Program to calculate the Round Trip Time (RTT) (original) (raw)
Last Updated : 13 Feb, 2023
Round trip time(RTT) is the length of time it takes for a signal to be sent plus the length of time it takes for an acknowledgment of that signal to be received. This time, therefore, consists of the propagation times between the two-point of the signal.
On the Internet, an end-user can determine the RTT to and from an IP(Internet Protocol) address by pinging that address. The result depends on various factors:-
- The data rate transfer of the source's internet connection.
- The nature of transmission medium.
- The physical distance between source and destination.
- The number of nodes between source and destination.
- The amount of traffic on the LAN(Local Area Network) to which end-user is connected.
- The number of other requests being handled by intermediate nodes and the remote server.
- The speed with which the intermediate node and the remote server function.
- The presence of Interference in the circuit.
Examples:
Input : www.geeksforgeeks.org Output : Time in seconds : 0.212174892426
Input : www.cricbuzz.com Output : Time in seconds : 0.55425786972
Python `
Python program to calculate RTT
import time import requests
Function to calculate the RTT
def RTT(url):
# time when the signal is sent
t1 = time.time()
r = requests.get(url)
# time when acknowledgement of signal
# is received
t2 = time.time()
# total time taken
tim = str(t2-t1)
print("Time in seconds :" + tim)driver program
url address
url = "http://www.google.com" RTT(url)
C#
//c# program to calculate RTT using System; using System.Net;
class Program { static void Main(string[] args) { string url = "http://www.google.com";
// time when the signal is sent
var t1 = DateTime.Now;
using (var client = new WebClient())
{
var result = client.DownloadString(url);
}
// time when acknowledgement of signal
// is received
var t2 = DateTime.Now;
// total time taken
var timeTaken = t2 - t1;
Console.WriteLine("Time in seconds : " + timeTaken.TotalSeconds);
}} //this code is contributed by snehalsalokhe -> (Snehal Salokhe)
`
Output:
Time in seconds :0.0579478740692