Stacking definition

Stacking. (or “Stackable”) means the application of more than one of the same Subscription to account for additional capacity.
Stacking. (or “Stackable”) means the application of more than one of the same Subscription to account for additional capacity. Table 1 Software Subscription Support Level Unit of Measure Capacity Stackable Socket(s) or SOCs Virtual Nodes Red Hat Enterprise Linux Server (Physical or Virtual Nodes) Red Hat Enterprise Linux for SAP HANA (see Note 1 below) Standard or Premium Physical Node or Virtual Node Socket-pair for each Physical Node or 2 Virtual Nodes Physical Node: Yes Virtual Node: Yes Red Hat Enterprise Linux for Virtual Datacenters (see Note 2 below) Standard or Premium Physical Node Socket-pair Unlimited Virtual Nodes running on a Socket-pair Physical Node: Yes Virtual Node: Yes Red Hat Enterprise Linux for Power Standard or Premium Power IFL Up to 4 processor cores N/A Power IFL: Yes Red Hat Enterprise Linux for System z Standard or Premium System z IFL N/A N/A System z IFL: Yes Red Hat Enterprise Linux for Hyperscale Standard Physical Node Band of SOCs None Physical Node: No Virtual Node: No Red Hat Enterprise Linux Server Entry Level (see Note 1 below) Self-support Physical Node Socket-pair None Physical Node: No Virtual Node: Yes Red Hat OpenStack Platform Red Hat Enterprise Linux with Smart Virtualization Standard or Premium Physical Node Socket-pair Unlimited Virtual Nodes running on a Socket-pair Physical Node: Yes Virtual Node: Yes Red Hat Enterprise Linux Server Standard or Premium System 1-2 Sockets, 4 Sockets, or 8 Sockets 1 Virtual Guest, 4 Virtual Guests, or Unlimited Virtual Guests Sockets: No Virtual Guest: Yes Red Hat Enterprise Linux Server Self-support System 1-2 Sockets 1 Virtual Guest Sockets: No Virtual Guest: No Red Hat Enterprise Linux for PRIMEQUEST (see Note 1 below) Premium Physical Node 1-2 Sockets, 9 Logical Partitions 4 Sockets, 10 Logical Partitions 6 Sockets, 11 Logical Partitions or 8 Sockets, 12 Logical Partitions Sockets: No Virtual Guest: Yes Red Hat Enterprise Linux for PRIMEQUEST Premium System 1-2 Sockets, 4 Sockets, 6 Sockets or 8 Sockets 1 Virtual Guest, 4 Virtual Guests or Unlimited Virtual Guests Sockets: No Virtual Guest: Yes
Stacking. (or “Stacked” or “Stackable”) means the use of more than one Subscription to account for the capacity of a System or Physical Node.

Examples of Stacking in a sentence

  • Stacking of furniture not specifically designed to be stacked is prohibited.

  • Stacking of cement in bags over a height of ten bags will not be permitted.

  • Stacking is not to exceed 1200 mm high without battens and a maximum of 3000 mm with battens every 500 mm.

  • Stacking snow may also be necessary depending upon snowfall accumulation and time limitations.

  • Stacking of timber at any secondary loading point must be sufficiently clear of the public road to allow standard articulated vehicles to re-load off the public road and maintain adequate sightlines past the works.


More Definitions of Stacking

Stacking. (or “Stackable”) means the application of more than one of the same Subscription to account for additional capacity. Table 1 Software Subscription Support Level Unit of Measure Capacity Stackable Socket(s) Virtual Nodes OpenShift Enterprise Standard or Premium Virtual Guest 2 Cores One Virtual Guest Cores: Yes Virtual Guest: Yes OpenShift Enterprise Standard or Premium Physical Node Socket-pair Unlimited Virtual Guests Physical Node: Yes Virtual Guest: N/A For purposes of this Exhibit 1.K, a “Socket-pair” is up to two sockets each occupied by a CPU on a Physical Node.
Stacking. (or “Stackable”) means the application of more than one of the same Software Subscription to account for additional Capacity. Each Ceph Storage Software Subscription comes with a fixed number of Software Subscriptions to (a) Red Hat Enterprise Linux and (b) Red Hat Ceph Storage for up to a certain number of Physical Nodes or Virtual Nodes. Should the number of Physical or Virtual Nodes be consumed before the Storage Band capacity is reached, you may upgrade to the next Storage Band to receive additional Physical or Virtual Nodes.
Stacking. (or “Stackable”) means the application of more than one of the same Software Subscription to account for additional Capacity. If you use the software contained in the Red Hat Ceph Storage for any purpose other than the use of Red Hat Ceph Storage Subscription, you agree to purchase the applicable number of Units of the relevant Software Subscriptions for such use. Each Ceph Storage Software Subscription comes with a fixed number of Software Subscriptions to (a) Red Hat Enterprise Linux and (b) Red Hat Ceph Storage for up to a certain number of Physical Nodes or Virtual Nodes. Should the number of Physical or Virtual Nodes be consumed before the Storage Band capacity is reached, you may upgrade to the next Storage Band to receive additional Physical or Virtual Nodes.
Stacking means executing more than one bond to avoid exceeding a bail bondsman's current Qualifying Power of Attorney.
Stacking. (or “Stackable”) means the application of more than one of the same Software Subscription to account for additional capacity. Table 1.4 Software Subscription Support Level Unit of Measure Capacity Stackable JBoss Fuse for xPaaS Standard or Premium Virtual Guest 2 Cores Cores: Yes JBoss Fuse for xPaaS Standard or Premium Physical Node Socket-pair Physical Node: Yes JBoss A-MQ for xPaaS Standard or Premium Virtual Guest 2 Cores Cores: Yes JBoss A-MQ for xPaaS Standard or Premium Physical Node Socket-pair Physical Node: Yes JBoss EAP for xPaaS Standard or Premium Virtual Guest 2 Cores Cores: Yes JBoss EAP for xPaaS Standard or Premium Physical Node Socket-pair Physical Node: Yes A “Socket-pair” is up to two sockets each occupied by a CPU on the Physical Node. A “Core” is (a) a physical processing core located in a CPU or (b) a virtual processing core within a virtual machine, in each case, that contains or executes the Software running for Production Purposes or Development Purposes.
Stacking. (or “Stackable”) means the application of more than one of the same Subscription to account for additional capacity. For purposes of this Exhibit 1.H, a “Socket-pair” is up to two sockets each occupied by a CPU on a Physical Node. For Virtual Nodes being managed by CloudForms in a CloudForms enabled public cloud, you need to purchase Units equal to either (at your option), (a) the actual number of Units or (b) the average daily maximum Virtual Nodes managed by CloudForms in the previous 365 days. If 365 days of usage history is not available, you may use the average usage history period that is available. You must confirm that a specific public cloud is a Red Hat CloudForms enabled cloud prior to purchasing. Table 3.1 Software Subscription Support Level Unit of Measure Capacity Stackable Socket(s) Managed Nodes Red Hat CloudForms Standard or Premium Managed Node (Physical Node or Virtual Node) Socket-pair for each Physical Node or Sixteen (16) Virtual Nodes Physical Node: Yes Virtual Node: Yes
Stacking. (or “Stackable”) means the application of more than one of the same Subscription to account for additional capacity. Red Hat OpenShift Container Platform for RHEL and Container Platform for RHEL are layered products and require a separate paid and active Software Subscription Red Hat Enterprise Linux for Virtual Datacenters with matching Support Levels for each Unit that deploys, installs, uses or executes such layered products. Table 1 Software Subscription Support Level Unit of Measure Capacity Stackable Socket(s) Virtual Nodes Red Hat OpenShift Container Platform Standard or Premium Virtual Guest 2 Cores One Virtual Guest Cores: Yes Virtual Guest: Yes Red Hat OpenShift Container Platform Standard or Premium Physical Node Socket-pair Unlimited Virtual Guests Physical Node: Yes Virtual Guest: N/A Red Hat OpenShift Container Platform for RHEL Standard or Premium Physical Node Socket-pair Unlimited Virtual Guests Physical Node: Yes Virtual Guest: N/A Container Platform for RHEL Standard or Premium Physical Node Socket-pair Unlimited Virtual Guests Physical Node: Yes Virtual Guest: N/A For purposes of this Exhibit 1.J, a “Socket-pair” is up to two sockets each occupied by a CPU on a Physical Node.