Another advancement in mobile phone technology revealed. Samsung Electronics has announced that it has begun mass producing the industry’s first 16-gigabyte (GB) LPDDR5 mobile DRAM package for next-generation premium smartphones.
Following mass production of the industry-first 12GB LPDDR5 in July 2019, the new 16GB advancement will lead the premium mobile memory market with added capacity that enables enhanced 5G and AI features including graphic-rich gaming and smart photography.
“Samsung has been committed to bringing memory technologies to the cutting edge in allowing consumers to enjoy amazing experiences through their mobile devices. We are excited to stay true to that commitment with our new, top-of-the-line mobile solution for global device manufacturers,” said Cheol Choi, senior vice president of memory sales & marketing, Samsung Electronics. “With the introduction of a new product lineup based on our next-generation process technology later this year, Samsung will be able to fully address future memory demands from global customers.”
Data transfer rate for the 16GB LPDDR5 comes in at 5,500 megabits per second (Mb/s), approximately 1.3 times faster than the previous mobile memory (LPDDR4X, 4266Mb/s). Compared to an 8GB LPDDR4X package, the new mobile DRAM delivers more than 20-percent energy savings while providing up to twice the capacity.
Samsung’s 16GB LPDDR5 mobile DRAM package consists of eight 12-gigabit (Gb) chips and four 8Gb chips, equipping premium smartphones with twice the DRAM capacity found in many higher-end laptops and gaming PCs today. Along with the blazing-fast performance, the industry’s largest capacity supports dynamic and responsive gameplay as well as ultra-high-resolution graphics on premium smartphones for highly immersive mobile gaming experiences.
As Samsung continues to expand LPDDR5 mobile DRAM production at its Pyeongtaek site, the company says it plans to mass-produce 16Gb LPDDR5 products based on third-generation 10nm-class (1z) process technology in the second half of this year, in line with the development of a 6,400Mb/s chipset.