- Data Transfer Rate: Depending on the data packet size, the card achieves transfer rates of 47.1 MB/s (for 4-byte packets) to 174 MB/s (for 64-byte packets).
- DMA Channels: It features two independent DMA channels for efficient data transfer between the host and the network.
- Interrupt Capability: Any node on the network can generate interrupts on any other node or all nodes simultaneously, facilitating real-time event notification and synchronization.
- PCI Interface: The card complies with PCI Revision 2.2, supporting 64-bit, 66 MHz PCI transmission for high-speed data exchange with the host system.
Functional Characteristics
- High-Speed Data Sharing: The GE VMIPCI-5565-110000 enables real-time data sharing across multiple nodes at deterministic rates, independent of bus structure and operating system.
- Deterministic Performance: The optical ring network architecture ensures predictable data transmission times, crucial for real-time applications.
- Scalability: The network can be easily expanded to include up to 256 nodes, accommodating growing system requirements.
- Flexible Connectivity: Support for both multimode and single-mode fibers allows for flexible network topology design, catering to various distance and bandwidth requirements.
- Error Detection and Correction: The card incorporates error detection mechanisms and redundant transmission modes to enhance data integrity and reliability.
- No Processor Overhead: The reflective memory technology offloads data transmission tasks from the host processor, minimizing processor overhead and improving overall system performance.
- Easy Integration: The card’s hardware-centric design and simple programming interface make it easy to integrate into existing systems, reducing development time and costs.
Application Scenarios
- Industrial Automation: The GE VMIPCI-5565-110000 is widely used in industrial automation systems for real-time data sharing between sensors, actuators, controllers, and other devices, enabling precise control and monitoring of manufacturing processes.
- Aerospace and Defense: In aerospace and defense applications, the card’s high-speed, deterministic data sharing capabilities are essential for real-time control systems, simulation, and testing environments.
- Scientific Research: The card is used in scientific research facilities for data acquisition, analysis, and sharing in high-performance computing clusters and distributed measurement systems.
- Medical Imaging: In medical imaging applications, the card facilitates real-time data transfer between imaging devices and processing units, improving image quality and reducing latency.
- Telecommunications: The card’s high-speed data sharing and low-latency characteristics make it suitable for telecommunications networks, where real-time data transmission is critical.
- Energy Management: In energy management systems, the card enables real-time monitoring and control of power generation, distribution, and consumption, optimizing energy efficiency and reliability.
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