Gigabyte per second to Bit per second
GBps
bps
Conversion History
| Conversion | Reuse | Delete |
|---|---|---|
1 GBps (Gigabyte per second) → 8000000000 bps (Bit per second) Just now |
Quick Reference Table (Gigabyte per second to Bit per second)
| Gigabyte per second (GBps) | Bit per second (bps) |
|---|---|
| 0.5 | 4,000,000,000 |
| 1 | 8,000,000,000 |
| 6 | 48,000,000,000 |
| 10 | 80,000,000,000 |
| 16 | 128,000,000,000 |
| 64 | 512,000,000,000 |
| 128 | 1,024,000,000,000 |
About Gigabyte per second (GBps)
A gigabyte per second (GB/s or GBps) equals 8,000,000,000 bits per second and is used to measure the performance of high-speed storage interfaces, memory buses, and data center links. PCIe 4.0 ×4 NVMe SSDs achieve around 6–7 GB/s sequential read. DDR5 memory operates at 50–100 GB/s of bandwidth. GPU memory bandwidth reaches 1–2 TB/s on the fastest cards. At 1 GB/s, a 4K movie (50 GB) transfers in about 50 seconds.
A Samsung 990 Pro NVMe SSD reads sequentially at about 7.45 GB/s. PCIe 5.0 ×16 slots provide up to 128 GB/s of theoretical bandwidth.
About Bit per second (bps)
A bit per second (bps) is the base unit of data transfer rate, representing one binary digit transmitted every second. It is the foundation from which all larger bandwidth units are built. In practice, raw bps figures are useful only for extremely low-speed links — early telegraph systems, narrowband IoT sensors, and some serial control lines operate at tens to thousands of bps. Modern connections are described in kbps, Mbps, or Gbps, making raw bps a reference unit rather than a practical measurement for everyday networking.
Early Morse code telegraph lines transmitted at roughly 10–50 bps. Modern IoT sensors on LoRaWAN networks communicate at 250–50,000 bps.
Gigabyte per second – Frequently Asked Questions
Why does RAM bandwidth matter for gaming and productivity?
CPUs constantly shuttle data between RAM and their caches. DDR5-6000 provides about 96 GB/s of bandwidth in dual-channel mode. In games, insufficient RAM bandwidth causes frame drops during complex scenes. In productivity tasks like video encoding, it directly limits how fast the CPU can process data.
How fast is Thunderbolt 4 in GB/s?
Thunderbolt 4 runs at 40 Gbps, which is 5 GB/s. Thunderbolt 5, released in 2024, doubles this to 80 Gbps (10 GB/s) with a burst mode up to 120 Gbps (15 GB/s). This is fast enough to run an external NVMe SSD at near-internal speeds.
What limits SSD speed — the drive or the interface?
Both, depending on generation. A PCIe 3.0 ×4 interface caps at ~3.5 GB/s, bottlenecking modern NAND. PCIe 4.0 ×4 raises this to ~7 GB/s, and PCIe 5.0 ×4 to ~14 GB/s. The drive's NAND flash and controller also have limits — the fastest SSDs and the fastest interfaces are in a constant leapfrog.
How does GPU memory bandwidth reach over 1,000 GB/s?
GPUs use wide memory buses (256–384 bits) with very fast HBM or GDDR6X memory running at high clock speeds. An RTX 4090 has a 384-bit bus with GDDR6X at 21 Gbps per pin, totalling 1,008 GB/s. HBM3 in data center GPUs achieves 3,000+ GB/s through stacked memory with 4096-bit buses.
At GB/s speeds, what becomes the bottleneck?
At multi-GB/s rates, CPU processing speed, software efficiency, and thermal throttling become bottlenecks. A 14 GB/s PCIe 5.0 SSD can deliver data faster than most applications can consume it. Decompression, parsing, and memory allocation in software often cannot keep up with raw storage bandwidth.
Bit per second – Frequently Asked Questions
Why is a bit the smallest unit of data transfer?
A bit represents a single binary choice — 0 or 1 — which is the fundamental quantum of digital information. Every larger unit (byte, kilobit, megabit) is just a multiple of bits. You cannot meaningfully subdivide a binary digit, so bps is the floor of data rate measurement.
What modern devices still operate at bits per second?
LoRaWAN IoT sensors, some RFID readers, and legacy serial ports (RS-232 at 300–9600 baud) still deal in raw bps ranges. Satellites communicating with deep-space probes also use very low bps — NASA's Voyager 1 transmits at about 160 bps from interstellar space.
Is baud the same as bits per second?
Not exactly. Baud measures symbol changes per second, while bps measures bits per second. If each symbol encodes one bit, they are equal. But modern modems encode multiple bits per symbol — a 2400-baud modem using 16-QAM transmits 9600 bps because each symbol carries 4 bits.
How many bits per second does a human speaking convey?
Research suggests human speech carries about 39 bits per second of actual information content, regardless of language. Italian speakers talk faster but convey less information per syllable than Japanese speakers, balancing out to roughly the same bps across all studied languages.
Why did early modems top out at 56,000 bps?
The 56 kbps limit came from the Shannon-Hartley theorem applied to analogue phone lines. The 3.1 kHz bandwidth of a voice telephone channel, combined with its signal-to-noise ratio, creates a theoretical ceiling near 56 kbps. FCC power regulations further capped actual downstream to 53.3 kbps.