5.Click Save to save the changes.

6.Click Close to return to the PEM window.

7.In the PEM window, click Configure PEP.

8.Select the Enable PEP check box.

9.In the Blackout Period box, enter the minimum time, in minutes, between successive pages. The valid range is [0 - 255] where 0 disables the blackout period. Setting a blackout period can save you from being flooded with repeat pages. After you receive a PEP page, no additional pages are sent by PEP for the duration of the blackout period.

10.In the Paging String box, enter the phone number to dial for the page and the message you want sent with the page. The maximum length for the paging string is determined at run-time from firmware. You will be notified if the string is truncated. Following a save, the actual string saved is displayed in the edit box.

11.From the Options menu, choose Configure Event Actions.

12.In the Platform Event Paging Actions window, move the events that you want to generate an alert to the Enabled column and move all other events to the disabled column using the following buttons:

>>: Moves all events from the enabled list to the disabled list.

>: Moves the selected event from the enabled list to the disabled list.

<: Moves the selected event from the disabled list to enabled the list.

<<: Moves all events from the disabled list to the enabled list.

13.Click Save to save the changes.

14.Click Close to return to the PEP Configuration window.

15.To send a test page to verify that you have correctly configured PEP, from the Options menu, choose Send Alert.

16.Click Save to save the configuration.

17.Click Close to return to the Platform Event Manager window.

Setting Up LAN Alerts

To set up the server to send alerts over the LAN:

1.Configure the remote system to receive alerts. For more information, see the documentation for Intel Server Management software.

2.From the SSU Main window, choose Platform Event Manager (PEM).

3.In the PEM window, click Configure LAN.

4.Select the Enable LAN Alerts check box.

5.(Optional) In the SNMP Community String box, enter a string for the community field in the Header section of the SNMP trap sent for an alert. The string must be from 5 to 16 characters. The default string is public.

6.In the IP Setup box, choose either:

DHCP: the IP address for the server is automatically assigned by the DHCP (dynamic host control protocol) server on the network. The Host, Gateway, and Subnet Mask boxes in the dialog are ignored.

Static: assign the IP address for the server using the Host, Gateway, and Subnet Mask boxes in the dialog.

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Intel SHG2 manual Setting Up LAN Alerts, From the Options menu, choose Configure Event Actions

SHG2 specifications

Intel SHG2, short for Server High-Performance GPU 2, represents a significant evolution in graphics technology designed to meet the demanding requirements of data centers and high-performance computing applications. Developed to support a range of workloads, SHG2 is particularly optimized for artificial intelligence, machine learning, and data analytics.

One of the defining features of the Intel SHG2 is its impressive processing power. With numerous cores capable of parallel processing, it can execute multiple tasks simultaneously, leading to faster computation times. This architecture makes it incredibly efficient for applications that require heavy calculations and real-time data processing.

The SHG2 also embraces advanced fabrication technologies, moving to smaller nodes that enhance power efficiency while delivering higher performance. These innovations not only allow for improved thermal management but also contribute to the reduction of overall energy consumption, making the SHG2 a more environmentally friendly choice for server operations.

In terms of memory support, the SHG2 offers a robust configuration, accommodating high-bandwidth memory (HBM) that ensures quick access to critical data. This feature is essential for applications needing rapid data retrieval and integration, such as deep learning models where every millisecond counts.

Moreover, the SHG2 is built with compatibility in mind. It integrates seamlessly with existing Intel architectures, allowing organizations to leverage their current investments while upgrading their processing capabilities. This compatibility makes it easier for businesses to enhance their infrastructure without undergoing a complete overhaul of their systems.

Another salient characteristic of the Intel SHG2 is its support for virtualization. This allows multiple workloads to be handled simultaneously on a single GPU, maximizing resource utilization and enhancing overall system performance. As enterprises increasingly adopt cloud-based solutions, the ability to virtualize GPU resources becomes critical.

Security is also a major consideration in the design of the SHG2. Intel has incorporated various security features to ensure that data is protected against unauthorized access and vulnerabilities that could threaten system integrity.

As businesses increasingly turn to AI and machine learning to drive innovation, the Intel SHG2 positions itself as an essential tool for those looking to harness the power of advanced computing. With its impressive features, powerful performance, and forward-thinking design, is a strategic choice for organizations aiming to enhance their computational capabilities and meet the challenges of tomorrow's technological landscape.