(1)Header

a.P List (primary list) bit

When this bit is “1,” it indicates that P List defect data are included in the defect descriptor list that is actually transferred to the INIT. When it is “0,” it indicates that the P List defect data are not included. See 3) of item (2).)

b.G List (grown list) bit

When this bit is “1,” it indicates that G List defect data are included in the defect descriptor list that is actually transferred to the INIT. When it is “0,” it indicates that the G List defect data are not included. See 3) of item (2).)

c.Defect list format

This field indicates the description format of the defect descriptor list that is actually transferred to the INIT. It is possible for the IDD to transfer defect data in 3 different formats which it can specify in the CDB, and the values in this field are the same as the values specified in the “Defect List Format” field in the CDB.

d.Defect list length

This field follows the 4-byte header and indicates the total number of bytes of defect descriptor list that can be transferred. It has either 4 or 8 bytes, depending on the format of the defect descriptor. Also, the values shown in this field are the total number of bytes described in the “Defect List Format” which specifies the specified type (P List or G List) of defect data, regardless of the value specified in the “Transfer byte length” field in the CDB. The INIT should check whether the value shown in this field plus 4 is a smaller value than that specified in the “Transfer byte count” field in the CDB in order to confirm that all the defect data requested in this command have been transferred. Also, since the value shown in this field is divided by the number of bytes (4 or 8) per defect descriptor (quotient), the INIT can know the number of defects on the disk media.

(2)Defect descriptor list

The data transferred after the 4-byte header is the “Defect descriptor” list (Defect data) in which the defect position information are described with the type and format specified in the CDB. One “Defect descriptor” has a length of 4 bytes when in the “Block address format,” and a length of 8 bytes when in the “Byte distance from the index format” and “Physical sector address format.” The “Defect descriptors” do not necessarily transfer defect position information in ascending order.

See the description of the FORMAT UNIT command (Section 3.3.1) concerning the configuration and contents of the “Defect descriptor” in each format.

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Fujitsu MAN3184, MAN3367, MAN3735 SERIES DISK DRIVES specifications
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MAN3735, MAN3184, MAN3367, MAN3735 SERIES DISK DRIVES, MAN3367, MAN3184 specifications

Fujitsu's MAN3184, MAN3367, and MAN3735 series disk drives represent a significant advancement in storage technology, catering to the needs of businesses seeking reliability, performance, and high capacity. These drives are designed for enterprise environments, providing exceptional data integrity and speed essential for effective data management.

The MAN3184 series is renowned for its high rotational speed of 10,000 RPM, which significantly enhances data access times. With a capacity of up to 18.4 GB, these drives are suitable for applications requiring quick read and write operations. The series employs an improved read/write head technology, which reduces latency and increases overall performance. This technology is complemented by advanced error correction mechanisms, ensuring the reliability necessary for critical data applications.

Transitioning to the MAN3367 series, these drives offer increased storage capacity and improved performance metrics. With capacities reaching up to 36.7 GB, they cater to growing data demands in modern enterprises. They also feature a 10,000 RPM spindle speed, ensuring that the drives can handle intensive workloads with ease. The MAN3367 drives include SCSI interface support, making them versatile and easy to integrate into various systems. The inclusion of intelligent caching algorithms allows for faster data retrieval, while built-in thermal management features ensure optimal performance, even under heavy usage.

The MAN3735 series takes performance up another notch, boasting higher capacities of up to 73.5 GB. These drives are particularly suited for environments that require high reliability and availability. The series utilizes a state-of-the-art SCSI Ultra160 interface, which maximizes data transfer rates, ultimately enhancing overall system efficiency. Additionally, the MAN3735 series employs advanced data protection technologies, including power loss protection and predictive failure analysis, which proactively minimizes potential downtime.

All these series of Fujitsu disk drives are built with a focus on durability and sustained performance. They are designed to operate seamlessly in high-demand environments, ensuring that organizations can rely on them for critical applications. Their compact design and energy-efficient operation make them an ideal choice for modern data centers looking to optimize space and reduce power consumption.

In summary, Fujitsu's MAN3184, MAN3367, and MAN3735 series disk drives deliver a blend of high capacity, performance, and reliability. These drives incorporate advanced technologies that address the evolving needs of enterprise storage solutions, making them a valuable asset for any organization aiming to enhance their data management capabilities.
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