CoDAG Testnet

CoDAG is a new compact DAG structure independently developed by the Blockcloud team.
Through tight connection, reliable blocks are closely connected to the Internet.
Malicious nodes are difficult to enter, thus achieving higher security performance and more certain transaction confirmation time.
Hierarchical Lightweight Transmission
Optimize the node selection process of traditional DAG networks and achieve consensus within a controllable time
codag test
Development of CoDAG Testnet has been completed in the second quarter of 2019. Currently, development and testing of CoDAG Testnet-based blockchain browser, Web wallet and APP wallet (iOS) have also been completed, and will be launched soon.

Blockcloud Edge Computing Platform

Faster, More Stable & Secure Network Connectivity

At present, with the rise of artificial intelligence and the Internet of Things, a large amount of data flows upward from the bottom of the network, especially in some industrial Internet application scenarios such as remote control and security monitor, which have extremely high requirements for network delay and flow cost. Traditional cloud computing center becomes a bottleneck, which limits the development and application of the network. Therefore, Blockcloud chose the Industrial Internet as one of the priority landing scenarios, and developed the Edge Computing Platform based on the Blockcloud network, which is now open to developers and industrial Internet companies.

The Blockcloud Edge Computing Platform is an edge computing network platform based on Blockcloud technology. It is dedicated to creating a "faster, more stable, and more secure" network connection that meets the needs of 5G, AI, and IoT era. The Blockcloud Edge Computing Platform deploys computing power in the edge network, providing developers with a multi-language API development environment, and enterprise users with a one-click API intelligent scheduling service. It ensures network security and reliability while significantly improves network performance and dramatically reduces access complexity, network latency, and flow costs.


  • Low Latency

    Massive global edge nodes provided; Match the most efficient nodes according to geographical location and network, environment at any time; Millisecond-level computing responsiveness effectively supported; Reconnect services without interruption in mobile state seamlessly.

  • High Performance

    Upgraded network nodes; No longer simple static resource access; Full-featured computing environment and complex computing logic Supported.

  • Extra Reliable

    Multi-dimensional data and security protection; Secure, stable and reliable data and services; Reduce possibility of service provider’s wrongdoing; Require prepaid deposit and miner verification.

  • Low Cost

    Load balancing before global edge nodes; Reduce system operation and maintenance costs greatly; No need to allocate resources beforehand; Enterprise users will be charged dynamically according to the consumed resources (CPU, memory) to avoid waste caused by long-time low-load operation.

  • Easy Operation

    Support API mode by "one-click" access; No need to pay attention to complex network communication; No complicated program development, operation and maintenance; Help to focus on the service itself; Directly transfer relevant API interface based on the business scenario.

  • High Extensibility

    Multiple programming languages and development environment supported; Plenty open interfaces; Facilitate more extended accesses.

Industry Cases