AMD FD9370FHHKWOF Detailed description of AMD OverDrive utility screenshot, Target clock speeds

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Figure 1, presented above shows all the available clock/voltage tuning options available in the AMD OverDrive™ utility. The processor, northbri dge, PCIe and memory can all be adjusted to obtain an optimally tuned system.

Detailed description of Figure 1 (AMD OverDrive utility screenshot):

Current clock speeds (1)

This section offers real-time monitoring for all the crucial clock speeds

Target clock speeds (1)

The values under this section are calculated based on the clock sliders. It is a convenient way to see the target clock speeds before actually applying the settings.

CPU Multiplier (2)

The sliders in this section control the CPU multiplier. In the case of AMD FX-8150 CPU the best practice is to adjust all CPU cores to the same value. Target clock speed (1) should be taken into account when adjusting CPU Multiplier to ensure that the CPU core clock speed doesn’t reach unstable value.

The sliders adjust the CPU multiplier of the base frequency (P0). If the AMD Turbo Core technology feature is enabled the multiplier range will be limited to the AMD Turbo Core clock multiplier. Disabling the Turbo Core will extend the range.

HyperTransport™ (HT) reference clock (3)

Almost all the clocks are based on the HT reference clock (200MHz by default). Therefore adjusting the HT reference clock will increase the clock speed of most key components in the system. This includes CPU core clock, CPU NB clock (Memory controller), Memory clock and HT clock frequency. Again, please refer to the “Target Speed” section before actually applying the HT reference clock adjustment. In many cases the HT reference clock margin can be limited by the System Memory clock. If this is the case, it is a good idea to adjust the System Memory settings to a lower value from the System BIOS [e.g. adjust Memclk mode from DDR3-1833(933MHz) to DDR3-1600(800MHz) and ensure that safe, manual memory timings and voltage are applied from the BIOS.]

HyperTransport™ (HT) Link multiplier (3)

This item can be used to adjust the HT Link multiplier value.

The range of HT Link multiplier depends on the CPU capabilities: with HT1 generation CPU the slider can only go up to X5 (1GHz mode), with HT3 generation of CPUs it can go up to X13 (2.6GHz mode). If HT3 CPU is booted up in HT1 mode (e.g. X5 or lower HT Link multiplier) it cannot be adjusted to HT3 mode on the fly. Switching from HT1 to HT3 mode requires a BIOS adjustment. In most cases it is best to adjust the HT Link multiplier from the BIOS.

PCIe® Speed (5 )

This item controls the PCIe® clock frequency of the PCIe® graphics slots. By default this value is 100MHz. Increasing this value can provide slightly improved 3D performance.

CPU Core voltage adjustment (5)

This item can have two sliders: CPU VID and CPU VDDC. The amount of sliders depends on the motherboard that is being used. The CPU VID value is limited to max VID value (1.55V for instance) supported by the CPU. CPU VDDC (or CPU Vcore Offset) slider can be used to adjust the CPU Vcore above the max VID value.

NOTE: If VID OVERRIDE (or “manual mode”) has been enabled from the BIOS the VID sliders have no impact on actual voltage level.

NOTE2: The CPU VID slider has no impact on the voltage that is applied in Turbo Core clock modes. This slider adjusts the voltage of the base frequency mode (P0). The range of the slider is limited to the Turbo Core mode voltage value. Disabling Turbo Core will extend the range to the maximum supported VID value (1.550V in the case of the AMD FX-8150 CPU).

Boosting the CPU Vcore voltage can improve the performance tuning headroom of the CPU Core.

PLEASE NOTE THAT CPU POWER AND THERMAL REQUIREMENTS INCREASE EXPONENTIALLY WHEN THE VOLTAGE IS INCREASED. VOLTAGE ADJUSTMENT IS ALWAYS A RISK AND CAN DAMAGE THE HARDWARE AND / OR SHORTEN THE LIFESPAN OF THE CPU OR OTHER COMPONENTS.

System Memory voltage adjustment (5)

This item can also have two sliders (depending on the motherboard that is being used). “Memory VDDQ” (memory core voltage) that defaults to 1.5V is the slider that should be adjusted in most cases. The other slider (Memory VTT) will adjust automatically according to the VDDQ slider adjustment. Normally the VTT level should be 50% of VDDQ level.

Boosting the memory voltage can improve System memory performance tuning.

PLEASE KEEP IN MIND THAT MEMORY VOLTAGE ADJUSTMENT CAN DESTROY NOT ONLY THE MEMORY BUT ALSO THE CPU AND CAN

Chipset voltage controls (5)

There are several voltage rails connected to the AMD 9- series chipset. The PCIe® bus, HyperTransport™ link and Chipset core all have separate voltage rails and controls. Boosting these voltage levels can result in improved performance tuning margin for these interfaces. For an example, boosting the HyperTransport™ link voltage by 0.1V can enable higher HT Link frequencies.

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Contents Page Disclaimer Introduction Glossary of Terms Glossary of Terms AMD OverDrive utility Advanced ModeTarget clock speeds Detailed description of AMD OverDrive utility screenshotMemory timing adjustments Memory TuningAMD OverDrive utility Stability Test AMD OverDrive utility Stability TestingCPU Core Clock Performance Tuning AMD Scorpius platform Performance Tuning Sugges tionsCPU tuning with the AMD OverDrive utility CPU NorthBridge Performance Tuning AMD OverDrive utility HT ref. clock slid er CPU NB settings to adjust from the Bios menu CPU NB performance tuning through the Bios menuMemory Performance tuning AM3+ / DDR3 Advanced Memory tuning examples Memory clock fine tuning parameters HyperTransport HT Link frequency HyperTransport HT reference clockAMD Scorpius Platform Technology Performance Tu ning Targets Attribution

FD9370FHHKWOF specifications

The AMD FD9370FHHKWOF is a powerful processor that has been designed to meet the demanding needs of gamers and professional users alike. This high-performance CPU is part of AMD's FX series and features innovative architecture and advanced technologies that enhance its overall performance and efficiency.

One of the standout features of the FD9370FHHKWOF is its eight cores, which allows for exceptional multitasking capabilities. With a base clock speed of 4.4 GHz and the ability to boost up to 4.7 GHz, this processor is capable of handling intense workloads with ease. Its architecture is built on the 32nm process technology, allowing for reduced power consumption while maintaining high levels of performance.

The FD9370FHHKWOF supports AMD's Turbo Core technology, which automatically adjusts the processor's clock speed to provide maximum performance when needed. This feature ensures that users can enjoy smooth gameplay and seamless application performance during high-demand scenarios. Additionally, the processor supports a range of thermal management technologies, allowing for optimized thermal performance and heat dissipation.

This CPU also integrates the latest in AMD's instruction set, which includes support for AVX, FMA4, and XOP instructions. These enhancements enable improved performance in applications that require heavy numerical processing, making it a particularly attractive option for users engaged in tasks such as video editing, 3D rendering, and simulations.

The FD9370FHHKWOF is compatible with a variety of motherboards that utilize the AM3+ socket, offering flexibility for users looking to upgrade their systems. It supports dual-channel DDR3 memory, with speeds up to 2133 MHz, further enhancing memory bandwidth and overall system responsiveness.

In terms of power consumption, the processor has a thermal design power (TDP) of 220 watts, which means users should pair it with adequate cooling solutions to maintain optimal operating temperatures.

Overall, the AMD FD9370FHHKWOF stands as a formidable option for users seeking a high-performance CPU that can accommodate the demands of modern gaming and professional applications. With its multi-core design, robust clock speeds, and support for advanced computing technologies, this processor is well-equipped to deliver an outstanding computing experience.