i5-12600K vs Phenom X3 8550 - Armored Core VI GTX 660M - Game Performance Benchmarks

GTX 660M with Intel Core i5-12600K

Armored Core VI

GTX 660M with AMD Phenom X3 8550

i5-12600K Phenom X3 8550

Multi-Thread Performance

17640 Pts

1930 Pts

Single-Thread Performance

3590 Pts

741 Pts

Armored Core VI

i5-12600K vs Phenom X3 8550 in Armored Core VI using GTX 660M - CPU Performance comparison at Ultra, High, Medium, and Low Quality Settings with 1080p, 1440p, Ultrawide, 4K resolutions

i5-12600K Phenom X3 8550

Ultra Quality

Resolution	Frames Per Second
1080p	17.1 FPS
1080p	6.6 FPS
1440p	12.1 FPS
1440p	5.3 FPS
2160p	6.8 FPS
2160p	3.0 FPS
w1440p	10.1 FPS
w1440p	4.4 FPS

High Quality

Resolution	Frames Per Second
1080p	34.5 FPS
1080p	14.9 FPS
1440p	25.5 FPS
1440p	12.2 FPS
2160p	15.3 FPS
2160p	7.4 FPS
w1440p	21.7 FPS
w1440p	10.4 FPS

Medium Quality

Resolution	Frames Per Second
1080p	51.9 FPS
1080p	23.2 FPS
1440p	38.8 FPS
1440p	19.2 FPS
2160p	23.8 FPS
2160p	11.7 FPS
w1440p	33.3 FPS
w1440p	16.3 FPS

Low Quality

Resolution	Frames Per Second
1080p	86.7 FPS
1080p	39.7 FPS
1440p	65.5 FPS
1440p	33.1 FPS
2160p	40.7 FPS
2160p	20.4 FPS
w1440p	56.5 FPS
w1440p	28.3 FPS

i5-12600K

The i5-12600K has higher Level 3 Cache. This is useful when you have substantial multiprocessing workloads, many computationally intense simultaneous processes. More likely on a server, less on a personally used computer for interactive desktop workloads.
The i5-12600K has more cores. The benefit of having more cores is that the system can handle more threads. Each core can handle a separate stream of data. This architecture greatly increases the performance of a system that is running concurrent applications.
The i5-12600K has more threads. Larger programs are divided into threads (small sections) so that the processor can execute them simultaneously to get faster execution.
For some games, a cpu with a higher clock speed, or in a technical name IPC (Instructions per clock), has better results than other CPU's with higher core count and lower core speed.
The i5-12600K has a smaller process size. The faster a transistor can toggle on and off, the faster it can do work. And transistors that turn on and off with less energy are more efficient, reducing the operating power, or “dynamic power consumption,” required by a processor.

Phenom X3 8550

The Phenom X3 8550 has higher Level 2 Cache. Data/instructions which have to be processed can be loaded from the fast L2 and the CPU does not have to wait for the very slow DDR RAM
The Phenom X3 8550 is more power efficient and generates less heat.

Compare i5-12600K vs Phenom X3 8550 specifications

i5-12600K vs Phenom X3 8550 Architecture

	i5-12600K	Phenom X3 8550
Codename	Alder Lake	Toliman
Generation	Core i5 (Alder Lake-S)	Phenom X3 (Toliman)
Market	Desktop	Desktop
Memory Support	DDR4-3200 MHz Dual-channel	unknown
Part#	unknown	HD8550WCJ3BGH
Production Status	Active	End-of-life

i5-12600K vs Phenom X3 8550 Cache

	i5-12600K	Phenom X3 8550
Cache L1	64K (per core)	128K (per core)
Cache L2	9.5MB (shared)	512K (per core)
Cache L3	20MB (shared)	2MB (shared)

i5-12600K vs Phenom X3 8550 Cores

	i5-12600K	Phenom X3 8550
# of Cores	10	3
# of Threads	16	3
Integrated Graphics	UHD Graphics 770	N/A
SMP # CPUs	1	1

i5-12600K vs Phenom X3 8550 Performance

	i5-12600K	Phenom X3 8550
Base Clock	100 MHz	200 MHz
Frequency	3.7 GHz	2.2 GHz
Multiplier	37.0x	11.0x
Multiplier Unlocked	Yes	No
TDP	125 W	95 W
Turbo Clock	up to 4.9 GHz	N/A

i5-12600K vs Phenom X3 8550 Physical

	i5-12600K	Phenom X3 8550
Die Size	unknown	285 mm²
Package	FC-LGA1700	µPGA
Process Size	10 nm	65 nm
Socket	Intel Socket 1700	AMD Socket AM2+
Transistors	unknown	450 million
tCaseMax	72°C	unknown