MSI K8T Neo-V AMI Driver
Up at bat is the MSI K8T Neo-FIS2R, featuring Via's K8T chipset and a lot of One AGP (Accelerated Graphics Port) V 4x/8x slot . The BIOS used for the K8T Neo-FIS2R is AMIBIOS, and I updated it to the latest BIOS. specs MSI MS K8T Neo-V AMD Athlon 64 Socket Motherboard Crucial 1gb RAM, pc DDR, non-ecc (only ram chip installed). rd # MSI K9N Neo V2 BIOS Update From USB - Duration: redigitt 9, views · Play next.
|Supported systems:||Windows All|
|Price:||Free* [*Free Regsitration Required]|
MSI K8T Neo-V AMI Driver
The Turbo setting is automatically selected when optimized defaults are loaded from the main menu screen. Thus, the LDT bus speed appears to be asynchronous to the rest of the system.
MSI K8T Neo: BIOS and Overclocking - Athlon64 Motherboards: First Look at Chaintech, FIC, and MSI
Note that for all LDT bus related settings, the numerically higher value is the more aggressive setting. One thing that MSI definitely did well was with the selection of user configurable memory timing options.
The memory frequency becomes user manageable through the Memclock Value option with the Memclock Mode option set to Limit. The Memclock Value option itself allows you to MSI K8T Neo-V AMI a memory type that in effect sets a divider for the occasions when the CPU FSB is raised or lowered.
With the exception of the Bank Interleaving and Burst Length options, MSI K8T Neo-V AMI lower value is the more aggressive value. The Integrated Peripherals menu contains a multitude of options for controlling the VIA chipset controlled devices and ports.
Download MSI K8T Neo-V V BIOS for OS Independent
System performance will suffer noticeably with this setting disabled. Both settings require a different device MSI K8T Neo-V AMI to be installed to the OS to function properly. Unfortunately, MSI did not include any means to throttle the fan speed on monitored fan headers, nor to set a system temperature shutdown threshold.
Also included is MSI K8T Neo-V AMI Dynamic Overclocking option. This option enables the CoreCell Technology chip and sets how aggressively that CoreCell chip attempts to overclock your system. The CoreCell Technology itself is dynamic in the sense that it determines when the system could use a bit of extra power, and enables the overclocking level selected.
Directly to the left of the CPU socket is the Northbridge chipset. The Northbridge is passively cooled by a good sized aluminum heatsink.
The heatsink is held to the board by two push pins, requiring board removal from the system to dismount the heatsink from the chipset. I found the chipset to get rather warm during regular system operation, and would recommend either placing a fan on the heatsink itself, or replacing the entire unit with an active cooled solution.
The placement here is a mixed blessing. It allows for shorter trace routes to the CPU for cleaner power delivery, but can get in the way of airflow around the CPU area.
This should help dissipate the heat from these when overclocking the board. However, the heatsinks will still get hot and would be better implemented with an airflow source blowing across the heatsink surfaces.
It was observed in testing that MSI K8T Neo-V AMI chipset got toasty during normal system operation. The front panel connector headers are located in the lower left corner of the board. The AGP slot is strategically placed in relation to the other system components so that nothing gets in the way of the card when seated into the AGP slot.