Smart Port Project for a Large Science and Technology Company
Standardization of Hyperconverged Factory for a Large Automotive Parts Company
Hyperconverged Infrastructure for Core Applications of a Semiconductor Company
Standardization of VSAN in a Large Automotive Manufacturing Plant
Intelligent Information Network Infrastructure Development for a Large Bank Office Building
Endpoint Security Implementation Project for a Manufacturing Plant
Data Security Compliance Transmission Project for a Large Bank
Disaster Recovery Backup Project with Two Locations and Three Centers for an Airline Company
Sustained Core Database Operations Project for the Semiconductor Industry
HPC Infrastructure Development Project for a Global Automotive Parts Supplier
Cross-Border Data Consulting and Remediation for a Multinational Manufacturing Enterpris
Integration and Operation of a Managed Security Platform for a Foreign Investment Fund
Unified Security Operations Platform Development Project for an Internet Financial Institution
Managed Security Operations Service Project for an Internationally Renowned Cosmetics Brand
Managed Security Operations Service Project for a Currency Brokerage Company
Technical Support for Critical Security Defense for a Leading Domestic Securities Service Provider
Penetration Testing Service Project for an Automotive Parts Manufacturing Company
Security Baseline Scanning Service for the Insurance Industry
The Bank, jointly established by Brazil, Russia, India, China, and South Africa, aims to mobilize resources for infrastructure and sustainable development projects in emerging economies and
developing countries, thereby complementing the efforts of multilateral and regional financial institutions in fostering global growth and development.
This project encompasses the procurement, installation, commissioning, engineering, and network migration for the first phase (Phase 1) of the informatization project for the headquarters
building of *** Bank. The areas to be developed under this tender primarily include three components: the central switching area, the data center area, and the office network area. This
initiative aims to establish a stable, efficient, and intelligent network system.
First Stage:
• Establishment of the office network within the building, encompassing both wired and wireless connections;
• Deployment of SDN controllers for the campus network;
• Unified management of wired and wireless devices with centralized configuration of controllers to oversee the campus network.
Second Stage:
• Construction of the data center network;
• Deployment of SDN controllers for the data center;
• Management of internal switches and firewall devices within the data center, overseeing the data center network.
Third Stage:
• Development of the Internet of Things (IoT) network within the building;
• Deployment of an IoT management platform;
• Management of IoT gateways, configuration of IoT asset management scenarios, and administration of related assets within the building.
Dual SDN fusion scheme for a limited number of domestic parks and data centers.
Actual deployment of IoT application scenarios.
The SDN network system possesses self-healing capabilities, thereby reducing the need for troubleshooting by operation and maintenance personnel and enhancing overall business efficiency.
Additionally, it employs new technologies to replace traditional asset management methods, significantly improving the convenience of asset management.