LGA 1155 has 1155 protruding pins to make contact with the pads on the processor. The pins are arranged in a 40×40 array with a 24×16 central void and additional 61 omitted pins (two adjoining the central void, six in each of the four corners, and 35 in groups around the perimeter), yielding the 1600− 384− 61= 1155 pin count. Processors for LGA1155 and LGA1156 sockets are not compatible with each other since they have different socket notches.
LGA 1155 also marked the beginning of UEFI secure boot with support in some later boards.
Heatsink
The four holes for fastening the heatsink to the motherboard are placed in a square with a lateral length of 75mm for Intel's sockets LGA 1156, LGA 1155, LGA 1150, LGA 1151 and LGA 1200. Cooling solutions should therefore be interchangeable.
Cooling systems are compatible between LGA 1155 and LGA 1156 sockets, as the processors have the same dimensions, profile and construction, and similar levels of heat production.[2]
Sandy Bridge chipsets, except B65, Q65 and Q67, support both Sandy Bridge and Ivy Bridge CPUs through a BIOS upgrade.[3] With third-party BIOSes like Coreboot, Ivy Bridge processors can be used on those chipsets as well.[4] Processors based on Sandy Bridge officially support up to DDR3-1333 memory, however in practice speeds up to DDR3-2133 have been tested to work successfully.[5]
The H61 chipset only supports one double-sided DIMM Memory module (RAM module) per memory-channel and therefore is limited to 16GB instead of the 32GB like the others support.[6] On H61-based motherboards with four DIMM slots, only four single-sided DIMMs can be installed.[7]
All Ivy Bridge chipsets and motherboards support both Sandy Bridge and Ivy Bridge CPUs. Ivy Bridge based processors will officially support up to DDR3-1600, up from DDR3-1333 of Sandy Bridge. Some consumer Ivy Bridge chipsets will also allow overclocking of K-series processors.[11]
A PC Games Hardware[de] user by the name of Mephisto_xD wrote an article on that website describing how to take UEFI modules from some Z97 motherboards and use them with an Z77-motherboard to make the latter support booting from an SSD using the NVM Express protocol, instead of the AHCI protocol.[16] That article claims, the Z97 motherboards were the first to officially and fully support the NVMe protocol.
The modifications described also work with P67, B75 and other chipset motherboards.
Notes
USB 3.0 is not supported by any of these chipsets. Motherboard manufacturers may use external hardware to add USB3.0 support.
Although some of the chipsets do not support conventional PCI, motherboard manufacturers may include support through the addition of third-party PCI bridges.
For PCIe 3.0 capability, the Ivy Bridge CPU must have the relevant PCIe3.0 controller built in. However, some Ivy Bridge CPUs only have a PCIe 2.0 controller built in.
This article uses material from the Wikipedia article Z77, and is written by contributors.
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