E810CQDA2TGG1 Intel 2-Port 100GBE QSFP28 Mezzanine PCIe Network Adapter

Overview of Intel E810CQDA2TGG1 2-Port 100GBE PCIe Adapter

The Intel E810CQDA2TGG1 network adapter is a high-performance dual-port 100GbE solution designed for enterprise data centers, cloud computing, and precision timing applications. Built on PCIe 4.0 architecture, this advanced NIC delivers exceptional throughput, low latency, and scalable networking performance for modern high-bandwidth infrastructures. The mezzanine form factor provides compact integration into compatible server platforms while maintaining high bandwidth efficiency and low latency communication

General Product Information

• Manufacturer: Intel
• Part Number: E810CQDA2TGG1
• Product Type: Network Adapter

Technical Specifications

• Interface: 2-Port 100GBE
• Use Case: Enterprise Networking, Data Center, Precision Timing
• Expansion Slot Type: QSFP28
• Host Interface: PCI Express 4.0 x16

Performance Capabilities

• Maximum Data Transfer Rate: Up to 800 Gbit/s
• Network Technology: 100GBASE-CR2
• Network Technology: 100GBASE-CR4

Supported Media Types

• Optical Fiber
• Coaxial Cable

Network and Communication Standards

• 100GBASE-CR2
• 100GBASE-CR4

Highlights of Intel E810CQDA2TGG1 QSFP28 Precision Adapter

The Intel E810CQDA2TGG1 Dual Port 100GbE QSFP28 Precision Timing Mezzanine PCIe Network Adapter is engineered for next-generation enterprise data centers, telecom infrastructures, high-performance computing clusters, and precision timing-sensitive workloads. Designed on Intel’s advanced Ethernet controller architecture, this adapter delivers ultra-high-speed 100 Gigabit Ethernet connectivity with dual-port QSFP28 interfaces, enabling scalable and resilient networking performance across modern distributed systems.

Dual Port 100GBE High-Speed Networking

The Intel E810CQDA2TGG1 network adapter features dual 100GbE QSFP28 ports designed to support extremely high data throughput in enterprise and hyperscale environments. Each port is capable of delivering massive bandwidth for simultaneous bidirectional data transmission, ensuring efficient handling of large-scale workloads such as AI model training, distributed storage synchronization, and real-time analytics processing. The dual-port architecture enhances network flexibility by enabling redundancy, load balancing, and high availability configurations across mission-critical infrastructure deployments.

Data-Intensive Applications

Modern enterprise workloads require consistent and high-speed data movement between compute nodes, storage systems, and cloud platforms. The E810CQDA2TGG1 adapter optimizes throughput by leveraging Intel’s advanced Ethernet controller design to minimize packet processing overhead and maximize bandwidth utilization. This enables efficient communication across distributed environments where large volumes of data are continuously exchanged. Optimized throughput ensures stable application performance and reduces bottlenecks in high-performance computing environments.

Stable Data Flow in High-Traffic Environments

High-traffic enterprise networks often experience congestion and latency variations due to fluctuating workloads. The Intel E810CQDA2TGG1 adapter ensures stable data flow by intelligently managing packet transmission and maintaining consistent throughput across both ports. This stability is essential for workloads requiring uninterrupted communication, such as AI training clusters, financial systems, and cloud-native applications. Stable data flow improves system reliability and enhances overall infrastructure performance.

Precision Timing Technology

One of the key differentiators of the Intel E810CQDA2TGG1 adapter is its integrated precision timing capabilities, which enable highly accurate time synchronization across distributed systems. This feature is critical for applications that depend on deterministic networking behavior, such as telecommunications infrastructure, industrial automation, and financial trading systems. Precision timing ensures that network events are synchronized with microsecond-level accuracy, improving coordination across large-scale distributed environments.

High-Accuracy Time Synchronization

Accurate time synchronization is essential for distributed computing systems that rely on coordinated execution of tasks across multiple nodes. The E810CQDA2TGG1 adapter supports advanced timing protocols that ensure precise alignment of network events across enterprise infrastructures. This improves workload consistency and enables deterministic behavior in systems where timing accuracy is critical. High-accuracy synchronization enhances operational efficiency and reduces inconsistencies in distributed environments.

Financial Time-Sensitive Applications

Telecommunications and financial industries require extremely precise timing for transaction processing, data synchronization, and network coordination. The precision timing capabilities of the Intel E810CQDA2TGG1 adapter ensure that these industries can maintain strict timing accuracy across distributed systems. This enables reliable execution of time-sensitive operations such as high-frequency trading and mobile network synchronization. Enhanced timing accuracy improves service reliability and regulatory compliance.

PCIe Mezzanine Form Factor Integration

The Intel E810CQDA2TGG1 adapter is designed in a mezzanine PCIe form factor, allowing seamless integration into compatible server architectures. This compact design enables efficient use of internal server space while maintaining high-performance networking capabilities. Mezzanine integration is commonly used in blade servers and high-density computing environments where space optimization and thermal efficiency are essential. The design ensures reliable connectivity and stable operation in enterprise-grade server systems.

High-Density Server Environments

High-density data centers require networking solutions that maximize performance while minimizing physical footprint. The mezzanine form factor allows the E810CQDA2TGG1 adapter to be deployed in compact server configurations without compromising bandwidth or performance. This enables organizations to scale infrastructure efficiently while maintaining optimal space utilization. Compact deployment enhances data center design flexibility and operational efficiency.

Reliable Hardware Integration

The adapter is engineered for reliable integration into enterprise server platforms, ensuring consistent connectivity and stable performance across long-term deployments. Its mezzanine architecture provides secure physical mounting and electrical connectivity within supported systems. Reliable hardware integration enhances system stability and reduces maintenance requirements in large-scale data center environments.

Dual Port QSFP28 Connectivity

The dual QSFP28 interface enables the Intel E810CQDA2TGG1 adapter to deliver high-bandwidth connectivity across enterprise and cloud environments. Each QSFP28 port supports 100GbE speeds, enabling simultaneous high-speed data transmission across multiple network paths. This configuration enhances scalability and provides flexibility in designing redundant and high-performance network architectures. Dual-port connectivity ensures efficient bandwidth utilization across distributed systems.

High-Speed Data Transfer

Enterprise applications such as AI training, virtualization, and big data analytics require extremely fast data transfer capabilities to maintain operational efficiency. The QSFP28 interface ensures that large volumes of data can be transmitted quickly and reliably across network infrastructures. High-speed transfer improves application responsiveness and reduces processing delays in distributed environments. This enhances overall system performance and scalability.

Redundant Network Path Configuration

Redundancy is essential for maintaining uninterrupted network connectivity in enterprise environments. The dual-port design allows for redundant network paths that ensure continuous operation even in the event of a port or link failure. This improves system resilience and reduces downtime risks in mission-critical infrastructures. Redundant configurations enhance operational reliability and service availability.

Load Balancing Traffic Distribution

Load balancing across dual ports ensures efficient distribution of network traffic, preventing congestion and improving overall throughput. The E810CQDA2TGG1 adapter intelligently manages traffic flows to optimize bandwidth utilization across both interfaces. This improves network efficiency and ensures stable performance under heavy workloads. Load balancing enhances scalability and infrastructure performance consistency.

Enterprise Networking Performance

The Intel E810CQDA2TGG1 adapter is engineered to deliver optimized networking performance for enterprise environments that require high throughput, low latency, and reliable data transmission. Advanced hardware acceleration and intelligent packet processing reduce CPU overhead and improve system efficiency. This ensures that enterprise workloads operate smoothly even under heavy network traffic conditions. Performance optimization enhances scalability and operational stability across distributed infrastructures.

Hardware Acceleration

Hardware acceleration offloads network processing tasks from the CPU to the adapter, improving overall system efficiency and reducing latency. The E810CQDA2TGG1 uses advanced hardware engines to process packets efficiently and minimize processing delays. This enables faster communication between systems and enhances application performance. Hardware acceleration improves throughput and reduces system bottlenecks.

Reduced CPU Overhead in Enterprise Systems

By offloading networking tasks to dedicated hardware, the E810CQDA2TGG1 reduces CPU utilization and frees system resources for application workloads. This improves overall system efficiency and allows servers to handle more compute-intensive tasks. Reduced CPU overhead enhances scalability and improves infrastructure performance in enterprise environments. This results in better resource utilization and operational efficiency.

High-Performance Computing

The Intel E810CQDA2TGG1 adapter is well-suited for AI, cloud computing, and high-performance computing environments that require high bandwidth, low latency, and precision timing. These workloads depend on fast and reliable network communication to ensure efficient processing across distributed systems. The adapter supports scalable infrastructure deployments that enhance performance in demanding computational environments. Its advanced features make it ideal for next-generation computing applications.

Machine Learning Workload Acceleration

AI and machine learning applications require fast data exchange between GPUs, CPUs, and storage systems to maintain training efficiency. The E810CQDA2TGG1 adapter accelerates communication between distributed AI nodes, improving model training speed and reducing latency. This enhances the performance of machine learning pipelines and supports large-scale AI deployments. Accelerated networking improves computational efficiency.

Cloud Infrastructure Networking

Cloud environments require scalable and efficient networking solutions to support dynamic workloads and multi-tenant architectures. The adapter improves cloud networking efficiency by providing high-bandwidth connectivity and reliable performance across virtualized environments. This enhances resource utilization and supports seamless workload migration. Cloud efficiency improves operational scalability and flexibility.

High-Performance Computing Cluster

High-performance computing clusters rely on low latency and high bandwidth networking to support scientific simulations, data modeling, and complex computations. The E810CQDA2TGG1 adapter optimizes communication between compute nodes, improving synchronization and processing speed. This enhances overall HPC performance and supports advanced computational workloads. Cluster optimization improves research and enterprise computing capabilities.