Asus TUF Gaming B460M-Plus vs Asus TUF Gaming B560-Plus WiFi: What is the difference?
PCIe 4.0 x16 slots
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PCIe slots allow you to connect various components to the motherboard, such as graphics cards and SSDs. The number of data-transmission lanes (specified by the number after the ‘x’) determines the data transfer rate. PCIe 4.0 provides a 16 GT/s bit rate that doubles the bandwidth provided by PCIe 3.0.
PCIe 5.0 x16 slots
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PCIe slots allow you to connect various components to the motherboard, such as graphics cards and SSDs. The number of data-transmission lanes (specified by the number after the ‘x’) determines the data transfer rate.
PCIe 3.0 x16 slots
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PCIe slots allow you to connect various components to the motherboard, such as graphics cards and sound cards. The number after the ‘x’ represents the number of lanes, with more lanes supporting higher data transfer rates. PCI Express 3.0 has a bit rate of 8 GT/s, delivering 985 MB/s per lane.
PCIe x1 slots
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Using PCIe slots, you can connect different components to your motherboard, such as graphics cards and RAID cards. The number after the ‘x’ represents the number of data-transmission lanes. More lanes result in faster data transfer rates. A PCIe x1 slot has one lane and can move data at one bit per cycle.
PCI slots
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PCI slots allow you to connect peripherals to the motherboard, most commonly graphics cards but also others such as sound cards and network cards. PCI has been superseded by PCI Express which offers faster data transfer rates, but many cards today still use PCI.
PCIe 2.0 x16 slots
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PCIe slots allow you to connect graphics cards, SSDs, and other components to the motherboard. The number after the ‘x’ represents the number of lanes, with more lanes supporting higher data transfer rates. PCI Express 2.0 has a transfer rate of 5 GT/s, providing 500 MB/s per lane.
PCIe x4 slots
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PCIe slots enable you to connect various components to your motherboard, for example, graphics cards, RAID cards, SSDs. The number of data-transmission lanes (specified by the number following ‘x’) determines the data transfer rate. A PCIe x4 slot has 4 lanes, with a speed of 4 bits per cycle.
PCIe x8 slots
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PCIe slots allow you to connect components such as graphics cards and sound cards to the motherboard. The number after the ‘x’ represents the number of data-transmission lanes. More lanes result in faster data transfer rates. A PCIe x8 slot has 8 lanes and can move data at 8 bit per cycle.