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  • Detachable module.
    Redefining flexibility.
    Detachable module.
    Redefining flexibility.
    Detachable module.
    Redefining flexibility.
    Marketing imagery for the LPCAMM2 module
a promotional graphic for Samsung LPCAMM2 a promotional graphic for Samsung LPCAMM2 a promotional graphic for Samsung LPCAMM2

The beginning of a new module.
Flexibility like never before.

The beginning of a new module.
Flexibility like never before.

The beginning of
a new module.
Flexibility
like never before.

Samsung’s LPCAMM21 is a next-generation module product based on LPDDR. It improves the performance, power efficiency, and capacity scaling limitations of the DDR-based module, SODIMM. Unlike on-board LPDDR, it is detachable, which provides manufacturers with flexibility that has previously not been experienced in the industry. LPCAMM2 is the first to meet JEDEC standardization, as well, which makes it set to drive next-generation systems such as PCs, laptops, high-performance gaming workstations, or even datacenters. Samsung’s LPCAMM21 is a next-generation module product based on LPDDR. It improves the performance, power efficiency, and capacity scaling limitations of the DDR-based module, SODIMM. Unlike on-board LPDDR, it is detachable, which provides manufacturers with flexibility that has previously not been experienced in the industry. LPCAMM2 is the first to meet JEDEC standardization, as well, which makes it set to drive next-generation systems such as PCs, laptops, high-performance gaming workstations, or even datacenters. Samsung’s LPCAMM21 is a next-generation
module product based on LPDDR. It improves the
performance, power efficiency, and capacity
scaling limitations of the DDR-based module,
SODIMM. Unlike on-board LPDDR, it is detachable,
which provides manufacturers with flexibility that
has previously not been experienced in the
industry. LPCAMM2 is the first to meet JEDEC
standardization, as well, which makes it set to
drive next-generation systems such as PCs,
laptops, high-performance gaming workstations,
or even datacenters.
1 Low Power Compression Module. 1 Low Power Compression Module. 1 Low Power Compression Module.

60% less space,
opening up
extensive possibilities

60% less space,
opening up
extensive possibilities

60% less space,
opening up
extensive possibilities

Open up more space than ever.
LPCAMM2 utilizes LPDDR5X and a new design architecture to bring a
more efficient package than standard memory, offering a 60% smaller
mounting area than SODIMM2. The smaller mounting area and
dual-channel structure allow a single CAMM to be used in place of two
SODIMMs, enabling greater flexibility in configuring components in
PCs and laptops. This flexibility empowers manufacturers to achieve
slimmer devices and/or increased battery sizes.
Open up more space than ever. LPCAMM2 utilizes LPDDR5X and a new design architecture to bring a more efficient package than standard memory, offering a 60% smaller mounting area than SODIMM2. The smaller mounting area and dual-channel structure allow a single CAMM to be used in place of two SODIMMs, enabling greater flexibility in configuring components in PCs and laptops. This flexibility empowers manufacturers to achieve slimmer devices and/or increased battery sizes. Open up more space than ever.
LPCAMM2 utilizes LPDDR5X and a new design
architecture to bring a more efficient package
than standard memory, offering a 60% smaller
mounting area than SODIMM2. The smaller
mounting area and dual-channel structure allow a
single CAMM to be used in place of two SODIMMs,
enabling greater flexibility in configuring
components in PCs and laptops. This flexibility
empowers manufacturers to achieve slimmer
devices and/or increased battery sizes.
2 Comparison in reference to two SODIMM x64 I/O System and one LPCAMM2 x128 I/O System being applied. 2 Comparison in reference to two SODIMM x64 I/O System and one LPCAMM2 x128 I/O System being applied. 2 Comparison in reference to two SODIMM x64 I/O System and one LPCAMM2 x128 I/O System being applied.
LPCAMM2 with the implication of high speed highlighted by the dynamic blue light streaks in the background LPCAMM2 with the implication of high speed highlighted by the dynamic blue light streaks in the background LPCAMM2 with the implication of high speed highlighted by the dynamic blue light streaks in the background

Compact yet powerful, with
no compromise

Compact yet powerful, with
no compromise

Compact yet powerful, with
no compromise

Benefit from improved performance. 
With an extraordinary
data transfer rate of 8,533Mbps, LPCAMM2 provides a significant improvement in performance compared to previous forms of DRAM. This improvement is a 33% increase in speed over SODIMM’s 6,400Mbps, which allows for heavy computation operations, as well as high-performance gaming and any other applications that require high data transfer volumes.
Benefit from improved performance. With an extraordinary data transfer rate of 8,533Mbps, LPCAMM2 provides a significant improvement in performance compared to previous forms of DRAM. This improvement is a 33% increase in speed over SODIMM’s 6,400Mbps, which allows for heavy computation operations, as well as high-performance gaming and any other applications that require high data transfer volumes. Benefit from improved performance. 

With an extraordinary data transfer rate of
8,533Mbps, LPCAMM2 provides a significant
improvement in performance compared to
previous forms of DRAM. This improvement is a
33% increase in speed over SODIMM’s 6,400Mbps,
which allows for heavy computation operations, as
well as high-performance gaming and any other
applications that require high data transfer
volumes.
Power efficiency of LPCAMM2 with 60% reduction in operating power Power efficiency of LPCAMM2 with 60% reduction in operating power Power efficiency of LPCAMM2 with 60% reduction in operating power

All this now possible — with much less power

All this now
possible — with
much less power

All this now
possible — with
much less power

Power efficiency has gotten much better, too. LPCAMM2 uses 60% less operating power and 72% less standby power than SODIMM. This highly efficient DRAM solution allows systems to perform intensive tasks for longer without as much heat and/or battery usage. By offering a greater experience for end users, LPCAMM2 will not only improve possibilities for high-end laptops and gaming workstations, but also redefine the DRAM landscape through possible expansion to servers and datacenters. Power efficiency has gotten much better, too. LPCAMM2 uses 60% less operating power and 72% less standby power than SODIMM. This highly efficient DRAM solution allows systems to perform intensive tasks for longer without as much heat and/or battery usage. By offering a greater experience for end users, LPCAMM2 will not only improve possibilities for high-end laptops and gaming workstations, but also redefine the DRAM landscape through possible expansion to servers and datacenters. Power efficiency has gotten much better, too.
LPCAMM2 uses 60% less operating power and
72% less standby power than SODIMM. This highly
efficient DRAM solution allows systems to
perform intensive tasks for longer without as
much heat and/or battery usage. By offering a
greater experience for end users, LPCAMM2 will
not only improve possibilities for high-end laptops
and gaming workstations, but also redefine the
DRAM landscape through possible expansion to
servers and datacenters.

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