IBM AS/400 manual WAN line speed considerations for IOPs

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vFor interactive environments, keep line use below 30% to maintain predictable and consistent response times. Exceeding 50% line use usually slows down response time. The line use can be measured with the AS/400 performance tools.

vFor large transfer environments, or for environments in which only a small number of users are sharing a line, increase line use to allow for acceptable response times.

vThe CPU usage for fractional T1 support and other high-speed WAN connections is similar to any other line that runs the same type of work. As the speed of a line increases from a traditional low speed to a high-speed or full T1/E1/J1 speed, performance characteristics may change as follows:

With interactive transactions, performance may be slightly faster.

With a large transfer, performance may be significantly faster.

With a single job, performance may be too serialized to use the entire bandwidth.

With high throughput, performance is more sensitive to frame size.

With high throughput, performance is more sensitive to application efficiency.

With synchronous data link control (SDLC), the communications controller CPU usage increases because of polling.

Additional considerations for adjusting the wide area network line speed are the following:

vA common misconception about the line speed of each attached communications line is that central processing unit (CPU) resource is used in a uniform fashion. Exact statements cannot be made about the number of lines that any given AS/400 model can support.

vMost communications applications use a lot of CPU resource (to process data, to support disk input and output) and communications line resource (to send and receive data or display I/O). The amount of line resource that is used is proportional to the total number of bytes that are sent or received on the line.

Some additional CPU resource is used to process the communications software to support the individual sends (puts or writes) and receives (gets or reads). Communications input/output processor resource is also used to support the line activity.

vWhen a single job is running disk operations or doing non-overlapped CPU processing, the communications link is idle. If several sessions transfer concurrently, then the jobs are more interleaved and make better use of the communications link.

vPolling is an important consideration for synchronous data link control (SDLC) environments. All SDLC polling is handled by the communications controller and is governed by parameters in both the line and controller descriptions.

vFor information about AS/400 configuration, see the Communications Configuration book.

vFor more information about performance tools, see the Performance Tools for AS/400 book.

WAN line speed considerations for IOPs

When configuring a communications controller, you should consider both subsystem storage and aggregate line speed. Subsystem storage is the amount of storage available on the communications controller. Aggregate line speed is the sum of individual lines speeds that are attached to the communications controller.

The following information can help you understand network line speed considerations for input/output processors (IOPs).

vFor interactive environments, you should not exceed 60% use on the communications IOP. Exceeding this threshold in a large transfer environment or with a small number of concurrent users may still offer acceptable performance. Use the AS/400 performance tools to get the utilization.

vYou can attach multiple IOPs to an AS/400 system. The maximum number of IOPs that can be attached is determined by the AS/400 model. It is important to distribute the work load across several IOPs if the performance capabilities of a single IOP is exceeded.

vEven though an IOP can support certain configurations, a given AS/400 model may not have enough system resource (for example, CPU processing capacity) to support the work load over the lines.

vThe use of larger frames generally improves large transfer performance in terms of capacity for the communications IOP and in terms of system response time. The amount of time that the IOP spends

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Contents ERserver Page ERserver Page Contents Troubleshooting communications problems Part 1. Getting started with AS/400 communications Version Print this topic Version Creating a network server description Configuring AS/400 for communicationsCreating a network interface description Creating a line descriptionVersion Optimizing communications performance Adjusting WAN protocols for optimum AS/400 performanceAdjusting the WAN line speed for optimum AS/400 performance Improving wide area network performanceWAN line speed considerations for IOPs Improving local area network performance Adjusting LANs for optimum communications performanceAdjusting LAN lines for optimum communications performance LAN line speed considerations for IOPs Improving data path performanceAddcmne SBSDlibname/sbsname DEVdevname* MODEmodename Example Communications subsystem configuration Set up the communication entriesMixing interactive and batch jobs on a WAN line Example Interactive subsystem configurationCommunications performance considerations for batch jobs AnyNet communications for the AS/400 system Setting up the AnyNet environmentPerformance considerations for AnyNet communications Subsystems QusrwrkVersion Distributed data management DDM Communications applicationsUser written Appc applications Version Communications applications Version Communicating with host systems Matching AS/400 parameters for a host systemSSAP/DSAP/remote-adapter-address Name Rmtnetid Vtamlst Netid Maxframe Group MaxdataRmtcpname Vtamlst Sscpname Ssap SapaddrLocadr Locaddr Mode Modeent LogmodeLcllocname Dfhtct Netname Locpwd Dfhtct BindpwdModd Modeent Logmode Examples Connecting AS/400 to a host systemAS/400 Host Definition AS/400 Prompt Cosd Modeent COSCommunicating with host systems Version Communicating with host systems Version Configuring the device descriptions Configuring dependent LU requester DlurConfiguring the host controller description Version Adptadr Communicating with a remote AS/400 systemAS/400 Remote AS/400 AS/400 Prompt AdrinsertAS/400 Remote AS/400 AS/400 Prompt Parameter Cnnpwd X25DCECnnnbr Netadr Dsap SsapRmtcpname Lclcpname InlcnnLinkpcl Rmtnetid LclnetidConnecting one AS/400 to another AS/400 system Version Communicating with a remote AS/400 system Version Communicating with remote workstation controllers Matching AS/400 parameters for 5494 controllersRmtcpname AS/400 5494 Prompt AS/400 Parameter Field Subfield ValueLAN RmtnetidAS/400 5494 Prompt AS/400 Parameter Field Subfield Linktype LANMatching AS/400 parameters for a 5494 connected by Ethernet AS/400 5494 Prompt Parameter Field Subfield Value Version LAN Adptadr Matching AS/400 parameters for a 5494 connected by Sdlc AS/400 Prompt Parameter Field Subfield AS/400 ValueField Subfield AS/400 Value Communicating with remote workstation controllers Matching AS/400 parameters for a 5494 connected by Example Connecting AS/400 to a 5494 controller connected by LinktypeIBM 5494 Remote Control Unit Planning Guide, GA27-3936 Ellc DftpktsizeLinkpcl Qllc NetlvlAS/400 5494 Prompt Field Subfield ValueCommunicating with remote workstation controllers Matching AS/400 parameters for a 3174 controller 3174 AS/400 Configuration PromptMatching AS/400 parameters for 3x74 controller Questions3174 AS/400 Configuration Prompt Parameter Questions NRZ or Nrzi Encoding Switched Short-Hold ModeMatching AS/400 parameters for a 3274 controller Control Unit AddressPrompt Parameter Number Example Connecting an AS/400 to a 3174 control unit3274 AS/400 Matching AS/400 parameters for finance controllers Matching AS/400 parameters for 470x finance controllersAS/400 AS/400 Prompt Parameter Macro Macro Parameter Matching AS/400 parameters for Fbss finance controllersAS/400 AS/400 Prompt Line mode Switched lineService access point for PC PC addressMatches the Fbss Identification number Service access point for Host/37xx/4700Identification block and Identification number Data Link ControlExample Connecting AS/400 to a finance network Matching AS/400 parameters for retail controllersMatching AS/400 parameters for 3651 retail controllers AS/400 Definition AS/400 Prompt Parameter StatementAS/400 Definition AS/400 Prompt AS/400 Parameter Sdlclin Bit Bit ValueMatching AS/400 parameters for 3684 retail controllers 3684 AS/400 Definition Prompt3684 AS/400 Definition Prompt Parameter CNN*MP SNBU*NO Matching AS/400 parameters for 4680/4690 Line parameterAS/400 Parameter Linecon Bit Bit Value SNBU*YES MODEMRATE*FULLAS/400 Prompt AS/400 Parameter Line Parameter Exchid parameter specified on the AS/400 Crtctlrtl commandMatching AS/400 parameters for 4680/4690 Link parameter CNNLocal node Hex Wire constant RTS?Matching AS/400 parameters for 4684 retail controllers Remote node HexExamples Connecting AS/400 to a 4690 retail controller Version Communicating with remote workstation controllers Version Troubleshooting communications problems Displaying message queues to solve communication problemsJob logs and communication problems QsysarbSolving communication problems using communications trace QpasvrpSystem service tools and communication problems Trace option settingSolving communication problems using the system problem log Trace fullUsing error messages to aid in error recovery Solving communication problems using status informationConsiderations for system tuning during error recovery Solving communication problems using reason codesReason Codes for Rejected Program Start Requests Reason Code Reason DescriptionReason Code Reason Description Networking concepts Advanced Peer-to-Peer NetworkingAdvanced program-to-program communications Dependent LU requester supportInternetwork packet exchange support High-performance routingHPR architecture option sets What is Systems Network Architecture What is TCP/IPATM on AS/400 Common networking standardsLocal area network standards Distributed data interface networkWireless network Token-ring networksBinary synchronous communications Wide area network standardsAsynchronous communications Frame relay networksIsdn data link control network Integrated services digital networkSynchronous data link control network Network Version
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AS/400 specifications

The IBM AS/400, now known as the IBM iSeries, is a midrange computer system that has been a cornerstone of enterprise computing since its introduction in 1988. Designed to provide a robust platform for business applications, the AS/400 is celebrated for its reliability, scalability, and integrated database capabilities.

One of the key features of the AS/400 is its Integrated Operating Environment, which blends hardware and software resources seamlessly. This integration allows businesses to execute diverse workloads, ranging from traditional applications to modern web-based services, all on a single platform. The operating system, OS/400 (now IBM i), offers a rich set of APIs and tools for developers, simplifying application development and management.

Another standout characteristic of the AS/400 is its built-in database, DB2 for i. This powerful relational database management system allows for efficient data handling and provides advanced features such as support for SQL, XML, and JSON, making it easier for businesses to manage their data and integrate it with other systems. The database's tight integration with the operating system enables high performance and security.

In terms of scalability, the AS/400 can accommodate small businesses as well as large enterprises, with the ability to support hundreds of users simultaneously. Its architecture allows for easy upgrades in hardware, meaning that organizations can scale their systems without replacing the entire infrastructure.

Security is another critical attribute of the AS/400. With a sophisticated security model, it offers built-in user authentication, access control, encryption, and auditing capabilities to protect data and applications from unauthorized access.

The AS/400 also supports multiple programming languages, including RPG, COBOL, Java, and PHP, giving organizations the flexibility to choose the development tools that best fit their needs. This diversity helps maintain legacy applications while also developing new ones that leverage modern technologies.

Moreover, the platform supports both traditional green-screen interfaces and modern graphical user interfaces, allowing organizations to transition smoothly into contemporary user experience paradigms.

Overall, the IBM AS/400 stands out as a resilient, flexible, and secure computing platform that enables organizations to effectively manage their business operations, streamline processes, and adapt to changing market demands. Its unique combination of integrated features and capabilities ensures that it remains relevant in today's fast-paced technology landscape.
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