Tencent Cloud's distributed cloud product family covers different forms of cloud computing, such as Edge Zone (TEZ), Cloud Dedicated Zone (CDZ), Cloud Dedicated Cluster (CDC), Cloud Hosting Cluster (CHC), private cloud platform TCE, and cloud native kit Tencent TCS (formerly private cloud PaaS platform). Enterprises and units can achieve consistent management and convenient creation, migration, utilization, and management of clouds through Tencent Cloud's distributed cloud, helping enterprise IT reduce deployment and maintenance costs.
Adapt to the fragmentation scenario of edge resources, support lightweight Kubernetes deployment, be 100% compatible with Kubernetes API, and seamlessly integrate ecosystem tools such as Helm and Operator.
Based on the physical resource isolation capacity of Tencent Cloud CDZ, provide a Kubernetes service that is fully compatible with Public Cloud TKE, and satisfy both resource exclusivity, security compliance, and cloud native agility at the same time.
Deploy and manage Kubernetes clusters in local CDC environments and seamlessly integrate with Public Cloud TKE services. Provides enterprises with flexible, secure, and high-performance containerized application management capabilities.
The orchestration capability of Kubernetes combined with TCE full-stack cloud service provides cloud-native infrastructure for privatization deployment, offering a Kubernetes experience consistent with the public cloud TKE, reducing the complexity of privatization deployment.
TKE is integrated with TCS, providing enterprises with secure and controllable, ready-to-use, highly scalable cloud-native capabilities. It supports building applications in privatized or dedicated clouds, assisting in agile business innovation and cost reduction and efficiency enhancement.
No need for users to self-build and operate and maintain. Through Kubernetes, one-stop integrate and manage clusters, servers, hosts, and smart devices. Whether running in public clouds, private clouds, or edge clouds, a consistent control plane will be available to achieve Cloud-Network Integration and cloud-edge collaboration.
Integrate the resources of application images, traffic and storage with the application as the center, cover the full lifecycle of application delivery, management, scheduling, disaster recovery and Ops, assist business applications to expand to the distributed cloud, and make managing multiple clusters as simple as internet browsing.
Upgrade to multi-cloud and hybrid cluster architecture with zero learning and modification costs, fully compatible with K8s standard API, Helm Chart and custom CRD, realize unified management capability of consistent multi-cloud hybrid resources, services and applications, and minimize multi-cloud operation costs.
Provide multiple one-click automation tools for multi-cloud, helping users easily complete work such as multi-cloud application deployment, high-availability disaster recovery, security compliance checks, and cross-cloud image migration. Fully leverage automation tools to reduce manual intervention and repetitive work.
Deliver mature and stable cloud services to positions closer to users and data through cloud native container technology, ensure long-term platform operation, governance, update and evolution, and provide reliability and security and compliance assurance.
Flexibly access and manage various computational resources of enterprises, distribute cloud services to different physical locations, reduce delay, improve service quality, and provide unified operation, governance, update, and evolution of the platform by cloud service providers. Leverage container technology as the service basis for distributed environments, deliver containerized applications and cloud services based on Cloud Native Standards, bring lightweight and efficient, flexible scalability, security and reliability, ecological open source services, support rapid growth and flexible scalability of businesses.
Cloud-native applications run on multiple cloud services, deploying and managing them using the same APIs and operation processes. Leverage Kubernetes standards to provide a consistent operating environment across multiple heterogeneous cloud infrastructures, minimizing switching costs to achieve application scaling from one cluster to clusters of different cloud vendors in multiple regions, reducing vendor lock-in risk. Simultaneously support defining independent policies and application configurations for public cloud clusters, local clusters, and edge clusters respectively, handling diversity in different locations flexibly.
Application services in a single Kubernetes cluster support high availability, allowing services to continue running after partial hardware or software failures. However, the distance between cluster primary nodes limits its ability to provide protection against disaster-level events. To provide disaster recovery for entire site or regional failures, unified governance of applications, traffic, storage, etc., across multiple clusters can be used to achieve high availability disaster recovery, enhancing the fault elasticity and reliability standards of the entire business system.
There are various types of DevOps systems that can be integrated with the Hub Cluster of TDCC distributed cloud center to achieve multi-cloud and multi-cluster application release management, grayscale management, and application lifecycle management at minimum cost. It eliminates the cumbersome configuration and initialization work required for development, testing, and production environment clusters respectively, loosely couples the application release logic with the underlying cluster, flexibly manages business release, and accelerates product iteration and business expansion.
A distributed cloud platform based on cloud native technology will excellently adapt to various Edge Terminals, providing a unified technology stack for light edge access facilities, edge data centers, Edge Gateways, smart devices, etc. It manages unifiedly different operators' clouds, private clouds, industry clouds, regional clouds, etc. Mature cloud services and products on the public cloud, such as AI/big data, database/middleware, cloud development/low-code platform, IoT Edge Computing, etc., can seamlessly sink and extend to the edge following Cloud Native Standards.
TDCC is currently free of charge, but you may incur fees when using other Tencent Cloud services.
