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Memory Upgrade for Gigabyte Technology GA-H110M-S2 DDR4 (rev. 1.0)
Gigabyte Technology GA-H110M-S2 DDR4 (rev. 1.0) memory upgrade specification, GA-H110M-S2 DDR4 (rev. 1.0) maximum memory, memory speed, and memory upgrade options.
Upgrade memory on Gigabyte Technology GA-H110M-S2 DDR4 (rev. 1.0) upto a maximum of 32 GB
DDR4 PC4-17000 2133MHz DIMMs ECC / Non-ECC, with maximum 16GB per slot in 2 Slots memory slots. The Gigabyte Technology GA-H110M-S2 DDR4 (rev. 1.0) takes the DDR4 PC4-17000 2133MHz DIMMs ECC / Non-ECC Memory Type.
| Gigabyte Technology GA-H110M-S2 DDR4 (rev. 1.0) Memory Upgrade Specification | ||||
|---|---|---|---|---|
| Standard Memory | Maximum Memory | Memory Expansion | CPU Type | Model/Chipset |
| 32 GB DDR4 PC4-17000 2133MHz DIMMs ECC / Non-ECC |
2 Slots | 6th Gen Intel Core | Intel H110 Express Chipset | |
Gigabyte Technology GA-H110M-S2 DDR4 (rev. 1.0) Memory Upgrade options.
What are memory sockets or slots and how are these divided into bank?
Memory Sockets or Slots are the place where memory RAM modules are inserted in the motherboard. The Gigabyte Technology GA-H110M-S2 DDR4 (rev. 1.0) has 2 Slots memory expansion slots. A memory bank is a group of memory expansion sockets, a bank must be completely filled with memory modules of the same size and type in order for the system to recognize and address the memory. i.e. :
2 sockets (2 banks of 1) This indicates that there are 2 memory slots. These are divided into 2 banks, and each bank consists of one memory slot. So you can add memory one piece at a time for the system to use.
3 sockets (3 banks of 1) This indicates that there are 3 memory slots. These are divided into 3 banks, and each bank consists of one memory slot. So you can add memory one piece at a time for the system to use.
4 sockets (2 banks of 2) This indicates that there are 4 memory slots. These are divided into 2 banks, and each bank consists of two memory slots. So you must add memory two pieces at a time (they must be the same size and type of memory) in order for the system to benefit from the upgrade.
8 sockets (4 banks of 2) This indicates that there are 8 memory slots. These are divided into 4 banks, and each bank consists of two memory slots. So you must add memory two pieces at a time (they must be the same size and type of memory) in order for the system to benefit from the upgrade.
12 sockets (3 banks of 4) This indicates that there are 12 memory slots. These are divided into 3 banks, and each bank consists of four memory slots. So you must add memory four pieces at a time (and they must be the same size and type of memory) in order for the system to benefit from the upgrade.
