Despite the fact that they’re similar words with similar abbreviations, megabits (Mb) and megabytes (MB) are different units of measurement. Here’s what they measure, and when they’re used.
Bits vs. Bytes
If you’ve shopped for a plan from an internet service provider (ISP) recently, you might have noticed that the company promoted its broadband speeds in terms of mega- or gigabits per second. On the other hand, most mobile or internet plans with data caps measure your maximum usage in terms of mega- or gigabytes.
You might think these two figures are the same. However, a “bit” and a “byte” are distinct units of measurement that are used for different things. Each byte is comprised of eight bits. Therefore, one megabyte is equal to eight megabits, eight megabytes are equal to 64 megabits, and so on.
Furthermore, they are abbreviated differently. A bit is abbreviated using a lowercase “b” (Mb or Mbit), while a byte is abbreviated with an uppercase “B” (MB). When denoting these in terms of speed, megabits per second is abbreviated as “Mbps,” while megabytes per second is abbreviated as “MB/s.”
Converting Bits to Bytes
To illustrate the difference better, let’s use a real-world scenario. Say you’ve recently subscribed to a fiber broadband connection that promises maximum internet speeds of 400 Mbps. You’re about to download a video file that’s 800 megabytes. Assuming your internet is working perfectly and its servers are fast, how long would it take to complete this download?
As 1 megabyte equals 8 megabits, we divide 400 Mbps by 8 to get a maximum download speed of 50 MB/s. Therefore, it would take 16 seconds to finish downloading your file.
Measuring with the Bit
Bits are primarily used by ISPs to measure bandwidth. These numbers are referred to as “bit rates.”
Many people wonder why the download time for a file rarely matches the promised bitrate of their connections. This is due to the difference between bandwidth and speed. Your network’s bandwidth refers to the maximum amount of data it can transfer within a certain period of time, like 1 second.
On the other hand, your network’s speed is the actual transfer rate of data from an online server to your device, or vice versa. This can vary significantly between providers, connection types, and locations.
Therefore, two households might both have gigabit connections, but because they’re located in different cities, their down- and upload speeds might vary. While their “potential” internet speeds might be the same, they’re likely very different in reality.
Using the Byte
Bytes are used for pretty much everything related to file size and storage. All forms of storage—from solid-state drives, to cloud services, like Dropbox—are referred to in terms of byte capacity. The files on your computer are also measured in bytes.
The reason we use bytes instead of bits to measure files goes back to the earliest days of computing. Each bit can have a value of either zero or one. When combined, they make a byte, which was the minimum amount of memory a computer could read and process. Each byte would then correspond to a text character.
Since then, files have become more complex, and the individual byte has become an incredibly small unit of measurement. Most of the files on your computer are at least a kilobyte, or 1,024 bytes.
Mega, Giga, Tera, and More
When measuring data in terms of bits or bytes, it’s essential to know the following commonly used unit prefixes:
- 1,024 kilobytes = 1 megabyte
- 1,024 megabytes = 1 gigabyte
- 1,024 gigabytes = 1 terabyte
Most hardware is measured up to terabytes, while most connection speeds are measured up to gigabits.
It’s also handy to know some quick conversions for the numbers used for internet plans. Below are some useful figures for measuring your potential maximum download speed:
- 25 megabits per second = 3.125 megabytes per second
- 100 megabits per second = 12.5 megabytes per second
- 1 gigabit per second = 128 megabytes per second
Remember to always be wary about the bandwidth promised by ISPs. When in doubt, search online to find out what the average internet speeds are in your area.