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LPDDR5 vs DDR5 Memory: What’s the Difference?

DRAM is broadly categorized as DDR and LPDDR, short for Dual Data Rate and Low Power Dual Data Rate, respectively. The former is used in desktops and high-end laptops, while smartphones and ultrabooks mainly leverage the latter. Intel’s Raptor Lake-S and AMD’s Ryzen 7000 CPUs both support DDR5 memory. Their notebook counterparts feature LPDDR5 memory for increased power efficiency and compactness.

  • DDR4 was the defacto memory used in PCs over the last decade, with data rates of up to 3,200 Mbps. Its successor, DDR5, started with a base transfer rate of 4,800 Mbps but has increased to 6,400 Mbps. Overclocked variants go as high as 7,200 Mbps.
  • LPDDR4 (and LPDDR4X) supported data rates of up to 4267 Mbps and are being replaced by LPDDR5 and LPDDR5X. LPDDR5 typically offers a data rate of 6400 Mbps, while LPDDR5X should up it to 8,533 Mbps.

LPDDR5 is one of the most power-efficient memory standards on the planet (next to LPDDR5X). Thanks to Dynamic Voltage Scaling (DVS), LPDDR5 supports two voltage modes: 1.05V (C) and 0.5V (I/O) while operating at higher frequencies and 0.9V (C) and 0.3V (I/O) while idle. Like LPDDR4/4X, LPDDR5 also features dual-16-bit channels and a burst length of 16 per channel. Burst lengths of 32 are also supported in some configurations.

To understand what burst-length means, you need to know how memory is accessed. When the CPU or cache requests new data, the address is sent to the memory module and the needed row, then the column is located (if not present, a new row is loaded). Keep in mind that there’s a delay after every step.

After that, the entire column is sent across the memory bus in bursts. For DDR4, each burst was 8 (or 16B). With DDR5, it has been increased to as much as 32 (up to 64B). There are two bursts per clock and they happen at the effective data rate. Furthermore, similar to LPDDR4, DDR5 has two 32-bit channels per DIMM for a total of four channels in a dual-DIMM configuration. The prefetch and BL have also been increased to 16. This figure is ideal as each cache line in memory is of the same size.

Memory Size (per channel)2Gb to 32Gb8Gb to 64Gb
Burst Length1616
SpeedUp to 6400 MbpsUp to 8400 Mbps
Voltage1.05V/0.9V core
0.5V/0.3 V I/O
1.1V VDD
1.8V VPP

DDR5, on the other hand, features two 32-bit channels per DIMM (DDR4 has one 64-bit per channel), with a burst length of 16 and a prefetch of 16n per channel (DDR4 had half as much). DDR5 and LPDDR5 support speeds of up to 6400 Mbps per the JEDEC standard. We’re already seeing overclocked DDR5 modules hit 7,200 Mbps and higher, something LPDDR5X should also achieve.

LPDDR5 supports memory densities of up to 32Gb per channel, while DDR5 can go as high as 64Gb. Both support the same 16n prefetch and a 16-beat burst length per transaction.

DDR5 has a complex memory bank structure with 32 banks per channel. These are divided into eight bank groups of four banks each. LPDDR5 has a more flexible bank architecture. It supports three bank modes: four banks with four bank groups (bank group mode), eight banks, and sixteen banks. The bank group mode allows transfer rates higher than 3,200Mbps alongside burst lengths of 16 or 32.

The eight-bank mode allows all transfer rates with a burst length of 32, while the sixteen-bank mode is for bandwidths under 3,200Mbps with a burst length of 16 or 32.


Computer hardware enthusiast, PC gamer, and almost an engineer. Former co-founder of Techquila (2017-2019), a fairly successful tech outlet. Been working on Hardware Times since 2019, an outlet dedicated to computer hardware and its applications.

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