positioning error rate

2-5

power on/off sequence

4-8, 4-9

power supply connector

4-14

power supply requirement

4-8

precaution

6-5

preventive maintenance

6-6

programmable data block length

1-4

programmable multi-segment data buffer

.......1-3

R

 

 

random/sequential read test

6-5

read/write circuit

1-7

read/write error recovery parameter

5-20

recommended component for connection

.....4-20

reliability

2-5

reporting result of self-diagnostic and error

indication

6-3

reserve and release function

1-4

revision label

6-9

revision number

6-9

S

 

 

SCA2 type LVD 16-bit SCSI

B-2

SCA2 type SCSI connector

4-12

SCSI bus configuration

1-9

SCSI bus connection

5-4

SCSI cable connection

4-19

SCSI connector

B-2, B-3

SCSI connector signal allocation

B-2, B-3

SCSI function specification

2-7

SCSI ID setting

5-6, 5-7

SCSI interface error

7-4

SCSI standard

1-2

sector format

3-6

seek test

6-2

self-diagnostic

6-1

self-diagnostic function

6-1

SEND DIAGNOSTIC command

6-3

sense data

7-1, 7-4

sense data analysis

7-3

sense key, additional sense code,

 

 

and additional sense code qualifier

7-1

service clearance area

4-7

service life

6-6

service system and repair

6-7

setting bus width of SCSI interface

5-9

setting check list (NP model only)

5-11

setting of SCSI interface operation mode

5-9

setting parameter

5-19

setting SCSI terminator power supply

5-8

setting terminal

5-5, A-1

setting terminal (on NP model only)

A-2

setting terminal location

5-5

setting terminator power supply

5-8

spare area in cell

3-4

spare disk drive

5-23

specification

2-1

spindle motor

1-7

standard feature

1-2

START/STOP command

5-13

start/stop of spindle motor

1-5

storage

5-2

surface temperature check point

4-6

surface temperature measurement point

4-6

system configuration

1-8

system space

3-3

system-level field troubleshooting

6-14

T

 

test

6-10

test flowchart

6-11

test program

6-4

tool and test equipment

6-10

track format

3-5

track skew and head skew

3-5

troubleshooting at repair site

6-15

troubleshooting procedure

6-13

troubleshooting with disk drive replacement in

field

6-13

troubleshooting with part replacement in

 

factory

6-16

U

 

unpackaging

5-2

unrecoverable error rate

2-5

user space

3-3

V

 

verify error recovery parameter

5-20

write protect

5-9

W

 

write protect setting

5-9

write/read test

6-2, 6-5

C141-E205

IN-3

Page 125
Image 125
Fujitsu MAU3036NC/NP, MAU3073NC/NP, MAU3147NC/NP manual Programmable multi-segment data buffer

MAU3036NC/NP, MAU3147NC/NP, MAU3073NC/NP specifications

The Fujitsu MAU3036NC/NP, MAU3147NC/NP, and MAU3073NC/NP are advanced models designed to offer high performance and reliability in various computing environments. These models are particularly notable for their optimized efficiency and robust feature set, making them suitable for a range of applications from enterprise servers to high-performance computing.

One of the standout features of the MAU series is its reliance on cutting-edge technology that maximizes data handling capabilities. The MAU3036NC/NP boasts a formidable capacity for high-speed data processing, making it ideal for tasks requiring quick data retrieval and storage. With an optimized caching mechanism, this model enhances data throughput and reduces latency, contributing to an overall faster response time in demanding applications.

The MAU3147NC/NP introduces further advancements with its enhanced thermal management system. This ensures that the unit operates at optimal temperatures, reducing the risk of overheating and prolonging the lifespan of the hardware. Additionally, this model implements advanced error-correcting code (ECC) memory, which significantly improves reliability by detecting and correcting internal data corruption, a crucial feature in mission-critical environments.

Meanwhile, the MAU3073NC/NP excels in terms of scalability. Its architecture allows for easy upgrades and expansions, accommodating growing data needs without significant downtime. This flexibility is essential for businesses looking to future-proof their operations and adapt to changing demands seamlessly.

All three models incorporate Fujitsu's innovative energy-efficient technologies, which not only reduce power consumption but also align with global sustainability goals. The intelligent power management systems make these units not only cost-effective but also environmentally friendly, demonstrating Fujitsu's commitment to responsible manufacturing.

Furthermore, robust connectivity options, including multiple interface support, make these models easily integrable into existing IT infrastructures. They are compatible with a variety of operating systems and software, ensuring that users can leverage their full potential regardless of their specific setup.

In summary, the Fujitsu MAU3036NC/NP, MAU3147NC/NP, and MAU3073NC/NP series exemplify the blend of performance, reliability, and efficiency. With features tailored to meet the evolving needs of modern businesses, these models stand out in the competitive landscape of computing solutions, ensuring that users can address both current and future challenges in data management and processing.