F5F Stay Refreshed Power Users Networks Gb vs GB refers to storage sizes, while NICs with PCIe lanes offer higher bandwidth for data transfer.

Gb vs GB refers to storage sizes, while NICs with PCIe lanes offer higher bandwidth for data transfer.

Gb vs GB refers to storage sizes, while NICs with PCIe lanes offer higher bandwidth for data transfer.

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ripa5000
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03-15-2016, 09:06 AM
#1
Hello, your question is clear. The NICs you bought have four GbE ports but are marketed as PCIe2.0 x4, which means each port operates at 0.5GBps. Since GbE is 0.125GBps per port, four ports would indeed total 0.5GBps. However, PCIe lanes are allocated per port regardless of bandwidth, so you can't simply combine them into a single x1 slot. For PCIe3.0 x1, each port would support up to 0.985GBps, but the physical layout still requires separate lanes. If you need higher speeds, consider matching the port type to the required PCIe standard. Let me know if you need more details. Thanks!
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R
ripa5000
03-15-2016, 09:06 AM #1

Hello, your question is clear. The NICs you bought have four GbE ports but are marketed as PCIe2.0 x4, which means each port operates at 0.5GBps. Since GbE is 0.125GBps per port, four ports would indeed total 0.5GBps. However, PCIe lanes are allocated per port regardless of bandwidth, so you can't simply combine them into a single x1 slot. For PCIe3.0 x1, each port would support up to 0.985GBps, but the physical layout still requires separate lanes. If you need higher speeds, consider matching the port type to the required PCIe standard. Let me know if you need more details. Thanks!

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M
MrSubway1999
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03-15-2016, 10:35 AM
#2
It seems the product is hard to locate online.
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MrSubway1999
03-15-2016, 10:35 AM #2

It seems the product is hard to locate online.

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E
entech
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03-20-2016, 12:29 AM
#3
well there is some overhead, so the pcie bandwidth is higer than the ethernet bandwidth, so. in order to max out the 4 ports you need > 1 lane. Some cards will run at gen 2 x1, but you can't hit full speed on all ports.
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E
entech
03-20-2016, 12:29 AM #3

well there is some overhead, so the pcie bandwidth is higer than the ethernet bandwidth, so. in order to max out the 4 ports you need > 1 lane. Some cards will run at gen 2 x1, but you can't hit full speed on all ports.

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T
TimeArchon
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03-20-2016, 12:48 AM
#4
You should avoid quad GbE ports and NICs unless they support PCIe 3.0.
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T
TimeArchon
03-20-2016, 12:48 AM #4

You should avoid quad GbE ports and NICs unless they support PCIe 3.0.

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koopa14
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03-20-2016, 09:52 PM
#5
You might simply widen the end of the PCIe x1 connector to accommodate it, even if it means sacrificing peak performance across all four connections, as shown in this video.
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koopa14
03-20-2016, 09:52 PM #5

You might simply widen the end of the PCIe x1 connector to accommodate it, even if it means sacrificing peak performance across all four connections, as shown in this video.

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mousse2006
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03-21-2016, 12:17 PM
#6
Network performance is measured in bits each second. 1 gbps equals 1 billion bits per second, which is about 125 MB per second or roughly 119.2 MiB per second when using common units like Windows. PCI-e 2.0 supports up to 5 GT/s with 8:10 encoding, resulting in approximately 4 billion bits per second—about 500 MB per second or 476.8 MiB per second. PCI-e 3.0 offers 8 GT/s with 128:130 encoding, giving around 984.6 MB per second or 939 MiB per second. Therefore, a 4 gigabit port can deliver up to 500 MB/s or 476.8 MiB/s. Accounting for overhead, expect roughly 5-10% usage on a PCI-e x1 connection. This means a PCI-e x1 card typically operates at 450-475 MB/s. Even if all ports run at full capacity, it's unlikely everyone would use the maximum. You can modify connectors or use riser cables to fit cards into PCI-e x1 slots, allowing them to function at their intended speeds. For instance, some riser cables have openings without end walls, and cheaper options are available on eBay—just verify the slot details before purchasing. Riser cables for upgrading from PCI-e x4 to x1 are also accessible, enabling full utilization of the card’s capabilities.
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M
mousse2006
03-21-2016, 12:17 PM #6

Network performance is measured in bits each second. 1 gbps equals 1 billion bits per second, which is about 125 MB per second or roughly 119.2 MiB per second when using common units like Windows. PCI-e 2.0 supports up to 5 GT/s with 8:10 encoding, resulting in approximately 4 billion bits per second—about 500 MB per second or 476.8 MiB per second. PCI-e 3.0 offers 8 GT/s with 128:130 encoding, giving around 984.6 MB per second or 939 MiB per second. Therefore, a 4 gigabit port can deliver up to 500 MB/s or 476.8 MiB/s. Accounting for overhead, expect roughly 5-10% usage on a PCI-e x1 connection. This means a PCI-e x1 card typically operates at 450-475 MB/s. Even if all ports run at full capacity, it's unlikely everyone would use the maximum. You can modify connectors or use riser cables to fit cards into PCI-e x1 slots, allowing them to function at their intended speeds. For instance, some riser cables have openings without end walls, and cheaper options are available on eBay—just verify the slot details before purchasing. Riser cables for upgrading from PCI-e x4 to x1 are also accessible, enabling full utilization of the card’s capabilities.

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JasonGamerZ
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03-24-2016, 10:15 AM
#7
It varies based on the wiring setup; some configurations connect the NIC chips to particular lanes, which might result in just a single working port.
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J
JasonGamerZ
03-24-2016, 10:15 AM #7

It varies based on the wiring setup; some configurations connect the NIC chips to particular lanes, which might result in just a single working port.

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