Speed of sata 1 is 1.5 Gbps Speed of sata 2 is 3 Gbps
Ethernet LANs have transmission rates of 10 Mbps, 100 Mbps, 1 Gbps and 10 Gbps For an X Mbps Ethernet (where X = 10, 100, 1,000 or 10,000), a user can continuously transmit at the rate X Mbps if that user is the only person sending data. If there are more than one active user, then each user cannot continuously transmit at X Mbps.
16 Gbps
When talking about data transfer speeds most likely you will be talking about Megabits Per Second (Mbps) or Gigabit Per Second (Gbps).
The theoretical maximum data rate in USB 2.0 is 480 Mbit/s (60 MB/s) per controller and is shared amongst all attached devices. Some chipset manufacturers overcome this bottleneck by providing multiple USB 2.0 controllers within the Southbridge. It should be noted that USB 3.0 has now been released and operates at a theoretical top speed of 5Gbit/s.
Yes, there are.
Ethernet supports speeds as low as 10 Mbps and as high as 1 Gbps. There are new initiatives to support 10 Gbps in the near future.
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yes , indeed.Standard cable have 100 mbs speed so you need a special one as well as an one gbps ethernet card
Speed of sata 1 is 1.5 Gbps Speed of sata 2 is 3 Gbps
The standard for fiber-optic Ethernet transmittion is 802.3ae
The standard for fiber-optic Ethernet transmittion is 802.3ae
LANs typically range in speed from 10 Mbps to 1 Gbps, although some newer LAN technologies are boosting the speed to 10 Gbps at least.
That is a NIC that is capable of running speeds of 100 Mbps up to 1 Gbps.
You kind of answered yourself. 5 gbps is the absolute max
I assume you mean flash drive/USB memory stick. The latest speed is either 3.2 Gbps (400 MBps USB 3.0), or if you're lucky there are now Thunderbolt I/O drives that can reach speeds of 10 Gbps (1.25 GBps).
Ethernet LANs have transmission rates of 10 Mbps, 100 Mbps, 1 Gbps and 10 Gbps For an X Mbps Ethernet (where X = 10, 100, 1,000 or 10,000), a user can continuously transmit at the rate X Mbps if that user is the only person sending data. If there are more than one active user, then each user cannot continuously transmit at X Mbps.