16.1: np.datetime64

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In Python, time is normally stored in a specialized data type, `np.datetime64`, provided by the NumPy library. Unlike conventional data types like integers (`int`), floating-point numbers (`float`), or strings (`str`), `np.datetime64` is designed specifically to handle dates and times. It offers capabilities that make it easy to capture various time scales, from nanoseconds all the way to centuries. It also integrates seamlessly with NumPy's array operations, making it more convenient for tasks like time-based indexing, resampling, and aggregation — and, as we'll see later this chapter, it also integrates with Pandas. This is particularly useful in climate and atmospheric sciences, where time series data often require sophisticated manipulation.

Creating a date using NumPy's `np.datetime64` data type is relatively straightforward. You can create a `datetime64` object by invoking the data type and passing in a string that represents the date you're interested in.

Here's a simple example:
import numpy as np my_date = np.datetime64('2023-10-26')

In this example, `my_date` is now a `np.datetime64` object representing October 26, 2023 (you can test this with type(my_date)). You can also specify the time down to the nanosecond if that level of detail is needed. For example:

my_datetime = np.datetime64('2023-10-26T12:34:56.789')

Here, `my_datetime` represents the date and time down to the millisecond for October 26, 2023, at 12:34:56.789.

Because `np.datetime64` is integrated with the NumPy library, it is generally compatible with NumPy's array operations. This makes it useful for performing complex operations on time series data, which is often a requirement in climate and atmospheric sciences.

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