The new AIDA64 update introduces optimized benchmarks for AMD Ryzen 5000 Series processors, monitoring of EVGA iCX3 sensor values, and supports the latest AMD and Intel CPU platforms as well as the new graphics and GPGPU computing technologies by both AMD and nVIDIA.
AIDA64 for Huawei devices
AIDA64 for Android has crossed the 10 million download mark at the Play Store. It is also available now in the Huawei AppGallery, a blooming app store that offers automatic updates and various security features.
New features & improvements
- AVX2 and FMA accelerated 64-bit benchmarks for AMD Zen 3 based Ryzen 5000 Series processors
- EVGA iCX3 sensor support
- GPU details for AMD Radeon RX 6000 Series
- GPU details for nVIDIA GeForce RTX 3050, GeForce RTX 3060, GeForce RTX 3060 Ti, GeForce RTX 3070 Ti, GeForce RTX 3080 Ti
What's new since AIDA64 v6.00
- SHA3-512 cryptographic hash benchmark utilizing AVX, AVX2 and AVX-512
- AVX-512 accelerated benchmarks for Intel “Ice Lake”, “Rocket Lake”, “Tiger Lake” processors
- AVX2 and FMA accelerated 64-bit benchmarks for AMD Zen 2 “Matisse” and “Renoir” processors
- AVX accelerated 64-bit benchmarks for Zhaoxin ZX-C+, KaiXian KX-5000, KaiXian KX-6000 processors
- SSE4 optimized 64-bit benchmarks for Intel "Lakefield" SoC
- Further optimized SHA3-512 cryptographic hash benchmark
- Art.Lebedev Optimus Popularis, BeadaPanel, El Gato Stream Deck, EVGA Z10 RGB, Matrix Orbital EVE3 LCD display support
- SteelSeries Apex 7, Apex 7 TKL, Apex Pro, Apex Pro TKL, Rival 710 OLED OLED display support
- Corsair H100i Platinum and H115i Platinum liquid cooler sensor support
- NZXT Kraken X53, X63, X73, Z63, Z73 sensor support
- Enhanced RGB LED monitoring module
- Cooler Master MP750 RGB LED mousepad support
- Aqua Computer Octo, Corsair Obsidian 1000D, EVGA iCX2, Farbwerk 360, NZXT GRID+ V3 sensor support
- Full support for Hygon C86 “Mukti/Dhyana” CPU
- Improved support for 3rd generation AMD Threadripper processors
- Improved support for Intel “Comet Lake” and “Ice Lake” CPUs
- Improvements for AMD A520, B550, X570 chipset based motherboards
- Support for PCI Express 4.0 controllers and devices
- Preliminary support for Intel "Alder Lake", “Elkhart Lake”, “Jasper Lake” CPUs
- Enhanced support for LGA-1200 motherboards
- Advanced support for LSI RAID controllers
- NVMe 1.4 support
- OpenCL 3.0 support
- SMBIOS 3.4.0 support
- GPU details for AMD Radeon Pro W5500, Radeon RX 590 GME, Radeon RX 5500, Radeon RX 5600 XT, Radeon RX 5700, Radeon VII Series
- GPU details for nVIDIA GeForce GTX 1600, GeForce GTX 1650 Ti, GeForce MX330, GeForce MX350, GeForce MX450, GeForce RTX 2000 Super, GeForce RTX 2060 Series, GeForce RTX 3000 Series
- Preliminary support for AMD “Navi” GPUs
- Fixed handling of per-core HyperThreading (Intel Comet Lake-S)
- Fixed lockup at startup on systems with multiple CPU groups
- Retired SHA1 and VP8 benchmarks
[ Press Release (English) ]
[ Press Release (magyar) ]
[ What's new in AIDA64 v6.35 ]
[ Download ]
First time posting to the forum, indeed it is my first time viewing the forum. Ive been using the Engineer version of Aida64 (registered) for about 3 months now, and overall Im impressed with the software. Its nice to just throw together a few different benchmarks and have them run how and when I want in the order I want. I was doing all this with macros before
Ive recently gotten back into building PCs, took a long hiatus back in the late 90s my last system having been assembled was a 440BX based chipset on an Abit motherboard, both of which no longer exist at least in a meaningful way lol. I was an OC neophyte back then, as I am now, although I do enjoy the hobby/sport(?)
I decided to wade into the dark and murky waters of RAM OCing, and went down that rabbit hole for a few weeks. Long story short, I bought 2 x 16GB sticks of G.Skill 3600mhz XMP mem. Stock timings sucked at 19-20-20-40-500 but I didnt know or care much about timings at the point I bought and assembled the system and so didnt realize their huge impact (relatively speaking) on ram performance.
I was able to get them to post at 4000mhz 17-22-22-36-485 and ran that for a few months, then last night got the idea to try and tweak them some more, thinking maybe all these on off cycles might have trained them to do better (i dont know if that logic is incorrect or not in regards to training, but its how I justified another sweaty night of swearing out loud and smashing keys to my wife)
Im now resting at 4000mhz 16-22-22-40-500 but I can feel they have more to give in the timings department. Frankly, im already amazed at how well these Hynix CJR chips are doing on the OC. My question is basically, Aida shows me as being first place in Latency, and near top tier in every memory bench, with only quad channel or server boards (mostly) beating me. Are these results typical for these chips and my rig? What can I do to push it further if anybody has any recommendations? And am I correct in feeling a sense of accomplishment at being in the top spot for latency, or is my joy tragically misplaced?
Thanks a lot guys, and to the Devs, great product and I will continue to use and support you!
Relevant Screens attached.
Is it possible with Aida64 Pro to send selected (or all) benchmarking information to a channel like a txt file, a database or serial port?
I'm asking because I would like to create my own sensor panel with a Raspberry Pi for a home project. For this, I would need to send the Aida64 data somewhere, then the Raspberry Pi could grab all the info and parse it to:
-Log past data
-Send on my server for remote viewing
-insert in a database for custom statistics
Ryzen infinity fabric for ZEN and ZEN+ (Ryzen 1X00 series and 2X00 series) make memory overclock more useful but complicated.
Sometimes, overclock fails even if both memory modules and memory controller works well but infinity fabric fails.
There are claims that AIDA64 Cache & Memory Benchmark is useful to see if that happens.
If L3 performance significantly lower before overclock, it is fail even if every other test(Testmem5, HCI Memtest, Linpack, etc...) succeed. Because Ryzen (exclude APU) 1X00 and 2X00 series have distributed L3 cache across 2 CCX which connected by infinity fabric, infinity fabric fails affect L3 cache performance.
So......how about allow us repeat L3 bench only (N times or time basic) ?
Or, maybe adding options to see L3 performance results in already exist cache stress test ?
Firstly I love AIDA64. It is so feature rich I can't believe I used anything else for so long! I spent 5 hours yesterday fine tuning my LCD panel display on my Android Tablet!
I am running a Threadripper System with a ASUS ROG Zenith Extreme X399 TR4 Motherboard. 98% of the sensors are there there, there are just a few missing. For the Fans the latest AIDA Beta shows CPU and CPU OPT and CHA Fan 2. What is missing is CHA FAN 1, H_AMP_FAN, W_PUMP+ and the 3 CHA FANS on the extension board that Plugs into the EXT_FAN header.
As I am running a TR system that runs warm it important to be able to monitor the H_AMP_FAN and W_PUMP+ connectors as that will tell me if my Liquid Cooler is operating properly.
Let me know if I can provide any other info or testing to help.