serial.println(); delay(5000); }