Fusion Intelpage IP

Manual

Network Settings

From the Main Menu, select [3] to enter the network settings screen.

Hostname - The hostname is a unique name that identifies a device on the network.

DHCP Enabled – Dynamic Host Configuration Protocol. If this service exists on your network it can provide the device an IP address, mask and gateway automatically. Some DHCP servers allow the reservation of an IP address for a specified MAC address. If DHCP is not used (box unchecked), the IP address, mask and gateway have to be manually configured. Please consult your IT administrator for these settings. (default Off)

IP Address - The IP Address of the Intelpage IP 5 unit. (default 192.168.0.100)

Mask - The network mask of the network you are connected to. (default 255.255.255.0)

Gateway - If the device is to be accessed from the internet or another network, the gateway is the route used to reach the external network. (default 192.168.0.1)

™NOTE: The IP address, mask and gateway fields will display the current settings. If DHCP is enabled, any changes to the fields will not be saved as they are server assigned.

MAC - This is the Intelpage IP 5’s unique hardware number on the network. The Media Access Control address is factory set and should not need to be changed.

WARNING: Care should be taken if altering the MAC address, as it can result in the unit no longer being addressable.

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Fusion 2.1, INTELPage IP 5 manual Network Settings

INTELPage IP 5, 2.1 specifications

Fusion 2.1 is a powerful platform aimed at enhancing the capabilities of integrated systems, particularly within the context of embedded applications. Developed by Intel, it successfully bridges the gap between hardware and software, creating a seamless experience for developers and users alike. One of the defining aspects of Fusion 2.1 is its robust architecture, which allows for efficient processing and management of resources, tailored specifically for resource-constrained environments.

Among its main features, Fusion 2.1 boasts an advanced virtual machine interface, enabling developers to create and manage multiple virtual machines efficiently. This feature not only optimizes resource allocation but also enhances system performance by running different applications in isolated environments. The platform supports a variety of programming languages, making it versatile and adaptable to various development needs.

Fusion 2.1 also emphasizes connectivity, featuring advanced communication protocols that streamline data exchange between devices and systems. This capability is crucial for the Internet of Things (IoT) and other networked applications where seamless integration is essential. Security is a cornerstone of Fusion 2.1, with built-in encryption and authentication mechanisms to safeguard sensitive data and ensure compliance with industry standards.

When discussing technologies, Fusion 2.1 incorporates several cutting-edge advancements, such as support for machine learning and artificial intelligence. These technologies enable developers to build intelligent applications that can learn and adapt based on user interactions and environmental stimuli. Additionally, the platform offers extensive support for heterogeneous computing, allowing for the combination of different processor types to optimize performance for specific tasks.

The characteristics of Fusion 2.1 make it an ideal choice for industries such as automotive, healthcare, and industrial automation. Its reliability and scalability ensure that as system demands grow, Fusion 2.1 can adapt without compromising performance. Furthermore, the platform is designed to facilitate rapid development cycles, which is essential in today’s fast-paced technological landscape.

In summary, Fusion 2.1 by Intel represents a significant step forward in the domain of integrated systems, offering a comprehensive solution that combines efficient resource management, robust security, and advanced technologies. Its features are tailored for developers, ensuring that they can create optimized applications for a wide range of industries, paving the way for future innovations in embedded systems.