Contents

4.1.6

Caching parameters (page code = 8)

4-21

4.1.7

Control mode parameters (page code = 0A)

4-27

4.1.8

Notch parameter (page code = 0C)

4-31

4.1.9

Informational exceptions control page (page code = 1C)

4-33

4.1.10

Additional error recovery parameters (page code = 21)

4-36

4.2 Log Parameters

4-37

4.2.1

Supprot log page (X'00')

4-38

4.2.2

Buffer overrun / underrun page (X'01')

4-39

4.2.3

Write error count page (X'02')

4-40

4.2.3.1 Write errors recovered without delays (Page 02, Code 0000)

4-40

4.2.3.2 Write errors recovered with possible delays (Page 02, Code 0001)

4-41

4.2.3.3 Total posted write errors (Page 02, Code 0002)

4-41

4.2.3.4 Total posted recoverable write errors (Page 02, Code 0003)

4-42

4.2.3.5 Total write bytes processed (Page 02, Code 0005)

4-42

4.2.3.6 Total posted unrecoverable write errors (Page 02, Code 0006)

4-43

4.2.4

Read error count page (X'03')

4-43

4.2.4.1 Read errors recovered without delays (Page 03, Code 0000)

4-44

4.2.4.2 Read errors recovered with possible delays (Page 03, Code 0001)

4-44

4.2.4.3 Total posted read errors (Page 03, Code 0002)

4-45

4.2.4.4 Total posted recoverable read errors (Page 03, Code 0003)

4-45

4.2.4.5 Total read bytes processed (Page 03, Code 0005)

4-46

4.2.4.6 Total posted unrecoverable read errors (Page 03, Code 0006)

4-46

4.2.5

Verify error count page (X'05')

4-47

4.2.5.1 Verify errors recovered without delays (Page 05, Code 0000)

4-47

4.2.5.2 Vefiry errors recovered with possible delays (Page 05, Code 0001)

4-48

4.2.5.3 Total posted verify errors (Page 05, Code 0002)

4-48

4.2.5.4 Total posted recoverable verify errors (Page 05, Code 0003)

4-49

4.2.5.5 Total verify bytes processed (Page 05, Code 0005)

4-49

4.2.5.6 Total posted unrecoverable verify errors (Page 05, Code 0006)

4-50

4.2.6

Non-medium error count page (X'06')

4-50

4.2.7

Temperature page (X'0D')

4-51

4.2.7.1 Temperature (Page 0D, Code 0000)

4-51

4.2.7.2 Reference temperature (Page 0D, Code 0001)

4-52

4.2.8

Start-stop cycle counter page (X'0E')

4-52

4.2.8.1 Date of manufacture (Page 0E, Code 0001)

4-53

4.2.8.2 Accounting date (Page 0E, Code 0002)

4-53

4.2.8.3 Specified cycle count over device lifetime (Page 0E, Code 0003)

4-54

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Fujitsu MAS3367, MAP3367, MAP3147, MAS3735, MAP3735 specifications Contents

MAP3735, MAP3147, MAS3367, MAP3367, MAS3735 specifications

Fujitsu, a renowned leader in technology and innovation, has developed a variety of reliable hard disk drives (HDDs) that cater to a wide range of data storage needs. Among these, the MAS3735, MAP3367, MAS3367, MAP3147, and MAP3735 series stand out for their advanced features and exceptional performance.

The MAS3735 is a high-capacity enterprise-class drive that boasts a storage capacity of up to 300 GB. Its 10,000 RPM spindle speed ensures rapid data retrieval and efficient performance, making it ideal for data-intensive applications. It utilizes a Serial Attach SCSI (SAS) interface, which allows for improved data transfer rates and increased reliability compared to traditional SATA drives. The drive is designed with advanced technologies such as error recovery and data integrity features, ensuring the safety and security of critical data.

Similarly, the MAP3367 and MAS3367 models are geared towards both enterprise and mid-range server environments, providing a storage capacity of up to 300 GB as well. These drives also operate at a spindle speed of 15,000 RPM, offering swift access times that enhance overall system performance. The MAP3367 employs the Ultra 320 SCSI interface, allowing for significant bandwidth and ensuring data is transmitted efficiently.

On the other hand, both MAP3147 and MAP3735 models provide versatile solutions for various applications, supporting capacities from 36 GB to 147 GB. The MAP3147, with its 10,000 RPM speed, is optimized for workloads requiring quick access and high throughput, making it suitable for transactional systems and enterprise applications. The MAP3735, while offering comparable capacity, emphasizes exceptional reliability and durability, which is crucial for environments that involve heavy data loads.

All these Fujitsu HDDs are characterized by their robust construction, reliability, and efficiency. They are built to withstand heavy workloads and are equipped with features like advanced thermal management and acoustic noise reduction, ensuring they operate effectively in data center environments.

In conclusion, Fujitsu's MAS3735, MAP3367, MAS3367, MAP3147, and MAP3735 series HDDs are designed for high performance and reliability, catering to both enterprise and mid-range environments. Their advanced features make them a strong choice for businesses looking to enhance their storage solutions while maintaining data integrity and system performance.