# LPDDR3

> third generation of double-data-rate synchronous dynamic random-access memory for mobile devices

**Wikidata**: [Q16651575](https://www.wikidata.org/wiki/Q16651575)  
**Source**: https://4ort.xyz/entity/lpddr3

## Summary
LPDDR3 is the third generation of double-data-rate synchronous dynamic random-access memory designed specifically for mobile devices. It is part of the LPDDR series of computer memory standards optimized for laptops and mobile devices.

## Key Facts
- LPDDR3 is the third generation of LPDDR memory, succeeding LPDDR2
- It is classified as a subclass of LPDDR memory standards
- LPDDR3 is specifically designed for mobile devices and laptops
- The technology is different from DDR3L SDRAM and standard DDR3 SDRAM
- LPDDR3 has a sitelink count of 2 on Wikidata
- It has a dedicated commons category on Wikimedia
- LPDDR3 is available in French Wikipedia and other language versions
- The technology has a Google Knowledge Graph ID for identification

## FAQs
### Q: What is LPDDR3 used for?
A: LPDDR3 is used as computer memory in mobile devices and laptops, providing high-speed data storage and retrieval for these portable computing platforms.

### Q: How does LPDDR3 differ from standard DDR3 memory?
A: LPDDR3 is specifically designed for mobile devices and laptops with lower power consumption, while standard DDR3 SDRAM is designed for desktop computers and servers with higher power requirements.

### Q: What generation of LPDDR is LPDDR3?
A: LPDDR3 is the third generation of LPDDR memory, following LPDDR2 and preceding LPDDR4.

## Why It Matters
LPDDR3 represents a critical advancement in mobile computing memory technology, enabling faster and more efficient performance in smartphones, tablets, and laptops. As mobile devices became increasingly powerful and capable of handling complex applications, the need for memory that could deliver high bandwidth while consuming minimal power became essential. LPDDR3 addressed this need by providing improved data transfer rates and reduced power consumption compared to its predecessor, LPDDR2. This technology has been fundamental in supporting the development of modern mobile applications, high-resolution displays, and multitasking capabilities in portable devices. The standardization of LPDDR3 also helped manufacturers create more reliable and compatible memory solutions across different device brands and models, contributing to the overall advancement of mobile computing technology.

## Notable For
- Third generation of LPDDR memory specifically optimized for mobile devices
- Lower power consumption compared to desktop DDR3 memory while maintaining high performance
- Standardized memory solution that enabled better compatibility across mobile device manufacturers
- Successor to LPDDR2 with improved data transfer rates and efficiency
- Part of the LPDDR family that has become the standard for mobile device memory

## Body
### Technical Classification
LPDDR3 is classified as a subclass of LPDDR memory standards, which are specifically designed for low-power applications in mobile devices. The technology is part of a broader family of memory standards that have evolved to meet the changing needs of portable computing.

### Relationship to Other Memory Standards
LPDDR3 is distinctly different from DDR3L SDRAM and standard DDR3 SDRAM, which are designed for desktop and server applications. While these technologies share some architectural similarities, LPDDR3 is optimized for the power and space constraints of mobile devices.

### Development and Evolution
As the third generation in the LPDDR series, LPDDR3 succeeded LPDDR2 and was eventually replaced by LPDDR4. This generational progression represents the ongoing efforts to improve memory performance while reducing power consumption in mobile applications.

### Documentation and Resources
LPDDR3 has established documentation across multiple platforms, including a dedicated commons category on Wikimedia and availability in multiple Wikipedia language versions. The technology also has a Google Knowledge Graph ID for standardized identification across digital platforms.

### Applications
The primary application of LPDDR3 is in mobile devices and laptops, where its combination of high performance and low power consumption makes it ideal for portable computing. The technology supports the demanding requirements of modern mobile operating systems, applications, and multimedia content.