Welcome!

Machine Learning Authors: Pat Romanski, Yeshim Deniz, Liz McMillan, Elizabeth White, Zakia Bouachraoui

News Feed Item

Samsung Introduces Advanced Memory Storage Solution for Slim Smartphones and Tablets

Samsung Electronics Co., Ltd., the world leader in advanced memory technology, today announced a next-generation 64GB embedded multimedia card (eMMC) using 10 nanometer (nm)-class* process technology. The new 64Gb NAND memory being used in the next-generation eMMC went into production late last month.

Myungho Kim, vice president of Memory marketing, Device Solutions, Samsung Electronics noted, “The new high-speed, small form factor eMMC reinforces Samsung’s technology leadership in storage memory solutions. We look forward to expanding our line-up of embedded memory solutions in conjunction with the new chip’s design, in pursuing a system-level adoption of application processors and other key components that form the foundation for the most advanced mobile platforms. This will allow us to better attend to time-to-market demands enabling the design of more convenient features for next-generation mobile applications.”

Embedded memory is the key memory component in popular mobile applications such as smartphones and tablets. Advanced high-performance, high-density eMMCs allow users to access high-density and high-resolution content such as full HD video on their latest mobile devices and provide a better user experience for web browsing, gaming and running rich applications.

Samsung is applying 64Gb high-performance NAND memory using its 10nm-class technology to the new 64GB eMMC Pro Class 2000 memory solution. The new embedded memory solution exceeds the performance levels of the conventional 64GB eMMC Pro Class 1500 based on an eMMC 4.5 interface.

The new high-speed eMMC will be submitted next year to the industry standards body JEDEC, (Joint Electron Device Engineering Council) for adoption as an industry standard.

Samsung’s next-generation 64GB eMMC Pro Class 2000 comes just five months after the company introduced its first embedded memory supporting the eMMC4.5 interface and delivers a 30 percent advantage in performance over that solution.

The 10nm-class technology based NAND also is process compatible to Samsung’s advanced 20nm-class* 64Gb MLC NAND, which was first available last May, improving manufacturing productivity by 30 percent.

The new memory solution has a random write speed of 2,000 IOPS (input/output per second) and a random read speed of 5,000 IOPS. In addition, sequential read and write speeds are 260 megabytes per second (MB/s) and 50MB/s respectively, which is up to 10 times faster than a class 10 external memory card that reads at 24MB/s and writes at 12MB/s, greatly enhancing the smoothness of multitasking on mobile gadgets.

Current mobile applications show a distinctive trend to slimmer designs and larger display screens, while using advanced multi-core processors and high density (2 Gigabyte) LPDDR2 memory for higher performance, with larger batteries for longer usage on a single charge. This new chip accommodates the increasing size limitations of mobile form factors at the component level.

The 64GB eMMC Pro Class 2000 measures 11.5mm by 13mm, which represents a 20 percent reduction in size over the conventional embedded memory form factor (12mm by 16mm).

For more information about Samsung memory, visit: www.samsungsemi.com or www.samsung.com/memory

About Samsung Electronics Co., Ltd.

Samsung Electronics Co., Ltd. is a global leader in semiconductor, telecommunication, digital media and digital convergence technologies with 2011 consolidated sales of US$143.1 billion. Employing approximately 206,000 people in 197 offices across 72 countries, the company operates two separate organizations to coordinate its nine independent business units: Digital Media & Communications, comprising Visual Display, Mobile Communications, Telecommunication Systems, Digital Appliances, IT Solutions, and Digital Imaging; and Device Solutions, consisting of Memory, System LSI and LED. Recognized for its industry-leading performance across a range of economic, environmental and social criteria, Samsung Electronics was named the world’s most sustainable technology company in the 2011 Dow Jones Sustainability Index. For more information, please visit www.samsung.com.

* Editor’s Note : 10nm-class means a process technology node somewhere between 10 and 19 nanometers, and 20nm-class means a process technology node somewhere between 20 and 29 nanometers.

Samsung and the stylized Samsung design are trademarks and service marks of Samsung Electronics Co., Ltd. Other trademarks are the property of their respective owners.

More Stories By Business Wire

Copyright © 2009 Business Wire. All rights reserved. Republication or redistribution of Business Wire content is expressly prohibited without the prior written consent of Business Wire. Business Wire shall not be liable for any errors or delays in the content, or for any actions taken in reliance thereon.

CloudEXPO Stories
With more than 30 Kubernetes solutions in the marketplace, it's tempting to think Kubernetes and the vendor ecosystem has solved the problem of operationalizing containers at scale or of automatically managing the elasticity of the underlying infrastructure that these solutions need to be truly scalable. Far from it. There are at least six major pain points that companies experience when they try to deploy and run Kubernetes in their complex environments. In this presentation, the speaker will detail these pain points and explain how cloud can address them.
The deluge of IoT sensor data collected from connected devices and the powerful AI required to make that data actionable are giving rise to a hybrid ecosystem in which cloud, on-prem and edge processes become interweaved. Attendees will learn how emerging composable infrastructure solutions deliver the adaptive architecture needed to manage this new data reality. Machine learning algorithms can better anticipate data storms and automate resources to support surges, including fully scalable GPU-centric compute for the most data-intensive applications. Hyperconverged systems already in place can be revitalized with vendor-agnostic, PCIe-deployed, disaggregated approach to composable, maximizing the value of previous investments.
When building large, cloud-based applications that operate at a high scale, it's important to maintain a high availability and resilience to failures. In order to do that, you must be tolerant of failures, even in light of failures in other areas of your application. "Fly two mistakes high" is an old adage in the radio control airplane hobby. It means, fly high enough so that if you make a mistake, you can continue flying with room to still make mistakes. In his session at 18th Cloud Expo, Lee Atchison, Principal Cloud Architect and Advocate at New Relic, discussed how this same philosophy can be applied to highly scaled applications, and can dramatically increase your resilience to failure.
Machine learning has taken residence at our cities' cores and now we can finally have "smart cities." Cities are a collection of buildings made to provide the structure and safety necessary for people to function, create and survive. Buildings are a pool of ever-changing performance data from large automated systems such as heating and cooling to the people that live and work within them. Through machine learning, buildings can optimize performance, reduce costs, and improve occupant comfort by sharing information within the building and with outside city infrastructure via real time shared cloud capabilities.
As Cybric's Chief Technology Officer, Mike D. Kail is responsible for the strategic vision and technical direction of the platform. Prior to founding Cybric, Mike was Yahoo's CIO and SVP of Infrastructure, where he led the IT and Data Center functions for the company. He has more than 24 years of IT Operations experience with a focus on highly-scalable architectures.