Data Buffer Management

3)If the data transfer rate of the INIT (SCSI bus) is lower than the data transfer rate of the disk drive, since the data pre-fetch of data that are to be written to that data block is not completed, it may not be possible to write the data continuously to the disk (data underrun). In this case, the IDD waits one disk revolution while continuing to pre-fetch data from the INIT, then repositions the block that caused the data underrun and continues the writing of data to the disk.

4)After disconnect processing, if all the blocks of data specified in the command have not yet been transferred from the INIT, as writing of data to the disk media progresses, at the point when the empty space in the data buffer reaches the amount specified in the buffer empty ratio in the MODE SELECT parameter, the IDD performs reconnection processing and begins transferring the succeeding data (data pre-fetch).

Writing of data to the disk media is performed in parallel and data transfer with the INIT continues until the empty space in the data buffer is full or until transfer of all the data specified in the command is completed. From then on, disconnection, reconnection and data transfer are repeated until transfer of all the blocks of data specified in the command is completed.

5)When writing of all the specified data is completed, the IDD reports the status and terminates the command.

Notes:

1.If the amount of transfer data specified in a command is smaller than the capacity of the cache segment, all the data necessary for execution of the command are pre- fetched in a batch in the processing in 1) above, so the value specified in the buffer empty ratio has not meaning.

2.If the amount of data processed with a single command exceeds the capacity of one cache segment, in order to avoid frequent repetition of disconnect and reconnect processing during command execution, and in order to escape the occurrence of data underrun, it is necessary to set the buffer empty ratio (see Section 2.1.2) of the MODE SELECT parameter so the difference in the data transfer rates between the INIT (SCSI bus) and the disk drive is maintained in a good balance.

Figure 2.3 shows an example of the data buffer operating state during a write operation. Details are explained in section 2.1.2.

Sector

Disk

Amount of Data in the Buffer

SCSI

DATA OUT

STATUS

Bus

 

 

COMMAND

Disconnection

Reconnection

Figure 2.3 Example of data buffer operation during write

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Fujitsu MAS3367, MAP3367, MAP3147, MAS3735, MAP3735 specifications Example of data buffer operation during write

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.

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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.