How can i measure the time taken by a method and the individual statements in that method in Ruby. If you see the below method i want to measure the total time taken by the method and the time taken for database access and redis access. I do not want to write Benchmark.measure before every statement. Does the ruby interpreter gives us any hooks for doing this ?

def foo
# code to access database
# code to access redis. 
  • there is something similar to the new Date() of javascript that ruby has, but I can't remember the correct syntax. should give you a decent google listing though
    – reagan
    Commented Jul 10, 2012 at 4:03
  • 2
    @Phani Can you select a correct answer please? After 8 years, I think there are some solid answers here. Thanks. Commented May 26, 2020 at 15:02

6 Answers 6


The simplest way:

require 'benchmark'

def foo
 time = Benchmark.measure do
  code to test
 puts time.real #or save it to logs

Sample output:

2.2.3 :001 > foo
  5.230000   0.020000   5.250000 (  5.274806)

Values are: cpu time, system time, total and real elapsed time.

Source: ruby docs.

  • 55
    You can also do Benchmark.realtime { block } if you just want the realtime
    – jmccure
    Commented Jun 26, 2015 at 11:34

You could use the Time object. (Time Docs)

For example,

start = Time.now
# => 2022-02-07 13:55:06.82975 +0100
# code to time
finish = Time.now
# => 2022-02-07 13:55:09.163182 +0100
diff = finish - start
# => 2.333432

diff would be in seconds, as a floating point number.


Use Benchmark's Report

require 'benchmark' # Might be necessary.

def foo
  Benchmark.bm( 20 ) do |bm|  # The 20 is the width of the first column in the output.
    bm.report( "Access Database:" ) do 
      # Code to access database.
    bm.report( "Access Redis:" ) do
      # Code to access redis.

This will output something like the following:

                        user     system      total        real
Access Database:    0.020000   0.000000   0.020000 (  0.475375)
Access Redis:       0.000000   0.000000   0.000000 (  0.000037)

<------ 20 -------> # This is where the 20 comes in. NOTE: This is not shown in output.

More information can be found here.

  • 4
    I just came back to my own answer and was impressed (again) with how Benchmark handles this. Love Ruby. Commented Feb 24, 2017 at 15:19
  • 3
    This should be the preferred answer: Because, as of Ruby 2.2, the Benchmark class uses a monotonic clock, as discussed in other answers. See for instance the following source code, and look for "def measure" on line 286: github.com/ruby/ruby/blob/ruby_2_2/lib/benchmark.rb Commented Apr 19, 2019 at 21:51

Many of the answers suggest the use of Time.now. But it is worth being aware that Time.now can change. System clocks can drift and might get corrected by the system's administrator or via NTP. It is therefore possible for Time.now to jump forward or back and give your benchmarking inaccurate results.

A better solution is to use the operating system's monotonic clock, which is always moving forward. Ruby 2.1 and above give access to this via:

start = Process.clock_gettime(Process::CLOCK_MONOTONIC)
# code to time
finish = Process.clock_gettime(Process::CLOCK_MONOTONIC)
diff = finish - start # gets time is seconds as a float

You can read more details here. Also you can see popular Ruby project, Sidekiq, made the switch to monotonic clock.

  • 1
    Other units than seconds (ms, µs, ns, ...) are available, see core doc
    – bbenno
    Commented Dec 6, 2021 at 16:17

A second thought, define the measure() function with Ruby code block argument can help simplify the time measure code:

def measure(&block)
  start = Time.now
  Time.now - start

# t1 and t2 is the executing time for the code blocks.
t1 = measure { sleep(1) }

t2 = measure do
  • In your definition you call it benchmark. When you use it it is called measure. Please fix this.
    – Sandro L
    Commented May 30, 2018 at 7:08

In the spirit of wquist's answer, but a little simpler, you could also do it like below:

start = Time.now
# code to time
Time.now - start
  • This answer is a (slightly) different way to answer the question. Just because you could figure it out from @wquist's answer doesn't mean it isn't valid. Commented Jun 15, 2018 at 21:22

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