Sun Microsystems 819-1207-11 Bipolar with 8-Zero Substitution, Hdlc Zero Insertion Algorithm

Page 56

inaudible—amount of distortion in the voice signal. Digital data streams between two computers are another matter, since the corruption of even one data bit causes a packet to be rejected. Note that in a typical data packet it is quite easy to produce bit patterns that violate the ones-density requirement. A random file could easily contain a sequence of bytes that would produce 16 or more consecutive zero bits if transmitted serially.

There are many different schemes for circumventing the ones-density requirement. The most common technique simply reserves every eighth bit of the signal for a “density bit” and forces this bit to be a one. Obviously, these bits are not available for data transmission, which means that 12.5 percent of the bandwidth of the T1 line is wasted. When you consider that the lease cost for a coast-to-coast T1 line can be exceedingly expensive, this waste of bandwidth can be unacceptable. There are alternatives.

Bipolar with 8-Zero Substitution

One of them uses a special code that transmission equipment can generate when using the AMI signalling scheme. This special code depends on the fact that two successive one bits that are represented by pulses of the same polarity result in a signal known as a “Bipolar Violation.” A CSU can be designed so that it will automatically replace any string of eight consecutive zeros with a special code pattern that contains two of Bipolar Violations. A compatible, receiving CSU recognizes this special code and converts it back to a pattern of eight zeros. This technique is known by the acronym B8ZS, which stands for Bipolar with 8-Zero Substitution.

All CEPT lines (the European equivalent of T1) mandate the use of a variant of B8ZS that holds the density requirement down to no more than three consecutive zeros. However, telephone companies in North America have been slow to adopt B8ZS, because it would entail a significant capital investment. Therefore, the B8ZS solution will not solve the ones-density problem in the short term.

HDLC Zero Insertion Algorithm

An alternative to B8ZS—an alternative used by the SunHSI/P product—makes use of the fact that the HDLC framing rules specify that any data stream that contains five or more consecutive one bits requires that the transmitting end insert a zero bit after the fifth one bit. This guarantees that the HDLC flag pattern 01111110 (hex 7E) does not occur randomly inside a frame. The receiving end must automatically discard the zero bit that follows a pattern of five consecutive ones. So, HDLC framing, which is used by SunHSI/P, guarantees that, except for the flag pattern, in any set of six bits, at least one bit will be a zero. If you include the flag pattern, you can say that in any set of seven bits, at least one bit will be a zero.

36 Sun PCI High Speed Quad Port Serial Interface Adapter User’s Guide • May 2010

Image 56
Contents Sun PCI High Speed Quad Port Serial Interface Adapter Please Recycle Contents Cable Pin Assignments & Signals SunVTS Diagnostic Testing Page Figures Page Tables Table D-1Page Regulatory Compliance Statements FCC Class a NoticeICES-003 Class a Notice Avis NMB-003, Classe a Bsmi Class a Notice Page Declaration of Conformity Page Preface How This Book Is OrganizedTypographic Conventions Related DocumentationDocumentation, Support, and Training Document FeedbackPage Product Overview Product DescriptionFeatures 1SunHSI/U AdapterHardware and Software Requirements 1Hardware and Software RequirementsPage To Install the Adapter SunHSI/U Adapter InstallationInstallation Process External Cabling RS-232 to RS-449 Connections Page SunHSI PCI Software Installation Installation OverviewHsip To Remove Older Versions of the Software Before Installing the SoftwareVerifying the Software and Hardware Requirements Installing the Software To Install the SunHSI SoftwareAt the ok prompt, type the boot command with the -roption Configuring the Software To Test the InstallationTo Configure for Point-to-Point Protocol Edit the /etc/netmasks file as follows SunHSI Utilities Hsipinit UtilityT1 Compatibility Options Operating Modes OptionsHdlc Mode Hsiploop Utility Hsipstat Utility Page Cable Pin Assignments & Signals Pin AssignmentsDCD1A Appendix a Cable Pin Assignments & Signals RTS4A Interface Signals RS-449 Interface SignalsPage Null Modem Cable Requirements Configuring Internal or External Clocking Building the Null Modem CableRS-449 Signals RS-449 Null Modem CableFigure B-1Null modem Cable Both Suns Supply Clocking Appendix B Null Modem Cable Requirements To RS-449 Converter Figure B-3X.21 to RS-449 ConverterT1 Inverted Data and Clock Signals Data Signal InversionBipolar with 8-Zero Substitution Hdlc Zero Insertion AlgorithmClock Signal Inversion Page SunVTS Diagnostic Testing Using the SunVTS sunlinkTestPage To View Man Pages in the C Shell Environment Viewing the Man PagesMan Pages To View Man Pages in Bourne or Korn Shell Environments Glossary

819-1207-11 specifications

Sun Microsystems 819-1207-11 is a prominent model that showcases the company's legacy in server and workstation innovation. As part of Sun Microsystems’ commitment to providing powerful computing solutions, this model highlights key features and technologies designed for demanding enterprise environments.

One of the primary characteristics of the 819-1207-11 is its robust performance capabilities. Equipped with a high-speed processor architecture, this model supports multi-threading and multi-processing, allowing it to efficiently handle simultaneous tasks. This is particularly essential for businesses that rely on running numerous applications at once, ensuring high availability and responsiveness.

The 819-1207-11 is designed with extensive memory support, featuring scalability that can accommodate increased workloads as businesses grow. The architecture allows for ample RAM, which enhances the performance of memory-intensive applications, such as databases and enterprise resource planning (ERP) systems. This characteristic makes the system an appealing choice for organizations with evolving computing needs.

In terms of connectivity, the model is equipped with a variety of ports and interfaces that facilitate seamless integration into existing infrastructure. The incorporation of high-speed Ethernet support ensures fast data transfers and efficient network communication, which is vital for large data centers and cloud environments.

The storage capabilities of the 819-1207-11 also stand out. With support for advanced storage technologies such as RAID configurations, the system enhances data redundancy and performance. This is crucial for enterprise users who prioritize data integrity and availability.

Security features are also a hallmark of the 819-1207-11, with built-in mechanisms to safeguard sensitive information. Encryption technologies ensure that data at rest and during transmission is protected against unauthorized access, aligning with compliance requirements that many organizations must adhere to.

Furthermore, the system is designed with a focus on manageability. Integrated systems management tools allow IT departments to monitor performance, troubleshoot issues, and optimize resource allocation with ease. This simplifies operations, ultimately enhancing uptime and productivity.

Overall, the Sun Microsystems 819-1207-11 represents a blend of performance, scalability, and security, making it a compelling choice for businesses that require reliable computing solutions to drive their operations forward. Its technological advancements underscore the company's pivotal role in the evolution of enterprise computing.