CAMM (memory module)

Compression Attached Memory Module (CAMM) is a <a href="/facts/Memory_module/sNTAYwr3">memory module</a> form factor which uses a <a href="/facts/Land_grid_array/F2Imv5ST">land grid array</a>, and developed at <a href="/facts/Dell/wLlYNTMM">Dell</a> by engineer Tom Schnell as a replacement for <a href="/facts/DIMM/Ejh7lpxq">DIMMs</a> and <a href="/facts/DIMM/Ejh7lpxq">SO-DIMMs</a> which use <a href="/facts/Edge_connector/AXBbRgIV">edge connectors</a> and had been in use for about 25 years. The first SO-DIMMs were introduced by JEDEC in 1997.
CAMM was created to overcome technical limitations of traditional <a href="/facts/Edge_connector/AXBbRgIV">slotted</a> <a href="/facts/DIMM/Ejh7lpxq">DIMM</a>. The CAMM module allows for shorter traces on the motherboard PCB as compared to SO-DIMM, allowing the memory to be run with less power and at higher speeds. The memory module is pressed and held in place against a bar with <a href="/facts/Land_grid_array/F2Imv5ST">land grid array</a> pin contacts which connect to the <a href="/facts/Motherboard/GXB10heG">motherboard</a>.
Advantages of CAMM include lower thickness, allows for replaceable <a href="/facts/LPDDR/2XdLrg47">LPDDR</a> modules, faster speeds above 6400 MT/s, higher capacities up to 128 GB per module and higher memory bandwidth. Disadvantages are that it cannot be mounted without tools and uses screws. Systems with CAMM memory already installed cannot be expanded through adding additional CAMM modules in the same way that two DIMMs can be added alongside two existing DIMMs to expand total system memory. Instead, the entire CAMM module must be replaced with one with a higher capacity. So CAMM may be of benefit for laptops and ITX systems.
The total number of interface contact points of CAMM is 616 (44 per row times 14 rows).

CAMM (memory module) open-in-new

CAMM (memory module)