Editing this list feels a bit like a ranking of all the classic rock music lines. Just as 1000 readers have 1000 Hamlet, the rankings depend largely on personal preference. But on cloud deployments, I believe the following cloud deployments are the most interesting:
1. Internal cloud for the purpose of increasing sales
EMC's attitude toward the cloud is more than hype. EMC leverages its storage hardware and data management software, builds an internal private cloud model with Dell servers and VMware virtual software, and provides cloud services to its in-house staff through virtual desktops.
EMC's private cloud model provides support from hardware to operating systems, but does not include application software services. Chris Asing, senior manager of EMC It Cloud services, said: "This cloud model provides a platform for users to build and develop the applications they want." He calls this model IaaS (infrastructure as service).
Chris Asing said that "the first IaaS service within EMC is called Cloud9 Sandbox, through which everyone can quickly create 10 virtual machines and share content with others, and it also allows our sales engineers to build a showcase environment with several keystrokes." ”
2. Building the Wisdom Cloud
IBM's "Smart Earth" ad campaign seems to have gone a little overboard, but this is definitely a benign development direction for cloud computing, IBM's goal is not to provide low-end cloud services products, but to provide an enterprise-class, secure cloud solution.
IBM clearly wants to attract more large customers by building larger data centers to provide highly available, well performing, secure, independent data/programs.
"Users can choose the level of functionality and service they need, based on their needs and priorities, which can be customized-from advanced data analysis and business applications to it architectures such as virtual servers and storage, or tools to test software code," analyst Charles King said. All services are securely deployed by IBM's Global Cloud Data center network. "Other services include the deployment of social enterprises in the cloud, and IBM's SAP hosting application services are included in IBM's SmartCloud."
3. Cloud Desktop
Chief Information Officer Jay Cley's philosophy is simple: Manufacturing giants use cloud desktops to reduce high-end workstations. He argues that companies should use virtualization to enable users to view complex graphic images locally through a computer screen, without having to build high-end workstations everywhere. "Our users can now share, browse and use the files and applications of production sites around the world," he said. ”
4. Cloud-based disaster recovery
Many of the disaster recovery solutions are based on cloud computing. Pump FX Group's global network manager Jeff Lantry told us an interesting case. Their company uses cloud computing to back up and row disaster recovery. The AT&T server is backed up through Symantec's software and then deleted and compressed by rows of data.
Keeping a copy on the server, remotely managing and replicating data through the cloud service provider, saves the cloud cost and accelerates data recovery in the event of an emergency by halving the number of windows backed up.
"The benefit of the cloud is to reduce costs, to make disaster recovery more flexible, and to save two hours of administrative overhead per day," Rountree said. ”
Other vendors will also have cloud-based disaster recovery technologies. Open source storage software vendor Gluster's product marketing director Tom calls for attention to Amazon's AWS (Business Process Management development platform) service in the cloud architecture, saying that "as cloud computing becomes ubiquitous, cloud computing's disaster recovery plan should be more used and implemented." "He also suggests a larger range of asynchronous replication.
5. The application of cloud computing in medical treatment
You may think that the local cloud computing in hospitals is of little use, but that is not the case. Banner Tiyatien has established a simulated hospital to train medical personnel by establishing digital image systems to quickly share diagnostic information captured by X-ray and MRI imaging.
Banner Tiyatien, a 55,000-square-foot medical center, simulates patients with 71 computer models and trains more than 1800 nurses a year. It also provides a computer based surgical simulation to help improve operational skills.
Its image archiving and communication system will be X-rays, MRI, computed tomography/CAT scans, digital images taken by ultrasound devices are collected, transmitted, displayed and stored, and the size of these images is between 10MB-5GB, which may take several hours or days before it can be completed in a few minutes.
These facilities are based on cloud computing. Banner Tiyatien uses NetApp's Storagegrid object storage software to manage images. After a six-month set-up, Banner Tiyatien built a cloud storage grid with TB (planned to extend to 1.2 PB) in the Arizona, State data center, as well as two HP ProLiant DL380 servers and HP StorageWorks Two-tier data center (TB) of modular Smart Array construction. Migration between data is determined by the needs of different departments.
On the internet, Banner Tiyatien used Cisco's Waas (Wide area application services), including Cisco 281 service routers, Cisco WAE 512 remote sites, Cisco 7200 series routers. These are used to accelerate the performance of applications and files, while reducing the use of WAN bandwidth.
Banner Tiyatien also uses the Plixer Scrutinizer NetFlow and sflow Analyzer to monitor and resolve potential cloud problems, view terminal usage from Cisco's data boxes, and apply Protocol/program status.
(Responsible editor: Liu Fen)