Samsung LPDDR (Low-Power Double Data Rate) delivers energy-efficient performance designed for devices and systems where power optimization is critical. Its advanced efficiency and fast data throughput support AI workloads across edge devices, automotive platforms, and emerging server applications. These capabilities provide sustained responsiveness, optimized thermal behavior, and compact system designs suited for intelligent, always-on systems.
Samsung LPDDR (Low-Power Double Data Rate) delivers energy-efficient performance designed for devices and systems where power optimization is critical. Its advanced efficiency and fast data throughput support AI workloads across edge devices, automotive platforms, and emerging server applications. These capabilities provide sustained responsiveness, optimized thermal behavior, and compact system designs suited for intelligent, always-on systems.
Samsung LPDDR (Low-Power Double Data Rate) delivers energy-efficient performance designed for devices and systems where power optimization is critical. Its advanced efficiency and fast data throughput support AI workloads across edge devices, automotive platforms, and emerging server applications. These capabilities provide sustained responsiveness, optimized thermal behavior, and compact system designs suited for intelligent, always-on systems.
12Gb ~ 128Gb
up to 10.7Gbps
-25℃ to 85℃,
-40℃ to 95/105/125℃
0.5V, 0.9V, 1.05V, 1.8V
x64, x32
496FBGA, 441FBGA, 315FBGA
24Gb ~ 96Gb
up to 6,400Mbps
-25℃ to 85℃,
-40℃ to 95/105/125℃
0.5V, 0.9V, 1.05V, 1.8V
x64, x32
441FBGA, 315FBGA
2~16GB
up to 9,600Mbps
-40℃ to 125℃
0.5V, 0.9V, 1.05V, 1.8V
x64, x32
561FBGA, 441FBGA, 315FBGA
2~16GB
up to 6,400Mbps
-40℃ to 125℃
0.5V, 0.9V, 1.05V, 1.8V
x64, x32
441FBGA, 315FBGA
1~16GB
up to 4,266Mbps
-40℃ to 125℃
0.6V, 1.1V, 1.8V
x64, x32
556FBGA, 200FBGA
0.5~8GB
up to 4,266Mbps
-40℃ to 125℃
0.6V, 1.1V, 1.8V
x32
200FBGA
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All product specifications reflect internal test results and are subject to variations by the user's system configuration
All product images shown are for illustration purposes only and may not be an exact representation of the product
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For further details on product specifications, please contact the sales representative of your region.
LPDDR (Low Power Double Data Rate) is a type of DRAM designed to operate
with lower power consumption while still delivering high performance.
It is commonly used in battery-powered devices because it reduces energy usage and heat generation.
Modern smartphones, tablets, ultraportable laptops, wearables, and various edge AI devices use LPDDR
for fast memory access while maintaining long battery life.
LPDDR (Low Power Double Data Rate) is a type of DRAM designed to operate
with lower power consumption while still delivering high performance.
It is commonly used in battery-powered devices because it reduces
energy usage and heat generation.
Modern smartphones, tablets, ultraportable laptops,
wearables, and various edge AI devices use LPDDR for fast memory access
while maintaining long battery life.
LPDDR (Low Power Double Data Rate) is a type of DRAM designed to operate with lower power consumption while still delivering high performance. It is commonly used in battery- owered devices because it reduces energy usage and heat generation.
Modern smartphones, tablets, ultraportable laptops, wearables, and various edge AI devices use LPDDR for fast memory access while maintaining long battery life.
LPDDR (Low Power DDR) and DDR are both types of DRAM, but they are designed for different purposes.
LPDDR is optimized for low power consumption and reduced heat generation,
which makes it ideal for devices that rely on battery efficiency, such as smartphones, tablets, and ultraportable laptops.
In recent years, its use has expanded beyond mobile devices to include AI edge systems, automotive platforms,
and ultra-thin notebooks, where both performance and power efficiency are critical.
DDR (such as DDR4 and DDR5) is designed as system memory
for desktops, servers, and other high-performance computing systems.
It focuses on low latency, stability, and consistent performance
across various workloads rather than minimizing power consumption.
LPDDR (Low Power DDR) and DDR are both types of DRAM,
but they are designed for different purposes.
LPDDR is optimized for low power consumption and reduced heat generation,
which makes it ideal for devices that rely on battery efficiency,
such as smartphones, tablets, and ultraportable laptops.
In recent years, its use has expanded beyond mobile devices
to include AI edge systems, automotive platforms, and ultra-thin notebooks,
where both performance and power efficiency are critical.
DDR (such as DDR4 and DDR5) is designed as system memory
for desktops, servers, and other high-performance computing systems.
It focuses on low latency, stability, and consistent performance
across various workloads rather than minimizing power consumption.
LPDDR (Low Power DDR) and DDR are both types of DRAM, but they are designed for different purposes.
LPDDR is optimized for low power consumption and reduced heat generation, which makes it ideal for devices that rely on battery efficiency, such as smartphones, tablets, and ultraportable laptops.
In recent years, its use has expanded beyond mobile devices to include AI edge systems, automotive platforms, and ultra-thin notebooks, where both performance and power efficiency are critical.
DDR (such as DDR4 and DDR5) is designed as system memory for desktops, servers, and other high-performance computing systems.
It focuses on low latency, stability, and consistent performance across various workloads rather than minimizing power consumption.
Powering the next generation of mobile devices
Makes smartwatch to be wearable
Next generation of automotive innovation
Test results do not guarantee future performance under such test conditions, and the actual throughput or performance that any user will experience may vary depending upon many factors.
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