SEAGATE FireCuda 120 SSD Perfect for Gaming Use and Video Editing Owner’s Manual

Introduction

Feature	Description
Capacity (User)	500 GB, 1000 GB, 2000 GB, 4000 GB
Certifications, Eco-Compliance	CE, UL, FCC, BSMI, KCC, Microsoft WHCK, VCCI, CBn  RoHS
Dimensions	(69.85±0.25) x (100±0.25) x (Max. 7) mm			SSD outer case can support suitable Z-height for various host situations.
Endurance	500 GB 700 Total Bytes Written (TBW) 1000 GB 1400 TBW 2000 GB 2800 TBW 4000 GB 5600TBW			Endurance rating valid for SSD Life Remaining > 1% (SMART E7h>1).See Section 2.5, Reliability/Endurance.
Form Factor	2.5-inch Standard SSD
Interface Compliance	Fully compliant with ATA-8/ACS-3 Standard Compliant with SATA Revision 3.2 Supported protocol AHCI and ASC2 command set Compatible with SATA 1.5 Gbps, 3 Gbps, and 6Gbps interfacesn  PIO, DMA, UDMA (up to 6 modes, dependent on host) supported Native Command Queuing (NCQ): up to 32 commands Data Set Management Command Trim support
NAND	3D TLC
Operating Systems	Windows® 7 (64 bit), 8.1 (64 bit), and Windows 10 (64 bit) Ubuntu 16.10
Performance Random	Read: Up to 100,000 IOPS Write: Up to 90,000 IOPS			Actual performance might vary depending on use conditions and environment.See Section 2.2, Performance.
Performance Sequential	Read: Up to 560MB/s Write: Up to 540MB/s			Actual performance might vary depending on the capacity, use conditions and environment.See Section 2.2, Performance.
Power Consumption	Active mode: < 2800 mW Idle mode: < 150 mW DEVSLP: 5 mW			Based on 4000 GB SSD. Results vary with capacity and mode.
Power Loss Data Protection	To protect your data, you must send a Standby Immediate command (0xE1h) before you remove power. The FireCuda 120 SSD does not provide data protection for a sudden power loss.
Power Management	2.5 inch: 5 V SATA Supply Host-initiated power managementn  Device-initiated power managementn  HIPM/DEVSLP Mode
Reliability		End-to-end data path protectionn  MTBF: 1.8 million hoursn  UBER: 1 error in 1016 bits read
Shock and Vibration		Shockn  Non-Operating: 1,500 G, at 0.5 ms	See Section 2.4, Environmental Conditions.
		Vibrationn  Non-Operating: 1.52 GRMS, (20 to 80 Hz, Frequency)
Temperature Range (Operating)		0°C to 70°Cn  Temperature Sensor (SMART Attribute ID C2h)
Voltage		5V±5%
Warranty		Five years, or when the device reaches Host TBW, whichever happens first. Endurance rating valid for SSD Life Remaining > 1% (SMART E7h>1).
Weight		50 g, 1.76 Oz ±5%

Specifications

Models and Capacity

Table 2 Models and Capacity

Model Names	User Capacity
ZA500GM10001	500 GB
ZA1000GM10001	1000 GB
ZA2000GM10001	2000 GB
ZA4000GM10001	4000 GB

NOTE: About capacity:

• Sector Size: 512 Bytes
• User-addressable LBA count = ((97696368) + (1953504 x (Desired Capacity in Gb-50.0)) From International Disk Drive Equipment and Materials Association (IDEMA) (LBA1-03_standard.doc)

Performance

Table 3 Random and Sequential Read and Write Performance

Parameter	500 GB	1000 GB	2000 GB	4000 GB
Sequential Read MB/s	560 MB/s	560 MB/s	560 MB/s	560 MB/s
Sequential Write MB/s	540 MB/s	540 MB/s	540 MB/s	540 MB/s
Random Read (IOPS)	100,000	100,000	100,000	100,000
Random Write (IOPS)	90,000	90,000	90,000	90,000

NOTE: About performance:

• Fresh out of box (FOB) performance obtained on newly formatted  drive. Performance may vary based on the SSD’s firmware version, system hardware, and configuration.
• Performance is based on CrystalDiskMark v.6.0.0 ×64 on Windows 10 host.

Power Consumption

Table 4 Power Consumption

	500 GB	1000 GB	2000 GB	4000 GB
Read (mW)	2300	2400	2600	2800
Write (mW)	2300	2400	2600	2800
Idle (mW)	120	135	140	150
Slumber (mW)	35	55	60	65
DEVSLP (mW)	5	5	5	5

NOTE: About power consumption:

• The average value of power consumption is based on 100% conversion efficiency.
• The measured power voltage is 5 V.
• Measured under ambient temperature.
• Sequential Read/Write is measured while testing 4000 MB five times by CrystalDiskMark.
• Power Consumption can differ according to flash configuration and platform.

Environmental Conditions

Table 5 Temperature, Humidity, Shock

Specification	Value
Temperature Operating (case temperature at specific airflow) Non-operating	0°C to 70°C -40°C to 85°C
Humidity Operating Non-operating (storage)	90% 93%
Shock Non-operating	1,500 G, duration 0.5 ms
Vibration Non-operating	1.52 GRMS, (20Hz to 80Hz, Frequency)

NOTE: Temperature is measured without condensation. Operating mode temperature is measured by temperature sensor, SMART Attribute C2h.

NOTE: Shock and vibration results assume that the SSD is mounted securely with the input vibration applied to the SSD mounting. These specifications do not cover connection issues that may result from testing at this level. The measured specification is in root mean square (RMS) form.

• Non-operating Shock. The limits of non-operating shock applies to all conditions of handling and transportation. This includes both isolated SSD and integrated SSDs. Shock may be applied in the X, Y, or Z-axis.
• Non-Operating Vibration. The limits of non-operating vibration shall apply to all conditions of handling and transportation. This includes both isolated SSD and integrated SSDs. Vibration may be applied in the X, Y, or Z-axis.

Reliability/Endurance

Table 6 Reliability/Endurance

Specification	Value
Mean time between failures (MTBF)	1.8 million hours
Bit Error Rate	1 error in 1016 bits read
Endurance	700 GB TBW 1400 GB TBW 2800 GB TBW 5600 GB TBW

NOTE: About endurance

• The SSD achieves the specified MTBF in an operational environment that complies with the operational temperature range specified in this manual. Operating temperatures are measured by temperature sensor, SMART Attribute ID C2h.
• Endurance rating valid for SSD Life Remaining > 1% (SMART E7h>1).
• Endurance is characterized while running Client JESD219A workload (per JESD218A specification).

Mechanical Information

Dimensions and Weight

• Weight: 50 g, 1.76 Oz +/- 5%
• Height: Maximum, 7 mm+0.10/-0.30
• Width: 69.85 mm±0.25 mm
• Length: 100.10 mm±0.25 mm

Figure 1 FireCuda 120 SSD Enclosure

Figure 2 FireCuda 120 SSD

Pin and Signal Descriptions

Signal Pin Definitions

Table 7 Serial ATA Connector Pin Signal Definitions

Pin	Name	Definition
S1	Ground	Ground
S2	A+	Differential signal pair A+ and A-
S3	A-
S4	Ground	Ground
S5	B-	Differential signal pair B- and B+
S6	B+
S7	Ground	Ground

NOTE Key and spacing separate the signal and power segments.

Power Pin Definitions

Table 8 Power Pin Definitions

Pin	Function	Definition
P1	not used	Not Used (3.3 V)
P2	V33	Not Used (3.3 V)
P3	DEVSLP	SATA PHY Power Control
P4	GND	Ground
P5	GND	Ground
P6	GND	Ground
P7	V5	5 V Power, Precharge
P8	V5	5 V Power
P9	V5	5 V Power
P10	GND	Ground
P11	Reserved	Reserved
P12	GND	Ground
P13	not used	Not Used (12 V pre-charge)
P14	V12	Not Used (12 V)
P15	V12	Not Used (12 V)

NOTE: About Power Pin Signal Definitions:

• Key and spacing separate the signal and power segments.
• Uses 5 V power only; 3.3 V (P1-P2) and 12 V (P13-P15) power are not used.

Supported ATA Command List

The FireCuda 120 SSD complies with ATA-8/ACS-3. All mandatory and many optional commands and features are supported.

ATA Feature Set

The following table summarizes the ATA feature set and commands that the FireCuda 120 SSD supports.

Table 9 ATA Feature Set

Feature	Supported
48-Bit Address feature set	Yes
General feature set	Yes
Native Command Queuing (NCQ) feature set	Yes
Power Management feature set	Yes
Security feature set	Yes
SMART feature set	Yes

ATA Command Description

The following table shows the ATA commands supported

Table 10 ATA Command Description

Op-Code		Support	Command Description	Op-Code			Support	Command Description
00h		Y	NOP	B6h	12h	—	—	NV Cache: QUERY NV CACHE PINNED SET DMA EXT
03h		—	CFA Request Extended Error	B6h	13h	—		NV Cache: QUERY NV CACHE MISSES DMA EXT
06h		Y	Data Set Management	B6h	14h	—	—	NV Cache: FLUSH NV CACHE
08h		—	Device Reset	C4h	—	—	Y	Read Multiple
0Bh		—	Request Sense Data EXT	C5h	—	—	Y	Write Multiple
10h		Y	Recalibrate	C6h	—	—	Y	Set Multiple Mode
11h to 1Fh		—	Recalibrate	C7	—	—		Read DMA Queued
20h		Y	Read Sectors	C8h	—	—	Y	Read DMA
21h		Y	Read Sectors without Retry	9h	—	—	—	Read DMA Without Retry
22h		—	Read Long	CAh	—	—	Y	Write DMA
23h		—	Read Long Without Retry	CBh	—	—	Y	Write DMA Without Retry
24h		Y	Read Sectors EXT	CCh	—	—	—	Write DMA Code
25h		Y	Read DMA EXT	CDh	—	—	—	CFA Write Multiple Without Erase
26h	—	—	Read DMA Queued EXT	CEh	—	—	Y	Write Multiple FUA EXT
27h	—	Y	Read Native Max Address EXT	D1h	—	—	—	Check Media Card Type
29h	—	Y	Read Multiple EXT	DAh	—	—	—	Get Media Status
2Ah	—	—	Read Stream DMA EXT	DEh	—	—	—	Media Lock
2Bh	—	—	Read Stream EXT	DFh	—	—	—	Media Unlock
2Fh	—	Y	Read Log EXT	E0h	—	—	Y	Standby Immediate
30h	—	Y	Write Sectors	E1h	—	—	Y	Idle Immediate
31h	—	Y	Write Sectors without Retry	E2h	—	—	Y	Standby
32h	—	—	Write Long	E3h	—	—	Y	Idle
33h	—	—	Write Long Without Retry	E4h	—	—	Y	Read Buffer
34h	—	Y	Write Sectors EXT	E5h	—	—	Y	Check Power Mode
35h	—	Y	Write DMA EXT	E6h	—	—	Y	Sleep
36h	—		Write DMA Queued EXT	E7h	—	—	Y	Flush Cache
37h	—	Y	Set Max Address EXT	E8h	—	—	Y	Write Buffer
38h	—	—	CFA Write Sectors Without Erase	E9h	—	—	Y	Read Buffer DMA
39h	—	Y	Write Multiple EXT	EAh	—	—	Y	Flush Cache EXT
3Ah	—	—	Write Stream DMA EXT	EBh	—	—	Y	Write Buffer DMA
3Bh	—	—	Write Stream EXT	ECh	—	—	Y	Identify Device
3Ch	—	—	Write Verify	EDh	—	—	—	Media Eject
3Dh	—	Y	Write DMA FUA EXT	EEh	—	—	—	Identify Device DMA
3Eh	—	—	Write DMA Queued FUA EXT	EFh	01h	—	—	Set Features: Enable 8-bit PIO Transfer Mode (CFA feature set only)
3Fh	—	Y	Write Log EXT	EFh	02h	—	Y	Set Features: Enable Write Cache
40h	—	Y	Read Verify Sectors	EFh	03h	—	Y	Set Features: Set transfer mode based on value in Count field.
41h	—	Y	Read Verify Sectors without Retry	EFh	05h	—	—	Set Features: Enable advanced power man- agement.
42h	—	Y	Read Verify Sector(s) EXT	EFh	06h	—	—	Set Features: Enable Power-Up In Standby fea- ture set.
44h	—	—	Reserved	EFh	07h	—	—	Set Features: Power-Up In Standby feature set device spin-up.
45h	—	O	Write Uncorrectable EXT	EFh	0Ah	—	—	Set Features: Enable CFA power mode 1.
47h	—	Y	Read Log DMA EXT	EFh	0Bh	—	—	Set Features: Enable Write-Read-Verify feature set
50h	—	—	Format Track	EFh	10h	01h	—	Set Features: Enable use of Serial ATA fea- ture
51h	—	—	Configure Stream	EFh	10h	02h	Y	Set Features: Enable DMA Setup FIS Auto-Acti- vate optimization
57h	—	Y	Write Log DMA EXT	EFh	10h	03h	Y	Set Features: Enable Device-initiated interface power state (DIPM) transitions.
60h	—	Y	Read FPDMA Queued	EFh	10h	04h	—	Set Features: Enable use of Serial ATA feature
61h	—	Y	Write FPDMA Queued	EFh	10h	05h	—	Set Features: Enable use of Serial ATA feature
70h	—	Y	Seek	EFh	10h	06h	O	Set Features: Enable Software Settings Preservation (SSP)
71-76h	—	—	Seek	EFh	10h	07h	Y	Set Features: Enable Device Automatic Partial to Slumber transitions
77h	—	Y	Set Date And Time Ext	EFh	10h	09h	O	Set Features: Enable Device Sleep
78h	—	Y	Accessible Max Address Configuration	EFh	42h	—	—	Set Features: Enable Automatic Acoustic Management feature set.
79-7Fh	—	—	Seek	EFh	43h	–	—	Set Features: Set Maximum Host Interface Sector Times.
87h	—	—	CFA Translate Sector	EFh	44h	—	-—	Set Features: Vendor Specific ECC byte
90h	—	Y	Execute Device Diagnostic	EFh	55h	—	Y	Set Features: Disable read look-ahead feature
91h	—	Y	Initialize Device Parameters	EFh	5Dh	—	—	Set Features: Enable release interrupt
92h	—	Y	Download Microcode	EFh	5Eh	—	—	Set Features: Enable service interrupt
93h	—	Y	Download Microcode DMA	EFh	5Fh	—	—	Set Features: Enable NDRQ Feature
94h	—	—	Standby Immediate	EFh	66h	—	Y	Set Features: Disable reverting to power-on defaults
95h	—	—	Idle Immediate	EFh	81h	—	—	Set Features: Disable 8-bit PIO transfer mode (CFA feature set only)
96h	—	—	Standby	EFh	82h	—	Y	Set Features: Disable write cache
97h	—	—	Idle	EFh	85h		Y	Set Features: Disable advanced power management
98h	—	—	Check Power Mode	EFh	86h		—	Set Features: Disable Power-Up In Standby feature set
99h	—	—	Sleep	EFh	8Ah		—	Set Features: Disable CFA power mode
A0h	—	—	Packet	EFh	8Bh		—	Set Features: Disable Write-Read-Verify feature set
A1h			Identify Packet Device	Efh	90h	01h		Set Features: Disable use of Serial ATA feature.
A2h	—	—	Service	Efh	90h	02h	Y	Set Features: Disable DMA Setup FIS Auto-Acti- vate optimization.
B0h	D0h	Y	SMART: Read Data	EFh	90h	03h	Y	Set Features: Disable Device-initiated interface power state (DIPM) transitions.
B0h	D1h	Y	SMART: Read Attribute Thresholds	EFh	90h	04h	—	Set Features: Disable use of Serial ATA feature.
B0h	D2h	Y	SMART: Enable/disable Autosave	EFh	90h	05h	–	Set Features: Disable use of Serial ATA feature
B0h	D3h	Y	SMART: Save Attribute Values	EFh	90h	06h	Y	Set Features: Disable Software Settings Preservation (SSP)
B0h	D4h	Y	SMART: Execute Off-line Immediate	EFh	90h	07h	Y	Set Features: Disable Device Automatic Partial to Slumber transitions
B0h	D5h	Y	SMART: Read Log	EFh	90h	09h	O	Set Features: Disable Device Sleep
B0h	D6h	Y	SMART: Write Log	EFh	AAh		Y	Set Features: Enable read look-ahead feature
B0h	D8h	Y	SMART: Enable Operations	EFh	BBh		–	Set Features: Default ECC byte
B0h	D9h	Y	SMART: Disable Operations	EFh	C2h		–	Set Features: Disable Automatic Acoustic Management feature set
B0h	DAh	Y	SMART: Return Status	EFh	C3h		–	Set Features: Enable/Disable the Sense Data Reporting feature set
B0h	DBh	Y	SMART: Enable/disable Automatic Off-line	EFh	CCh		Y	Set Features: Enable reverting to power-on defaults
B0h	E0h	–	SMART: Vendor specific	EFh	DDh		–	Set Features: Disable release interrupt
B1h	C0h	Y	DEVICE CONFIGURATION: Restore	EFh	DEh		–	Set Features: Disable SERVICE interrupt
B1h	C1h	Y	DEVICE CONFIGURATION: FreezeLock	EFh	DFh		–	Set Features: Disable NDRQ Feature
B1h	C2h	Y	DEVICE CONFIGURATION: Identify	F1h			Y	Security Set Password
B1h	C3h	Y	DEVICE CONFIGURATION: Set	F2h			Y	Security Unlock
B1h	C4h	Y	DEVICE CONFIGURATION: Identify DMA	F3h			Y	Security Erase Prepare
B1h	C5h	Y	DEVICE CONFIGURATION: Set DMA	F4h			Y	Security Erase Unit
B4h	0000h	O	SANITIZE DEVICE: Sanitize Status Ext	F5h			Y	Security Freeze Lock
B4h	0011h	O	SANITIZE DEVICE: Crypto Scramble Ext	F6h			Y	Security Disable Password
B4h	0012h	O	SANITIZE DEVICE: Block Erase Ext	F8h			Y	Read Native Max Address
B4h	0014h	O	SANITIZE DEVICE: Overwrite Ext	F9h	00h		Y	SET MAX: Set Max Address
B4h	0020h	O	SANITIZE DEVICE: SANITIZE FREEZE LOCK EXT	F9h	01h		Y	SET MAX: SET MAX PASSWORD
B4h	0040h	O	SANITIZE DEVICE: SANITIZE ANTIFREEZE LOCK EXT	F9h	02h		Y	SET MAX: SET MAX LOCK
B6h	00h	–	NV Cache: SET NV CACHE POWER MODE EXT	F9h	03h		Y	SET MAX: SET MAX UNLOCK
B6h	01h	–	NV Cache: RETURN FROM NV CACHE POWER MODE EXT	F9h	04h		Y	SET MAX: SET MAX FREEZE LOCK
B6h	10h	–	NV Cache: ADD LBA(S) TO NV CACHE PINNED SET DMA EXT	F9h	05h		Y	SET MAX: SET MAX SET PASSWORD DMA
B6h	11h	–	NV Cache: REMOVE LBA(S) FROM NV CACHE PINNED SET DMA EXT	F9h	06h		Y	SET MAX: SET MAX UNLOCK DMA

SMART Support

The FireCuda 120 SSD supports the SMART command set.

SMART ID

The following table lists SMART IDs and Descriptions.

Description

0

1

2

3

4

5

6

7

8

9

10

11

Threshold

ID

Flag

Value

Worse

DATA

Number of Accumula- tion ofUncorrectable Error

01h

0Bh

00h

64h

64h

UNC error count from Host

0

0

0

0

0

32h

Power-On hours Count

09h

12h

00h

64h

64h

Power on hour

0

0

0

0

0

00h

Drive Power Cycle Count

0Ch

12h

00h

64h

64h

Power on/off cycles

0

0

0

00h

Spare Blocks Available

10h

12h

00h

64h

64h

Spare Blocks Available byplane

0

0

0

0

0

00h

Remaining Spare Blocks

11h

12h

00h

64h

64h

Remaining Spare Blocks byplane

0

0

0

0

0

00h

SATA PHY Error Count

A8h

12h

00h

64h

64h

SATA PHY error count

0

0

0

00h

Bad Block Count (Early / Later)

AAh

03h

00h

Notea

Early Bad Block count by allplane

0

0

Later Bad Block countby all plane

0

0Ah

Erase count (average, max, erase count)

ADh

12h

00h

64h

64h

Max Erase Count

Average EraseCount

Least Erase Count

0

00h

Unexpected Power Loss count

AEh

12h

00h

64h

64h

Number of accidental power loss count

0

0

0

00h

Wear Range delta

B1h

00h

00h

00h

00h

Noteb

0

0

0

0

0

0

00h

Unexpected Power Loss Count

C0h

12h

00h

64h

64h

number of accidental power loss count

0

0

0

00h

Temperature(only Toshiba or thermo sensor embedded)

C2h

23h

00h

127-Curre nt Temp

127-Highest value

Current Temp

Lowest Temp

Highest Temp

0

39h

Number of accumula- tion CRC error(read/write data FIS CRC error)

DAh

0Bh

00h

64h

64h

CRC Error Count

0

0

0

32h

SSD life remaining

E7h

13h

00h

64h

64h

Notec

0

0

0

0

Thro ttlin glevel

0

00h

Read Failure Block Count

E8h

13h

00h

64h

64h

Flash Read Fail Count

Raw ReadError Rate

0

0

00h

Lifetime Writes to Flash (G Unit)

E9h

0Bh

00h

64h

64h

Lifetime Writes to Flash by GByte

0

00h

Lifetime Writes to Flash (Sector Unit)

EBh

0Bh

00h

64h

64h

Lifetime Writes to Flash by Sector

0

00h

NAND read (Sectors)

EAh

0Bh

00h

64h

64h

NAND read (Sectors)

0

00h

Host Writes (G Unit)

F1h

12h

00h

64h

64h

Lifetime Writes from Host by Gbyte

0

00h

Host Reads (G Unit)

F2h

12h

00h

64h

64h

Lifetime Reads from Host by Gbyte

0

00h

a. Bad Block Count (Early / Later) ID170. Value = (Remaining Spare Blocks by plane)/(Spare Blocks Available by plane) *100. This formula calculates percentage of spare block. Value is between 100 and 0.
b. Wear Range Delta ID 177. Value = (max erase count – least erase count) / (P-E Cycle) *100 (percentage).
c. SSD Life Remaining ID 231. Value = 100 – ((average erase count / Rated PE Cycle) * 100)

Feature Details

Flash Management

1. Error Correction Code (ECC)
   Flash memory cells deteriorate with use, which might generate random bit errors in the stored data. The FireCuda 120 SSD applies the 340 bit/2 KB LDPC (Low Density Parity Check) of ECC algorithm, which detects and corrects errors that occur during read process, ensures data is read correctly, and protects data from corruption.
2. Wear Leveling
   NAND flash devices can undergo only a limited number of program/erase cycles. Commonly, areas of the flash media are not used evenly. If some areas are updated more frequently than others, this reduces the lifetime of the device. Wear Leveling extends the life of the NAND Flash by evenly distributing write and erase cycles across the media. Seagate’s advanced Wear Leveling algorithm spreads the flash usage throughout the whole flash media area. Implementing dynamic and static Wear Leveling algorithms improves the life expectancy of the NAND flash.
3. Bad Block Management
   Bad blocks do not function properly and they can contain more invalid bits. This can make stored data unstable and bad block reliability is not guaranteed. Blocks identified and marked as bad by the manufacturer are called “Early Bad Blocks”. Bad blocks that develop during the lifespan of the Flash are called “Later Bad Blocks”. Seagate’s bad block management algorithm detects the factory-produced bad blocks and manages bad blocks that appear with use. This practice prevents data from being stored in bad blocks and improves data reliability
4. TRIM
   The TRIM feature improves the read/write performance and speed of SSDs. SSDs cannot overwrite existing data, so the available space becomes smaller with each data block use. The TRIM command tells the SSD (through the operating system) which data blocks can be removed permanently because they are no longer in use. The SSD erases these unused data blocks.
5. SMART
   SMART, stands for Self-Monitoring, Analysis, and Reporting Technology, is an open standard that allows an SSD to automatically detect its health and report potential failures. When SMART records a failure, users can replace the drive to prevent unexpected outage or data loss. SMART can also inform users of impending failures while there is still time to copy data to another device.

 

Seagate Technology Support Services

For Internal SSD Support, visit: https://www.seagate.com/support/products/
For Firmware Download and Tools Download for Secure Erase, visit: https://www.seagate.com/support/downloads/
For information regarding online support and services, visit: http://www.seagate.com/contacts/
For information regarding Warranty Support, visit: http://www.seagate.com/support/warranty-and-replacements/
For information regarding data recovery services, visit:
http://www.seagate.com/services-software/seagate-recovery-services/recover/
For Seagate OEM and Distribution partner and Seagate reseller portal, visit: http://www.seagate.com/partners

 

Documents / Resources

SEAGATE FireCuda 120 SSD Perfect for Gaming Use and Video Editing [pdf] Owner's Manual FireCuda 120 SSD Perfect for Gaming Use and Video Editing, FireCuda 120 SSD, Perfect for Gaming Use and Video Editing, Gaming Use and Video Editing, Use and Video Editing, Video Editing, Editing

References

• User Manual