Data Storage Converter

How to Use This Converter

Pick a mode at the top and follow these steps:

1. Single Conversion – Enter a number, pick your starting unit and target unit, then click Convert.
2. Convert to All Units – Enter a number and one unit to see every equivalent at once.
3. Download Time – Enter a file size and your internet speed to estimate download duration.
4. Storage Reference – Browse charts of common file sizes and device capacities.

Use the swap button to flip your units. Quick buttons set common conversions with one click.

Quick Reference

Common conversions at a glance:

Binary vs Decimal Storage Units

Computers work in powers of two. 1,024 is 2^10, which made it a logical cutoff point. For years, everyone called 1,024 bytes a "kilobyte" even though "kilo" means 1,000 in the metric system. That was fine when drives were small, but the gap became noticeable as capacities grew.

To fix the confusion, the IEC created new names: kibibyte (KiB), mebibyte (MiB), gibibyte (GiB). These use powers of 1,024. The old names (kilobyte, megabyte, gigabyte) now officially mean powers of 1,000.

Drive makers use decimal units because the numbers look bigger. A drive with exactly one trillion bytes gets sold as "1 TB." But Windows has always shown storage using binary math while calling it "GB." That's why your new 1 TB drive shows up as 931 GB. The space isn't missing; it's just labeled differently. After macOS switched to decimal units, Windows slowly started catching up. Once you know both systems, spec comparisons across platforms make more sense.

The Byte and Its Multiples

A byte is 8 bits. Those 8 bits can represent 256 values, which covers every ASCII character.

Decimal prefixes: kilo, mega, giga, tera, peta, exa, zetta, yotta. Each one is a thousand times bigger than the last. Past exabytes, we're mostly talking about global data stats, not personal storage. Binary prefixes sound similar but end differently: kibi, mebi, gibi, tebi, pebi, exbi, zebi, yobi. A kibibyte equals 1,024 bytes. A mebibyte equals 1,048,576 bytes.

The gap between binary and decimal grows at each level. At the petabyte scale, you're looking at a 10% difference.

Understanding File Sizes

A 4K video has four times the pixels of 1080p, so it needs four times the data. Compression shrinks files by finding and removing redundant info. Text compresses really well, but random data barely shrinks.

Lossy compression throws away data you probably won't miss. That's how JPEG and MP3 work. Lossless compression keeps everything but still saves space. PNG and FLAC do this. Go with lossy compression when file size matters. Lossless is better when you need exact copies.

The same video can be 50 MB or 5 GB depending on format and settings. Raw photos from the same camera vary in size by scene. A busy image with lots of detail takes more space than a simple one.

Storage Device Capacities

The 8-inch floppy from 1971 held 80 KB. The 3.5-inch floppy from the 1990s maxed out at 1.44 MB, not even enough for one smartphone photo today. CDs brought 700 MB. DVDs hit 4.7 GB. Blu-ray goes up to 100 GB.

SSDs brought speeds that spinning platters can't touch. Consumer SSDs run from 256 GB to 8 TB. Enterprise drives top 100 TB. Hard drives are still cheaper for bulk storage, with consumer models reaching 24 TB. MicroSD cards the size of a fingernail now hold 1.5 TB—a million times what that first floppy held.

When you buy a drive, advertised capacity never equals usable space. Formatting takes some. The decimal-vs-binary labeling gap eats 7% at the terabyte level. Hidden partitions, system files, and SSD reserves take more. Expect to use 90-95% of the label after formatting.

Network Speed vs Storage Size

ISPs sell speeds in bits per second. File sizes use bytes. There are 8 bits in a byte, so your 100 Mbps connection can move 12.5 megabytes per second at best. Real speeds fall short because of overhead, congestion, and server limits.

Why bits instead of bytes? Bigger numbers sell better. To estimate download time: a 4 GB file is 32 gigabits (4 × 8). At 100 Mbps, that's 320 seconds, or 5 minutes 20 seconds in theory. Add 20-50% for real-world conditions.

Cloud Storage and Bandwidth

Cloud services measure space in decimal units (GB, TB), same as hard drive labels. Free tiers give you 5-15 GB, enough for documents and some photos but not video collections. Paid plans go from 100 GB to several terabytes. Upload speeds are usually slower than downloads on home internet, so first-time backups take a while.

Mobile data adds up fast. Streaming burns 1-7 GB per hour depending on quality. A big game update on cellular could blow through your monthly allowance. Most cloud apps let you limit large transfers to WiFi.

Data Growth and the Future

Global data hit around 120 zettabytes in 2023, or 120 billion terabytes. Social media, streaming, research data, and IoT sensors all add up. Most of it gets deleted quickly, but storage needs grow with it. Official names go up to yottabyte (10^24 bytes). Beyond that, proposed names like brontobyte exist but aren't standardized. Storage density growth has slowed in recent years.

Practical Tips for Managing Storage

Start by looking at how you use storage. Documents take almost no space; a lifetime of text fits in a few gigabytes. Photos add up faster at 3-5 MB each. Video eats storage; one hour of 4K footage can hit 300-400 GB.

The 3-2-1 Backup Rule

• 3 copies of anything you can't lose
• 2 different storage types (like an SSD and cloud storage)
• 1 copy somewhere else (cloud counts)

Check your backups now and then. Silent failures can go unnoticed for months.

Finding Space Hogs

Storage analysis tools show you what's eating up space. Old installers, browser caches, and duplicate downloads pile up without you noticing. Compression helps for archives, especially text-heavy ones. Keep active work on fast storage and move older stuff to bigger, cheaper drives.

Common Questions

Why does my 1 TB drive show 931 GB?

Drive makers measure in even thousands (1 TB = 1,000,000,000,000 bytes). Windows measures in 1024s but still calls it "GB." Your drive has exactly the bytes on the box. Windows just labels them differently. The gap is 7% at the terabyte level.

MB vs MiB: what's the difference?

MB means 1,000,000 bytes (decimal). MiB means 1,048,576 bytes (binary, based on 1024). The "i" stands for binary. Most people say "megabyte" for both, which is where the confusion starts.

My downloads are slower than my internet speed. What gives?

Internet plans use megabits (Mb). Files use megabytes (MB). There are 8 bits in a byte. Divide your Mbps by 8 to get your actual MB/s speed. A 100 Mbps plan downloads at 12.5 MB per second under ideal conditions.

Common Conversion Mistakes

Confusing bits and bytes

Lowercase 'b' means bits. Uppercase 'B' means bytes. Get it wrong and you're off by 8x. A 100 Mb file is eight times smaller than 100 MB. Network speeds use bits; file sizes use bytes.

Mixing binary and decimal

1 GiB doesn't equal 1 GB—it's 1.074 GB. Some online converters ignore this. This one shows both.

Expecting full capacity

A 256 GB drive shows 238 GB after Windows formats it. System partitions and the labeling gap take the rest. Budget for 10-15% less than the label, especially on boot drives.