# Byte Calculator + Online Solver With Free Steps

The **Byte Calculator** is essential for rapid conversion between digital information units. This converter supports over 20 different teams, ranging from the widely used **megabytes** & **bites **to the more uncommon **exbibytes **& **terabits**.

The size of a video file is frequently estimated via **byte conversion**. Additionally, a list of typical Byte equivalents is provided below so that you may see how many bytes are equivalent to GBs, TBs, and so forth.

When setting different cloud systems, performing this sort of transformation from GBs (or other units) to Bytes is frequently essential. The ability to convert between Byte units is not readily available in search engines, but many other unit conversions are.

## What Is a Byte Calculator?

**The Byte Calculator is an online calculator that determines the total amount of bits sent by a digital system. It involves the conversion of digital information between different units.**

**A bit represents the most fundamental unit of digital data measurement, with 8 of them equaling a byte.** Byte-based figures are frequently used when defining the performance of drives, storage areas, or the volumes of files.

Converting data units is relatively easy when utilizing bytes because you must add or subtract a predetermined amount of zeros to get the correct result.

Although a byte is relatively small, a **Kilo-Byte (KB)** is equivalent to a thousand bytes, and a Megabyte (1MB) equalsÂ 1 million bytes. A **terabyte (1TB)** is a thousand **Giga-Byte (GB)**, while 1GB is equivalent to a thousand Megabyte.

A standard conversion is performed to determine the appropriate amount of Bytes and various quantities from the baseline, needed Kb’s, Mb’s, Gb’s, Tb’s, or even PBs.

You can put your preferred value into the converter below to quickly convert it to the appropriate amount of Bytes, KBs, MBs, & so on.

## How To Use the Byte Calculator

You can use the **Byte Calculator** by following the detailed guidelines below. The calculator helps you to convert the bytes immediately. All you need to do is input the data correctly.

### Step 1

Fill in the provided input box with the number of bits.

### Step 2

To calculate the** Bytes** for the provided data and to view the complete, step-by-step solution for the **Bytes **Calculation, click the **“Submit”** button.

## How Does a Byte Calculator Work?

The **Byte Calculator** works by dividing the total number of bits by the constant 8. The following is the **conversion formula**:

\[ bytes = \frac{bits}{8} \]

For instance, the operation would be as follows if we wanted to convert 60 bits to bytes:

\[ \frac{60 \; bits}{8} = 7.5 \; bytes \]

Excel has a unit conversion function that allows you to execute this procedure there as well.

### Smallest Unit of Information

Typically, a bit, or a simple binary digit, is the most straightforward value a processor can remember. A bit can only be either 0 or 1.

Bits are logical states that are binary. We can utilize them to indicate various numbers outside 0 & 1, like:

- On & Off
- plus and minus

Even on the system, data can migrate or be kept somewhere. Both situations often apply to data storage, although the first usually refers to data transport and transmitting them carefully.

### Bit rate

Bits per second (bps) is a unit of measurement for how quickly information is moved between two points.

Computer programmers choose a metric method since the device’s architecture makes it difficult to manipulate this amount. Powers of Ten make up the multiples of a BPS.

### Common Byte Conversions

Here is a list of specific byte conversions that are applied in different contexts:

Bytes | Kilo-bytes (Kbâ€™s),Â | Mega-bytes (MBâ€™s),Â | Giga-bytes (GBâ€™s),Â | Tera-bytes (TBâ€™s) | Peta-bytes (PBâ€™s) |

1024 | 1 | Â | Â | Â | Â |

10240 | 10 | Â | Â | Â | Â |

102400 | 100 | Â | Â | Â | Â |

1048576 | 1024 | 1 | Â | Â | Â |

10485760 | 10240 | 10 | Â | Â | Â |

134217728 | 131072 | 128 | Â | Â | Â |

536870912 | 524288 | 512 | Â | Â | Â |

1073741824 | 1048576 | 1024 | 1 | Â | Â |

53687091200 | 52428800 | 51200 | 50 | Â | Â |

137438953472 | 134217728 | 131072 | 128 | Â | Â |

549755813888 | 536870912 | 524288 | 512 | Â | Â |

1099511627776 | 1073741824 | 1048576 | 1024 | 1 | Â |

1125899906842624 | 1099511627776 | 1073741824 | 1048576 | 1024 | 1 |

## Solved Examples

Here are some solved examples to have a deep comprehension regarding the effective working of the **Bytes Calculator**.

### Example 1

Calculate the bytes for a binary number **10001101**.

### Solution

Using the binary number **10001101** as an example:

Once more, the number is indicated by the positioning. Moving to the left side increases the multiplication by a power. However, it is a two power because the number’s base is two ‘2’.

The **first digit** from the right multiplier 2 is equal to one.

The **second digit** from the right multiplier is equal to two.

The **third digit** from the right multiplier is equal to four.

The **fourth digit** from the right multiplier is equal to eight;

The **fifth digit** from the right multiplier is equal to sixteen;

The **sixth digit** from the right multiplier is equal to thirty two;

The **seventh digit** from the right multiplier is equal to sixty four.

The **eight digit** from the right multiplier is equal to one hundred eighty-two.

The number is thus:

The first digit represents the number 1’s. The second represents the number 2’s, the third represents the number 4’s, and the fourth represents the number 8’s.

The fifth represents the number 16’s. The sixth represents the number 32’s. The seventh represents the number 64s, and the eighth represents the number 128s.

The number is obtained by adding all the outcomes (in decimal)

**= (128 x 1) + (64 x 0) + (32 x 0)+ (16 x 0)+ (8 x 1) + (4 x 1) + (2 x 0) + (1 x 1) **

**Â 128 + 8 + 4 + 1 = 141**

The technique can be scaled up to accommodate any number of binary digits.

### Example 2

Convert a 16-bit decimal value **61049** to a binary number using hexadecimal.

### Solution

This procedure employs two byte to bit conversion, which is the opposite of bit-to-byte conversion.

The binary value is** 61049**

Divide **â€˜61049â€™** by **â€˜256â€™** to get **â€˜238.472â€™.**

All of the left digits are **238**

Subtract the initial **â€˜121â€™** left digit and **â€˜238â€™** right digit by $ **238 \times 256** $.

After subtracting, we get 121.

The same as previously

\[ \frac{238}{16} = 14.975 \]

whole = 14 = E (base 16) (base 16)

**238 – 14 x 16 = 14.0Â **

remaining 14 equals E. (base 16)

\[ \frac{121}{16} = 7.563 \]

full = 7 = 7 (base 16)

**121 – 7 x 16 = 9.0Â **

as a leftover 9 Equals 9 (base 16)

EE79 in full hex, or 1110-1110-0111-1001 or 1110111001111001 in binary.