7.6 1GB/s 2Tb NAND flash multi-chip package with frequency-boosting interface chip

Abstract

NAND Flash-based solid-state drives (SSDs) have been adopted in enterprise storage applications that require high capacity and high-throughput performance. In recent years, a SATA interface supporting only up to 600MB/S throughput has hindered the accelerating performance growth of SSDs due to the host bandwidth limit. A PCI Express (PCIe) has emerged to close the limit because it can deliver 1GB/s throughput per lane and can be scaled to multi-lane to improve bandwidth. Accordingly, the SSD performance bottleneck has moved from the host interface to the NAND flash interface. In a memory system, a die-stacking technology in a NAND flash multi-chip package (MCP) effectively increases capacity and throughput performance in terms of PCB complexities and power consumption compared to a method increasing the number of channels. However, the multi-drop bus topology on NAND interfaces severely affects I/O speed degradations due to channel reflections and inter-symbol interference (ISI) resulting from large capacitive loadings. The undeniable paradox between larger storage capacity and higher I/O bandwidth has become a key challenge to reach enterprise-class SSDs. To overcome this issue, this paper presents a frequency-boosting interface chip (F-Chip) to boost I/O speeds while meeting capacity requirements. A 2Tb NAND flash MCP with 1GB/s toggle DDR interface is accomplished by incorporating the F-Chip into the NAND MCP including a 16-die stacked 128Gb NAND flash.