Byte to Mebibyte Conversion Calculator: Free Online Tool
Convert bytes to mebibytes with our free online data storage converter.
Byte to Mebibyte Calculator
How to Use the Calculator:
- Enter the value you want to convert in the 'From' field (Byte).
- The converted value in Mebibyte will appear automatically in the 'To' field.
- Use the dropdown menus to select different units within the Data Storage category.
- Click the swap button (⇌) to reverse the conversion direction.
How to Convert Byte to Mebibyte
Converting Byte to Mebibyte involves multiplying the value by a specific conversion factor, as shown in the formula below.
Formula:
1 Byte = 9.5367e-7 mebibytesExample Calculation:
Convert 1024 bytes: 1024 × 9.5367e-7 = 0.000976563 mebibytes
Disclaimer: For Reference Only
These conversion results are provided for informational purposes only. While we strive for accuracy, we make no guarantees regarding the precision of these results, especially for conversions involving extremely large or small numbers which may be subject to the inherent limitations of standard computer floating-point arithmetic.
Not for professional use. Results should be verified before use in any critical application. View our Terms of Service for more information.
What is a Byte and a Mebibyte?
A byte is a unit of digital information that most commonly consists of 8 bits. Historically, the size of the byte has been hardware-dependent, but 8 bits is now universally accepted as the standard (also known as an octet).
A mebibyte (MiB) is a unit of digital information storage equal to 220 bytes, which is exactly 1,048,576 bytes (or 10242 bytes). It uses the binary prefix 'mebi-' established by the International Electrotechnical Commission (IEC). The mebibyte was created to provide an unambiguous measurement for byte multiples based on powers of 2, distinguishing it from the megabyte (MB), which is based on the decimal prefix 'mega-' (106 or 1,000,000 bytes).
Note: The Byte is part of the imperial/US customary system, primarily used in the US, UK, and Canada for everyday measurements. The Mebibyte belongs to the imperial/US customary system.
History of the Byte and Mebibyte
The term "byte" was coined by Werner Buchholz in 1956 during the early design phase for the IBM Stretch computer. It originally described a group of bits used to encode a single character, with the size varying (often 4 to 6 bits). The 8-bit byte became standard with the introduction of the IBM System/360 in the 1960s.
The prefix 'mebi-' (representing 220) was defined by the IEC in 1998 alongside other binary prefixes (kibi-, gibi-, tebi-, etc.). Before this standard, the SI prefix 'mega-' (M) was ambiguously used to represent both 1,000,000 (106, as per its SI definition) and 1,048,576 (220) in computing contexts. This led to confusion, especially when comparing storage capacities advertised by manufacturers (often using decimal prefixes) and memory sizes or file sizes reported by operating systems (often using binary interpretations). The introduction of the mebibyte (MiB) aimed to resolve this ambiguity by providing a specific term for 1,048,576 bytes.
Common Uses for bytes and mebibytes
Explore the typical applications for both Byte (imperial/US) and Mebibyte (imperial/US) to understand their common contexts.
Common Uses for bytes
- Measuring file sizes (e.g., kilobytes, megabytes, gigabytes).
- Representing single characters in character encoding systems (like ASCII, UTF-8).
- Quantifying computer memory (RAM) and storage capacity (hard drives, SSDs).
- Defining data types in programming languages (e.g.,
byte,char).
Common Uses for mebibytes
Mebibytes are used in contexts where precision based on powers of 2 is necessary:
- Precisely measuring computer memory (RAM) capacity, which is typically manufactured in powers-of-2 sizes.
- Reporting file sizes and disk space usage by operating systems (like Windows, macOS, Linux distributions) and file systems that adhere to IEC standards.
- Software development, technical documentation, and virtualization where exact binary multiples are crucial for calculations, specifications, or resource allocation.
- Cache sizes in CPUs and other hardware components.
Frequently Asked Questions
Questions About Byte (B)
How many bits are in a byte?
There are 8 bits in one byte according to the modern standard.
What's the difference between a bit (b) and a byte (B)?
A bit is the smallest unit (0 or 1), while a byte is a group of 8 bits. Data storage is usually measured in Bytes (B, KB, MB, GB), while data transfer rates are often measured in bits (bps, kbps, Mbps).
How many values can a byte represent?
An 8-bit byte can represent 2^8 = 256 different values (from 0 to 255).
Why 8 bits?
The 8-bit standard emerged partly because it efficiently represents powers of 2 and accommodates encoding schemes like ASCII, which initially used 7 bits plus a parity bit.
About Mebibyte (MiB)
How many bytes are in a mebibyte (MiB)?
There are exactly 220 bytes in 1 mebibyte (MiB). This equals 1,048,576 bytes.
How many kibibytes (KiB) are in a mebibyte (MiB)?
There are 1,024 kibibytes (KiB) in 1 mebibyte (MiB). This follows the binary prefix system where 1 MiB = 220 bytes and 1 KiB = 210 bytes, and 220 / 210 = 210 = 1,024.
What is the difference between a mebibyte (MiB) and a megabyte (MB)?
A mebibyte (MiB) represents 220 bytes (1,048,576 bytes), using the IEC binary prefix 'mebi-'. A megabyte (MB) typically represents 106 bytes (1,000,000 bytes), using the SI decimal prefix 'mega-'. A mebibyte is approximately 4.86% larger than a megabyte (1 MiB ≈ 1.0486 MB). Use MiB for precision in binary contexts (like RAM, OS reporting) and MB for decimal contexts (like hard drive marketing, network speeds in some cases) or when the specific definition is clarified.
What is the difference between a mebibyte (MiB) and a mebibit (Mib)?
A mebibyte (MiB) measures information in bytes, while a mebibit (Mib) measures information in bits. Assuming the standard 1 byte = 8 bits, 1 mebibyte (MiB) is equal to 8 mebibits (Mib). Both use the binary prefix 'mebi-' (220).
Why is MiB used less often than MB in marketing?
Marketing materials (like hard drive capacities) often use the decimal prefix (MB, GB) because it results in a larger-looking number for capacity compared to the binary prefix (MiB, GiB) for the same amount of physical storage (e.g., 1,000,000,000 bytes is marketed as 1 GB, while an OS might report it as approximately 931 MiB, not GiB, because 1 GB is closer to 953.67 MiB, but OS often report GiB as GB). This discrepancy arises because 1 MB = 106 bytes, whereas 1 MiB = 220 bytes. Using decimal units allows manufacturers to advertise higher numbers.
Conversion Table: Byte to Mebibyte
| Byte (B) | Mebibyte (MiB) |
|---|---|
| 1 | 0 |
| 5 | 0 |
| 10 | 0 |
| 25 | 0 |
| 50 | 0 |
| 100 | 0 |
| 500 | 0.001 |
| 1,000 | 0.001 |
All Data Storage Conversions
Other Units from Data Storage
- Bit (b)
- Kilobit (kb)
- Kilobyte (KB)
- Megabit (Mb)
- Megabyte (MB)
- Gigabit (Gb)
- Gigabyte (GB)
- Terabit (Tb)
- Terabyte (TB)
- Petabit (Pb)
- Petabyte (PB)
- Exabit (Eb)
- Exabyte (EB)
- Kibibit (Kib)
- Kibibyte (KiB)
- Mebibit (Mib)
- Gibibit (Gib)
- Gibibyte (GiB)
- Tebibit (Tib)
- Tebibyte (TiB)
- Pebibit (Pib)
- Pebibyte (PiB)
- Exbibit (Eib)
- Exbibyte (EiB)