#Download poolmon.exe windows 2003 keygen
To support TSO, a network device must support checksum and Scatter-Gather. This technique is also called Large Segment Offload (LSO). TSO is a technique that reduces CPU workloads by using the NIC to split TCP packets. TSO, UDP Fragmentation Offload (UFO), and GSO are intended to improve receiving and transmitting performance, and Large Receive Offload (LRO) and Generic Receive Offload (GRO) are intended to improve receiving performance. These parameters are intended to improve data receiving and transmitting performance.
TCP Segmentation Offload (TSO) and Generic Segmentation Offload (GSO) are disabled for the bonded port in RHEL 6.5, and are enabled for the physical ports and the bonded port in SLES 11 SP3. Based on the preceding verification, the poor performance of the bonded port has little to do with the NIC and much to do with RHEL 6.5. Use netperf to perform a test, and the throughput over the TCP in the port bonding scenario is much lower than expected. The total throughput increases, but the maximum throughput is still about 6 Gbit/s, lower than the expected 8 Gbit/s. Run multiple iPerf processes at the same time. The CPU usage is higher in the port bonding scenario. In both scenarios, data receiving and transmitting are performed in two queues. Measure the network interrupt queue distribution using one iPerf process respectively in port bonding and non-bonding scenarios, and little difference is recorded. Delete intel_iommu=on from /boot/grub/nf. In the System log, no log that triggers system shutdown is found, as shown in Figure 5-345. Based on the obtained board OS time, view Windows event logs including the System and Application logs in the level sequence of Error, Warning, and Information. View the time difference between the BMC and the board OS, and obtain the board OS time based on the time that the system reboot log is generated. Therefore, the energy saving function has no impact on the board. After running for an hour, the board shuts down. In the BIOS, set Advanced > CPU Configuration > Intel(R) TurboMode tech and Advanced > Intel(R) SpeedStep(tm) tech to Disabled, and set Advanced > ACPI Configuration > ACPI Version Features to ACPI v2.0. Check whether the board shuts down due to abnormal basic input output system (BIOS) energy saving parameters and power options of the operating system (OS). Therefore, the Oracle service has no impact on the board. An hour later, the board automatically shuts down. Check whether the timing task of the service is triggered. The Oracle database service runs on the board. No hardware alarm is found however, it is found that the board is powered off regularly, that is, the interval for restarting the board is about one hour. Check the baseboard management controller (BMC) system status of the board (focusing on power alarms). After multiple tests, the virtual CD-ROM drive can be connected and disconnected properly. The system displays a message indicating that the mounting succeeds. Right-click Internet Explorer and choose Run as administrator from the shortcut menu, and mount image files by using the virtual CD-ROM drive for the KVM. Close Internet Explorer, and reopen Internet Explorer as an administrator. The system prompts that the virtual CD-ROM drive cannot be opened, indicating that the virtual CD-ROM drive is not used by other users. Restart the BMC, and remount UVP C01 and Windows Server 2003 image files. 
The system prompts that the virtual CD-ROM drive cannot be opened, indicating that image files are not used by other users or programs.
Cut UVP C01 and Windows Server 2003 image files to other folders, and remount these image files. After mounting the UVP C01 and Windows Server 2003 image files, the system prompts that the virtual CD-ROM drive cannot be opened. UVP C01 and Windows Server 2003 image files are available on site, and the files are in good condition.
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