Wednesday, July 2nd 2025

G.Skill CAMM2 DDR5 Memory Module Demonstrates DDR5-10000 Overclock Speed on ASUS Z890 Motherboard
G.SKILL International Enterprise Co., Ltd., the world's leading brand of performance overclock memory and PC components, is working closely with the ASUS ROG team to explore the overclock potential of the new DDR5 CAMM2 form factor and have successfully reached the early milestone of Memtest-stable at DDR5-10000 memory speed with a 64 GB capacity CAMM2 module on a modified custom ASUS ROG Maximus Z890 Hero CAMM2 motherboard with an Intel Core Ultra 7 265K desktop processor.
Overclocked CAMM2 Reaches DDR5-10000 Memtest-Stable Milestone
G.SKILL is always seeking out overclock memory performance wherever possible. With the in-development CAMM2 form factor and in cooperation with the ASUS ROG team, demonstrating stability is the first step toward enabling overclock memory specifications on future hardware platforms.In this instance, G.SKILL's 64 GB CAMM2 module is overclocked to DDR5-10000 CL52 and running Memtest to 100% coverage on a ASUS ROG Maximus Z890 Hero CAMM2 motherboard and Intel Core Ultra 7 265K desktop processor, as shown in the screenshot below.
Source:
G.Skill
Overclocked CAMM2 Reaches DDR5-10000 Memtest-Stable Milestone
G.SKILL is always seeking out overclock memory performance wherever possible. With the in-development CAMM2 form factor and in cooperation with the ASUS ROG team, demonstrating stability is the first step toward enabling overclock memory specifications on future hardware platforms.In this instance, G.SKILL's 64 GB CAMM2 module is overclocked to DDR5-10000 CL52 and running Memtest to 100% coverage on a ASUS ROG Maximus Z890 Hero CAMM2 motherboard and Intel Core Ultra 7 265K desktop processor, as shown in the screenshot below.
9 Comments on G.Skill CAMM2 DDR5 Memory Module Demonstrates DDR5-10000 Overclock Speed on ASUS Z890 Motherboard
@Topic: I don't the benefits outweigh the disatvantages on desktop motherboards. It may save space vertically, but it sure doesn't horzontally and as of now it doesn't seem to reach higher speeds than CU-DIMM.
On mobile though, i wish it had already replaced SO-DIMM and soldered LPDDR5X with LPCAMM2.
This is a very bad idea and very bad design.
I do not see any way to use 8 of those modules on a mainboard. The reference are the pictures of this post.
Having only 4 or 2 DRAM slots is already a bad compromise.
More pins :eek: