Intel cc3300, cc2300 manual Intel Server Control Installation Guide

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Intel Server Control Installation Guide

10.Select “Run System Setup Utility” under the “Utilities” menu. You will see SSU executables installed the first time and then the Server SSU launches.

11.In the Available Tasks list select Platform Event Manager and click OK.

12.Click the Configure LAN button.

13.Enter the following on the BMC LAN Configuration (LAN) dialog box:

Option

Entry

 

 

Enable LAN Alerts:

Click to enable BMC LAN-alerts (optional).

 

 

Enter New Password:

Enter the BMC LAN Configuration password, up to 16 characters (optional).

 

Default is NULL. This will be used for all LAN connections in CSSU, DPC,

 

PIC, and BMC LAN-alerts.

 

 

Verify New Password:

Re-enter the BMC LAN Configuration password (if one is set).

 

 

LAN Access Mode:

Always Available, which allows DPC and CSSU access via LAN. (By default,

 

LAN access is Disabled.)

 

 

SNMP Community String:

Public (default) unless there is a predefined SNMP host to receive SNMP

 

traps from BMC LAN-Alerts. Must be from 5 to 16 characters.

 

 

IP Configuration:

Static (default) unless you are using DHCP for IP hosting, then select DHCP.

 

 

Host IP Address:

Enter the IP address of the server if you are not using DHCP.

 

 

Gateway IP Address:

Enter the IP address of the router if you are not using DHCP.

 

 

Subnet Mask:

Enter the subnet mask of the hosts on the subnet if you are not using DHCP.

 

 

Alert IP Address:

Enter the IP address of the server to receive SNMP traps for the community

 

defined with the SNMP Community String. Enter 0.0.0.0 (default) if a

 

community is not defined.

 

 

14.Click Save, then Close.

15.Exit from the Server SSU.

16.Quit the menu.

17.Remove the HP Server cc3300 & cc2300 User Information, Diagnostics & Utilities Resource CD from the drive.

18.Reboot the server.

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Contents Document Release Date March Legal Information Contents System Requirements Overview Intel Server ControlWindows 2000 Requirements Additional Requirements for DMI-SNMP Translation Console Requirements OverviewRed Hat Linux 7.1 Requirements Windows 2000 Console RequirementsInstallation Service PartitionService Partition Installation RequirementsBoot the Server from the Service Partition Remotely Booting the Server from the Service Partition Locally Booting the Server from the Service PartitionConfiguring the Server for EMP Access Configuring the Server for LAN Access Option EntryIntel Server Control Installation Guide Using the Client System Setup Utility Cssu Using the Direct Platform Control DPC ConsoleEnabling LAN Events Managed Server Preparation Installing Intel Server Control ISCCompatibility and Upgrade Issues Linux Red HatISC Installation Procedure for Windows 2000 Advanced Server Windows 2000 Advanced ServerInstalling Linux DMI Service Provider Installing ISC Server Instrumentation You should see filenames similar to the followingConfiguring the SNMP-DMI Mapper Launching Intel Server Control ISCCA-Unicenter TNG Intel Server Control H-P Network Node ManagerLANDesk Server Manager ISC ConsoleHP Carrier Grade Server Functionality Matrix Direct Platform Control Console Management Plug-InRemote Boot/Access Service Partition Remote Repair

cc2300, cc3300 specifications

Intel has long been a key player in the semiconductor industry, renowned for its innovative microprocessors and technological advancements. Among its array of products are the CC3300 and CC2300, which are designed specifically for Internet of Things (IoT) applications. These chips are part of Intel's commitment to driving intelligence and connectivity at the edge of networks.

The Intel CC3300 is a highly integrated System-on-Chip (SoC) that combines advanced processing capabilities with state-of-the-art wireless connectivity. Targeting various applications, including smart homes, industrial automation, and wearable devices, the CC3300 offers excellent performance while maintaining energy efficiency. Its architecture supports low-power modes that extend battery life, making it suitable for devices that operate with limited energy resources.

Key features of the CC3300 include robust security protocols, enabling the implementation of secure connections crucial for IoT applications. The chip incorporates hardware-based security features such as encryption engines and secure boot mechanisms that protect data integrity and user privacy. Furthermore, the CC3300 supports multiple protocols, including MQTT and HTTP, allowing developers to choose the best communication method for their needs.

On the other hand, the Intel CC2300, while designed with similar considerations for IoT, emphasizes ultra-low-power consumption and compact design. It excels in scenarios where space is at a premium and where maintaining long battery life is critical. This SoC integrates various peripherals that streamline connectivity options, including Bluetooth, Zigbee, and other short-range communications. The CC2300 is particularly suitable for applications in smart wearables and sensor networks, where size and energy efficiency are paramount.

Both the CC3300 and CC2300 utilize advanced manufacturing technologies, ensuring high reliability and performance. These chips are built on cutting-edge processes that enhance their operational capabilities while reducing the carbon footprint. Additionally, Intel’s dedicated software and development tools facilitate faster prototyping and deployment, empowering developers to bring their innovative ideas to fruition.

In summary, the Intel CC3300 and CC2300 microcontrollers are pioneering solutions for modern IoT applications. With their rich feature sets, energy-efficient designs, and robust security measures, these SoCs are well-positioned to foster the next wave of intelligent, connected devices. By leveraging these technologies, developers can create versatile solutions that enhance the connectivity and functionality of everyday devices, contributing to the broader vision of a smart, interconnected world.