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Ivy Bridge is the final Intel platform on which versions of Windows prior to Windows 7 are officially supported by Microsoft. It is also the earliest Intel microarchitecture to officially support Windows 10 64-bit (NT 10.0). [7]
The Intel X79 (codenamed Patsburg) is a Platform Controller Hub (PCH) designed and manufactured by Intel for their LGA 2011 (Socket R) and LGA 2011-1 (Socket R2).. Socket and chipset support CPUs targeted at the high-end desktop (HEDT) and enthusiast segments of the Intel product lineup: Core i7-branded and Xeon-branded processors from the Sandy Bridge and Ivy Bridge CPU architectures.
Additionally, the X99 chipset supports a configurable layout of the PCI Express 3.0 lanes provided by the processor, which may be configured as up to two ×16 links and one ×8 link, or up to five ×8 links (the total number of available PCI Express 3.0 lanes depends on the processor used). [1] [2]: 4–10, 70, 71 [8] [9]
The xHCI reduces the need for periodic device polling by allowing a USB 3.0 or later device to notify the host controller when it has data available to read, and moves the management of polling USB 2.0 and 1.1 devices that use interrupt transactions from the CPU-driven USB driver to the USB host controller.
Both set were available US$60 for 10 MHz version and US$90 for 12 MHz version in quantities of 100. [2] This chipset can be used with an 82335 High-integration Interface Device to provide support for the Intel 386SX. [3] [4] List of early Intel chipset includes: [5] [6] 82077AA CHMOS Single-Chip Floppy Disk Controller for the 32-bit systems. [7 ...
Can accept some of Socket 478 CPU with an adapter Socket 495: 2000 Intel Celeron Intel Pentium III: Notebook PGA: 495 1.27 [3] 66–133 MHz Socket 603: 2001 Intel Xeon: Server PGA: 603 1.27 [4] 100–133 MHz 400–533 MT/s Socket 478/ Socket N: 2001 Intel Pentium 4 Intel Celeron Intel Pentium 4 EE Intel Pentium 4 M: Desktop PGA: 478 1.27 [5 ...
It requires a license from Intel. A USB controller using UHCI does little in hardware and requires a software UHCI driver to do much of the work of managing the USB bus. [2] It only supports 32-bit memory addressing, [4] so it requires an IOMMU or a computationally expensive bounce buffer to work with a 64-bit operating system.
Bogus USB ports will be detected by desktop PCHs equipped with 6 USB ports (3420, H55) on the first EHCI controller. This can happen when AC power is removed after entering ACPI S4. Applying AC power back and resuming from S4 may result in non detected or even non functioning USB device (erratum 12)