In [1]:
import pandas as pd
store = pd.HDFStore('/Volumes/FreshBooks/data/store.h5')
may07 = store['may07']
may08 = store['may08']

Is there a correlation between response time and response size?

We can see how queries that return more data take longer to run using the pylab plot() method:

In [2]:
xlabel('Elapsed (s)')
ylabel('Number of rows returned')
plot(may07['elapsed'], may07['rows'], 'r.', label='May 7')
[<matplotlib.lines.Line2D at 0x112325410>]

But that's a little generic, as it's looking at all requests. We can do better! And we can compare one day to another!

Let's start by selecting only a subset of the data. We do deployments around 9am, so we'll just look at requests that come in after release:

In [3]:
from datetime import datetime
import pytz
toronto = pytz.timezone('America/Toronto')
may07_0900 = toronto.localize(datetime(2012, 5, 7, 9, 0)).astimezone(pytz.utc).replace(tzinfo=None)
may08_0900 = toronto.localize(datetime(2012, 5, 8, 9, 0)).astimezone(pytz.utc).replace(tzinfo=None)

I deployed some interesting changes on the 8th, with the goal of improving performance for invoice-related requests. Let's start by getting the comparison data from the previous day:

In [4]:
# Select only the requests that came in after 9am local time
may07_after_0900 = may07[may07.index >= may07_0900]
# Select only the requests for invoice things
may07_invoice_after_0900 = may07_after_0900[may07_after_0900['silo'] == 'invoice_InvoiceResource']
# Note that Pandas stores the DatetimeIndex values as naïve datetimes in UTC!
<class 'pandas.core.frame.DataFrame'>
DatetimeIndex: 284115 entries, 2012-05-07 13:00:00 to 2012-05-08 03:59:59
Data columns:
request_id    284115  non-null values
port          284115  non-null values
accountid     284115  non-null values
userid        284115  non-null values
contactid     284115  non-null values
level         284115  non-null values
silo          284115  non-null values
method        284115  non-null values
rows          284115  non-null values
queries       284115  non-null values
query_time    284115  non-null values
elapsed       284115  non-null values
user          284115  non-null values
sys           284115  non-null values
dtypes: float64(2), int64(10), object(2)

Now we'll get the same range of data, but from after my code went live:

In [5]:
may08_after_0900 = may08[may08.index >= may08_0900]
may08_invoice_after_0900 = may08_after_0900[may08_after_0900['silo'] == 'invoice_InvoiceResource']
<class 'pandas.core.frame.DataFrame'>
DatetimeIndex: 263552 entries, 2012-05-08 13:00:00 to 2012-05-09 03:59:59
Data columns:
request_id    263552  non-null values
port          263552  non-null values
accountid     263552  non-null values
userid        263552  non-null values
contactid     263552  non-null values
level         263552  non-null values
silo          263552  non-null values
method        263552  non-null values
rows          263552  non-null values
queries       263552  non-null values
query_time    263552  non-null values
elapsed       263552  non-null values
user          263552  non-null values
sys           263552  non-null values
dtypes: float64(2), int64(10), object(2)
In [6]:
title('Response size vs request time for invoices, comparing two days')
xlabel('Elapsed (s)')
xlim(0, 30)  # There are some uninteresting outliners 
ylabel('Number of rows returned')
plot(may07_invoice_after_0900['elapsed'], may07_invoice_after_0900['rows'], 'r.', label='May 7')
plot(may08_invoice_after_0900['elapsed'], may08_invoice_after_0900['rows'], 'b.', label='May 8')
<matplotlib.legend.Legend at 0x1120b0e50>

For comparison, I didn't change much about Estimates:

In [7]:
may07_estimate_after_0900 = may07_after_0900[may07_after_0900['silo'] == 'estimate_EstimateResource']
may08_estimate_after_0900 = may08_after_0900[may08_after_0900['silo'] == 'estimate_EstimateResource']
title('Response size vs request time for estimates, comparing two days')
xlabel('Elapsed (s)')
xlim(0, 30)
ylabel('Number of rows returned')
plot(may07_estimate_after_0900['elapsed'], may07_estimate_after_0900['rows'], 'r.', label='May 7')
plot(may08_estimate_after_0900['elapsed'], may08_estimate_after_0900['rows'], 'b.', label='May 8')
<matplotlib.legend.Legend at 0x139680e50>

But I did change estimates week later! Let's see how they fare:

In [8]:
may14 = store['may14']
may14_0900 = toronto.localize(datetime(2012, 5, 14, 9, 0)).astimezone(pytz.utc).replace(tzinfo=None)
may14_after_0900 = may14[may14.index >= may14_0900]
may14_estimate_after_0900 = may14_after_0900[may14_after_0900['silo'] == 'estimate_EstimateResource']

may15 = store['may15']
may15_0900 = toronto.localize(datetime(2012, 5, 15, 9, 0)).astimezone(pytz.utc).replace(tzinfo=None)
may15_after_0900 = may15[may15.index >= may15_0900]
may15_estimate_after_0900 = may15_after_0900[may15_after_0900['silo'] == 'estimate_EstimateResource']

title('Response size vs request time for estimates, comparing two days')
xlabel('Elapsed (s)')
xlim(0, 30)
ylabel('Number of rows returned')
plot(may14_estimate_after_0900['elapsed'], may14_estimate_after_0900['rows'], 'r.', label='May 14')
plot(may15_estimate_after_0900['elapsed'], may15_estimate_after_0900['rows'], 'b.', label='May 15')
<matplotlib.legend.Legend at 0x1396cd750>