ADIC 1.3 manual Hp-Ux

Page 13

HP-UX

38359

n/a

FC cable pull does not initiate

Use the SecurePath Fibre

 

 

 

failover.

Channel driver.

 

 

 

 

 

 

38892

n/a

Cache coherency between nodes

As of the StorNext 2.5

 

 

 

with applications that use mmap

release date, HP-UX 11iv2

 

 

 

can potentially see data corruption.

applications using mmap(2)

 

 

 

 

may lose some data under

 

 

 

 

some circumstances. If a

 

 

 

 

file is mmaped for

 

 

 

 

PROT_WRITE and another

 

 

 

 

thread or process uses

 

 

 

 

mmap(2) and then

 

 

 

 

munmap(2) on the file or

 

 

 

 

performs non-mmap I/O, for

 

 

 

 

example, read(2)/write(2),

 

 

 

 

on the same file, some of

 

 

 

 

the mmap writer's data may

 

 

 

 

be lost. With StorNext, this

 

 

 

 

lost data may also occur if

 

 

 

 

the file is modified on

 

 

 

 

another node. For more

 

 

 

 

information, contact HP -

 

 

 

 

problem # (JAGaf50701).

 

 

 

 

 

 

39987

n/a

Spinlock: locker forgot to unlock.

Disable the StorNext

 

 

 

 

Quotas feature in the file

 

 

 

 

system configuration file,

 

 

 

 

see cvfs_config(4).

 

 

 

 

 

Linux

33536

298100

StorNext Linux clients acting as

n/a

 

 

 

Network File System (NFS) servers

 

 

 

 

do not provide proper cluster

 

 

 

 

filelocks to NFS clients.

 

 

 

 

 

 

Solaris

17263

n/a

Recursive chmod command fails at

Solaris chmod, chown, and

 

 

 

a certain depth on Solaris 9

chgrp depend on “.” and “.”

 

 

 

machines.

being the first two entries

 

 

 

 

returned by the readdir

 

 

 

 

command. Compile the

 

 

 

 

GNU not UNIX (GNU)

 

 

 

 

versions of the fileutils

 

 

 

 

package; GNU chmod,

 

 

 

 

chown, and chgrp do not

 

 

 

 

depend on directory entry

 

 

 

 

ordering.

 

 

 

 

 

 

35223

n/a

LUNs have a maximum limit of

To maximize support

 

 

 

850 GB.

across all platforms, set

 

 

 

 

LUNs to be no greater than

 

 

 

 

850 GB when you are using

 

 

 

 

Solaris 9 without the Big

 

 

 

 

LUN patch.

 

 

 

 

 

April 2006, ADIC

13

Image 13
Contents Release Notes ContentsSpecial Configuration Requirements New FeaturesPurpose of this Release Snfx 1.3 Requirements Operating System Level RequirementsOperating System Operating System Levels Platform System Requirements Certified System ComponentsSAN Windows Memory RequirementsSettings and Parameters Using Ldap Configuring LdapLdap Refresh Timeout Changes to Unix File & Directory ModesResolved Issues Irix Operating Description System Number Operating Description System Number Operating Description Workaround System Number Known IssuesHP-UX GetHostByName failure Readonly Directories GUIFsnameservers tab Etc/hosts file Fsnameservers file toERR NSS Establish Coordinator failed GetHostByName Cvlabel -ls command Use the snfsdefrag Cvfsck -t fsnameStornext/snfs1 Xxx, typeOperating System Description Component Affected LimitationsImmediately when deleted check box Click Configure drives independentlyType d -fstype cvfs -prune -o Find $dir -type d -fstype cvfs -prune -o -type fMaxMBPerClientReserve InodeExpandMax * #-of-data-stripe GroupsDocument Number Document Title DocumentationApril 2006, Adic
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Manual 2 pages 46.7 Kb

1.3 specifications

ADIC 1.3, short for Advanced Digital Interface Controller, is a powerful and innovative technology designed to streamline and enhance digital communications across a range of platforms and devices. The third iteration of this interface controller introduces numerous features and improvements that make it a key player in the evolving landscape of digital connectivity.

One of the standout features of ADIC 1.3 is its enhanced bandwidth capabilities. With support for high-speed data transfer rates, this version allows for efficient and rapid communication between devices, minimizing latency and maximizing throughput. This is particularly beneficial in applications that require real-time data processing, such as telecommunications, video streaming, and online gaming.

In addition to improved bandwidth, ADIC 1.3 incorporates advanced error-correction technologies. These algorithms are designed to identify and rectify data transmission errors, ensuring the integrity and reliability of the digital communication. This makes the technology well-suited for environments where data loss can have significant repercussions, such as in financial transactions or mission-critical operations.

Another hallmark of ADIC 1.3 is its compatibility with a wide range of protocols. By supporting various communication standards, this interface controller can easily integrate into existing systems and applications. This flexibility is particularly useful for businesses and organizations looking to upgrade their infrastructure without overhauling their entire network.

ADIC 1.3 also boasts robust security features to safeguard transmitted data. With the ever-increasing threat landscape of cyberattacks, the implementation of encryption protocols and secure access measures is essential. This ensures that sensitive information remains protected during transmission, instilling confidence in users and organizations alike.

The user-friendly nature of ADIC 1.3 further sets it apart from its predecessors. Its intuitive configuration options and management tools make it simple for network administrators to deploy and maintain. Coupled with comprehensive documentation and support resources, the technology is accessible to both seasoned professionals and those new to digital interface management.

Power efficiency is another critical aspect of ADIC 1.3. By optimizing resource consumption, the technology contributes to lower operational costs and minimizes environmental impact. This focus on sustainability resonates with many organizations seeking to implement greener practices in their operations.

In conclusion, ADIC 1.3 represents a significant advancement in digital interface technology. With its high-speed capabilities, error-correction features, protocol versatility, robust security measures, user-friendly design, and focus on energy efficiency, it is poised to play a vital role in the future of digital communication, catering to a wide array of industries and applications.