In the modern world, large files are more common than ever before. In the early days of computing, programmers and developers did what they could to compress file sizes out of absolute necessity.

In 2019, when NAS devices are readily available and petabyte drives are just around the corner, file sizes do not have to be small—but huge files do take extra time to transfer from one storage device to another.

When you don’t have hours to move a filefrom place to place, the next best option is to choose a method with fasttransfer rates.

USB Transfer Rates

USB is one of the most common ways oftransferring data. USB, or Universal Serial Bus, has undergone multipleiterations throughout the years. There are five main speeds:

  • USB 1.0: 1.5 Megabits persecond (Mbps)
  • USB 1.1: 12 Megabits per second(Mbps)
  • USB 2.0: 480 Megabits persecond (Mbps)
  • USB 3.0: 5 Gigabits per second(Gbps)
  • USB 3.1: 10 Gigabits per second(Gbps)

USB 3.0 and 3.1 ports are more common inmodern computers. You should note, however, that it does not always live up toits potential. USB transfer rates are limited by the slowest connected device.Even when two USB 3.1-compatible devices are connected, there is a chance thespeeds will fall short of what the device is capable of.

Ethernet Transfer Rates

Ethernet has fallen by the wayside in thismodern age of Wi-Fi, but it exists for a reason. Hardwired connections reducelag and provide substantially greater transfer speeds than wirelessconnections. Any serious gamers among you most likely use a hardwiredconnection for your PC or consoles to minimize lag.

  • Fast Ethernet: 100 Megabits persecond (Mbps)
  • Gigabit Ethernet: 1,000Megabits per second (Mbps)
  • 10 Gigabit Ethernet: 10,000Megabits per second (Mbps)

Ethernet is most often used for Internetconnections, but there are other applications where Ethernet excels such aslocal area networks. For example, if you plan to set up a private home networkfor storage or as a Plex server, Ethernet will be one of the most effectiveoptions.

Wi-Fi Transfer Rates

Like Ethernet, Wi-Fi has changed and grown over the years. As you can see from below, the speeds have been getting significantly faster over the years. The 802.11ax protocol (WiFi 6) will not only be faster, but bring many more other great features that will make Wifi much more reliable.

Wi-Fi 802.11b: 11 Megabits per second (Mbps)
Wi-Fi 802.11a, g: 54 Megabits per second (Mbps)
Wi-Fi 802.11n: 450 Megabits per second (Mbps)
Wi-Fi 802.11ac: 1,300 Megabits per second (Mbps)
Wi-Fi 802.11ax: 3,500 Megabits per second (Mbps)

Keep this in mind: these speeds aretheoretical. In real-world applications, you will rarely see speeds anywhereclose to this. That said, this is the fastest Wi-Fi available to users to date.It works fine for smaller files, but if you need to download or transfer amultiple-gigabyte file, you will see better results with a hardwiredconnection.

Bluetooth Transfer Rates

Bluetooth isn’t designed to transfer atremendous amount of data at any given time. The protocol was created totransfer data over short distances for specific industries, but has sincecaught on for more varied purposes. However, even the fastest form of Bluetoothpales in comparison to other methods.

  • Bluetooth 1.0: 700 Kilobits persecond (Kbps)
  • Bluetooth 2.0: 3 Megabits persecond (Mbps)
  • Bluetooth 3.0: 24 Megabits persecond (Mbps)
  • Bluetooth 4.0: 25 Megabits persecond (Mbps)

FireWire and Thunderbolt Transfer Rates

A lesser-known method of transferring datais through FireWire and Thunderbolt connections. We say lesser-known becausethese tend to be isolated to Apple devices, while Windows still holds the vastmajority of the marketshare. These connections are fast and rival USB in manyways.

  • FireWire 400: 400 Megabits persecond (Mbps)
  • FireWire 800: 800 Megabits persecond (Mbps)
  • Thunderbolt: 10 Gigabits persecond (Gbps)

There are newer versions of FireWire slated to release at some point in the future. FireWire 1600 and FireWire 3200 are supposed to deliver 1600 Mbps and 3200 Mbps respectively.

For Thunderbolt, that speed is 10 Gbps per channel, so the latest version (Thunderbolt 3) supports up to 40 Gbps due to the number of channels.

Why Transfer Speeds Matter

You might not need fast transfer speeds at the moment, but as 4K (and even 8K) video becomes more prevalent and common, you will need to up the rate you transfer data or you’ll spend days moving a single file. Take the time to learn and understand the different transfer speeds . You will thank yourself in the future.

Even knowing what speeds to expect can helpyou identify and diagnose potential problems in your system.