The cloud virtual file system and the access interface with multiple communication protocols allow integration of the user terminal and different cloud storage spaces. Namely, the cloud virtual file system acts as a bridge between the user terminal and several different cloud data servers. The fault-tolerant technology for virtual cloud storage based on different cloud data centers can be implemented using the cloud-based virtual storage technology and across-cloud storage services. Different cloud data centers can be integrated into a giant array of cloud-based archives through a virtual file system. Each element in the array represents an offsite homogeneous cloud storage service. And the files on the clouds are stored in different data centers to reach the objective of fault-tolerant services for decentralized cloud archives. From the user's point of view, the backups of the files stored in multiple cloud storage spaces will not only raise the difficulty of personal file management, but also easily damage the logical thinking of the user while saving the files, and further make the user unable to find the files as required. This problem will be even more obvious when all the personal files are stored in the clouds. The fault-tolerant technique built for decentralized cloud archives are used to provide high-availability storage services and integrated directory management services, where multiple copies are presented as one single archive from the directory management service. The fault-tolerant technique built for decentralized cloud archives will be responsible for the complex management of remote copies to reduce the difficulty of file management for users.
Running as a single box CPU: Atom Duo Core RAM: 1 GB Running as a storage service CPU: 4 cores CPU RAM: 4 GB Disk: 10GB for system, more TB/PB for user storage Giga Switch LAN: 10Gbps LAN WLAN: 802.11
The cloud virtual file system and the access interface with multiple communication protocols allow integration of the user terminal and different cloud storage spaces. Namely, the cloud virtual file system acts as a bridge between the user terminal and several different cloud data servers. The fault-tolerant technology for virtual cloud storage based on different cloud data centers can be implemented using the cloud-based virtual storage technology and across-cloud storage services. Different cloud data centers can be integrated into a giant array of cloud-based archives through a virtual file system. Each element in the array represents an offsite homogeneous cloud storage service. And the files on the clouds are stored in different data centers to reach the objective of fault-tolerant services for decentralized cloud archives. From the user's point of view, the backups of the files stored in multiple cloud storage spaces will not only raise the difficulty of personal file management, but also easily damage the logical thinking of the user while saving the files, and further make the user unable to find the files as required. This problem will be even more obvious when all the personal files are stored in the clouds. The fault-tolerant technique built for decentralized cloud archives are used to provide high-availability storage services and integrated directory management services, where multiple copies are presented as one single archive from the directory management service. The fault-tolerant technique built for decentralized cloud archives will be responsible for the complex management of remote copies to reduce the difficulty of file management for users.
Running as a single box CPU: Atom Duo Core RAM: 1 GB Running as a storage service CPU: 4 cores CPU RAM: 4 GB Disk: 10GB for system, more TB/PB for user storage Giga Switch LAN: 10Gbps LAN WLAN: 802.11
Cloud Virtual Archival System working with Access Interface Multiple Communication Protocols enable user terminals to be integrated with variant Cloud Storage Spaces namely Cloud Virtual Archival System acts as a bridge between user terminals and multiple, variant Cloud Data Service Ends. By means of this kind of Cloud Virtual Storage Technology with Cross-Cloud Storage Services, Fault-Tolerant Technology of Virtual Storage based on variant Cloud Data Centers can be realized. Variant Cloud Data Centers can be integrated into a massive Cloud Archival Data Array through Virtual Archival System. Every element of array denotes a homogeneous Cloud Storage Service of in different place. By respectively storing Cloud Archives in variant Data Centers, the objective of Fault-Tolerant Services of Dispersed Cloud Archives can be achieved. From users' point of view, not only the difficulties in managing archival duplicates being backed up in multiple Cloud Storage Services will increase but also the logical thinking of users in need of Cloud Archival Storage will be easily destructed. Furthermore, users will have difficulties in finding required archives in the future. This kind of problem becomes more significant when all personal data is stored in the cloud. Fault-Tolerant Services of Dispersed Cloud Archives is to provide High Availability of storage services and, in the mean times, Integrated Directory Management Services are offered as well. Multiple duplicates are presented as a single archive under that Directory Management Services. Fault-Tolerant Services of Dispersed Cloud Archives shall privately handle the complicated management on duplicates in different places to mitigate difficulties in managing personal data.
Running as a single box CPU: Atom Duo Core RAM: 1 GB Running as a storage service CPU: 4 cores CPU RAM: 4 GB Disk: 10GB for system, more TB/PB for user storage Giga Switch LAN: 10Gbps LAN WLAN: 802.11
技術現況敘述-英文: Cloud Virtual Archival System working with Access Interface Multiple Communication Protocols enable user terminals to be integrated with variant Cloud Storage Spaces namely Cloud Virtual Archival System acts as a bridge between user terminals and multiple, variant Cloud Data Service Ends. By means of this kind of Cloud Virtual Storage Technology with Cross-Cloud Storage Services, Fault-Tolerant Technology of Virtual Storage based on variant Cloud Data Centers can be realized. Variant Cloud Data Centers can be integrated into a massive Cloud Archival Data Array through Virtual Archival System. Every element of array denotes a homogeneous Cloud Storage Service of in different place. By respectively storing Cloud Archives in variant Data Centers, the objective of Fault-Tolerant Services of Dispersed Cloud Archives can be achieved. From users' point of view, not only the difficulties in managing archival duplicates being backed up in multiple Cloud Storage Services will increase but also the logical thinking of users in need of Cloud Archival Storage will be easily destructed. Furthermore, users will have difficulties in finding required archives in the future. This kind of problem becomes more significant when all personal data is stored in the cloud. Fault-Tolerant Services of Dispersed Cloud Archives is to provide High Availability of storage services and, in the mean times, Integrated Directory Management Services are offered as well. Multiple duplicates are presented as a single archive under that Directory Management Services. Fault-Tolerant Services of Dispersed Cloud Archives shall privately handle the complicated management on duplicates in different places to mitigate difficulties in managing personal data.
所須軟硬體設備: Running as a single box CPU: Atom Duo Core RAM: 1 GB Running as a storage service CPU: 4 cores CPU RAM: 4 GB Disk: 10GB for system, more TB/PB for user storage Giga Switch LAN: 10Gbps LAN WLAN: 802.11
Personal computer desktop virtualization can separate software and data files from the terminal hardware equipment, and put them into a safer cloud data center for unified management and implementation. Through the multimedia streaming technology or the rich webpage ( RIA or Rich Internet Application) technology, the result screen that the user needs is sent to the user's terminal equipment. Users can connect to the Internet via a variety of Thin Clients and different devices. Apps and user information can be roamed between virtual desktops of different devices, and the conversion process is seamless. The application usage and user status can also be roamed to the next target device as long as the user device connected to the clouds has the intelligent terminal roaming service to log into the virtual desktop with a roaming tool. The technology mainly includes the three parts as follows: 1. user experience interface for the cloud desktop service: It can provide users with a Web-based desktop environment and retain the original personal computer experience, so that users can simply and quickly use the cloud desktop service through the browser. 2. Web application management platform: cloud desktop services provide a variety of web applications, such as OFFICE, Explorer, Calendar and so on. Cloud Desktop Services stores the apps on this management platform, where users can add and remove their favorite programs through this management mechanism. 3. Audio and video multimedia enhancement technology: remote server applications can be executed to stream and return videos and audios back to the browser through the application virtualization technology.
技術規格
1. Web化虛擬桌面使用者介面 (雲端桌面環境)。 2. 可執行於瀏覽器中的通訊協定用戶端播放程式 (遠端桌面通訊協定 )。 3. Web Desktop Control (web-based 的虛擬桌面管理與控制),包括User Profile / configuration / run-time session management。 4. Virtual Desktop Control (Remote Access 的實體桌面管理與控制) ,支援Web desktop session launch / release , monitor , console manager, log分析。 5.Hosted App Control (應用服務集中管理),整合Cloud OS 之支援動態調配 Policy
技術現況敘述-英文: Personal computer desktop virtualization can separate software and data files from the terminal hardware equipment, and put them into a safer cloud data center for unified management and implementation. Through the multimedia streaming technology or the rich webpage ( RIA or Rich Internet Application) technology, the result screen that the user needs is sent to the user's terminal equipment. Users can connect to the Internet via a variety of Thin Clients and different devices. Apps and user information can be roamed between virtual desktops of different devices, and the conversion process is seamless. The application usage and user status can also be roamed to the next target device as long as the user device connected to the clouds has the intelligent terminal roaming service to log into the virtual desktop with a roaming tool. The technology mainly includes the three parts as follows: 1. user experience interface for the cloud desktop service: It can provide users with a Web-based desktop environment and retain the original personal computer experience, so that users can simply and quickly use the cloud desktop service through the browser. 2. Web application management platform: cloud desktop services provide a variety of web applications, such as OFFICE, Explorer, Calendar and so on. Cloud Desktop Services stores the apps on this management platform, where users can add and remove their favorite programs through this management mechanism. 3. Audio and video multimedia enhancement technology: remote server applications can be executed to stream and return videos and audios back to the browser through the application virtualization technology.
技術規格: 1. Web化虛擬桌面使用者介面 (雲端桌面環境)。 2. 可執行於瀏覽器中的通訊協定用戶端播放程式 (遠端桌面通訊協定 )。 3. Web Desktop Control (web-based 的虛擬桌面管理與控制),包括User Profile / configuration / run-time session management。 4. Virtual Desktop Control (Remote Access 的實體桌面管理與控制) ,支援Web desktop session launch / release , monitor , console manager, log分析。 5.Hosted App Control (應用服務集中管理),整合Cloud OS 之支援動態調配 Policy