Generally, the reception rate is much faster than the transmission rate, which makes sense since users typically upload a lot more information than they send. Watching videos or listening to music, reading a blog article, or scrolling through your Linkedin feed are all activities that require almost no sending of data; once they are completed. These are all passive apps, not interactive apps. This is where the use of the TM Unifi comes useful.

Send speeds to become much more important for interactive applications; or when using a cloud service, for example.

• As an outcome, sending speeds are basic for organizations. Sharing enormous records can require a great deal of transmission throughput. In the event that you need to send a picture or an arrangement to a customer, you will require great sending speed; particularly if a few group are doing likewise simultaneously as you. Moreover when you back up documents to the cloud or work in TSE mode.
• Also, if you are making HD videos or uploading any other type of large files, and need to upload them to a server, then the question no longer arises. You need a symmetrical rate plan. Suddenly, listing what you do on the internet allows you to choose the best internet business offer.

Bits and bytes (or bits and bytes)

As stated earlier, internet speed is a measure of the rate at which information is transferred from one place on the internet to another. This measurement can be expressed in several ways. But the first step to understanding it is to understand the units in which it is expressed.

Electronic information is: any information stored or used by a computer or an internet device. It tells computers what to do, what to display, and how to interact with each other. The most basic unit of electronic information is called a bit.

Bit vs byte internet speeds

In most binary codes, eight bits are combined into a series; each with a value of one or zero. The combined series of bits is one information byte. The variation of the values ​​of the bits in a byte determines the information that that byte represents. This means that one byte can represent one of 256 possible pieces of information. Almost all electronic information is made up of these bits and bytes.