Description
Advanced Network Management
Advanced Network Management refers to the set of tools, techniques, and processes used to monitor and manage a network environment, with the aim of improving its performance, reliability, and security. In the context of the HPE 877688-001 Infiniband 841 EDR Ethernet Adapter, there are several advanced network management features that can be used to optimize the performance of the adapter and the network environment in which it operates.
Some of the advanced network management features that may be available for the HPE 877688-001 Adapter include:
- Quality of Service (QoS) – QoS allows network administrators to prioritize traffic based on its importance, ensuring that critical traffic receives the necessary bandwidth and latency while ensuring that less critical traffic does not impact network performance.
- Network Virtualization – Network virtualization allows administrators to create multiple virtual networks that share the same physical network infrastructure, enabling more efficient use of network resources and better isolation of network traffic.
- Traffic Management – Traffic management tools allow administrators to monitor and control network traffic, ensuring that it is flowing optimally and preventing congestion and bottlenecks.
- Network Monitoring – Network monitoring tools allow administrators to track network performance and detect issues or anomalies, enabling proactive troubleshooting and ensuring that network performance is optimized.
- Security Management – Security management tools allow administrators to implement security policies and measures to protect the network environment from threats and ensure that sensitive data is secured.
- Automation – Automation tools allow administrators to automate routine network management tasks, reducing the risk of human error and improving efficiency.
The use of advanced network management tools and techniques can help ensure that the HPE 877688-001 Adapter operates optimally and that the network environment in which it operates is reliable, secure, and performing at its best.
Infiniband Technology
InfiniBand is a high-speed networking technology that is designed to interconnect servers, storage devices, and other network devices within a data center. It is a switched fabric architecture that uses a combination of point-to-point and multicast communication to enable high-bandwidth, low-latency data transfers.
InfiniBand technology uses a packet-based communication model, where data is divided into small packets and transmitted across the network using virtual lanes. These virtual lanes are a collection of physical wires that are dedicated to a particular communication path, providing deterministic and reliable communication.
InfiniBand technology is highly scalable and can support multiple topologies, including point-to-point, switched, and hybrid. It supports multiple data rates, ranging from 2.5 Gbps to 600 Gbps, with very low latency and high throughput.
One of the key features of InfiniBand technology is its support for Remote Direct Memory Access (RDMA), which allows data to be transferred directly between the memory of two systems without requiring any involvement from the CPU or operating system. This can greatly reduce the overhead and latency associated with data transfers.
InfiniBand technology is commonly used in high-performance computing (HPC) environments, where low-latency, high-bandwidth communication is critical for applications such as scientific simulations, data analytics, and machine learning. It is also used in storage environments, where it can provide high-speed access to shared storage devices such as network-attached storage (NAS) and storage area networks (SANs).
Environmental Characteristics
Environmental Characteristics refer to the conditions or factors in the physical environment that can affect the operation and performance of a hardware device or system, such as the HPE 877688-001 Infiniband 841 EDR Ethernet Adapter.
Some of the key environmental characteristics that can impact the adapter’s operation and performance include:
- Temperature – The operating temperature range for the adapter, as well as the maximum and minimum storage temperatures, should be considered to ensure that the adapter operates reliably.
- Humidity – The adapter may have specific requirements for relative humidity levels, and this should be taken into account to ensure that the adapter operates optimally and that moisture does not cause any damage.
- Altitude – The operating altitude range for the adapter should be considered, especially if it is to be deployed in high altitude locations.
- Vibration – The adapter may have specific vibration tolerance levels, and this should be taken into account if it is to be deployed in environments with high levels of vibration.
- Shock – The adapter may have specific shock tolerance levels, and this should be taken into account if it is to be deployed in environments where it may be subjected to impact or shock.
- Electrical power – The adapter may require specific power input levels or power supply options to operate correctly, and these should be considered when selecting a power supply or planning the deployment.
- EMI/EMC – The adapter may have specific requirements for electromagnetic interference (EMI) and electromagnetic compatibility (EMC) to ensure that it does not interfere with other devices or is not affected by other devices in the same environment.
Considering the environmental characteristics is essential to ensure that the adapter operates reliably and optimally in the intended deployment environment, minimizing the risk of failure or performance degradation due to environmental factors.
General Information about this HPE 877688-001
- Manufacturer: HPE
- Part Number or SKU# 877688-001
- Product Type: 100 Gigabit Adapter
Product Information
- Total Number: Ports 1
- Expansion Slot Type: QSFP28
- Media & Performance
- Network & Communication
- Network Technology:100 GB
- Form Factor: Plug-in Card