Let us get right into it. The main reason why your drive shows a smaller capacity than was advertised has to do with how storage capacity is calculated and reported. Which is quite different from other computing capacities. For example, you can rest assured that a 1 gigahertz (GHz) processor is exactly capable of 1,000,000,000 calculation cycles per second. On the other hand, storage is a little more complicated. Also Read:
Best Portable External Solid State Drives(SSD) drives of 2022Choosing the best Laptop Solid State Drives (SSDs) of 2022
Decimal vs Binary Bytes
It gets interesting when you look into the specifications of storage devices and see a sticker written; “1 GB = 1 billion bytes. Actual usable capacity may vary.” This means the assumption is that 1GB=1,000,000,000 bytes. That is to say that a 500GB hard disk has 500,000,000,000 bytes. These are referred to as decimal bytes (base 10) and have been the standard in the industry for advertising storage space to consumers. Some operating systems, specifically Unix-based ones like Linux or macOS use the decimal bytes system to report storage. This is why a 480GB advertised HDD will read as 480GB on the Mac Disk Utility. On the other hand, Windows uses a system known as binary bytes (base-2) where 1KB=1,024bytes, and so on as shown in the table below. This is to say that when you plug the same 480,000,000,000 bytes of storage into a Windows PC the OS will use a conversion of 1KB=1,024 bytes instead of 1KB=1,000 bytes. When you do the maths you will find that 480,000,000,000 bytes = 447 GB. How? see the maths below
480,000,000,000 Bytes divided by 1,024 = 468,750,000 actual Kilobytes468,750,000 KB divided by 1,024 = 457,764 actual Megabytes457,764 MB divided by 1,024 = 447 actual Gigabytes
It is very key to understand that we did not lose 33GB of storage. What happened is that Windows did the conversion using a different standard from what a macOS used. I should highlight that some older macOS also used the binary system. Windows is very clear with these properties because it will show you the total number of bytes as well as the converted binary capacity right next to it. See the screen grab below from a hard drive advertised as 16TB that converts to 14.5TB on Windows. Also Read:
The 10 Best USB Flash Drives of 2022What is RAID in Storage?
An Example You Can Relate To
Perhaps an example you can relate to will bring it home. Imagine that you wanted to measure the distance from point A to Point B, a distance of 1 Mile or 1.6 Kilometers. This is the same distance but differently reported due to the unit of measurement. A person in the US will be correct in saying it is 1 Mile while a person in the UK is also correct in saying it is 1.6 Kilometers. Think of the US person as a macOS while the UK person as Windows OS. Below are some conversions comparisons between a Decimal OS and a Binary OS for some standard drive sizes. Some other storage devices like flash drives base their advertised values using the decimal conversion. Thus a 256GB memory card will show exactly 256GB of usable capacity even on windows. The entire industry has been trying to correct and standardize this issue for a while now. Most, if not all SSDs are advertised using binary capacity, but with a caveat. A 256GB SSD will show exactly 256GB of storage capacity on Windows, though some 16GB may be set aside and reserved for dead cells. Also Read:
The difference between Memory and StorageDisk Defragmentation and Drive Optimization: What Do They Do?
Formatted vs Unformatted Storage Capacity
Another reason to account for your “lost” storage is the type of formatting used. Formatting a drive helps the drive become functional as a method for the PC to keep track of what bits stored on it relate to which specific file. Types of formatting vary from PC to PC but the most common ones ate FAT32 and NTFS. Formatting helps a computer read the storage drive correctly. In either of those formatting schemes, a part of the storage capacity is allocated to catalog the data stored in the drive. Hence whenever a drive is formatted, the formatted capacity is always less than the unformatted capacity. The difference between formatted and unformatted capacity varies and depends on the type of formatting scheme used. Due to this variation, manufacturers are unable to specify the formatted capacity of a storage drive. This is more common on flash storage media than with large-capacity drives. Thus the advertised capacity will always be the unformatted capacity. Now that you know why your computer drive shows you a smaller capacity than it was advertised with, go ahead and let us know what other explainers you would like for us to do, via the comments section below. Also Read:
NVMe 2.0: Even Faster Access to StorageHow Magnetic HDDs still beat SSD hard drives
