Convert between bytes, KB, MB, GB, TB, and PB using binary or decimal standards. Includes binary vs decimal comparison and storage content reference.
Digital storage units cause frequent confusion because two competing standards exist: the binary system (where 1 KB = 1,024 bytes) used by operating systems and RAM, and the decimal system (where 1 KB = 1,000 bytes) used by hard drive manufacturers and networking. This discrepancy explains why a "500 GB" hard drive shows about 465 GB in your operating system.
This MB to GB Converter handles all major data units from bytes to petabytes in both binary and decimal standards. Enter a value in any unit and see the equivalent across all others, with a side-by-side comparison table showing the exact difference between binary and decimal interpretations.
A storage reference table shows common file types and how many would fit in your specified storage, making abstract gigabyte numbers tangible and practical for everyday decisions about storage purchases and data management. It also helps users explain apparent capacity differences when comparing device labels and system reports.
Understanding storage sizes is essential for purchasing drives, managing cloud storage, assessing bandwidth needs, and troubleshooting "missing" space. The binary vs decimal confusion costs consumers real money when they expect 1 TB but get 931 usable GB.
This converter clarifies both standards, shows the exact difference, and translates abstract numbers into tangible content quantities.
Binary: 1 KB = 1,024 B, 1 MB = 1,048,576 B, 1 GB = 1,073,741,824 B Decimal: 1 KB = 1,000 B, 1 MB = 1,000,000 B, 1 GB = 1,000,000,000 B Bits = Bytes × 8
Result: 1 GB (binary) | 1.024 GB (decimal)
1024 MB × 1,048,576 B/MB = 1,073,741,824 bytes = exactly 1 GB (binary). In decimal, 1,073,741,824 ÷ 1,000,000,000 = 1.074 GB.
The confusion started when hard drive manufacturers adopted the SI decimal definition while software continued using binary. In 1998, the IEC introduced new prefixes (KiB, MiB, GiB) for binary quantities, but adoption has been slow. Windows still displays binary sizes without the "i" suffix, perpetuating confusion.
When planning storage needs, always account for the binary/decimal gap (~7% at GB level, growing at each tier). Format overhead, system files, and recovery partitions further reduce usable space. A "1 TB" drive typically provides around 900 GB of user-accessible space after formatting.
Global data creation is measured in zettabytes (1 ZB = 1 trillion GB). The average American household uses about 400 GB per month of internet data. Understanding the scale of digital storage—from kilobytes (a text file) to petabytes (a large data center)—helps put personal storage needs in perspective.
Manufacturers use decimal (1 TB = 1,000,000,000,000 bytes) while your OS uses binary (1 TB = 1,099,511,627,776 bytes). So 1 TB decimal = ~931 GB binary.
MiB (mebibyte) always means 1,048,576 bytes (binary). MB can mean either 1,000,000 (decimal) or 1,048,576 (binary) depending on context.
SSD manufacturers use the decimal standard. A "512 GB" SSD contains 512,000,000,000 bytes, which shows as ~476 GB in Windows. This behavior is expected and does not indicate missing hardware capacity.
1 TB = 1,024 GB (binary) or 1,000 GB (decimal). The correct value depends on whether the context is operating-system reporting or manufacturer labeling.
RAM chips are organized in powers of 2 due to binary addressing. 8 GB of RAM is exactly 8,589,934,592 bytes.
Approximately 125 high-res JPEGs (8 MB each) or about 33 RAW photos (30 MB each). Actual counts vary with camera settings, compression level, and scene complexity.