File size i.e. how big the file or how much space a file occupies in the hard disk measured in terms of KiloBytes (KB upper case “K” and upper case “B”). In computing terms the upper case “K” stands for 1024. 1024 is computed from 210. (2 power 10). 2 denote the number of characters in the binary system which is used to store data in the disc (ones and zeroes).
Other abbreviations like mega, giga and terra also use the base as 1024,
1KB (KiloByte) = 1024 Bytes (approximately 1000 Bytes)
1MB (MegaByte) = 1024 KB (approximately 1000 KiloBytes or 1 million Bytes)
1GB (GigaByte) = 1024 MB (approximately 1000 MegaBytes or 1 billion Bytes)
1TB (TerraByte) = 1024 GB (approximately 1000 GigaBytes or 1 trillion Bytes)
The measure of data transfer speeds: kbps
Data transfer speed over the networks (including the internet) is calculated in terms of bits per second: kilobits (kb small case “k” and small case “b”). The higher the kbps, i.e., more the bits transferred per second, the more the speed, the faster the network/connection. Here k stands for 1000 (103 )
One kbps (kilobits per second) = 1000 bits per second
1 Mbps (megabits per second) = 1000 kilobits per second.
1 Gbps (gigabits per second) = 1,000 megabits per second.
ISP bandwidth and download speeds
The most common confusion caused by the similarity of KBps and kbps is when it comes to internet bandwidth and downloads speeds. People often complain that their ISP promised 512kbps connectivity, but they are seldom able to download any file at 512 KBps. They fail to notice the difference in cases of the units and hence think their ISP is cheating them or offering them poor quality service. As mentioned earlier data transfer speeds are always calculated in terms of kbps so an ISP connectivity of 512 kbps promises of transfer of at the max 512-kilobits per second.
On the other hand, file size measure is always in Kilo Bytes and thus download speeds are always calculated based on how many Bytes per second are downloaded and hence KiloBytes per second (KBps). KBps and kbps are not interchangeable.
So an internet connectivity of say 512kbps can never achieve a download speed of 512 KBps. To calculate the maximum download speed of a “X kbps” connection, we need to use a simple formula as below.
Download KBPS speed = (Kbps value*1000) /8)) / 1024.
I.e. For a connectivity of 512 kbps
kbps value * 1000 = 512 * 1000 = 512000
512000 / 8 = 64000
64000 / 1024 = 62.5 KBps
Therefore, theoretically an internet connection of 1024kbps bandwidth can download at a speed of 125 KBps
If you don’t want to go through all the hassles of the above formula, just multiply the kbps value with 0.1220703125 to get the KBps value.
512 kbps * 0.1220703125 = 62.5 KBps. Simple!

Internet connectivity Download speed (approx)
256 kbps 31.3 KBps
384 kbps 46.9 KBps
512 kbps 62.5 KBps
768 kbps 93.8 KBps
1 mbps ~ 1000kbps 122.1 KBps

We have mentioned download speed as approximate because they will vary (always reduce) by 15 – 20% due to network signal loss, computer hardware overheads, etc. So for realistic, real world figures always reduce 15 – 20% from the computed KBPS downloads speeds
Now we guess the confusion of kbps and KBps has cleared away. Just remember when you talk in terms of the network it’s always bytes per second (bps) and when you speak in terms of storage and files its still Bytes per second (Bps). And next time you won’t complain when your 1024 kbps connection does not give you download speeds of 2048KBps because now you know why.

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Mina Aryal is a Nepali tech journalist and media expert. She is currently the chief editor of ICT Frame, a leading online tech media outlet in Nepal that covers topics such as technology, business, and entrepreneurship. Aryal has been involved in the field of tech journalism for over a decade and has covered various topics such as internet governance, cybersecurity, e-commerce, and startup ecosystems. She has also been involved in organizing and promoting tech events in Nepal to bring together tech enthusiasts, entrepreneurs, and investors to discuss and collaborate on various topics related to the tech industry. Aryal is considered one of the most influential tech journalists in Nepal and has been recognized for her contributions to the field.