Abstract
The reliability of flash memory is getting worse with the introduction of Multiple Level Cell (MLC) and Triple Level Cell (TLC) technologies. To account for possible errors, each page in a flash memory is equipped with an Error Correction Code (ECC) module. An ECC scheme is chosen according to the worst-case error occurrences across all pages in the flash memory. Recent studies show that an MLC flash cell in different states exhibits diverse error rates and the difference is dramatic. Consequently, pages with different data will exhibit quite different error rates. Existing technologies that use one uniform ECC scheme for all pages in a flash memory is far from optimal. This paper exploits the asymmetric error rates exhibited by the pages with different data for write performance improvement. Before a page is programmed, its specific error rate, called Content-Dependent Bit Error Rate (CDBER), is estimated according to the content of the page. The margin between the CDBER of a page and the maximal error rate correctable by the uniform ECC code is exploited for write performance improvement. Simulation results show that the proposed approach leads to significant write performance improvement.