ATA S.M.A.R.T. attributes (ID codes)
|
ID |
ATTRIBUTE
NAME |
DESCRIPTION |
|
0 |
No issues found. |
|
|
01 |
Read Error Rate |
(Vendor specific raw
value.) Stores data related to the rate of hardware read errors that occurred
when reading data from a disk surface. The raw value has different structure
for different vendors and is often not meaningful as a decimal number. |
|
02 |
Throughput Performance |
Overall (general)
throughput performance of a hard disk drive. If the value of this attribute
is decreasing there is a high probability that there is a problem with the
disk. |
|
03 |
Spin-Up Time |
Average time of spindle
spin up (from zero RPM to fully operational [milliseconds]). |
|
04 |
Start/Stop Count |
A tally of spindle
start/stop cycles. The spindle turns on, and hence the count is increased,
both when the hard disk is turned on after having before been turned entirely
off (disconnected from power source) and when the hard disk returns from
having previously been put to sleep mode. |
|
05 |
Reallocated Sectors Count |
Count of reallocated
sectors. The raw value represents a count of the bad sectors that
have been found and remapped. Thus, the higher the attribute value, the more
sectors the drive has had to reallocate. This value is primarily used as a
metric of the life expectancy of the drive; a drive which has had any
reallocations at all is significantly more likely to fail in the immediate
months. |
|
06 |
Read Channel Margin |
Margin of a channel
while reading data. The function of this attribute is not specified. |
|
07 |
Seek Error Rate |
(Vendor specific raw
value.) Rate of seek errors of the magnetic heads. If there is a partial
failure in the mechanical positioning system, then seek errors will arise.
Such a failure may be due to numerous factors, such as damage to a servo, or
thermal widening of the hard disk. The raw value has different structure for
different vendors and is often not meaningful as a decimal number. |
|
08 |
Seek Time Performance |
Average performance
of seek operations of the magnetic heads. If this attribute is decreasing, it
is a sign of problems in the mechanical subsystem. |
|
09 |
Power-On Hours |
Count of hours in
power-on state. The raw value of this attribute shows total count of hours
(or minutes, or seconds, depending on manufacturer) in power-on state. “By
default, the total expected lifetime of a hard disk in perfect condition is
defined as 5 years (running every day and night on all days). This is equal
to 1825 days in 24/7 mode or 43800 hours.” |
|
10 |
Spin Retry Count |
Count of retry of
spin start attempts. This attribute stores a total count of the spin start
attempts to reach the fully operational speed (under the condition that the
first attempt was unsuccessful). An increase of this attribute value is a
sign of problems in the hard disk mechanical subsystem. |
|
11 |
Recalibration
Retries or Calibration Retry Count |
This attribute
indicates the count that recalibration was requested (under the condition
that the first attempt was unsuccessful). An increase of this attribute value
is a sign of problems in the hard disk mechanical subsystem. |
|
12 |
Power Cycle Count |
This attribute
indicates the count of full hard disk power on/off cycles. |
|
13 |
Soft Read Error Rate |
Uncorrected read
errors reported to the operating system. |
|
22 |
Current Helium Level |
Specific to He8
drives from HGST. This value measures the helium inside of the drive specific
to this manufacturer. It is a pre-fail attribute
that trips once the drive detects that the internal environment is out of
specification. |
|
170 |
Available Reserved Space |
See attribute E8. |
|
171 |
SSD Program Fail Count |
(Kingston) The total
number of flash program operation failures since the drive was deployed.
Identical to attribute 181. |
|
172 |
SSD Erase Fail Count |
(Kingston) Counts
the number of flash erase failures. This attribute returns the total number
of Flash erase operation failures since the drive was deployed. This
attribute is identical to attribute 182. |
|
173 |
SSD Wear Leveling Count |
Counts the maximum
worst erase count on any block. |
|
174 |
Unexpected Power Loss Count |
Also known as
“Power-off Retract Count” per conventional HDD terminology. Raw value reports
the number of unclean shutdowns, cumulative over the life of an SSD, where an
“unclean shutdown” is the removal of power without STANDBY IMMEDIATE as the
last command (regardless of PLI activity using capacitor power). Normalized
value is always 100. |
|
175 |
Power Loss Protection Failure |
Last test result as
microseconds to discharge cap, saturated at its maximum value. Also logs
minutes since last test and lifetime number of tests. Raw value contains the
following data:
Normalized value is
set to one on test failure or 11 if the capacitor has been tested in an excessive
temperature condition, otherwise 100. |
|
176 |
Erase Fail Count |
S.M.A.R.T. parameter
indicates a number of flash erase command failures. |
|
177 |
Wear Range Delta |
Delta between
most-worn and least-worn Flash blocks. It describes how good/bad the wearleveling of the SSD works on a more technical way. |
|
179 |
Used Reserved Block Count Total |
“Pre-Fail” attribute
used at least in Samsung devices. |
|
180 |
Unused Reserved Block Count Total |
“Pre-Fail” attribute
used at least in HP devices. |
|
181 |
Program Fail Count Total or Non-4K
Aligned Access Count |
Total number of
Flash program operation failures since the drive was deployed. |
|
182 |
Erase Fail Count |
“Pre-Fail” Attribute
used at least in Samsung devices. |
|
183 |
SATA Downshift Error
Count or Runtime Bad Block |
Western Digital, Samsung
or Seagate attribute: Either the number of downshifts of link speed (e.g. from 6Gbit/s to 3Gbit/s) or the total number of data
blocks with detected, uncorrectable errors encountered during normal
operation. Although degradation of this parameter can be an indicator of
drive aging and/or potential electromechanical problems, it does not directly
indicate imminent drive failure. |
|
184 |
End-to-End error / IOEDC |
This attribute is a
part of Hewlett-Packard’s SMART IV technology, as well as part of other
vendors’ IO Error Detection and Correction schemas, and it contains a count
of parity errors which occur in the data path to the media via the drive’s
cache RAM. |
|
185 |
Head Stability |
Western Digital
attribute. |
|
186 |
Induced Op-Vibration Detection |
Western Digital
attribute. |
|
187 |
Reported Uncorrectable Errors |
The count of errors
that could not be recovered using hardware ECC (see attribute 195). |
|
188 |
Command Timeout |
The count of aborted
operations due to HDD timeout. Normally this attribute value should be equal
to zero. |
|
189 |
High Fly Writes |
HDD manufacturers
implement a flying height sensor that attempts to provide
additional protections for write operations by detecting when a recording
head is flying outside its normal operating range. If an unsafe fly height
condition is encountered, the write process is stopped, and the information
is rewritten or reallocated to a safe region of the hard drive. This
attribute indicates the count of these errors detected over the lifetime of
the drive.This feature is
implemented in most modern Seagate drives and some of Western Digital’s
drives, beginning with the WD Enterprise WDE18300 and WDE9180 Ultra2 SCSI
hard drives, and will be included on all future WD Enterprise products. |
|
190 |
Temperature Difference or Airflow
Temperature |
Value is equal to
(100-temp. °C), allowing manufacturer to set a minimum threshold which
corresponds to a maximum temperature. This also follows the convention of 100
being a best-case value and lower values being undesirable. However, some
older drives may instead report raw Temperature (identical to 0xC2) or
Temperature minus 50 here. |
|
191 |
G-sense Error Rate |
The count of errors
resulting from externally induced shock and vibration. |
|
192 |
Power-off Retract Count, Emergency
Retract Cycle Count (Fujitsu), or Unsafe Shutdown Count |
Number of power-off
or emergency retract cycles. |
|
193 |
Load Cycle Count or Load/Unload
Cycle Count (Fujitsu) |
Count of load/unload
cycles into head landing zone position. Some drives use 225 (0xE1) for Load
Cycle Count instead.Western
Digital rates their VelociRaptor drives for 600,000
load/unload cycles, and WD Green drives for 300,000 cycles; the latter ones
are designed to unload heads often to conserve power. On the other hand, the
WD3000GLFS (a desktop drive) is specified for only 50,000 load/unload cycles. |
|
194 |
Temperature or Temperature Celsius |
Indicates the device
temperature, if the appropriate sensor is fitted. Lowest byte of the raw
value contains the exact temperature value (Celsius degrees). |
|
195 |
Hardware ECC Recovered |
(Vendor-specific raw
value.) The raw value has different structure for different vendors and is
often not meaningful as a decimal number. |
|
196 |
Reallocation Event Count |
Count of remap operations.
The raw value of this attribute shows the total count of attempts to transfer
data from reallocated sectors to a spare area. Both successful and
unsuccessful attempts are counted. |
|
197 |
Current Pending Sector Count |
Count of “unstable”
sectors (waiting to be remapped, because of unrecoverable read errors). If an
unstable sector is subsequently read successfully, the sector is remapped and
this value is decreased. Read errors on a sector will not remap the sector
immediately (since the correct value cannot be read and so the value to remap
is not known, and also it might become readable later); instead, the drive
firmware remembers that the sector needs to be remapped, and will remap it
the next time it’s written. However, some drives will not immediately remap
such sectors when written; instead the drive will
first attempt to write to the problem sector and if the write operation is
successful then the sector will be marked good (in this case, the
“Reallocation Event Count” (0xC4) will not be increased). This is a serious
shortcoming, for if such a drive contains marginal sectors that consistently
fail only after some time has passed following a successful write operation,
then the drive will never remap these problem sectors. |
|
198 |
(Offline) Uncorrectable Sector Count |
The total count of
uncorrectable errors when reading/writing a sector. A rise in the value of
this attribute indicates defects of the disk surface and/or problems in the
mechanical subsystem. |
|
199 |
UltraDMA CRC Error Count |
The count of errors
in data transfer via the interface cable as determined by ICRC (Interface
Cyclic Redundancy Check). |
|
200 |
Multi-Zone Error Rate |
The count of errors
found when writing a sector. The higher the value, the worse the disk’s
mechanical condition is. |
|
200 |
Write Error Rate (Fujitsu) |
The total count of
errors when writing a sector. |
|
201 |
Soft Read Error Rate or |
Count indicates the number
of uncorrectable software read errors. |
|
202 |
Data Address Mark errors or |
Count of Data
Address Mark errors (or vendor-specific). |
|
203 |
Run Out Cancel |
The number of errors
caused by incorrect checksum during the error correction. |
|
204 |
Soft ECC Correction |
Count of errors
corrected by the internal error correction software. |
|
205 |
Thermal Asperity Rate |
Count of errors due
to high temperature. |
|
206 |
Flying Height |
Height of heads above
the disk surface. If too low, head crash is more likely; if too high,
read/write errors are more likely. |
|
207 |
Spin High Current |
Amount of surge
current used to spin up the drive. |
|
208 |
Spin Buzz |
Count of buzz
routines needed to spin up the drive due to insufficient power. |
|
209 |
Offline Seek Performance |
Drive’s seek
performance during its internal tests. |
|
210 |
Vibration During Write |
Found in Maxtor
6B200M0 200GB and Maxtor 2R015H1 15GB disks. |
|
211 |
Vibration During Write |
A recording of a
vibration encountered during write operations. |
|
212 |
Shock During Write |
A recording of shock
encountered during write operations. |
|
220 |
Disk Shift |
Distance the disk has
shifted relative to the spindle (usually due to shock or temperature). Unit
of measure is unknown. |
|
221 |
G-Sense Error Rate |
The count of errors
resulting from externally induced shock and vibration. |
|
222 |
Loaded Hours |
Time spent operating
under data load (movement of magnetic head armature). |
|
223 |
Load/Unload Retry Count |
Count of times head
changes position. |
|
224 |
Load Friction |
Resistance caused by
friction in mechanical parts while operating. |
|
225 |
Load/Unload Cycle Count |
Total count of load
cycles Some drives use 193 (0xC1) for Load Cycle Count instead. See
Description for 193 for significance of this number. |
|
226 |
Load ‘In’-time |
Total time of
loading on the magnetic heads actuator (time not spent
in parking area). |
|
227 |
Torque Amplification Count |
Count of attempts to
compensate for platter speed variations. |
|
228 |
Power-Off Retract Cycle |
The number of
power-off cycles which are counted whenever there is a “retract event” and
the heads are loaded off of the media such as when the machine is powered
down, put to sleep, or is idle. |
|
230 |
GMR Head Amplitude (magnetic
HDDs), Drive Life Protection Status (SSDs) |
Amplitude of
“thrashing” (repetitive head moving motions between operations). In
solid-state drives, indicates whether usage trajectory is outpacing the
expected life curve |
|
231 |
Life Left (SSDs) or Temperature |
Indicates the
approximate SSD life left, in terms of program/erase cycles or available
reserved blocks. A normalized value of 100 represents a new drive, with a
threshold value at 10 indicating a need for replacement. A value of 0 may
mean that the drive is operating in read-only mode to allow data recovery.
Previously (pre-2010) occasionally used for Drive Temperature (more typically
reported at 0xC2). |
|
232 |
Endurance Remaining or Available
Reserved Space |
Number of physical
erase cycles completed on the SSD as a percentage of the maximum physical
erase cycles the drive is designed to endure.Intel
SSDs report the available reserved space as a percentage of the initial
reserved space. |
|
233 |
Media Wearout
Indicator (SSDs) or Power-On Hours |
Intel SSDs report a normalized
value from 100, a new drive, to a minimum of 1. It decreases while the NAND
erase cycles increase from 0 to the maximum-rated cycles.Previously (pre-2010) occasionally used for
Power-On Hours (more typically reported in 0x09). |
|
234 |
Average erase count AND Maximum Erase Count |
Decoded as: byte
0-1-2 = average erase count (big endian) and byte 3-4-5 = max erase count
(big endian). |
|
235 |
Good Block Count AND System(Free)
Block Count |
Decoded as: byte
0-1-2 = good block count (big endian) and byte 3-4 = system (free) block
count. |
|
240 |
Head Flying Hours or ‘Transfer Error
Rate’ (Fujitsu) |
Time spent during
the positioning of the drive heads. Some Fujitsu drives report the count of
link resets during a data transfer. |
|
241 |
Total LBAs Written |
Total count of LBAs
written. |
|
242 |
Total LBAs Read |
Total count of LBAs
read. |
|
243 |
Total LBAs Written Expanded |
The upper 5 bytes of
the 12-byte total number of LBAs written to the device. The lower 7 byte value is located at attribute 0xF1. |
|
244 |
Total LBAs Read Expanded |
The upper 5 bytes of
the 12-byte total number of LBAs read from the device. The lower 7 byte value is located at attribute 0xF2. |
|
249 |
NAND Writes (1GiB) |
Total NAND Writes.
Raw value reports the number of writes to NAND in 1
GB increments. |
|
250 |
Read Error Retry Rate |
Count of errors
while reading from a disk. |
|
251 |
Minimum Spares Remaining |
The Minimum Spares
Remaining attribute indicates the number of remaining spare blocks as a
percentage of the total number of spare blocks available. |
|
252 |
Newly Added Bad Flash Block |
The Newly Added Bad Flash
Block attribute indicates the total number of bad flash
blocks the drive detected since it was first initialized in manufacturing. |
|
254 |
Free Fall Protection |
Count of “Free Fall
Events” detected. |