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Pebibyte to Bit Conversion Calculator: Free Online Tool

Convert pebibytes to bits with our free online data storage converter.

Pebibyte to Bit Calculator

Pebibyte
Bit

How to Use the Calculator:

  1. Enter the value you want to convert in the 'From' field (Pebibyte).
  2. The converted value in Bit will appear automatically in the 'To' field.
  3. Use the dropdown menus to select different units within the Data Storage category.
  4. Click the swap button (⇌) to reverse the conversion direction.

How to Convert Pebibyte to Bit

Converting Pebibyte to Bit involves multiplying the value by a specific conversion factor, as shown in the formula below.

Formula:

1 Pebibyte = 9007199254740992 bits

Example Calculation:

Convert 10 pebibytes: 10 × 9007199254740992 = 9.0072e+16 bits

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 Pebibyte and a Bit?

A pebibyte (PiB) is a unit of digital information storage equal to 250 bytes, which is exactly 1,125,899,906,842,624 bytes (or 10245 bytes). It uses the binary prefix 'pebi-' established by the International Electrotechnical Commission (IEC). The pebibyte was created to provide an unambiguous measurement for byte multiples based on powers of 2, distinguishing it from the petabyte (PB), which is based on the decimal prefix 'peta-' (1015 or 1,000,000,000,000,000 bytes).

A bit, short for binary digit, is the most fundamental and smallest unit of data in computing, digital communications, and information theory. It represents a logical state containing one of two possible values. These values are most often represented as 0 or 1, but can also be interpreted as true/false, yes/no, on/off, or any other two mutually exclusive states. All digital information, from simple text to complex video, is ultimately composed of bits.

Note: The Pebibyte is part of the imperial/US customary system, primarily used in the US, UK, and Canada for everyday measurements. The Bit belongs to the imperial/US customary system.

History of the Pebibyte and Bit

The prefix 'pebi-' (representing 250) was defined by the IEC in 1998 alongside other binary prefixes (kibi-, mebi-, gibi-, tebi-, exbi-). Before this standard, the SI prefix 'peta-' (P) was ambiguously used to represent both 1,000,000,000,000,000 (1015, as per its SI definition) and 1,125,899,906,842,624 (250) in computing contexts, especially for very large data volumes. This led to significant confusion when comparing storage capacities advertised by manufacturers (often using decimal prefixes) and those reported by operating systems or used in technical specifications (often using binary interpretations). The introduction of the pebibyte (PiB) aimed to resolve this ambiguity by providing a specific term for 250 bytes.

The concept and term "bit" were formalized in the mid-20th century.

  • Coined: John W. Tukey is credited with shortening "binary digit" to "bit" in a Bell Labs memo dated January 9, 1947.
  • Popularized: Claude E. Shannon, the father of information theory, extensively used the term in his groundbreaking 1948 paper, "A Mathematical Theory of Communication." Shannon established the bit as the basic unit for quantifying information and communication channel capacity.
  • Early Computing: The earliest computers relied directly on representing and manipulating individual bits using technologies like electromechanical relays, vacuum tubes, and later, transistors.

Common Uses for pebibytes and bits

Explore the typical applications for both Pebibyte (imperial/US) and Bit (imperial/US) to understand their common contexts.

Common Uses for pebibytes

Pebibytes are used in contexts dealing with extremely large amounts of data storage where precision based on powers of 2 is necessary:

  • Measuring the capacity of very large-scale storage systems, data centers, and cloud storage infrastructure.
  • Reporting file system sizes and disk space usage by operating systems for extremely large volumes, especially where IEC standards are followed.
  • High-performance computing (HPC), large dataset analysis (Big Data), scientific research, and simulations involving massive data storage requirements.
  • Technical specifications for enterprise-level storage hardware and software where exact binary multiples are crucial.
  • Archiving and backup systems handling petabyte-scale data.

Common Uses for bits

Bits are the bedrock upon which the digital world is built. Key applications include:

  • Representing Binary Data: Encoding all forms of digital information, including numbers, text characters (via standards like ASCII or Unicode), images, and sound.
  • Boolean Logic: Representing true/false values in logical operations within computer processors and software.
  • Information Measurement: Quantifying information content and entropy, as defined by Shannon.
  • Data Transfer Rates: Measuring the speed of data transmission over networks (e.g., internet speed) or between computer components, typically expressed in kilobits per second (kbps), megabits per second (Mbps), or gigabits per second (Gbps).
  • Data Storage Capacity: While storage is often measured in bytes (groups of 8 bits), the underlying capacity is based on the number of bits a medium can store.
  • Processor Architecture: Defining the amount of data a CPU can process at once (e.g., 32-bit or 64-bit processors refers to the width of their data registers and buses).
  • Error Detection and Correction: Using parity bits and more complex coding schemes to ensure data integrity during transmission or storage.

Frequently Asked Questions

Questions About Pebibyte (PiB)

How many bytes are in a pebibyte (PiB)?

There are exactly 250 bytes in 1 pebibyte (PiB). This equals 1,125,899,906,842,624 bytes.

How many tebibytes (TiB) are in a pebibyte (PiB)?

There are 1,024 tebibytes (TiB) in 1 pebibyte (PiB). This follows the binary prefix system where 1 PiB = 250 bytes and 1 TiB = 240 bytes, and 250 / 240 = 210 = 1,024.

What is the difference between a pebibyte (PiB) and a petabyte (PB)?

A pebibyte (PiB) represents 250 bytes (1,125,899,906,842,624 bytes), using the IEC binary prefix 'pebi-'. A petabyte (PB) typically represents 1015 bytes (1,000,000,000,000,000 bytes), using the SI decimal prefix 'peta-'. A pebibyte is approximately 12.6% larger than a petabyte (1 PiB ≈ 1.126 PB). Use PiB for precision in binary contexts (like large-scale OS reporting, HPC storage) and PB for decimal contexts (like marketing large storage systems) or when the specific definition is clarified.

What is the difference between a pebibyte (PiB) and a pebibit (Pib)?

A pebibyte (PiB) measures information in bytes, while a pebibit (Pib) measures information in bits. Assuming the standard 1 byte = 8 bits, 1 pebibyte (PiB) is equal to 8 pebibits (Pib). Both use the binary prefix 'pebi-' (250).

Why is PiB used less often than PB in marketing?

Marketing materials for large storage systems often use the decimal prefix (PB, EB) because it results in a larger-looking number for capacity compared to the binary prefix (PiB, EiB) for the same amount of physical storage. For example, 1015 bytes is marketed as 1 PB, while an OS might report a similar capacity using PiB (1 PB is approximately 0.888 PiB). Using decimal units allows manufacturers to advertise higher, rounder numbers, even though technical contexts often rely on binary measurements.

About Bit (b)

How many bits are in a byte?

By the most widely accepted standard in modern computing, there are 8 bits in 1 byte. A byte is often the smallest addressable unit of memory in computer architecture.

What's the difference between a bit and a byte?

A bit is the smallest single unit of data (a 0 or 1). A byte is a collection of bits, typically 8 bits. Bytes are commonly used to represent characters, measure file sizes, and quantify computer memory or storage capacity (e.g., kilobytes (KB), megabytes (MB), gigabytes (GB)). Data transfer speeds, however, are often measured in bits per second (kbps, Mbps, Gbps).

What does a bit physically represent?

In digital electronics, a bit's value (0 or 1) is typically represented by a physical state, such as:

  • Different voltage levels (e.g., low voltage for 0, high voltage for 1).
  • The presence or absence of electrical current.
  • Different states of magnetic polarization on a disk.
  • The reflection or non-reflection of light from a point on an optical disc (like a CD or DVD).

Why is it called a 'binary' digit?

It's called "binary" because it belongs to a base-2 number system. Unlike the familiar decimal (base-10) system which uses ten digits (0-9), the binary system uses only two digits: 0 and 1.

How are bits used in measuring internet speed?

Internet speed, or data transfer rate, measures how quickly data can move from one point to another. This is typically measured in bits per second (bps) or multiples like kbps (kilobits per second), Mbps (megabits per second), and Gbps (gigabits per second). A higher number means faster data transfer. For example, a 100 Mbps connection can transfer 100 million bits every second.

Is a bit the absolute smallest unit of data?

Yes, in the context of classical computing and digital information theory, the bit is considered the most fundamental and indivisible unit of information.

Conversion Table: Pebibyte to Bit

Pebibyte (PiB)Bit (b)
19,007,199,254,740,992
545,035,996,273,704,960
1090,071,992,547,409,920
25225,179,981,368,524,800
50450,359,962,737,049,600
100900,719,925,474,099,200
5004,503,599,627,370,496,000
1,0009,007,199,254,740,992,000

All Data Storage Conversions

Bit to ByteBit to KilobitBit to KilobyteBit to MegabitBit to MegabyteBit to GigabitBit to GigabyteBit to TerabitBit to TerabyteBit to PetabitBit to PetabyteBit to ExabitBit to ExabyteBit to KibibitBit to KibibyteBit to MebibitBit to MebibyteBit to GibibitBit to GibibyteBit to TebibitBit to TebibyteBit to PebibitBit to PebibyteBit to ExbibitBit to ExbibyteByte to BitByte to KilobitByte to KilobyteByte to MegabitByte to MegabyteByte to GigabitByte to GigabyteByte to TerabitByte to TerabyteByte to PetabitByte to PetabyteByte to ExabitByte to ExabyteByte to KibibitByte to KibibyteByte to MebibitByte to MebibyteByte to GibibitByte to GibibyteByte to TebibitByte to TebibyteByte to PebibitByte to PebibyteByte to ExbibitByte to ExbibyteKilobit to BitKilobit to ByteKilobit to KilobyteKilobit to MegabitKilobit to MegabyteKilobit to GigabitKilobit to GigabyteKilobit to TerabitKilobit to TerabyteKilobit to PetabitKilobit to PetabyteKilobit to ExabitKilobit to ExabyteKilobit to KibibitKilobit to KibibyteKilobit to MebibitKilobit to MebibyteKilobit to GibibitKilobit to GibibyteKilobit to TebibitKilobit to TebibyteKilobit to PebibitKilobit to PebibyteKilobit to ExbibitKilobit to ExbibyteKilobyte to BitKilobyte to ByteKilobyte to KilobitKilobyte to MegabitKilobyte to MegabyteKilobyte to GigabitKilobyte to GigabyteKilobyte to TerabitKilobyte to TerabyteKilobyte to PetabitKilobyte to PetabyteKilobyte to ExabitKilobyte to ExabyteKilobyte to KibibitKilobyte to KibibyteKilobyte to MebibitKilobyte to MebibyteKilobyte to GibibitKilobyte to GibibyteKilobyte to TebibitKilobyte to TebibyteKilobyte to PebibitKilobyte to PebibyteKilobyte to ExbibitKilobyte to ExbibyteMegabit to BitMegabit to ByteMegabit to KilobitMegabit to KilobyteMegabit to MegabyteMegabit to GigabitMegabit to GigabyteMegabit to TerabitMegabit to TerabyteMegabit to PetabitMegabit to PetabyteMegabit to ExabitMegabit to ExabyteMegabit to KibibitMegabit to KibibyteMegabit to MebibitMegabit to MebibyteMegabit to GibibitMegabit to GibibyteMegabit to Tebibit

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