MD8331-D2G-V3-X-P SanDisk, MD8331-D2G-V3-X-P Datasheet - Page 35
MD8331-D2G-V3-X-P
Manufacturer Part Number
MD8331-D2G-V3-X-P
Description
IC MDOC G4 2GB 69-FBGA
Manufacturer
SanDisk
Datasheet
1.MD8832-D1G-V18-X-P.pdf
(85 pages)
Specifications of MD8331-D2G-V3-X-P
Format - Memory
FLASH
Memory Type
FLASH - Nand
Memory Size
2G (256M x 8)
Speed
33ns
Interface
Parallel
Voltage - Supply
2.5 V ~ 3.6 V
Operating Temperature
-40°C ~ 85°C
Package / Case
69-FBGA
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
585-1149-2
MD8831-D2G-V3-X-P
MD8832-D2G-V3-X-P
MD8831-D2G-V3-X-P
MD8832-D2G-V3-X-P
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
MD8331-D2G-V3-X-P
Manufacturer:
INTEL
Quantity:
480
Company:
Part Number:
MD8331-D2G-V3-X-P
Manufacturer:
M-SYSTEM
Quantity:
586
In a typical application, and especially if a file system is used, specific pages are constantly updated
(e.g., the page/s that contain the FAT, registry, etc.). Without any special handling, these pages
would wear out more rapidly than other pages, reducing the lifetime of the entire flash.
To overcome this inherent deficiency, TrueFFS uses M-Systems’ patented wear-leveling algorithm.
This wear-leveling algorithm ensures that consecutive writes of a specific sector are not written
physically to the same page in the flash. This spreads flash media usage evenly across all pages,
thereby maximizing flash lifetime.
Dynamic Wear-Leveling
TrueFFS uses statistical allocation to perform dynamic wear-leveling on newly written data. This
minimizes the number of erase cycles per block. Because a block erase is the most time-consuming
operation, dynamic wear-leveling has a major impact on overall performance. This impact cannot
be noticed during the first write to flash (since there is no need to erase blocks beforehand), but it is
more and more noticeable as the flash media becomes full.
Static Wear-Leveling
Areas on the flash media may contain static files, characterized by blocks of data that remain
unchanged for very long periods of time, or even for the whole device lifetime. If wear-leveling
were only applied on newly written pages, static areas would never be cycled. This limited
application of wear-leveling would lower life expectancy significantly in cases where flash memory
contains large static areas. To overcome this problem, TrueFFS forces data transfer in static areas as
well as in dynamic areas, thereby applying wear-leveling to the entire media.
6.4.7 Power Failure Management
TrueFFS uses algorithms based on “erase after write” instead of "erase before write" to ensure data
integrity during normal operation and in the event of a power failure. Used areas are reclaimed for
erasing and writing the flash management information into them only after an operation is
complete. This procedure serves as a check on data integrity.
The “erase after write” algorithm is also used to update and store mapping information on the flash
memory. This keeps the mapping information coherent even during power failures. The only
mapping information held in RAM is a table pointing to the location of the actual mapping
information. This table is reconstructed during power-up or after reset from the information stored
in the flash memory.
To prevent data from being lost or corrupted, TrueFFS uses the following mechanisms:
35
• When writing, copying, or erasing the flash device, the data format remains valid at all
• A data sector cannot exist in a partially written state. The operation is either successfully
intermediate stages. Previous data is never erased until the operation has been completed
and the new data has been verified.
completed, in which case the new sector contents are valid, or the operation has not yet been
completed or has failed, in which case the old sector contents remain valid.
Data Sheet (Preliminary) Rev. 0.3
DiskOnChip G4 128MB (1Gb)/256MB (2Gb) 1.8V
92-DS-1105-00
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