MOSAID Develops Solid State Drive Prototype

MOSAID Technologies Inc. has introduced a solid state drive (SSD) prototype utilizing its innovative HyperLink NAND (HLNAND) architecture and interface. Designed by MOSAID and its development partner INDILINX, the HLNAND SSD prototype is optimized for mass storage applications, including enterprise data centers and high-performance computing environments.

MOSAID's HLNAND SSD prototype proves that 213MBps read performance and 130MBps write performance is achievable on a single channel of HLNAND Flash memory. In contrast, current second-generation SSDs require eight or more channels for the same level of performance.

"The goal of the HLNAND program is to develop advanced solutions that will significantly enhance the performance of Flash technology in commercial products," said Jin-Ki Kim, Vice President, R&D, MOSAID. "Our prototype demonstrates the unprecedented level of Flash performance and flexibility that can be delivered in an SSD when implementing HLNAND technology. With our solution, SSD designers can achieve an industry leading concentration of throughput on each channel, without experiencing roll-off with heavily populated rings."

As the first major new Flash memory architecture and device interface development in 20 years, HLNAND Flash combines MOSAID's HyperLink memory technology with industry standard NAND Flash cell technology. HLNAND delivers sustained input/output (I/O) bandwidths an order of magnitude higher than conventional Flash by utilizing a point-to-point ring topology that achieves an extremely high level of signal integrity and significantly reduced loading.

The HLNAND SSD is a fully functional, Serial ATA2 (SATA2) compatible prototype incorporating an FPGA-based controller and MOSAID's HLNAND modules, built in the 3.5in form factor. The HLNAND SSD prototype uses two 64GB HLDIMM modules (eight multi-chip packages (MCPs) per module, 16 MCPs in total) arranged on a single channel. MOSAID provided the HLDIMM modules, and INDILINX built the controller and system board.

Prototype design limitations required reducing the HyperLink channel clock from 133MHz to 75MHz. A production version of the HLNAND SSD utilizing an FPGA-based or ASIC-based controller with eight channels would operate at the full 133MHz clock to achieve read and write throughput each exceeding 1TB/s.

The HLNAND SSD is intended for use in high-speed, mass storage applications, including desktop workstations, computing and enterprise equipment, light-weight mobile devices and gaming equipment, or as external drive.

HLNAND Flash

MOSAID

INDILINX