Cloud Computing Presentation , Computer Science
- 1. Cloud Computing Submitted by P. DEEPA II MSC CS Nadar saraswathi college of arts and science
- 2. Resource Pooling Architecture: This architecture is based on use of the use of one or more resource from a pool of resources in which identical synchronized resources are grouped and maintained by a system. Examples of resource pools: Physical Server Pools Virtual Server Pools Cloud Storage Device Pools Network Pools CPU Pools
- 3. Physical Server Pools: Physical Server Pools are group of physical servers networked to have installed operating systems and other necessary programs and applications and are ready for immediate use.
- 4. Virtual Server Pools: Virtual Server Pools are group of virtual servers networked to have installed operating systems and other necessary programs and applications and are ready for immediate use. They are usually configured using one of several available templates chosen by the cloud consumer during provisioning. For example, A cloud consumer can set up a pool of mid-tier Windows servers with 4 GB of RAM or a pool of low-tier Ubuntu servers with 2GB of RAM.
- 5. Diagram for Virtual Pools:
- 6. Cloud Storage Device Pools: Cloud storage device pools are group of file based or block-based storage structures that contain empty and filled cloud storage devices.
- 7. Network Pools: Network pools are group of different perconfiguration network connectivity devices. For example, A pool of virtual firewall devices or physical network switches can be created for redundant connectivity, load balancing
- 8. CPU Pools: CPU pools are group of processing units ready to be allocated to virtual servers, and are typically broken do processing cores. Pools of physical RAM can be used in newly provisioned physical servers or to vertically scale physical servers. A hierarchical structure can be established to form parent, sibling, and nested pools in order to facilitate the organization of diverse resource pooling requirements as shown in figure below 208 For example, A pool of virtual firewall devices or physical network switches can be created for redundant connectivity, load balancing are group of processing units ready to be allocated to virtual servers, and are typically broken down into individual processing cores.
- 9. Dynamic Scalability Architecture: This architecture is a model based on a system of predefined resource pool scaling conditions that trigger the dynamic allocation of cloud resources from pools. Dynamic allocation enables variable utilization as defined by usage demand fluctuations, resulting in effective resource utilization and unnecessary resources are efficiently reclaimed without requiring manual interaction.
- 10. Dynamic horizontal scaling: Dynamic horizontal scaling in this type resource instances are scaled out and in to handle dynamic workloads during execution. The automatic scaling listener monitors requests and signals resource replication to initiate resource duplication, as per requirements and permissions set by administrator.
- 11. Dynamic Vertical Scaling: Dynamic vertical scaling in this type the resource instances are scaled up and down when there is a need to adjust the processing capacity of a single resource. For example, a virtual server that is being overloaded can have its memory dynamically increased or it may have a processing core added.
- 12. Dynamic Relocation: Dynamic relocation in this type the resource is relocated to a host with more capacity. For example, a file may need to be moved from a tape- based SAN storage device with 4 GB per second Input capacity to another disk based SAN storage device with 8 GB per second Input capacity. The dynamic scalability architecture can be applied to a range of IT resources, including virtual servers and cloud storage devices. The following mechanisms can also be used in this form of cloud architecture,
- 13. Cloud Usage Monitor: Specialized cloud usage monitors can track runtime usage in response to dynamic fluctuations caused by this architecture. Hypervisor: The hypervisor is invoked by a dynamic scalability system to create or remove virtual server instances, or to be scaled itself. Pay-Per-Use Monitor: The pay-per-use monitor is engaged to collect usage cost information in response to the scaling of IT resources.
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