Analysis
ONFI Introduces New 2.3 Specification With ECC Offload Functionality
The Open NAND Flash Interface (ONFI) Working Group, the organization dedicated to simplifying integration of NAND Flash memory into consumer electronic devices, computing platforms, and industrial systems, today introduced its new ONFI 2.3 specification, which includes the EZ-NAND protocol. EZ-NAND, which stands for error correction code (ECC) Zero NAND, was designed to remove the burden of the host controller to keep pace with the fast changing ECC requirements of NAND technology.
In tONFI's new 2.3 specification with its EZ-NAND protocol provides the ultimate win-win scenario, said Kevin Kilbuck, chair of the ONFI marketing committee and director of strategic NAND marketing for Micron. NAND continues to scale at its own technology cadence while host controllers can be optimized for a variety of applications, free of ECC management issues. This can enable longer platform cycles for customers and potentially lower system cost.
EZ-NAND enables faster adoption of new technologies by having NAND providers develop standard solutions to vendor and lithography specific challenges like ECC, said Robert Selinger, senior director, SSD research and development, SanDisk. By helping to design this new standard, we produced a specification that offers maximum performance while preserving the external host controller's ability to offer its own unique capabilities.
The EZ-NAND packages and electrical interfaces are the same as defined in the ONFI 2.2 specification. ONFI 2.3 includes some minor command set changes to execute the optional ECC off-load protocol, with the goal being to keep ONFI 2.3 as compatible as possible with today's implementations.
Separately, ONFI also announced today its continued progress on the ONFI 3.0 specification with a draft revision currently under review by the ONFI membership. The ONFI 3.0 specification, which will reach speeds of 400MT/s, is expected to be ratified in the fourth quarter of 2010. ONFI is collaborating with JEDEC to define a 400MT/sec interface, ultimately providing a single, industry-standard, high-speed NAND interface.