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Comprehensive Coverage, Intelligent Scheduling

Based on distributed CDN nodes, comprehensive resource coverage and intelligent scheduling, with business logic located close to end users, reducing access delay.

Efficient O&M Deployed In Seconds

Flexibly define container specifications, deploy applications online in seconds, Serverless architecture is free of operation and maintenance, and customers do not have to manage clusters and underlying servers.

Stable and Reliable, Secure Isolation

The cluster adopts a high availability architecture, with multi-availability zone deployment and scheduling, fault recovery and migration mechanism to ensure business stability, in addition to resource and network security isolation.

Highly Cost-effective Scaling On-demand

Dynamic scaling according to business requirements, charge by usage, accurate collection granularity to seconds, more cost-effective.


  • Flexible and Intelligent Scheduling

    Intelligent scheduling to the nearest node to reduce latency; support multi-protocol load balancing, container health self-test and elimination mechanism to ensure high level of business availability

  • One-stop Computing Power Distribution and Management

    The platform or APIs support convenient container start/stop, add/delete/change/query operations to achieve one-stop creation, distribution and management of edge computing power

    • One-stop container creation: flexible specification selection and container operating environment configuration to achieve multi-granularity cross-availability zone instance management for regional operators, municipal operators, etc.;
    • Convenient computing power control: unified resource scheduling, automatically complete image download and deployment; support one-click update, upgrade, start, stop, delete container instances and other operations; real-time monitoring, query service and container status.
  • Secure Isolation

    Resource isolation to avoid the interaction of different applications; create cluster virtual network, network isolation strategy between different services to ensure security

    • Resource isolation: divide namespaces according to projects or development pipelines and define different logic partitions for management.
    • Network isolation: create a cluster virtual network that does not support external addressing, and achieve network isolation between different services through network plug-ins, iptable, and namespace policies.
    • Flexible Configuration Management: capturing application configuration by hot-loading of configmap files or code warehouses, significantly improving the migration and reuse capabilities of business images, reducing cost of service updates.
  • Image Creation and Management

    Provide abundant public image and secure private image hosting services, continuous integration/delivery pipeline

    • Public images: provide ample public images to facilitate the rapid creation of services.
      -Private image: provide private custom machines, secure private image hosting service, and faster image download speed through the network.
    • Private image: provide private image builder and private image warehouse, distributed network architecture for rapid and efficient distribution and downloading of images in large scale, greatly reducing access time to obtain service images.
    • Continuous integration/delivery: aligned with user code base, realizing compilation, building, packaging and other integration capabilities, continuous integration/delivery pipeline to release images in seconds.
  • Agile Operation and Maintenance

    Provide container monitoring, application monitoring, log management remote access and other services to support ; API access, health check, rolling upgrade, error recovery and other diversified operation and maintenance capabilities


  • Edge Transcoding Stream Push
  • Business Monitoring
  • Data Pre-processing
  • Batch Computing

In online audio and video scenarios, users often faced a complex network environment, and network jitter can easily effect streaming. The traditional central push stream approach entails central bandwidth high in cost and difficult to maintain.

  • protocol push stream through nearby Wangsu nodes to guarantee quality push streaming
  • Push stream and transcoding through nearby Wangsu’s well distributed ECC edge computation to greatly reduce central bandwidth cost and lower latency.
  • Global coverage of ECC edge nodes ensure smooth HD A/V experience for operators home and abroad.

The traditional monitoring methods leverage limited tools with rather small detection coverage, making it difficult to comprehend the actual experience of end-users. With Wangsu’s ECC platform, the monitoring application can be deployed and distributed to cities/operators across the country to simulate realistic access of end users. Real-time playback of monitoring results helps to effectively monitor business anomalies.

  • Nodes are widely distributed and close to users, which can truly simulate access from global users.

  • Severless application hosting to reduce the pressure of operation and maintenance management.

In IoT scenarios such as smart buildings and smart factories, thousands of devices constantly report massive amounts of data. The value of received data are inconsistent with a lot of noise. When sending data back to the source site for processing, not only the bandwidth cost is extremely high, but also brings great pressure to the source site with concurrency.

  • Based on the data preprocessing solution of edge cloud container, customers can customize source data filtering and analysis rules according to their business scenarios, improve the efficiency of data analysis, reduce the amount of back-to-source data operations by 10-300 times, and greatly reduce the bandwidth and concurrency pressure of the source server.
  • Image/video rendering, gene sequencing and other dynamic cycle, stateless computing services generate a significant amount of data, greatly effecting computing performance which can easily result in higher computing cost.
  • Due to the fact that this type of business are not time sensitive while generating a large amount of data, the ECC platform provides customers with flexible expansion through off-peak pricing and enable customers to leverage high performance computing at a lower cost.
  • Can be used in conjunction with cloud storage, stream processing and other related services to perform data processing, distribution and storage at the edge, greatly reducing the cost of data transmission and distribution.