Number of cores |
16
12 (300%) better
vs
4
|
Number of threads |
24
20 (500%) better
vs
4
|
Base frequency |
3.2 GGz
0.5 GGz (18.5%) better
vs
2.7 GGz
|
Maximum frequency |
5.2 GGz
1.5 GGz (40.5%) better
vs
3.7 GGz
|
Maximum core temperature |
100 °C
-5 °C (-4.8%) better
vs
105 °C
|
Passmark |
37432
29068 (347.5%) better
vs
8364
|
WinRAR 4.0 |
10792
8395 (350.2%) better
vs
2397
|
x264 encoding pass 1 |
369
197 (114.5%) better
vs
172
|
x264 encoding pass 2 |
206
171 (488.6%) better
vs
35
|
TrueCrypt AES |
18.5
15.5 (516.7%) better
vs
3
|
3DMark06 CPU |
18426
12358 (203.7%) better
vs
6068
|
Manufacturing process technology |
7 nm
-3 nm (-30%) better
vs
10 nm
|
Power Consumption (TDP) |
15 Wt
-110 Wt (-88%) better
vs
125 Wt
|
Intel Core i9-12900K | AMD Ryzen 3 4300U |
General information | |
Type | |
no data | Для ноутбуков |
Architecture codename | |
Alder Lake | Renoir (Zen 2) |
Number of cores A large number of cores improves performance in multithreaded applications.
At the moment, increasing the number of processor cores is one of the priorities for increasing performance. | |
16
12 (300%) better
|
4 |
Number of threads More threads help the cores process information more efficiently. Real performance will be noticeable in very specific tasks (video editing, databases). | |
24
20 (500%) better
|
4 |
Base frequency | |
3.2 GGz
0.5 GGz (18.5%) better
|
2.7 GGz |
Maximum frequency Processors with high clock speeds perform more calculations per second and thus provide better performance. | |
5.2 GGz
1.5 GGz (40.5%) better
|
3.7 GGz |
Manufacturing process technology | |
10 nm | 7 nm
-3 nm (-30%) better
|
64 bit support | |
Max number of CPUs in a configuration | |
no data | 1 |
Socket | |
1700 | FP6 |
AMD-V | |
Series | |
no data | AMD Renoir (Ryzen 4000 APU) |
Start price | |
720 USD | no data |
Price-quality ratio The sum of all the advantages of the device divided by its price. The higher the%, the better the quality per unit price in comparison with all analogues. | |
84.1 % | no data |
Maximum core temperature | |
100 °C
-5 °C (-4.8%) better
|
105 °C |
TXT Intel Trusted Execution Technology for hardware protection against malware. For each protected program, the processor allocates its own isolated section of RAM. | |
L1 Cache More threads help the cores process information more efficiently. Real performance will be noticeable in very specific tasks (video editing, databases). | |
64 К | 128K (на ядро) |
L2 Cache | |
14 МБ | 512K (на ядро) |
L3 Cache | |
30 МБ | 4 Мб (всего) |
Maximum Case Temperature (tcase) | |
72 | no data |
Free Multiplier | |
Power Consumption (TDP) The calculated heat output shows the average heat output in operation under load,
the larger the value - the more the requirements for cooling and energy consumption increase. | |
125 Wt | 15 Wt
-110 Wt (-88%) better
|
Benchmarks | |
Passmark | |
37432
29068 (347.5%) better
|
8364 |
Cinebench 10 32-bit single-core | |
9812 | no data |
Cinebench 10 32-bit multi-core | |
73218 | no data |
Cinebench 11.5 64-bit single-core | |
47 | no data |
Cinebench 15 64-bit multi-core | |
no data | 570 |
WinRAR 4.0 | |
10792
8395 (350.2%) better
|
2397 |
x264 encoding pass 1 | |
369
197 (114.5%) better
|
172 |
x264 encoding pass 2 | |
206
171 (488.6%) better
|
35 |
TrueCrypt AES | |
18.5
15.5 (516.7%) better
|
3 |
3DMark06 CPU | |
18426
12358 (203.7%) better
|
6068 |
Geekbench 2 | |
no data | 11281 |
Geekbench 3 32-bit single-core | |
no data | 4042 |
Geekbench 3 32-bit multi-core | |
no data | 13134 |
Cinebench 15 64-bit single-core | |
no data | 165 |
Cinebench R20 single core | |
no data | 422 |
Cinebench R20 multi core | |
no data | 1562 |
Technologies and extensions | |
Advanced instructions | |
Intel® SSE4.1, Intel® SSE4.2, Intel® AVX2 | no data |
Enhanced SpeedStep (EIST) More threads help the cores process information more efficiently. Real performance will be noticeable in very specific tasks (video editing, databases). | |
Speed Shift More threads help the cores process information more efficiently. Real performance will be noticeable in very specific tasks (video editing, databases). | |
Turbo Boost | |
1 | no data |
Hyper-Threading More threads help the cores process information more efficiently. Real performance will be noticeable in very specific tasks (video editing, databases). | |
Turbo Boost Max 3.0 | |
Idle States | |
Thermal Monitoring | |
AES-NI More threads help the cores process information more efficiently. Real performance will be noticeable in very specific tasks (video editing, databases). | |
1 | + |
AVX The presence of AVX commands improves performance in floating-point operations and in processor-demanding
applications. | |
RAM parameters | |
Supported memory types | |
DDR5-4800, DDR4-3200 | DDR4-4266 |
Maximum memory size The maximum amount of RAM that can be used with this processor. | |
128 Gb | no data |
Max memory channels | |
2 | no data |
Virtualization technologies | |
VT-d Intel's virtualization technology allows devices on the PCI bus to be forwarded to the guest operating system so that it can work with them using its standard tools. | |
VT-x | |
EPT | |
Graphics specifications | |
Integrated graphics The presence of a video core allows you to use a computer without using a video card. | |
Intel UHD Graphics 770 | + |
maximum frequency of the graphics core | |
1.55 ГГц | no data |
Maximum number of monitors | |
4 | no data |
Number of executing blocks | |
32 | no data |
Clear Video HD | |
Maximum resolution via HDMI 1.4 | |
4096 x 2160 @ 60Hz | no data |
Maximum resolution via eDP | |
5120 x 3200 @ 120Hz | no data |
Maximum resolution via DisplayPort | |
7680 x 4320 @ 60Hz | no data |
DirectX | |
12 | no data |
OpenGL | |
4.5 | no data |
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