Dynamic Capacity Intelligence Modernization Guide

Dynamic Capacity Intelligence monitors and automatically balances CPU capacity across LPARs in a z/OS environment. It helps organizations minimize VWLC and AWLC software costs while maintaining service level agreements.

This is a system designed to actively manage and optimize CPU resource allocation. It provides continuous monitoring and automated adjustments to ensure efficient utilization of mainframe resources.

Organizations that rely heavily on IBM z/OS mainframes and want to optimize their software licensing costs are ideal candidates. This includes enterprises in industries like banking, finance, insurance, and government.

Consider using Dynamic Capacity Intelligence when your organization experiences fluctuating workloads on its mainframe, leading to potentially high VWLC or AWLC charges. It is also beneficial when you want to automate CPU capacity balancing and reduce manual intervention.

Alternatives include BMC AMI Ops Automation for Capping and other manual or automated capacity management solutions. However, Dynamic Capacity Intelligence provides automated balancing to minimize licensing costs.

Dynamic Capacity Intelligence runs on the z/OS platform and operates within LPARs. It is dependent on the z/OS operating system and leverages SMF data for monitoring and analysis.

The product requires access to SMF data and the ability to dynamically adjust CPU capacity allocations to LPARs. It typically integrates with existing systems management tools and security systems.

The core components include a monitoring agent that collects performance data, an analysis engine that determines optimal capacity allocations, and an automation component that dynamically adjusts CPU resources.

The product likely uses configuration files to define thresholds, policies, and LPAR groups. It may also provide a web-based interface or a TSO/ISPF interface for configuration and monitoring.

Dynamic Capacity Intelligence helps reduce software licensing costs, specifically VWLC and AWLC charges, by dynamically optimizing CPU capacity allocation. This ensures that you only pay for the resources you actually need.

By automating CPU capacity balancing, Dynamic Capacity Intelligence reduces the need for manual intervention and frees up IT staff to focus on other tasks. It also helps maintain service levels by ensuring that LPARs have the resources they need.

The licensing model is likely subscription-based, with costs depending on the number of LPARs or the total CPU capacity managed. Additional costs may include implementation services, training, and ongoing support.

Authentication methods likely include integration with z/OS security systems such as RACF, ACF2, or Top Secret. Access control is typically role-based, with different roles having different levels of access to the product's features.

The product should provide audit logging capabilities to track user activity and system events. This helps organizations meet compliance requirements and identify potential security breaches.

Data transmitted between components may be encrypted using standard encryption protocols. Sensitive data stored within the product, such as passwords and configuration information, should also be encrypted.

Deployment typically involves installing the product on a z/OS system and configuring it to monitor and manage the desired LPARs. Implementation requires expertise in z/OS systems management and capacity planning.

Ongoing operational requirements include monitoring the product's performance, maintaining its configuration, and ensuring that it is properly integrated with other systems. Regular reviews of capacity planning policies are also recommended.

Common implementation challenges include properly configuring the product to accurately reflect the organization's capacity planning policies, ensuring that it does not negatively impact system performance, and integrating it with existing security and monitoring systems.