The best thing about OCCT is that it has a monitoring engine that shows you your CPU’s temperature, voltages, fan speed, frequencies, and other information. Aside from that, it detects hardware flaws when a component fails to operate as intended.
#Intel burn test vs xtu series#
OCCT allows you to conduct a series of intensive tests on your CPU to ensure that all cores are being utilized to their maximum potential.
#Intel burn test vs xtu Pc#
It’s geared toward experts, but anybody with a thorough grasp of PC components may benefit from it. One of the greatest tools for stress testing the CPU and other hardware components is OCCT.
#Intel burn test vs xtu update#
The current AIDA64 update adds wireless remote monitoring of sensor data on smartphones and tablets, as well as support for over 50 LCD and VFD displays.ĪIDA64 can detect temperatures, voltages, fan speeds, and power drain from over 250 different sensor devices. On a variety of LCD/VFD devices connected to the computer, AIDA64 may show critical system statistics. There is also a list of initiated processes, services, DLL files, starting applications, and visited web pages. It also supports systems with multiple processors, multiple cores, and HyperThreading. The CPU of the AIDA64 Extreme is based on the multi-threaded AIDA64 Benchmark Engine, which can handle up to 1280 processing threads at the same time. Because these benchmarks are synthetic, the results only reflect the system’s theoretical (maximum) performance. An extensive hardware database with over 200,000 items supports the hardware detection module.ĪIDA64 Extreme’s benchmark pages offer a variety of ways to assess system performance. Stress testing for hard discs, SSDs, and OpenCL GPGPU video adapters are also provided.ĪIDA64 offers the most precise hardware identification capabilities in its class, allowing it to deliver extensive information on the internals of a computer without having to open it up. The 64-bit multi-threaded stress testing module in AIDA64 System Stability Test is used to push the machine to its ultimate limits.
On RGB devices, it also has a sophisticated RGB LED module for CPU and memory temperatures, usage, voltages, fan speeds, and network traffic. It has a lot of interesting capabilities and can stress test any PC component, including the GPU, CPU, and RAM.ĪIDA64 can identify phony NVIDIA graphics cards by looking for counterfeit PCI IDs and reflashed BIOS images.
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Peak power is significantly higher though - notice the 10900K plot tops out at about 260W, whereas the 11900K's plot goes over 350W.AIDA64 is a professional-level system diagnostic tool. The Core i9-11900K's peak temperature is also about 5-7☌ higher than the Core i9-10900K, but averaged out over the course of the workloads, it's not too different. This data was captured with both processors in the exact same test machine - the only difference is the processor itself.Īs you can see, the Core i9-11900K is more aggressive about shifting though various frequency boost modes, though with fewer cores and some of the lightly threaded workloads on PCMark 10, that's not really a surprise. What you're looking at (click for an enlarged version) are the actual frequencies, temperatures, and package power of the Core i9-11900K and Core i9-10900K, while they're burning through PCMark 10's various workloads, in their stock configurations. What Rocket Lake-S' new boost modes and power consumption characteristics do for frequencies and thermals, across a variety of workloads, is detailed in the plots above. In addition to the new features, however, just about all of the tools you'd use to overclock via the system's BIOS are also available in XTU.Ĭlick To Enlarge (A Similar Plot For The Core i5-11600K Is Available In The Image Gallery) In particular, there are a number of memory-related tools available, including a "Gear 2" mode with wider timings, which should allow for significantly higher frequencies than previous-gen Intel processors.
Intel has introduced a large number of new features into its XTU, Extreme Tuning Utility GUI, as outlined on the slide above. These processors can be overclocked by adjusting BCLK frequencies as well, so it's possible to really fine tune the end result, but manipulating the multipliers is where the largest gains will typically come from. Technically, overclocking a Core i9-11900K processor is similar to any other previous-gen Intel K-SKU processor from the last couple of generations. Because the 11900K is unlocked (like all K-SKUs), overclocking it is a matter of altering a few multipliers, tweaking voltages, and dealing with the additional heat and power requirements.
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