How to Convert Bits to Kilobits
To convert a data storage measurement from bits to kilobits, divide the value by the conversion factor. Since one bit is equal to 2-10 kilobits, you can use this formula:
The data storage in kilobits is equal to the bits divided by 1,024.
Using the formula: kilobits = bits ÷ 1,024
kilobits = 1,024 b ÷ 1,024 = 1 kb
Therefore, 1,024 bits equals 1 kilobits.
How Many Kilobits Are in a Bit?
There are 2-10 kilobits in one bit.
What Is a Bit?
The bit (symbol: b), short for binary digit, is the most fundamental unit of information in computing and digital communications. A single bit can hold one of two possible values: 0 or 1, representing the two states of a binary system (off/on, false/true, low/high). The concept of the bit was formalized by Claude Shannon in his 1948 paper "A Mathematical Theory of Communication," which laid the foundation for information theory. Shannon showed that any information can be encoded as a sequence of binary digits. In modern computers, bits are physically represented by electrical voltages, magnetic orientations, optical states, or quantum states depending on the technology. A transistor in a CPU stores one bit by being in either a conducting or non-conducting state. Bits are commonly used to express data transfer rates. Internet speeds, for example, are measured in megabits per second (Mbps) or gigabits per second (Gbps). Note that data transfer rates use bits, while storage capacity typically uses bytes (1 byte = 8 bits).
One bit is equal to:
- 0.125 bytes (B)
- 0.25 nibbles
- 1/1,024 kilobits (kb)
- 1/8,192 kilobytes (kB)
What Is a Kilobit?
The kilobit (symbol: kb) is a unit of digital information equal to 1,024 bits in the binary system, or 1,000 bits in the decimal (SI) system. In computing, the binary definition (1,024 bits) is most commonly used, while the decimal definition is more common in telecommunications. The kilobit is most frequently encountered in the context of data transfer rates. Early dial-up modems operated at speeds measured in kilobits per second (kbps), with common speeds of 14.4, 28.8, and 56 kbps. While modern broadband speeds are measured in megabits or gigabits per second, kilobits remain relevant for low-bandwidth applications such as voice calls (typically 8–64 kbps) and IoT sensors. The IEC standard defines the kibibit (Kib) as exactly 1,024 bits to distinguish from the SI kilobit of 1,000 bits. However, in common practice, "kilobit" often refers to 1,024 bits in computing contexts, which is the convention used here. In networking, the kilobit per second (kbps) is used to describe the throughput of serial connections, Bluetooth Low Energy links, and other low-bandwidth communication channels.
One kilobit is equal to:
- 1,024 bits (b)
- 128 bytes (B)
- 256 nibbles
- 0.125 kilobytes (kB)
- 1/1,024 megabits (Mb)
Understanding Data Storage Units
Data storage units measure the amount of digital information that can be stored, transmitted, or processed. The fundamental unit is the bit (binary digit), which can hold a value of 0 or 1. All digital information, from text documents to 4K videos, is ultimately represented as sequences of bits.
Data storage units are organized in two main hierarchies: bits (b, kb, Mb, Gb, Tb, Pb, Eb) and bytes (B, kB, MB, GB, TB, PB, EB). The relationship between them is that 1 byte = 8 bits. Bits are typically used for data transfer rates (internet speed), while bytes are used for storage capacity (file sizes, drive capacity).
Binary vs. Decimal Prefixes
There are two conventions for data storage prefixes, which can cause confusion:
- Binary (base-2): Each prefix step is a factor of 1,024 (210). So 1 kB = 1,024 B, 1 MB = 1,024 kB, etc. This is used by operating systems and in most computing contexts. This converter uses the binary convention.
- Decimal (base-10): Each prefix step is a factor of 1,000. So 1 kB = 1,000 B, 1 MB = 1,000 kB, etc. This is used by storage device manufacturers and in telecommunications.
To avoid confusion, the IEC introduced binary prefixes: kibibyte (KiB = 1,024 B), mebibyte (MiB = 1,024 KiB), gibibyte (GiB = 1,024 MiB), etc. However, these names are not widely used in everyday language.
Common Data Sizes in Perspective
- 1 Bit: A single binary digit (0 or 1)
- 1 Byte (8 bits): One text character (ASCII)
- 1 Kilobyte (1,024 bytes): A short paragraph of text
- 1 Megabyte (1,024 kB): A compressed photo or one minute of MP3 audio
- 1 Gigabyte (1,024 MB): About 250 MP3 songs or a short HD video
- 1 Terabyte (1,024 GB): About 250,000 photos or 500 hours of HD video
- 1 Petabyte (1,024 TB): About 1,000 consumer hard drives
- 1 Exabyte (1,024 PB): Roughly 11 million hours of 4K video
Data Transfer Rates vs. Storage
An important distinction exists between data transfer rates and storage capacity:
- Transfer rates use bits per second: kbps, Mbps, Gbps (note lowercase 'b')
- Storage capacity uses bytes: kB, MB, GB, TB (note uppercase 'B')
To convert between them, divide the bit rate by 8 to get the byte rate. For example, a 100 Mbps internet connection can transfer at most 12.5 MB per second (100 / 8 = 12.5).
Tips for Data Storage Conversions
- To convert between adjacent byte units (kB → MB → GB → TB → PB → EB), divide by 1,024 to go up or multiply by 1,024 to go down. The same applies to bit units (kb → Mb → Gb → Tb → Pb → Eb).
- To convert between bits and bytes at the same prefix level, divide bits by 8 to get bytes, or multiply bytes by 8 to get bits. For example: 100 Mb = 12.5 MB.
- When comparing internet speed (in Mbps) with file size (in MB), divide the speed by 8 to estimate download time. A 100 Mbps connection downloads at about 12.5 MB/s, so a 1 GB file takes about 80 seconds.
- Storage manufacturers use decimal (1 GB = 1,000,000,000 bytes) while operating systems use binary (1 GB = 1,073,741,824 bytes). This is why a "500 GB" drive shows as about 465 GB in your OS.
- A nibble is exactly 4 bits (half a byte) and represents one hexadecimal digit. Two nibbles make one byte.
- Memory (RAM) sizes always use binary: 4 GB, 8 GB, 16 GB, 32 GB. These are exact powers of 2 in bytes.
- When estimating storage needs: text files are measured in kB, photos and songs in MB, movies and games in GB, hard drives in TB, and data centers in PB or EB.
Bits to Kilobits Conversion Table
The following table shows conversions from bits to kilobits, using the binary convention (1 kB = 1,024 B).
| Bits | Kilobits (kb) |
|---|---|
| 1 b | 9.7656E-4 |
| 2 b | 0.00195313 |
| 3 b | 0.00292969 |
| 4 b | 0.00390625 |
| 5 b | 0.00488281 |
| 6 b | 0.00585938 |
| 7 b | 0.00683594 |
| 8 b | 0.0078125 |
| 9 b | 0.00878906 |
| 10 b | 0.00976563 |
| 11 b | 0.0107422 |
| 12 b | 0.0117188 |
| 13 b | 0.0126953 |
| 14 b | 0.0136719 |
| 15 b | 0.0146484 |
| 16 b | 0.015625 |
| 17 b | 0.0166016 |
| 18 b | 0.0175781 |
| 19 b | 0.0185547 |
| 20 b | 0.0195313 |
| 21 b | 0.0205078 |
| 22 b | 0.0214844 |
| 23 b | 0.0224609 |
| 24 b | 0.0234375 |
| 25 b | 0.0244141 |
| 26 b | 0.0253906 |
| 27 b | 0.0263672 |
| 28 b | 0.0273438 |
| 29 b | 0.0283203 |
| 30 b | 0.0292969 |
| 31 b | 0.0302734 |
| 32 b | 0.03125 |
| 33 b | 0.0322266 |
| 34 b | 0.0332031 |
| 35 b | 0.0341797 |
| 36 b | 0.0351563 |
| 37 b | 0.0361328 |
| 38 b | 0.0371094 |
| 39 b | 0.0380859 |
| 40 b | 0.0390625 |