TWM500311U - The core cloud service system - Google Patents

Description

Cloud service core system

This creation is to redesign the existing operating system architecture to truly meet the core system architecture used by cloud services, to take full advantage of the virtualized environment features currently used in the underlying cloud services, and future multi-core and hardware virtualization architectures.

Cloud computing is the biggest evolution of computer information in recent years. It is caused by many factors such as the popularity of the Internet, the explosion of information, various multimedia data formats, and the dramatic increase in network bandwidth. Cloud computing is not a breakthrough invention, but inherits parallel and decentralized operations, and is derived from the inclusion of today's diverse data formats. However, the current cloud computing in the current environment is actually divided into two forms, one is the cloud computing used by large data centers, such as Google's DataCenter. The other is the cloud services that are currently popular, such as IaaS (Infrastructure as a Service), PaaS (Platformas a Service), and SaaS (Software as a Service).

Because cloud computing requires a lot of research and development energy, it is not available to any enterprise, company or organizational unit. For example, in recent years, the most popular Facebook online game on the Internet, in order to cope with gamers around the world, The technology used is the use of Hadoop's Mapreduce, HBase and HDFS cloud computing related technologies. In combination with a large number of R&D teams, these technologies can be truly combined with Happy Farms, allowing Happy Farms to carry a wide range of technologies. Big player links and data processing. From this example, it can be known that it is difficult to apply cloud computing technology to an existing system.

So the current mainstream cloud services are not using technologies like Hadoop, but using virtualization technology to make full use of hardware resources to improve the cost-effectiveness of IT investment, placing existing operating systems and applications in a virtualized environment, combined with the Internet. The network provides cloud services for host systems and software. This mode of operation is a very heavy burden for today's operating system operating architecture, because at the virtual level, running a complete operating system with the Process concept can cause problems with insufficient resources, not to mention the operation. Operating on the system requires a more resource-intensive application. In addition, in the multi-core era of hardware architecture, hardware vendors are gradually increasing the number of cores. At present, the core architecture of the engineering phase has more than one hundred core CPU architectures, and the current operating systems and applications are almost impossible to respond. Such an architecture cannot fully exploit such hardware architecture resources.

Therefore, how to provide a kind of reducing the burden on the operating system and improving the performance of the cloud computing system is a subject that the creators are eager to solve.

This creative department redesigned the operating system to be truly in line with the current cloud service form.

The traditional operating system is the core of the operation of the main application service. As shown in Figure 1 of the annex, it is transformed into an operation mode based on application services and supplemented by the operating system, as shown in Figure 2 of the annex. Therefore, the cloud service core system is mainly for the purpose of providing software services, such as FTP, WEB, and DATABASE. The user only needs to select the cloud service required for the lease to achieve its purpose and needs.

At present, the cloud service still operates in the form of the entire operating system. For example, if the FTP service is provided, the operating system is first installed, and the FTP service is set on the operating system. User rental is provided. Such a mode of operation will result in waste of hardware resources, and the user only needs the FTP service without using the entire operating system. In addition, the technologies used in the bottom layer of the cloud service are mostly virtualized environments. Each service operates in the form of Process, so it cannot be equal to the performance of the previous physical machine. The service uses the entire operating system to make the virtual operation mode of the Process type more impactful, as shown in Figure 3 of the attached file. So today's model is based on the operating system and is not suitable for the cloud service environment.

The first stage of this creation is to change the traditional operating system concept to service-based design, that is, a service is a Process, and the service itself does not need to provide the entire operating system. Instead, use a streamlined system core that provides only the functional architecture that the service itself needs. For example, the virtual core system of the FTP service will only provide the functions that the FTP service needs to use. The remaining unnecessary functions and the underlying objects are removed, so that the virtual core system of the FTP service can conform to a single process to execute the architecture, such as attachments. Figure 4 shows. Such a concept can improve the operational efficiency of the overall service, and can also greatly reduce the cost of hardware resources. In addition, the speed of system recovery can be improved by such a feature, because when a single cloud service has a problem or Crash, when the FTP service is directly restarted, it takes a lot of time to save the previous need to restart the operating system and other interfaces. The cloud service core system only needs to start the related functions of the FTP service itself, and can quickly recover and continue to serve.

The second stage is to combine this cloud service core system with multi-core CPU architecture. At present, CPU architectures such as x86, Power series and ARM are designed in the direction of multi-core, while mainstream manufacturers such as Intel or AMD have already For a specific application, design a CPU architecture with more than one hundred cores. In a single CPU architecture, each core or two or four cores are configured with independent Caches, while the core Caches in a single CPU architecture have channels that can mutually The link, coupled with the operating mechanism of InMemory, has greatly improved performance. In the first phase, the cloud service core system has the feature of Service Processing. In the following, the multi-core CPU architecture is combined, and the single service is executed in the core of the single core or the same group of Cache in the process of Process. Memory Pool concept and In Memory operation mechanism, and with special hardware specifications, such as a large number of physical memory with high-speed connection channel and CPU directly connected, adding huge memory to the CPU core and then doing data access exchange Cache Pool Increasing data throughput can bring the current cloud service system performance and operation mode to another level, which is also in response to the needs of a large amount of data processing in the future cloud era, as shown in Figure 5, Annex Figure 6 and Figure 7 of the Annex. . When users use the cloud service, they only need to select the cloud service they need. After the selection, the cloud service core system can be combined instantly, and the user's combined service can be completed immediately without spending waiting time. use. The cloud service system provider does not need to spend a lot of time to build the environment of the cloud service, and does not have to worry about the performance loss caused by the operating system and the cloud on the service, and truly enters the cloud generation.

The third stage is to integrate the cloud service core system with the multi-core CPU architecture, in addition to providing the application of the cloud service backend, and then extending it to the application of the personal system. In the traditional application, the personal computer system is extended to the application by the complete operating system, as shown in the attached figure.

This mode of operation, in the current cloud generation of mobile devices (Netbook, iPad, iPhone, Android, tablet, etc.), is also quite resource intensive, especially since most users do not use the functions of the entire operating system. These extra functions, which consume a lot of hardware resources, will also make the performance of low-standard hardware devices not meet the expectations of users.

In the cloud service generation, many services are leased, so as long as there is a network environment, many services can be rented or used from cloud services, such as Google Docs. In response to such cloud service behavior, the third phase extends the application concept of the server to the personal device, as shown in Figure IX. It shows that the concept of the operating system is converted into a virtual concept application. This way is divided into two forms. The first form is mainly a personal service without a network environment. As shown in the attached figure 10, the user starts the cloud. In the core system, only the desktop application service is started. Because there is no network environment, the desktop application service provides a list of cloud services that can be selected by the user when the user selects the application service in the list of required service services. After that, the cloud core system will get the application service from the service storage pool space and add a new Process to handle the application service. The service storage pool space can be a hard disk Partition or a storage device such as a flash drive on the local end. This behavioral model is quite flexible, and can be scaled down according to the situation, making good use of each resource.

The second form is that in the Internet environment, the behavior of accessing the application service is only that the original service stores the pool and is changed to the cloud service, so that the user can select more cloud service providers. The provided cloud service, in addition, users can also mix the first form and incorporate the service in the service storage pool to flexibly use it, as shown in Figure 11 of the attached file.

At this stage, a CloudExchange Protocle will be developed for the data exchange application of the cloud service, so that the data generated by the user can use any protocol to transfer data files in various formats regardless of the user's use of any cloud service. Worry that the data formats provided by different cloud service providers are different and cannot be exchanged, such as cloud storage space services. When users rent cloud service services of different cloud service providers, they can use Cloud Exchange Protocle for storage. Data transfer in space, which can be derived from the exchange of data for all cloud services.

The fourth stage is to evolve the hardware structure, and it can be executed separately without going through the first three stages. In order to adapt to the above new cloud service architecture, the Hypervisor is built in a separate chip on the motherboard, so that after the BIOS startup phase of the computer , directly read the hypervisor in the chip of the motherboard, start the cloud End service core system. Further, the concept of BIOS is combined with the Hypervisor, and it can become a virtualized system by directly using all the hardware devices of the Hypervisor after the computer is started. Such a way can transform the current x86 hardware devices toward the virtual environment, from the separation of their respective operational architectures to a unified architecture, as shown in Figure 12 of the annex.

The traditional system boot process is a few steps from the hardware architecture, such as boot-->BIOS-->Boot Disk--> enter the system. The third phase of the cloud service core system architecture boot process becomes boot-->BIOS-->Boot Disk-->Hypervisor--> enters the first application service (it has the characteristics of desktop service plus list browsing cloud service, Each of them is equipped with the function of driving all the hardware peripheral devices, re-importing the hardware peripheral devices into the cloud service, allowing the cloud service to connect and use the hardware peripheral devices of the local device, and connecting the network functions). With the new hardware architecture, it is simplified into boot-->Hypervisor-->the desktop cloud service that enters the first application service.

[Application Mode]

Hardware equipment supplier

Hardware equipment vendors can use the fourth phase of the cloud hardware architecture combined with the BIOS and Hypervisor, and with the appropriate related equipment, in the cloud generation, directly provide cloud-type service providers of this type of hardware devices, can avoid the cloud Service providers can build cloud environments on their own. They only need to configure the cloud services they need. Cloud service providers don't have to spend enough money to buy expensive hardware. Hardware equipment, causing excessive investment waste.

Hardware device vendors can also use such a cloud hardware architecture to develop computer devices or mobile devices that are more suitable for cloud-generation users, such as notebook computers, to import cloud hardware architectures, while notebook computers only With the virtualized application environment, as described in the third phase of the previous chapter, when the notebook is powered on, it will only execute a desktop application in the virtual environment. The service can be read and executed from the local device or the portable storage device by selecting the application service to be used in the list of cloud services provided by the desktop (no network environment), and when there is a network environment, it can be directly Link to the Internet and choose to rent or purchase the cloud services you need from the cloud services provided by the cloud service provider. This service model allows hardware vendors to offer a wide range of hardware devices and services, as well as buyers who can purchase hardware devices that truly meet their needs.

For example, a hardware device vendor launches a cloud-based notebook computer with such a structure, which only matches the virtual environment and desktop application services as explained in the fourth stage. This is the most basic type, and only sells the cheapest cost, and purchases. You can purchase the cloud notebook at the cheapest price without purchasing other application services, because other cloud application services can be purchased or rented online after the purchaser purchases the cloud notebook. In addition, hardware device vendors also provide a cloud service application market to buyers to choose, when buyers buy cloud notebooks, according to the most streamlined desktop application services mentioned above, and then select and purchase on the spot according to demand. The required cloud services, such as the application service of the word processing category, can be copied by the hardware device supplier to the storage device in the cloud notebook or the buyer's own storage after the purchase is completed. Equipment, such a service model can purchase economical equipment and services according to the actual needs and budget of hardware equipment suppliers and buyers, as shown in Figure 13 of the attached file, and the cloud notebook in the example, also Applications that can be derived from all hardware devices, such as servers, personal PCs, laptops, mobile devices, and other hardware devices.

Cloud service provider cloud service providers can use the first and second stage modes to develop cloud service core systems in the field according to the domain they are involved in, such as HD multimedia player service, allowing users to choose and buy out. Or rent, buyout is to provide users to download to the user's storage In the device, if the service is used, the service is used again, or the user directly rents it in the cloud service market provided by the cloud service provider. The services provided by the cloud service market are as follows:

category

Document processing service

- Microsoft Office

- Open Office

- Libre Office

File transfer service

- FTP

- Torrent

Business application service

- Web

-ECM

- ERP

Database service

- MySQL

- Oracle

- Postgresql

Game service

- Angry Bird

Development application service

- PHP

Operating system service

- Windows XP SP3

- Red Hat Enterprise Linux 5.5

Cloud storage service

- Drop Box

Video streaming service

- Youtube

Online backup service

Secure encryption service

The cloud service provider can design the cloud service application as a function module, and provide a function module that the user can select when purchasing or renting the cloud service application, according to the selected function module. Billing allows users to flexibly choose the desired ones, not to buy or rent more than one function, to consume the hardware resources used by the users, and to avoid paying more. After the user purchases or rents the cloud service, if there is a need to expand the function later, the cloud service provider can purchase or rent the expanded module, as shown in Figure 14 of the attached file and Figure 15 of the attached file.

When the cloud service provider provides the cloud service, it can also join the USB hard disk lock or the chip card to add the billing mechanism. For example, when the user rents the cloud storage service, the payment is leased. How long is it, you can also use the points purchased in advance (you can have a discount mechanism, such as how many points you can purchase, how many other points can be obtained, etc.), and then use the points to pay when necessary, so There is no need to go through the payment flow process, so that users can apply flexibly, such as sharing it with others.

The cloud service provided by the cloud service provider can also develop the Cloud shareable protocol (Cloud shareable Protocle), because the cloud generation can communicate with each other through the cloud, and the cloud sharing agreement can be shared between the user and the user. In order to provide such a service, for example, when a user uses a cloud video streaming service, the video, webpage or newsletter that is being watched or viewed can be simultaneously shared with other friends, so that everyone can simultaneously enjoy the same. This approach can be derived from other cloud service applications.

High performance cluster computing domain

High-performance cluster computing has long used scattered, parallel, or cloud computing Ways to enhance the specific application areas of computing, such as genetics, physics, chemistry, materials, and weather. Although these computing methods continue to evolve, they are always limited by the underlying operating system. If the cloud service core system is adopted, these special domain applications, such as VASP and WRF, are redesigned as cloud service cores. The system, out of the traditional mode that must be attached to the operating system to operate, and then use the combination of the above four stages of architecture, can greatly improve the computing efficiency, but also can get rid of the previous system maintenance is not easy, or hardware or The system Crash, which caused the study of waiting for the lockout, provided academic research on various research projects and processed more quickly to achieve more research results.

Security service provider

In today's mode, security protection services must be defended and protected from the operating system level, application level and virtual level. In the cloud service core system, because the operating system has been removed, unnecessary unnecessary function openings are removed, leaving only the application itself and the necessary system core functions. This way, it is possible to prevent more security. The problem. The security protection system of the security service provider can be converted into the mode of the core system of the cloud service to provide users. The protection measure is to perform protection actions from various virtual levels when the security service is started, such as the virtual network of the personal device. Module or enterprise virtual switch. In addition to defending from the virtual level, security service providers can really design the targeted security services for various cloud service core systems on the market. For example, the cloud service core system of security service vendors can protect the virtual hierarchy. In addition to related attacks, you can also act as a defense against cloud FTP and web services.

In addition, the security service provider can also design a cloud service core system that provides the cloud service provider, and the data protection encryption verification service required, for example, when the user cloud service provider cloud service generates a personal data file, these data files may be generated. Is placed in your own hardware storage device, or in the cloud storage In the storage space, when the user wants to access and download and use his own data, it may not use his own hardware device to enable the cloud service and access the personal data file, which can be verified by the security service vendor's data protection encryption. In the way, if the USB hardware lock device allows the user to access the personal data, the USB hardware lock device needs to be inserted for verification, and the personal data can be accessed after the confirmation is correct. These verification methods can be derived from wafer cards, biometrics or other devices that can be used as verification devices, allowing users to use personal data very safely when using cloud services.

enterprise

The application of the cloud service core system in the enterprise side can improve the investment efficiency of the enterprise hardware resources in the hardware aspect. When the private cloud is to be established, the enterprise can apply the flexibility of the cloud service core system in the operation of the hardware device, and the enterprise can Such hardware is used for renting, such as buying a higher equipment and then paying according to the amount of usage, which provides the greatest flexibility for the enterprise. When a company wants to use a public cloud service, it is not necessary to rent a host like the current lease method, but it can be additionally selected for the cloud service. In the application software mode, the cloud service core system can be applied to the manageable and easy-to-use situation without attaching to the characteristics of specific operating systems and devices. For example, many applications of enterprises are often tied to specific systems for a long time. This will cause the company to be constrained by these operating systems in the follow-up. Every few years, it will cost a lot of money to upgrade the upgrade system to match the application upgrade. It is equivalent to costing both the system and the application, and the cloud service core system. , you can save the cost of system upgrades.

Another long-standing problem that enterprises have faced for a long time is that some people belong to people who are constantly moving, such as business, assignments or business trips. This type of worker, whether it is moving locally or traveling to the world. In the region, it is very difficult to synchronize the use of data and system environment, and in the past year or two, it has faced a variety of mobile devices such as iPhone, iPad, Android and Tablets, etc., make such problems worse. If the enterprise applies the cloud service core system, it can easily solve such problems. The solution is as follows. For the user in the following sections, the company will no longer have to worry about people who travel frequently because of personal service settings and The data can be easily accessed, and the cloud service core system environment can also be easily generated. For the business, the enterprise often worryes about the business because of personal privacy, and does not hand over important customer information to the company. At this time, the enterprise can utilize the cloud service core system. Edit the cloud service application that records customer data, and use the special execution and encryption verification methods provided by the cloud service provider or security service provider, so that the business can only store in the cloud storage when using the cloud service to process customer data. In space, when there is no network environment, the business must store the customer data in a specific storage device (such as a small or small-capacity flash drive). When the business wants to access the customer data again, there is a network. In the environment, the customer data is automatically synced to the cloud storage owned by the enterprise. Room, or a specific storage device, when there is no network environment, companies may be required to service the timing device in the portable data synchronized back to enterprise storage, greatly enhance the security of enterprise data. These behavioral patterns can be applied or transformed for use in all walks of life, such as government units or military security agencies can be applied to data security protection. If the school is used in a computer classroom, in the computer classroom, according to the content of the class, select the cloud service application that is needed, and if the student needs to import his last job information or personal settings, it can be easily achieved, and the school is Management will also be easy.

The problem of uninterrupted service is also a very important part for the enterprise. According to the fast startup and easy-recovery characteristics of the cloud service core system, when there is a problem in the system or hardware damage, there is no operating system layer. The problem, while the cloud service core system can periodically copy the status data to the Cache or Memory Pool, so that when a single hardware problem occurs, the cloud service core system can be quickly transferred to another hardware, and then by Cache Or the status data in the MemoryPool can be restored immediately. In this way, when you want High Availability and Load Balance, it will be faster than the traditional method. The application of the user cloud service core system on the user side can greatly reduce the difficulty of learning and using the user. At present, the user is faced with the need to select a work platform before further use. Applications such as computer devices must first select an operating platform in Windows, Mac, and Linux operating systems. For example, mobile devices must first be selected in mobile platforms such as iOS, Android, and Windows Mobile. After the user chooses, after familiarizing with the system platform, often switching to other system platforms, there will be difficulties in adapting, and some applications will only be tied to a specific platform, such a mode is A disadvantage for the user.

When the user operates the cloud service core system as the base system, after selecting the hardware device provided by the hardware service provider, after selecting the hardware specifications required by the cloud service provider and the cloud service provider's cloud service, I need to increase the purchase or rent cloud service, and because the cloud service core system does not depend on the specific operating system platform, but can operate on its own, so that the sub-users no longer have to worry about how to choose the operating system platform and learning mode. Just need to learn and use the cloud services you need. In addition, the cloud service core system belongs to a new generation of behavior model that conforms to the cloud generation. At all levels, it is bound to face the problem of the transfer of new and old systems, whether it is the current operating system or the application, and the cloud service core system itself has the fusion. And transfer features, so that everyone does not have to worry about the conversion and compatibility of the old and new systems. Because the cloud service core system itself evolves from the application of the virtualization service, when the user purchases the hardware device, the device is already a virtual environment, and each application is one or more processes in the virtual environment. And the operating system can also be viewed as an application that becomes one or more processes in a virtual environment, just like it is currently used. Using VMware Workstation or virtualization technologies such as KVM to execute multiple operating systems, so that sub-users do not have to worry about incompatible old-generation systems or programs when they serve the cloud services of the core system in the cloud. When the application that the user needs to use has not evolved to the new cloud service core system, the user only needs to purchase or rent the operating system required by the application in his own cloud service, and then install and use it in the operating system. The app is ready.

The operation behavior of cloud generation users, because the services provided by the cloud service core system have great flexibility, so users can realize that no matter where they are, there are only hardware devices (private, public, leased or borrowed hardware devices). In the absence of a network environment, as long as the user has a storage device that stores personal data and cloud services, the cloud device can be read and executed after the hardware device is powered on, and then read after the cloud service is executed. The personalization settings and data in the storage device can be taken, and in the network environment, if the user has purchased or rented the cloud storage service, the personalized settings and data can be accessed from the cloud storage space. This behavioral mode can be protected by personal authentication or authentication, personal PIN code or advanced security encryption provided by security service providers (such as chip cards or biometrics), or by data synchronization. Or a backup mechanism, when you have a personal storage device (single or multiple) and cloud storage space (single or multiple), you can automatically synchronize or backup the data in these storage spaces. You don't need to worry about data synchronization. You can easily use your cloud service core system and data when traveling or on a business trip.

A‧‧‧Application Service

B‧‧‧Document Processing Service

C‧‧‧File Transfer Service

D‧‧‧Business Application Service

E‧‧‧Database Service

F‧‧‧Entertainment Services

G‧‧‧ Development Application Service

H‧‧‧Operating System Services

I‧‧‧Storage Space Service

J‧‧‧Video Streaming Service

K‧‧‧ Online Backup Service

L‧‧‧Security Encryption Service

M‧‧‧Reduced System Core Module

N‧‧‧Basic objects

O‧‧‧Internet

P‧‧‧Multi-core CPU architecture

Q‧‧‧Data Exchange Agreement

R‧‧‧Cloud Sharing Agreement

S‧‧‧Virtualization System

Figure 1 is a block diagram of the core system of the creative cloud service.

[Description of accessories]

Figure 1 Schematic diagram of the core of the operation of a traditional operating system

Figure 2 Schematic diagram of the core of the operation of the traditional operating system

Figure 3 Schematic diagram of the virtual operation mode of the Process type

Figure 4 Schematic diagram of the server of the cloud core system

Figure 5 At present, the multi-core hardware architecture combined with the cloud service core system diagram

Figure 6 Future multi-core hardware architecture combined with cloud service core system diagram

Figure 7 Multi-core hardware combined with a large number of memory Pool architecture

Figure VIII Cloud service core system and multi-core CPU architecture integration diagram

Figure 9 Schematic diagram of the traditional system

Figure 10 Schematic diagram of the personal use of the cloud core system

Figure XI. The personal use of the cloud core system is shown in Figure 2.

Figure 12 Comparison of traditional hard disk and new hard disk architecture in cloud core system

Figure 13 Cloud cloud service behavior mode 1

Figure 14 Cloud cloud service system purchase cloud service behavior mode 2

Figure 15 Cloud service core system extended cloud service function behavior mode

Please refer to Figure 1. Figure 1 is a block diagram of the core system of the creative cloud service. The core system of the creative cloud service includes: one or more application service modules Group A, which includes Document Processing Service B, File Transfer Service C, Business Application Service D, Database Service E, Entertainment Service F, Development Application Service G, Operation System Service H, Storage Space Service I, Video Streaming Service J , online backup service K and security encryption service L; a streamlined system core module M, which has a basic object N, can run one or more application service modules A; by such a structural design, so that it is multiplied System and application performance, when users want to use, as long as the required services are selected, they can be used on-demand, and at the same time can greatly reduce the cost of hardware resources, and also improve system recovery through such features. The speed can directly restart the related functions of the service itself when there is a problem or abnormality in the single server service. It saves the need to restart the operating system and other interfaces in the past, and can quickly restore and continue the service.

The core system of the cloud service is created, wherein the core module M of the streamlined system can be located on the network or the Internet O, and can be connected to each other or load balanced and redundant through the network or the Internet O.

The core system of the cloud service is created, wherein the core module M of the streamlined system can be combined with the multi-core CPU architecture P; and the physical memory is directly connected with the CPU by the high-speed connection channel, and the huge memory is added to the CPU core for data access exchange. The Cache Pool increases data access.

The creative cloud service core system, wherein the application service A storage space service I can be a specific one or more storage devices (such as a hard disk Partition or a flash drive storage device) on the local end, and can be visually expanded and reduced, and utilized. Every minute of resources.

The core system of the creative cloud service, wherein the data exchange protocol Q can be further included, and the data generated by the user or the data provided by different vendors can be transmitted and exchanged by the protocol. The purpose of virtual exchange is achieved through indicators.

This creative cloud service core system, which can further include a cloud sharing association Set R, you can share the video, webpage or newsletter that you watch or read to other friends, so that everyone can enjoy it at the same time.

The creative cloud service core system, wherein the thin system core module M can be integrated into a chip, and the chip can start all the hardware devices after startup, and enter the virtualization system S.

The author of the cloud service core system, wherein one or more application service modules A can access devices of the local client or devices of other users.

The authorizes the cloud service core system, wherein one or more application service modules A can be rented separately, leased for a specific period, or rented for a specific period of time.

The above description is only intended to describe the present invention in detail by the preferred embodiments, and variations and modifications of the embodiments, such as the types of application services, and the like, are not departing from the spirit and scope of the present invention.

From the above detailed description, those skilled in the art can understand that the present invention can achieve the foregoing objectives, and has already complied with the provisions of the Patent Law, and has filed a new patent application according to law.

A‧‧‧Application Service

B‧‧‧Document Processing Service

C‧‧‧File Transfer Service

D‧‧‧Business Application Service

E‧‧‧Database Service

F‧‧‧Entertainment Services

G‧‧‧ Development Application Service

H‧‧‧Operating System Services

I‧‧‧Storage Space Service

J‧‧‧Video Streaming Service

K‧‧‧ Online Backup Service

L‧‧‧Security Encryption Service

M‧‧‧Reduced System Core Module

N‧‧‧Basic objects

O‧‧‧Internet

P‧‧‧Multi-core CPU architecture

Q‧‧‧Data Exchange Agreement

R‧‧‧Cloud Sharing Agreement

S‧‧‧Virtualization System

Claims (9)

A cloud service core system, comprising: one or more application service modules, including a document processing service, a file transmission service, a business application service, a database service, an entertainment service, a development application service, an operation system service, a storage space Service, video streaming service, online backup service and secure encryption service; a streamlined system core module, which has basic objects, can run one or more application service modules; by such a structural design, it is multiplied Improve the performance of the system and applications. When users want to use them, they can select the required services to achieve on-demand use, and at the same time greatly reduce the cost of hardware resources, and enhance the system with such features. The speed of recovery can directly restart the related functions of the service itself when there is a problem or abnormality in the single server service. It saves the need to restart the operating system and other interfaces in the past, and can quickly restore and continue the service. For example, in the cloud service core system described in claim 1, wherein the core modules of the reduced system can be located on the network or the Internet, and can be connected to each other or load balanced and prepared through the network or the Internet. aid. For example, the cloud service core system described in claim 1 of the patent scope, wherein the core module of the reduced system can be combined with the multi-core CPU architecture; and the physical memory is directly connected with the CPU by the high-speed connection channel, and the huge memory is added to the CPU core. The Cache Pool for data access exchange increases the amount of data access. The cloud service core system of claim 1, wherein the application service storage space may be a specific one or more storage devices on the local end, and can be visually expanded and reduced, and each resource is utilized. For example, the cloud service core system described in claim 1 may further include a data exchange protocol, and the data generated by the user or the different services provided by different vendors may be obtained by the protocol. Mutual transmission and exchange can also achieve the purpose of virtual exchange through indicators. For example, the cloud service core system described in claim 1 may further include a cloud sharing protocol, which can simultaneously share the viewed or viewed video, webpage or briefing to other friends, so that everyone can simultaneously enjoy the same. The cloud service core system of claim 1, wherein the core system of the reduced system can be integrated into a chip, and the chip can start all the hardware devices after the startup and enter the virtualization system. The cloud service core system of claim 1, wherein one or more application service modules can access devices of the local user terminal or devices of other user terminals. The cloud service core system of claim 1, wherein one or more application service modules can be rented separately, leased during a specific period, or rented for a specific period of time.