Chfdytybt ghjwtccjhf: Сравнение процессоров — Technical City

,

, , , CPU, . . , , AMD Turbo CORE Intel Turbo Boost , CPU. , 100% . .

, . Intel, Intel Core i7, Intel Core i5 Intel Core i3, AMD, AMD A10 AMD A8, AMD FX AMD Ryzen, . , 2022. , Intel AMD .

, :

3DMark (Sky Diver, );
7-Zip 9.13b x64 Benchmark (Complex CPU Test);
MAXON CINEBENCH R15 (CPU Test);
x265 Encoding (1080p);

:

SSD

AMD

Intel

Ryzen 7 5xxx

Ryzen 5 5xxx

Ryzen 7 3xxx

Core i9-12xxx

Core i7-12xxx

Core i5-12xxx

Core i5-11xxx

Core i5-10xxx

Socket LGA1700

Socket LGA1200

Socket LGA1151

Socket AM4

Alder Lake

Rocket Lake

		(. )
+ CPU AMD Ryzen 9 5950X BOX ( ) 3.4 GHz / 16cores / 64Mb / 105W / Socket AM4	03.10		48269	50812	73.6%
+ CPU AMD Ryzen 9 5950X OEM 3. 4 GHz / 16cores / 64Mb / 105W / Socket AM4	03.10		42888	45148	73.6%
+ CPU AMD Ryzen 9 5900X OEM 3.7 GHz / 12cores / 64Mb / 105W / Socket AM4	06.10		33497	36377	65%
+ CPU AMD Ryzen 9 5900X BOX ( ) 3. 7 GHz / 12cores / 64Mb / 105W / Socket AM4	05.10		33747	34792	65%
+ CPU AMD Ryzen 9 3900X OEM 3.8 GHz / 12cores / 64Mb / 105W / Socket AM4			37816	39808	58.5%
+ CPU Intel Core i9 12900K BOX ( ) 2. 4 GHz / 16cores / 8PC+8EC / 30Mb / Intel UHD Graphics 770 / 241W / 16 GT / s Socket LGA1700			51958	54696	57.5%
+ CPU Intel Core i9 12900K OEM 2.4 GHz / 16cores / 8PC+8EC / 30Mb / Intel UHD Graphics 770 / 241W / 16 GT / s Socket LGA1700			46731	49194	57. 5%
+ CPU Intel Core i9 12900KF OEM 2.4 GHz / 16cores / 8PC+8EC / 30Mb / 241W / 16 GT / s Socket LGA1700			44221	46551	54.7%
+ CPU Intel Core i9 12900KF BOX ( ) 2.4 GHz / 16cores / 8PC+8EC / 30Mb / 241W / 16 GT / s Socket LGA1700	05. 10		51753	54480	54.7%
+ CPU Intel Core i7 12700F OEM 1.6 GHz / 12cores / 8PC+4EC / 25Mb / 180W / Socket LGA1700			27004	28427	51%
+ CPU Intel Core i7 12700KF OEM 2. 7 GHz / 12cores / 8PC+4EC / 25Mb / 190W / 16 GT / s Socket LGA1700			37047	38999	50.2%
+ CPU Intel Core i7 12700K BOX ( ) 2.7 GHz / 12cores / 8PC+4EC / 25Mb / Intel UHD Graphics 770 / 190W / 16 GT / s Socket LGA1700			37704	41966	50. 2%
+ CPU Intel Core i7 12700KF BOX ( ) 2.7 GHz / 12cores / 8PC+4EC / 25Mb / 190W / 16 GT / s Socket LGA1700			36278	38190	50.2%
+ CPU AMD Ryzen 7 5800X OEM 3.8 GHz / 8cores / 32Mb / 105W / Socket AM4			23673	24921	47. 9%
+ CPU AMD Ryzen 7 5700X OEM 3.4 GHz / 8cores / 32Mb / 65W / Socket AM4			24288	25568	47.9%
+ CPU Intel Core i7 11700KF OEM 3.6 GHz / 8cores / 16Mb / 125W / 8 GT / s Socket LGA1200	10. 10		30795	32418	46.6%
+ CPU Intel Core i9 10900KF OEM 3.7 GHz / 10cores / 20Mb / 125W / 8 GT / s Socket LGA1200			30368	32861	45.5%
+ CPU Intel Core i9 10900KF BOX ( ) 3. 7 GHz / 10cores / 20Mb / 125W / 8 GT / s Socket LGA1200			34683	36519	45.5%
+ CPU Intel Core i7 12700K OEM 2.7 GHz / 12cores / 8PC+4EC / 25Mb / Intel UHD Graphics 770 / 190W / 16 GT / s Socket LGA1700			35151	37003	45. 4%
+ CPU AMD Ryzen 7 5700G OEM 3.8 GHz / 8cores / 16Mb / AMD Radeon Vega 8 (8 CU) / 65W / Socket AM4			19369	20390	45.2%
+ CPU AMD Ryzen 7 5700G BOX 3.8 GHz / 8cores / 16Mb / AMD Radeon Vega 8 (8 CU) / 65W / Socket AM4			20240	21307	45. 2%
+ CPU Intel Core i9 11900K OEM 3.5 GHz / 8cores / 16Mb / Intel UHD Graphics 750 / 125W / 8 GT / s Socket LGA1200			32418	34145	43.9%
+ CPU Intel Core i7 12700 BOX 1.6 GHz / 12cores / 8PC+4EC / 25Mb / Intel UHD Graphics 770 / 180W / 16 GT / s Socket LGA1700			33227	36032	43. 6%
+ CPU Intel Core i7 12700 OEM 1.6 GHz / 12cores / 8PC+4EC / 25Mb / Intel UHD Graphics 770 / 180W / 16 GT / s Socket LGA1700	03.10		32472		43.6%
+ CPU AMD Ryzen 7 3800X BOX 3.9 GHz / 8cores / 32Mb / 105W / Socket AM4			26441	27834	42. 9%
+ CPU Intel Core i9 10900 OEM 3.7 GHz / 10cores / 20Mb / Intel UHD Graphics 630 / 125W / 8 GT / s Socket LGA1200			42171	44393	42.8%
+ CPU Intel Core i9 10900 BOX ( ) 3.7 GHz / 10cores / 20Mb / Intel UHD Graphics 630 / 125W / 8 GT / s Socket LGA1200			39268	42991	42. 8%
+ CPU Intel Core i9 11900 OEM 2.5 GHz / 8cores / 16Mb / Intel UHD Graphics 750 / 65W / 8 GT / s Socket LGA1200			40239	43584	42.7%
+ CPU AMD Ryzen 7 3700X OEM 3.6 GHz / 8cores / 32Mb / 65W / Socket AM4			17013	17909	41. 7%
+ CPU Intel Xeon E5 2680 V4 OEM 2.4 GHz / 14cores / 35Mb / 120W / 9.6 GT / s Socket LGA2011-3	10.10		48039		41.2%
+ CPU AMD Ryzen 5 PRO 2400GE OEM 3.2 GHz / 4cores / 4Mb / AMD Radeon RX Vega 11 (11 CU) / 35W / Socket AM4			12093	12730	40. 6%
+ CPU Intel Core i9 11900F BOX 2.5 GHz / 8cores / 16Mb / 65W / 8 GT / s Socket LGA1200			33065	35554	40.4%
+ CPU Intel Core i5 12600 OEM 3.3 GHz / 6cores / 6PC18Mb / Intel UHD Graphics 770 / 117W / 16 GT / s Socket LGA1700			19523	20552	40. 4%
+ CPU Intel Core i9 11900F OEM 2.5 GHz / 8cores / 16Mb / 65W / 8 GT / s Socket LGA1200			31206	32850	40.4%
+ CPU Intel Core i5 12600 BOX 3.3 GHz / 6cores / 6PC18Mb / Intel UHD Graphics 770 / 117W / 16 GT / s Socket LGA1700	03. 10		28233	29721	40.4%
+ CPU AMD Ryzen 7 PRO 4750G OEM 3.6 GHz / 8cores / 8Mb / AMD Radeon Graphics (Renoir) / 65W / Socket AM4			19164	20174	40.3%
+ CPU Intel Core i9 10900 BOX 2. 8 GHz / 10cores / 20Mb / Intel UHD Graphics 630 / 65W / 8 GT / s Socket LGA1200	10.10		39045	41103	40%
+ CPU Intel Core i9 10900 OEM 2.8 GHz / 10cores / 20Mb / Intel UHD Graphics 630 / 65W / 8 GT / s Socket LGA1200	03.10		34076	35871	40%
+ CPU AMD Ryzen 5 5600 OEM 3. 5 GHz / 6cores / 32Mb / 65W / Socket AM4			14348	15104	39.3%
+ CPU Intel Core i5 12600KF OEM 2.8 GHz / 10cores / 6PC+4EC / 20Mb / 150W / 16 GT / s Socket LGA1700			25570	26917	38. 7%
+ CPU Intel Core i5 12600KF BOX ( ) 2.8 GHz / 10cores / 6PC+4EC / 20Mb / 150W / 16 GT / s Socket LGA1700			25620	26970	38.7%
+ CPU Intel Core i7 10700K OEM 3.8 GHz / 8cores / 16Mb / Intel UHD Graphics 630 / 125W / 8 GT / s Socket LGA1200			27325	28765	38. 3%
+ CPU Intel Core i7 10700K BOX ( ) 3.8 GHz / 8cores / 16Mb / Intel UHD Graphics 630 / 125W / 8 GT / s Socket LGA1200			28265	29991	38.3%
+ CPU Intel Xeon E 2278G OEM 3.4 GHz / 8cores / 16Mb / Intel UHD Graphics P630 / 80W / 8 GT / s Socket LGA1151			52807	57240	38. 2%
+ CPU Intel Core i5 12500 OEM 3 GHz / 6cores / 6PC18Mb / Intel UHD Graphics 770 / 117W / 16 GT / s Socket LGA1700			19113	20120	37.8%
+ CPU Intel Core i5 12600K BOX ( ) 2.8 GHz / 10cores / 6PC+4EC / 20Mb / Intel UHD Graphics 770 / 150W / 16 GT / s Socket LGA1700			27261	28697	37. 6%
+ CPU Intel Core i5 12600K OEM 2.8 GHz / 10cores / 6PC+4EC / 20Mb / Intel UHD Graphics 770 / 150W / 16 GT / s Socket LGA1700	05.10		25064	25840	37.6%
+ CPU Intel Core i5 12400F OEM 2.5 GHz / 6cores / 6PC18Mb / 117W / 16 GT / s Socket LGA1700			13681	14402	37. 1%
+ CPU Intel Core i5 12400F BOX 2.5 GHz / 6cores / 6PC18Mb / 117W / 16 GT / s Socket LGA1700			14758	15535	37.1%
+ CPU Intel Core i5 12400 OEM 2.5 GHz / 6cores / 6PC18Mb / Intel UHD Graphics 730 / 117W / 16 GT / s Socket LGA1700			15116	15913	37%
+ CPU Intel Core i5 12400 BOX 2. 5 GHz / 6cores / 6PC18Mb / Intel UHD Graphics 730 / 117W / 16 GT / s Socket LGA1700			16346	17207	37%
+ CPU Intel Core i7 11700K OEM 3.6 GHz / 8cores / 16Mb / Intel UHD Graphics 750 / 125W / 8 GT / s Socket LGA1200			29104	30638	36. 9%
+ CPU AMD Ryzen 5 PRO 5650G OEM 3.9 GHz / 6cores / 16Mb / AMD Radeon Vega 7 (7 CU) / 65W / Socket AM4			15065	15859	36.5%
+ CPU Intel Core i5 11600K OEM 3.9 GHz / 6cores / 12Mb / Intel UHD Graphics 750 / 125W / 8 GT / s Socket LGA1200			20929	22062	36. 2%
+ CPU Intel Core i5 11600KF OEM 3.9 GHz / 6cores / 12Mb / 125W / 8 GT / s Socket LGA1200			20292	21361	36.2%
+ CPU Intel Core i5 11600KF BOX ( ) 3.9 GHz / 6cores / 12Mb / 125W / 8 GT / s Socket LGA1200			20496	21576	36. 2%
+ CPU Intel Core i5 11600K BOX ( ) 3.9 GHz / 6cores / 12Mb / Intel UHD Graphics 750 / 125W / 8 GT / s Socket LGA1200			23622	24867	36.2%
+ CPU AMD Ryzen 5 5600X OEM 3.7 GHz / 6cores / 32Mb / 65W / Socket AM4			15782	16614	35. 8%
+ CPU AMD Ryzen 5 5600X BOX 3.7 GHz / 6cores / 32Mb / 65W / Socket AM4			17730	18664	35.8%
+ CPU Intel Core i5 11600 OEM 2.8 GHz / 6cores / 12Mb / Intel UHD Graphics 750 / 65W / 8 GT / s Socket LGA1200			20292	21361	34. 9%
+ CPU Intel Core i5 11600 BOX ( ) 2.8 GHz / 6cores / 12Mb / Intel UHD Graphics 750 / 65W / 8 GT / s Socket LGA1200			21572	22709	34.9%
+ CPU Intel Core i7 10700 OEM 2.9 GHz / 8cores / 16Mb / Intel UHD Graphics 630 / 65W / 8 GT / s Socket LGA1200			24083	25352	34. 2%
+ CPU Intel Core i7 10700 BOX 2.9 GHz / 8cores / 16Mb / Intel UHD Graphics 630 / 65W / 8 GT / s Socket LGA1200			24442	25730	34.2%
+ CPU Intel Core i5 11400F OEM 2.6 GHz / 6cores / 12Mb / 65W / 8 GT / s Socket LGA1200			13323	14025	33. 5%
+ CPU Intel Core i5 11500 OEM 2.7 GHz / 6cores / 12Mb / Intel UHD Graphics 750 / 65W / 8 GT / s Socket LGA1200			14402	15738	33.5%
+ CPU AMD Ryzen 5 3600X BOX 3.8 GHz / 6cores / 32Mb / 95W / Socket AM4			18908	19904	33. 4%
+ CPU Intel Core i7 10700F OEM 2.9 GHz / 8cores / 16Mb / 65W / 8 GT / s Socket LGA1200			20292	21361	33.3%
+ CPU Intel Core i7 10700F BOX 2.9 GHz / 8cores / 16Mb / 65W / 8 GT / s Socket LGA1200			22392	23572	33. 3%
+ CPU AMD Ryzen 5 3600 OEM 3.6 GHz / 6cores / 32Mb / 65W / Socket AM4			10299	10842	33.1%
+ CPU Intel Core i7 11700F OEM 2.5 GHz / 8cores / 16Mb / 65W / 8 GT / s Socket LGA1200			27209	28643	32. 4%
+ CPU Intel Core i7 11700F BOX 2.5 GHz / 8cores / 16Mb / 65W / 8 GT / s Socket LGA1200			28387	29883	32.4%
+ CPU AMD Ryzen 5 4600G OEM 3.7 GHz / 6cores / 8Mb / AMD Radeon Vega 7 (7 CU) / 65W / Socket AM4			14655	15427	32. 3%
+ CPU Intel Core i9 10900F BOX 2.8 GHz / 10cores / 20Mb / 65W / 8 GT / s Socket LGA1200			31154	32796	32.2%
+ CPU Intel Core i9 10900F OEM 2.8 GHz / 10cores / 20Mb / 65W / 8 GT / s Socket LGA1200	03. 10		30800	32489	32.2%
+ CPU Intel Xeon E5 2650 v4 OEM 2.2 GHz / 12cores / 30Mb / 105W / 9.6 GT / s Socket LGA2011-3			48780	51351	32.1%
+ CPU Intel Xeon E 2236 OEM 3. 4 GHz / 6cores / 12Mb / 80W / 8 GT / s Socket LGA1151			34998	36842	31.7%
+ CPU Intel Core i5 10600K OEM 4.1 GHz / 6cores / 12Mb / Intel UHD Graphics 630 / 125W / 8 GT / s Socket LGA1200			20547	21630	31. 1%
+ CPU AMD Ryzen 5 PRO 4650G OEM 3.7 GHz / 6cores / 8Mb / AMD Radeon Graphics (Renoir) / 65W / Socket AM4			11170	11759	31%
+ CPU Intel Core i5 10600 BOX 3.3 GHz / 6cores / 12Mb / Intel UHD Graphics 630 / 65W / 8 GT / s Socket LGA1200			18987	20066	30. 7%
+ CPU Intel Core i7 9700 OEM 3 GHz / 8cores / 12Mb / Intel UHD Graphics 630 / 65W / 8 GT / s Socket LGA1151			27004	28427	30%
+ CPU Intel Core i5 11400 OEM 2.6 GHz / 6cores / 12Mb / Intel UHD Graphics 730 / 65W / 8 GT / s Socket LGA1200			13701	14725	29. 8%
+ CPU Intel Core i5 10500 BOX 3.1 GHz / 6cores / 12Mb / Intel UHD Graphics 630 / 65W / 8 GT / s Socket LGA1200			16705	17585	29.7%
+ CPU Intel Core i5 10500 OEM 3.1 GHz / 6cores / 12Mb / Intel UHD Graphics 630 / 65W / 8 GT / s Socket LGA1200	04. 10		15680	16506	29.7%
+ CPU Intel Xeon E 2276G OEM 3.8 GHz / 6cores / 12Mb / Intel UHD Graphics P630 / 80W / 8 GT / s Socket LGA1151	05.10		40864		29.7%
+ CPU Intel Xeon E 2246G OEM 3. 6 GHz / 6cores / 12Mb / Intel UHD Graphics P630 / 80W / 8 GT / s Socket LGA1151	03.10		39618		29.3%
+ CPU Intel Core i5 10600KF BOX ( ) 4.1 GHz / 6cores / 12Mb / 125W / 8 GT / s Socket LGA1200			14963	15751	28. 7%
+ CPU Intel Core i5 10600KF OEM 4.1 GHz / 6cores / 12Mb / 125W / 8 GT / s Socket LGA1200			15362	16280	28.7%
+ CPU Intel Core i7 10700KF BOX ( ) 3.8 GHz / 8cores / 16Mb / 125W / 8 GT / s Socket LGA1200			31923	33605	28. 6%
+ CPU Intel Core i7 10700KF OEM 3.8 GHz / 8cores / 16Mb / 125W / 8 GT / s Socket LGA1200			24866	26755	28.6%
+ CPU Intel Core i5 10400 OEM 2.9 GHz / 6cores / 12Mb / Intel UHD Graphics 630 / 65W / 8 GT / s Socket LGA1200			13784	14510	28. 3%
+ CPU Intel Core i5 10400F OEM 2.9 GHz / 6cores / 12Mb / 65W / 8 GT / s Socket LGA1200			9890	10411	28.3%
+ CPU Intel Core i5 10400 BOX 2.9 GHz / 6cores / 12Mb / Intel UHD Graphics 630 / 65W / 8 GT / s Socket LGA1200			13631	14349	28. 3%
+ CPU Intel Core i5 10400F BOX 2.9 GHz / 6cores / 12Mb / 65W / 8 GT / s Socket LGA1200			10915	11490	28.3%
+ CPU Intel Core i3 12100 OEM 3.3 GHz / 4cores / 4PC12Mb / Intel UHD Graphics 730 / 89W / 16 GT / s Socket LGA1700			8301	8739	26. 6%
+ CPU Intel Core i3 12100F OEM 3.3 GHz / 4cores / 4PC12Mb / 89W / 16 GT / s Socket LGA1700			7328	7714	26.6%
+ CPU Intel Core i3 12100F BOX 3.3 GHz / 4cores / 4PC12Mb / 89W / 16 GT / s Socket LGA1700			9172	9656	26. 6%
+ CPU Intel Core i3 12100 BOX 3.3 GHz / 4cores / 4PC12Mb / Intel UHD Graphics 730 / 89W / 16 GT / s Socket LGA1700	07.10		10863	11436	26.6%
+ CPU Intel Core i7 8700 OEM 3.2 GHz / 6cores / 12Mb / Intel UHD Graphics 630 / 65W / 8 GT / s Socket LGA1151	03. 10		27312	28751	26.3%
+ CPU AMD Ryzen 5 2600 OEM 3.4 GHz / 6cores / 16Mb / 65W / Socket AM4	05.10		14487		26%
+ CPU Intel Xeon E 2226G OEM 3. 4 GHz / 6cores / 12Mb / Intel UHD Graphics P630 / 80W / 8 GT / s Socket LGA1151	03.10		32794	34522	24.4%

, . 435 .

INTEL AMD

2022 — , F.

1/2/2.5
2.6/2.7/2.8
3/3.2/3.4
5/4/3.6
2
4
6
8
DDR4
1150
coffee Lake (8 )
1151
socket AM4
Intel Core i3

— . , :

1 AMD

130 — 344832 .
2 Intel

90 — 35887 .
3 HP

23544 — 35722 .
4 Lenovo

18282 — 52772 .
5 Arctic Air

1167 — 1167 .

1/2/2.5

228₴

Sempron 2650 AM1, 1.45GHz, 25W, Box (SD2650JAHMBOX)

2.6/2.7/2.8

5 531₴
7 062₴

Intel Core i5 10400F 2.9GHz (12MB, Comet Lake, 65W, S1200) Box (BX8070110400F)

3/3.2/3.4

5 689₴

AMD Ryzen 5 2600 (YD2600BBM6IAF)

5/4/3.6

2 779₴
13 966₴

Ryzen Threadripper 1900X TR4, 4GHz, 180W, Box (YD190XA8AEWOF)

2

2 461₴
3 142₴

AMD Athlon 3000G (YD3000C6M2OFB)

4

2 898₴
3 699₴

INTEL Core i3 10100F (BX8070110100F)

6

6 861₴
8 758₴

AMD Ryzen 5 5600G (100-100000252BOX)

8

10 799₴

AMD Ryzen 7 5700G (100-100000263BOX)

4 699₴
5 998₴

INTEL Core i3 10105 (BX8070110105)

DDR4

9 799₴
11 051₴

Ryzen 7 3800X 4. 5GHz,36MB,105W,AM4 MPK with Wraith Prism cool (100-100000025MPK)

1150

2 145₴

Intel Core i5-4460 (6M Cache, up to 3.4 Ghz) (d622f229-6d27-11e7-bf54-001b21399f90)

coffee Lake (8 )

6 708₴

Core i5-9600K 3.7GHz, LGA1151, tray (CM8068403874405)

1151

8 893₴
9 322₴

Core i5-7500 LGA1151, 3.4GHz, Box (BX80677I57500)

socket AM4

5 955₴
7 603₴

AMD Ryzen 5 3600 (100-100000031SBX)

Intel Core i3

4 998₴

Core i3-9100 LGA1151, 3.6GHz, Box (BX80684I39100)

? . Intel Core 2 Duo / Intel Core Duo / Pentium / Celeron M / Solo / AMD Turion 64 X2 / AMD Athlon 64 / intel pentium celeron core dual i7 i5 i3 Duo Solo Extreme Ultra Quad Atom AMD Phenom Turion 64 Athlon II mobile Sempron X4 X3 A6 A8 VIA Nano Neo V-Series n 2960XM 2860QM 2760QM 2920XM 2720QM 2720QM 2820QM 2670QM 2635QM 2630QM 940XM 2640M 920XM QX9300 2620M 2540M 840QM 2520M 740QM Q9100 640M X920 BE 820QM 2410M 580M 560M 720QM N970 620M N950 460M N930 2415M 480M 540M Q9000 X9100 390M T9900 520M 450M 2617M 2557M 380M X640 BE T9800 N850 370M 430M P9700 2657M X9000 640LM T9600 P960 2310M 2467M N830 X7900 3410MX T9550 P9600 350M 620LM P8800 T9500 T9400 N620 T7800 T9300 P8700 3500M 330M SP9600 P8600 T8300 3400M N530 P920 X7800 T7700 P820 SP9400 P7570 2537M P540 B940 P8400 P7550 T7600 560UM SP9300 T6600 P6200 N330 T4500 P7450 M520 T7500 M600 P520 T4400 T6570 T2700 T6670 P6100 T8100 T5900 T7400 M P4600 P340 T4300 P360 T3400 M500 T5850 T6500 T6400 T2600 T3500 T4200 T5750 T7200 T7300 P7370 P7350 T3100 P9500 P320 470UM M320 T5800 B810 P6000 T5870 T7250 T2500 ZM-86 L4700 ZM-84 T3000 2357M T2450 A4-3300M RM-74 T5600 ZM-82 M300 T2410 T7100 RM-72 QL-66 TL-64 ZM-80 T5670 QL-65 T2400 T5550 RM-76 TL-62 QL-64 T2390 T1700 K685 T2370 520UM 380UM RM-70 T2250 T1500 TL-60 T2300 T5450 T5470 QL-60 T1600 TL-56 TL-58 T5500 TK-55 330UM SL9400 T5250 T2330 TL-66 K625 SU9400 TK-53 TL-52 TL-50 T2310 L625 SU4100 L335 SU7300 U5400 K345 U7700 K325 U7600 SU9300 E-350 SU2300 900 L7100 V-Series V140 U3400 SP7500 440 V-Series V120 64 ML-44 780 U2500 575 4 532 D525 550 U7500 765 L310 64 ML-40 760 330 T2060 MT-40 M 750 ML-37 540 SI-42 64 MT-37 SI-40 3600+ N550 K125 770 530 740 3500+ 735 64 ML-34 725 64 MT-32 3400+ 730 SU3500 4-M P4-M 1,7 64 ML-30 C-50 64 TF-20 L2100 SU2700 743 64 ML-28 SU3300 723 MV-40 U1500 N475 N470 N280 E-240 N450 N270 N455 Z530 C-30 Z520 Z540 A A110 C7-M C7-M-1200

, — Intel AMD, . , — , . , , , .

L2 Cache

MHz

3DMark06

Intel Core i7 2960XM

Intel Core i7 2860QM

Intel Core i7 2760QM

Intel Core i7 2920XM

Intel Core i7 2720QM

Intel Core i7 2820QM

Intel Core i7 2670QM

Intel Core i7 2635QM

Intel Core i7 2630QM

Intel Core i7 940XM

Intel Core i7 2640M

Intel Core i7 920XM

Intel Core 2 Extreme QX9300

Intel Core i7 2620M

Intel Core i5 2540M

Intel Core i7 840QM

Intel Core i5 2520M

Intel Core i7 740QM

Intel Core 2 Quad Q9100

Intel Core i7 640M

AMD Phenom II X4 X920 BE

Intel Core i7 820QM

Intel Core i5 2410M

Intel Core i5 580M

Intel Core i5 560M

Intel Core i7 720QM

AMD Phenom II X4 N970

Intel Core i7 620M

AMD Phenom II X4 N950

Intel Core i5 460M

AMD Phenom II X4 N930

Intel Core i5-2415M

Intel Core i5 480M

Intel Core i5 540M

Intel Core 2 Quad Q9000

Intel Core 2 Extreme X9100

Intel Core i3 390M

Intel Core 2 Duo T9900

Intel Core i5 520M

Intel Core i5 450M

Intel Core i7 2617M

Intel Core i5 2557M

Intel Core i3 380M

AMD Phenom II X2 X640 BE

Intel Core 2 Duo T9800

AMD Phenom II X3 N850

Intel Core i3 370M

Intel Core i5 430M

Intel Core 2 Duo P9700

Intel Core i7 2657M

Intel Core 2 Extreme X9000

Intel Core i7 640LM

Intel Core 2 Duo T9600

AMD Phenom II X4 P960

Intel Core i3-2310M

Intel Core i5-2467M

AMD Phenom II X3 N830

Intel Core 2 Extreme X7900

AMD A6 3410MX

Intel Core 2 Duo T9550

Intel Core 2 Duo P9600

Intel Core i3 350M

Intel Core i7 620LM

Intel Core 2 Duo P8800

Intel Core 2 Duo T9500

Intel Core 2 Duo T9400

AMD Phenom II X2 N620

Intel Core 2 Duo T7800

Intel Core 2 Duo T9300

Intel Core 2 Duo P8700

AMD A8 3500M

Intel Core i3 330M

Intel Core 2 Duo SP9600

Intel Core 2 Duo P8600

Intel Core 2 Duo T8300

AMD A6 3400M

AMD Turion II N530

AMD Phenom II X4 P920

Intel Core 2 Extreme X7800

Intel Core 2 Duo T7700

AMD Phenom II X3 P820

Intel Core 2 Duo SP9400

Intel Core 2 Duo P7570

Intel Core i5 2537M

AMD Turion II P540

Intel Pentium B940

Intel Core 2 Duo P8400

Intel Core 2 Duo P7550

Intel Core 2 Duo T7600

Intel Core i5 560UM

Intel Core 2 Duo SP9300

Intel Core 2 Duo T6600

Intel Pentium P6200

AMD Athlon II N330

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Intel Core 2 Duo P7450

AMD Turion II M520

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AMD Turion II Ultra M600

AMD Turion II P520

Intel Pentium Dual Core T4400

Intel Core 2 Duo T6570

Intel Core Duo T2700

Intel Core 2 Duo T6670

Intel Pentium P6100

Intel Core 2 Duo T8100

Intel Core 2 Duo T5900

Intel Core 2 Duo T7400

Intel Celeron M P4600

AMD Athlon II P340

Intel Pentium Dual Core T4300

AMD Athlon II P360

Intel Pentium Dual Core T3400

AMD Turion II M500

Intel Core 2 Duo T5850

Intel Core 2 Duo T6500

Intel Core 2 Duo T6400

Intel Core Duo T2600

Intel Celeron Dual Core T3500

Intel Pentium Dual Core T4200

Intel Core 2 Duo T5750

Intel Core 2 Duo T7200

Intel Core 2 Duo T7300

Intel Core 2 Duo P7370

Intel Core 2 Duo P7350

Intel Celeron Dual Core T3100

Intel Core 2 Duo P9500

AMD Athlon II P320

Intel Core i5 470UM

AMD Athlon II M320

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Intel Celeron B810

Intel Pentium P6000

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AMD A4-3300M

AMD Turion X2 RM-74

Intel Core 2 Duo T5600

AMD Turion X2 Ultra ZM-82

AMD Athlon II M300

Intel Pentium Dual Core T2410

Intel Core 2 Duo T7100

AMD Turion X2 RM-72

AMD Athlon X2 QL-66

AMD Turion 64 X2 TL-64

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Intel Core 2 Duo T5670

AMD Athlon X2 QL-65

Intel Core Duo T2400

Intel Core 2 Duo T5550

AMD Turion X2 RM-76

AMD Turion 64 X2 TL-62

AMD Athlon X2 QL-64

Intel Pentium Dual Core T2390

Intel Celeron Dual Core T1700

AMD Turion II Neo K685

Intel Pentium Dual Core T2370

Intel Core i5 520UM

Intel Core i3 380UM

AMD Turion X2 RM-70

Intel Core Duo T2250

Intel Celeron Dual Core T1500

AMD Turion 64 X2 TL-60

Intel Core Duo T2300

Intel Core 2 Duo T5450

Intel Core 2 Duo T5470

AMD Athlon X2 QL-60

Intel Celeron Dual Core T1600

AMD Turion 64 X2 TL-56

AMD Turion 64 X2 TL-58

Intel Core 2 Duo T5500

AMD Athlon 64 X2 TK-55

Intel Core i3 330UM

Intel Core 2 Duo SL9400

Intel Core 2 Duo T5250

Intel Pentium Dual Core T2330

AMD Turion 64 X2 TL-66

AMD Turion II Neo K625

Intel Core 2 Duo SU9400

AMD Athlon 64 X2 TK-53

AMD Turion 64 X2 TL-52

AMD Turion 64 X2 TL-50

Intel Pentium Dual Core T2310

AMD Turion Neo X2 L625

Intel Pentium Dual Core SU4100

AMD Athlon Neo X2 L335

Intel Core 2 Duo SU7300

Intel Pentium U5400

AMD Athlon II Neo K345

Intel Core 2 Duo U7700

AMD Athlon II Neo K325

Intel Core 2 Duo U7600

Intel Core 2 Duo SU9300

AMD E-350

Intel Celeron Dual Core SU2300

Intel Celeron M 900

Intel Core 2 Duo L7100

AMD V-Series V140

Intel Celeron M U3400

Intel Core 2 Duo SP7500

Intel Celeron M 440

AMD V-Series V120

AMD Turion 64 ML-44

Intel Pentium M 780

Intel Core Duo U2500

Intel Celeron M 575

Intel Mobile Pentium 4 532

Intel Atom D525

Intel Celeron M 550

Intel Core 2 Duo U7500

Intel Pentium M 765

AMD Athlon X2 L310

AMD Turion 64 ML-40

Intel Pentium M 760

Intel Atom 330

Intel Pentium Dual Core T2060

AMD Turion 64 MT-40

Intel Pentium M 750

AMD Turion 64 ML-37

Intel Celeron M 540

AMD Mobile Sempron SI-42

AMD Turion 64 MT-37

AMD Mobile Sempron SI-40

AMD Mobile Sempron 3600+

Intel Atom N550

AMD Athlon II Neo K125

Intel Pentium M 770

Intel Celeron M 530

Intel Pentium M 740

AMD Mobile Sempron 3500+

Intel Pentium M 735

AMD Turion 64 ML-34

Intel Pentium M 725

AMD Turion 64 MT-32

AMD Mobile Sempron 3400+

Intel Pentium M 730

Intel Core 2 Solo SU3500

Intel Pentium 4-M P4-M 1,7

AMD Turion 64 ML-30

AMD C-50

AMD Athlon 64 TF-20

VIA Nano L2100

Intel Pentium SU2700

Intel Celeron M 743

AMD Turion 64 ML-28

Intel Core 2 Solo SU3300

Intel Celeron M 723

AMD Athlon Neo MV-40

Intel Core Solo U1500

Intel Atom N475

Intel Atom N470

Intel Atom N280

AMD E-240

Intel Atom N450

Intel Atom N270

Intel Atom N455

Intel Atom Z530

AMD C-30

Intel Atom Z520

Intel Atom Z540

Intel Mobile A A110

VIA C7-M C7-M-1200

Processor EPYC 7h22 [in 1 benchmark]

AMD
EPYC 7h22

Interface
Core frequency
Video memory size
Memory type
Memory frequency
Maximum resolution

Description

AMD started AMD EPYC 7h22 sales on September 18, 2019. This is a top Zen 2 architecture desktop processor primarily aimed at professional systems. It has 64 cores and 128 threads and is manufactured in 7nm, 14nm process technology, the maximum frequency is 3300MHz, the multiplier is unlocked.

In terms of compatibility, this is a socket processor
AMD Socket TR4
with TDP 280W. It supports memory
DDR4
Eight-channel .

It delivers outstanding performance in benchmarks and tops our rankings.

100%

General information

Information about the type (for desktop or laptop) and architecture of EPYC 7h22, as well as the time when sales began and the cost at that time.

Features

EPYC 7h22 quantitative parameters: number of cores and threads, clock speeds, manufacturing process, cache size and multiplier lock status. They indirectly speak about the performance of the processor, but for an accurate assessment it is necessary to consider the results of the tests.

MB (total)

2007

processor reviews

Sort articles by: Processor core Processor socket Ascending Descending

Core

cache 2nd level

512K (on the kernel)

of 12288 (Core 2 Quad Q9550)

cache

of 32 (Ryzen Threadripper 1998)

Technological process

7 NM, 14 nm

of 5 (Apple M1)

CRISTALL OF CRISTALLA0021

Information on EPYC 7h22 compatibility with other computer components. Useful, for example, when choosing the configuration of a future computer or to upgrade an existing one.

Please note that the power consumption of some processors can significantly exceed their nominal TDP even without overclocking. Some may even double their claims if the motherboard allows you to adjust the power settings of the processor.

AES-Ni	+
AVX	+

VIRTARIAMENTIONS Technologies 9000.

The technologies supported by EPYC 7h22 that accelerate the operation of virtual machines are listed.

AMD-V +

RAM support

Types, maximum size and number of channels of RAM supported by EPYC 7h22. Higher memory frequency may be supported depending on the motherboard.

9004 91 Rope 9004) 8
9018 9018 9018 9018 9018 9018 9018 9018 9018 9018 9018 9018 9018 9018 9018 9018 9018 9018 9018
9018
These are the results of EPYC 7h22 performance tests in non-gaming benchmarks. The total score is set from 0 to 100, where 100 corresponds to the fastest processor at the moment.
Overall performance in tests
This is our overall performance rating. We regularly improve our algorithms, but if you find any inconsistencies, feel free to speak up in the comments section, we usually fix problems quickly.
EPYC 7h22
100.00

Passmark

Passmark
Passmark CPU Mark is a widely used benchmark that consists of 8 different tests, including integer and floating point calculations, extended instruction tests, compression, encryption, and game physics calculations. Also includes a separate single-threaded test.
Benchmark coverage: 68%
EPYC 7h22
100817
Relative capacity
Overall performance of the EPYC 7h22 compared to its closest competitor in server processors.
AMD EPYC 7h22
100
Intel Xeon Platinum 8368
91. 31
Intel Xeon Gold 6338
73.03
Intel Xeon Platinum 8352Y
68.09
Intel Xeon Gold 5320
65.44
Intel Xeon Gold 6258R
63.47
Intel Xeon Platinum 8380
61.81
Other processors
Here we recommend several processors that are more or less similar in performance to the reviewed one.

Xeon Platinum
8368

Compare

Xeon Gold
6338

Compare

Xeon Platinum
8352Y

Compare

Xeon Gold
5320

Compare

Xeon Gold
6258R

Compare

Xeon Platinum
8380

Compare
Recommended Video Cards
According to our statistics, these video cards are most often used with EPYC 7h22:

GeForce RTX
3090 Ti

48. 1%

GeForce GTX
1050 Ti

4.3%

GeForce RTX
3060

2.8%

Radeon RX
Vega 7

2.5%

GeForce RTX
3090 SUPER

2%

GeForce RTX
2060

1.6%

GeForce RTX
3080 Ti

1.5%

GeForce GTX
550 Ti

1.5%

GeForce GTX
1060 6GB

1.3%

Radeon RX
6950XT

1.3%
User rating
Here you can see the evaluation of the processor by users, as well as put your own rating.
Tips and comments
Here you can ask a question about the EPYC 7h22 processor, agree or disagree with our judgements, or report errors or inaccuracies on the site.
Please enable JavaScript to view the comments powered by Disqus.

RAM types DDR4
Eight-channel of 5200 (Ryzen 5 7600x)

Permissible memory volume 4 TIB of 12 (Xeon Platinum 9221)

Memory bandwidth 204.763 GB/s of 281.6 (Xeon Platinum 9221)

Support ECC-Mapi +

AMD processor rating in 2022

#1 EPYC 7h22 Type server socket
AMD Socket TR4 Productivity100.00 Cores/Threads64 / 128 Year of manufacture2019 Price now5000 USD TDP280 W

#2 Ryzen Threadripper PRO 5995WX Type server socket
AMD Socket WRX8 Productivity96.49 Cores/Threads64 / 128 Year of manufacture2022 Price now9165 USD TDP280 W

#3 EPYC 7552 Type server socket
AMD Socket TR4 Capacity90. 28 Cores/Threads48 / 96 Year of manufacture2019 Price now3820 USD TDP200 W

#4 EPYC 7773X Type server socket
AMD Socket SP3 Productivity90.00 Cores/Threads64 / 128 Year of manufacture2022 Price now − TDP280 W

#5 EPYC 7443 Type server socket
AMD Socket SP3 Capacity86.03 Cores/Threads24 / 48 Year of manufacture2021 Price now2993 USD TDP200 W

#6 EPYC 7763 Type server socket
AMD Socket SP3 Capacity85.25 Cores/Threads64 / 128 Year of manufacture2021 Price now5450 USD TDP280 W

#7 EPYC 7713 Type server socket
AMD Socket SP3 Capacity84. 83 Cores/Threads64 / 128 Year of manufacture2021 Price now1734 USD TDP225 W

#8 EPYC 7713P Type server socket
AMD Socket SP3 Capacity82.48 Cores/Threads64 / 128 Year of manufacture2021 Price now − TDP225 W

#9 Ryzen Threadripper PRO 3995WX Type Desktop SocketsWRX8 Capacity82.48 Cores/Threads64 / 128 Year of manufacture2020 Price now8541 USD TDP280 W

#10 Ryzen Threadripper 3990X Type Desktop socket
AMD Socket TR4 Capacity79.24 Cores/Threads64 / 128 Year of release2019 Price now8500 USD TDP280 W

#11 Ryzen 5 7600X Type Desktop AMD Socket AM5 Productivity77. 59 Cores/threads6 / 12 Year of manufacture − Price now336 USD TDP105 W

#12 Ryzen Threadripper PRO 5975WX Type server socket
AMD Socket WRX8 Capacity77.44 Cores/Threads32 / 64 Year of manufacture2022 Price now1766 USD TDP280 W

#13 EPYC 7643 Type server socket
AMD Socket SP3 Performance75.84 Cores/Threads48 / 96 Year of manufacture2021 Price now − TDP225 W

#14 EPYC 7662 Type server Socket SP3 Productivity72.55 Cores/Threads64 / 128 Year of manufacture2020 Price now − TDP225 W

#15 EPYC 7702 Type server socket
AMD Socket TR4 Capacity71. 07 Cores/Threads64 / 128 Year of manufacture2019 Price now3427 USD TDP200 W

#16 EPYC 7742 Type server socket
AMD Socket TR4 Performance68.19 Cores/Threads64 / 128 Year of manufacture2019 Price now6778 USD TDP225 W

#17 EPYC 75F3 Type server socket
AMD Socket SP3 Capacity67.95 Cores/Threads32 / 64 Year of manufacture2021 Price now8514 USD TDP280 W

#18 Ryzen Threadripper PRO 5965WX Type server socket
AMD Socket WRX8 Capacity67.06 Cores/Threads24 / 48 Year of manufacture2022 Price now2790 USD TDP280 W

#19 EPYC 7543P Type server socket
AMD Socket SP3 Productivity66. 42 Cores/Threads32 / 64 Year of manufacture2021 Price now − TDP225 W

#20 Ryzen 9 7950X Type Desktop AMD Socket AM5 Capacity65.04 Cores/Threads16 / 32 Year of manufacture − Price now740 USD TDP170 W

#21 Ryzen Threadripper 3970X Type Desktop socket
AMD Socket TR4 Capacity63.03 Cores/Threads32 / 64 Year of manufacture2019 Price now2739 USD TDP280 W

#22 Ryzen Threadripper PRO 3975WX Type Desktop SocketsWRX8 Capacity62.28 Cores/Threads32 / 64 Year of manufacture2020 Price now3510 USD TDP280 W

#23 EPYC 7702P Type Server socket
AMD Socket TR4 Performance61. 77 Cores/Threads64 / 128 Year of manufacture2019 Price now4699 USD TDP200 W

#24 EPYC 74F3 Type server socket
AMD Socket SP3 Capacity60.19 Cores/Threads24 / 48 Year of manufacture2021 Price now3250 USD TDP240 W

#25 EPYC 7513 Type server socket
AMD Socket SP3 Performance59.50 Cores/Threads32 / 64 Year of manufacture2021 Price now3563 USD TDP200 W

#26 EPYC 7642 Type server socket
AMD Socket TR4 Performance58.65 Cores/Threads48 / 96 Year of release2019 Price now1895 USD TDP225 W

#27 EPYC 7443P Type server socket
AMD Socket SP3 Performance57. 02 Cores/Threads24 / 48 Year of manufacture2021 Price now1374 USD TDP200 W

#28 EPYC 7542 Type server SocketSP3 Performance56.27 Cores/Threads32 / 64 Year of manufacture2019 Price now2950 USD TDP225 W

#29 EPYC 7543 Type server socket
AMD Socket SP3 Performance56.10 Cores/Threads32 / 64 Year of manufacture2021 Price now4338 USD TDP225 W

#30 EPYC 7532 Type server Socket SP3 Performance54.91 Cores/Threads32 / 64 Year of manufacture2020 Price now − TDP200 W

#31 EPYC 7401 Type server socket
AMD Socket TR4 Performance54. 83 Cores/Threads24 / 48 Year of manufacture2017 Price now799 USD TDP170 W

#32 EPYC 7453 Type server socket
AMD Socket SP3 Performance54.55 Cores/Threads28 / 56 Year of manufacture2021 Price now − TDP225 W

#33 Ryzen Threadripper 3960X Type desktop socket
AMD Socket TR4 Performance54.36 Cores/Threads24 / 48 Year of manufacture2019 Price now2025 USD TDP280 W

#34 Ryzen 9 7900X Type Desktop AMD Socket AM5 Performance52.09 Cores/threads12 / 24 Year of manufacture − Price now590 USD TDP170 W

#35 EPYC 7413 Type server socket
AMD Socket SP3 Productivity49. 82 Cores/Threads24 / 48 Year of manufacture2021 Price now1966 USD TDP180 W

#36 Ryzen Threadripper PRO 5955WX Type server socket
AMD Socket WRX8 Performance49.32 Cores/Threads16 / 32 Year of manufacture2022 Price now1407 USD TDP280 W

#37 EPYC 7502 Type server socket
AMD Socket TR4 Performance48.78 Cores/Threads32 / 64 Year of manufacture2019 Price now3299 USD TDP180 W

#38 EPYC 7502P Type server socket
AMD Socket TR4 Capacity48.60 Cores/Threads32 / 64 Year of manufacture2019 Price now2312 USD TDP180 W

#39 EPYC 7402 Type server socket
AMD Socket TR4 Performance47. 36 Cores/Threads24 / 48 Year of manufacture2019 Price now1778 USD TDP180 W

#40 EPYC 73F3 Type server socket
AMD Socket SP3 Performance45.71 Cores/Threads16 / 32 Year of manufacture2021 Price now3997 USD TDP240 W

#41 EPYC 7343 Type server socket
AMD Socket SP3 Capacity45.51 Cores/Threads16 / 32 Year of manufacture2021 Price now2663 USD TDP190 W

#42 Ryzen 9 5950X Type Desktop AMD Socket AM4 Performance45.48 Cores/Threads16 / 32 Year of manufacture2020 Price now857 USD TDP105 W

#43 EPYC 7551P Type server socket
AMD Socket TR4 Performance43. 75 Cores/Threads32 / 64 Year of manufacture2017 Price now699 USD TDP180 W

#44 Ryzen 5 6600HS Notebook Type AMD Socket FP7 Capacity42.76 Cores/threads6 / 12 Year of manufacture2022 Price now − TDP35 W

#45 EPYC 7601 Type server socket
AMD Socket TR4 Capacity41.90 Cores/Threads32 / 64 Year of issue2017 Price now1072 USD TDP180 W

#46 EPYC 7313P Type server socket
AMD Socket SP3 Capacity41.54 Cores/Threads16 / 32 Year of manufacture2021 Price now − TDP155 W

#47 EPYC 7452 Type server socket
AMD Socket TR4 Capacity41. 53 Cores/Threads32 / 64 Year of manufacture2019 Price now3220 USD TDP155 W

#48 EPYC 7402P Type server socket
AMD Socket TR4 Performance40.76 Cores/Threads24 / 48 Year of manufacture2019 Price now4315 USD TDP180 W

#49 EPYC 7F52 Type server socket
AMD Socket SP3 Performance40.69 Cores/Threads16 / 32 Year of manufacture2020 Price now − TDP155 W

#50 EPYC 7313 Type server socket
AMD Socket SP3 Capacity40.60 Cores/Threads16 / 32 Year of manufacture2021 Price now1989 USD TDP155 W

#51 Ryzen Threadripper PRO 5945WX Type server socket
AMD Socket WRX8 Productivity40. 45 Cores/threads12 / 24 Year of manufacture2022 Price now − TDP280 W

#52 EPYC 7352 Type server socket
AMD Socket TR4 Performance39.67 Cores/Threads24 / 48 Year of manufacture2019 Price now1890 USD TDP155 W

#53 Ryzen Threadripper PRO 3955WX Type server socket
AMD Socket TR4 Performance39.61 Cores/Threads16 / 32 Year of manufacture2020 Price now1316 USD TDP280 W

#54 Ryzen 9 5900X Type desktop AMD Socket AM4 Productivity39.00 Cores/threads12 / 24 Year of manufacture2020 Price now309 USD TDP105 W

#55 Ryzen 9 3950X Type Desktop AMD Socket AM4 Capacity38. 72 Cores/Threads16 / 32 Year of manufacture2019 Price now680 USD TDP105 W

#56 Ryzen 9 5900 Type Desktop socket
AMD socket AM4 Performance34.34 Cores/threads12 / 24 Year of manufacture2021 Price now309 USD TDP65 W

#57 EPYC 7302 Type server socket
AMD Socket TR4 Performance33.59 Cores/Threads16 / 32 Year of manufacture2019 Price now1664 USD TDP155 W

#58 Ryzen Threadripper PRO 3945WX Type server socket
AMD Socket TR4 Performance33.04 Cores/threads12 / 24 Year of manufacture2020 Price now1961 USD TDP280 W

#59 Ryzen 9 3900XT Type Desktop socket
AMD socket AM4 Performance32. 68 Cores/threads12 / 24 Year of manufacture2020 Price now322 USD TDP105 W

#60 Ryzen 7 4980U Type for laptops SocketFP6 Capacity32.56 Cores/threads8 / 16 Year of manufacture2021 Price now − TDP15 W

#61 EPYC 7302P Type server socket
AMD Socket TR4 Productivity32.50 Cores/Threads16 / 32 Year of manufacture2019 Price now971 USD TDP155 W

#62 Ryzen 9 3900X Type desktop socket
AMD socket AM4 Productivity32.50 Cores/threads12 / 24 Year of manufacture2019 Price now499 USD TDP125 W

#63 Ryzen Threadripper 2990WX Type desktop SocketSocket TR4 Productivity32. 11 Cores/Threads32 / 64 Year of manufacture2018 Price now1999 USD TDP250 W

#64 Ryzen 9 PRO 3900 Type Desktop SocketSocket AM4 Capacity31.15 Cores/Threads12 / 24 Year of manufacture2019 Price now − TDP65 W

#65 EPYC 7371 Type server socket
AMD Socket TR4 Capacity30.84 Cores/Threads16 / 32 Year of manufacture2018 Price now1398 USD TDP170 W

#66 Ryzen

Type desktop SocketAM4 (1331) Capacity30.38 Cores/threads12 / 24 Year of manufacture2019 Price now374 USD TDP65 W

#67 EPYC 7282 Type server socket
AMD Socket TR4 Productivity30. 11 Cores/Threads16 / 32 Year of manufacture2019 Price now680 USD TDP120 W

#68 Ryzen Threadripper 2970WX Type Desktop SocketSocket TR4 Performance29.98 Cores/Threads24 / 48 Year of manufacture2018 Price now750 USD TDP250 W

#69 Ryzen Threadripper 2950X Type desktop SocketSocket TR4 Performance29.38 Cores/Threads16 / 32 Year of manufacture2018 Price now1595 USD TDP180 W

#70 EPYC 7401P Type server socket
AMD Socket TR4 Productivity28.05 Cores/Threads24 / 48 Year of manufacture2017 Price now844 USD TDP170 W

#71 Ryzen 7 5800X Type Desktop AMD Socket AM4 Performance27. 91 Cores/threads8 / 16 Year of manufacture2020 Price now407 USD TDP105 W

#72 Ryzen Threadripper 1950X Type desktop AMD Socket SP3r2 Productivity27.72 Cores/Threads16 / 32 Year of manufacture2017 Price now329 USD TDP180 W

#73 Ryzen 7 5800X3D Type Desktop socket
AMD socket AM4 Productivity27.36 Cores/threads8 / 16 Year of manufacture2022 Price now420 USD TDP105 W

#74 Ryzen 7 5700X Type desktop socket
AMD socket AM4 Performance26.39 Cores/threads8 / 16 Year of manufacture2022 Price now300 USD TDP65W

#75 EPYC 7272 Type server socket
AMD Socket TR4 Performance26. 23 Cores/threads12 / 24 Year of manufacture2019 Price now715 USD TDP120 W

#76 Ryzen 7 5800 Type Desktop socket
AMD socket AM4 Productivity25.63 Cores/threads8 / 16 Year of manufacture2020 Price now408 USD TDP65 W

#77 EPYC 7351P Type server socket
AMD Socket TR4 Performance25.28 Cores/Threads16 / 32 Year of manufacture2017 Price now599 USD TDP170 W

#78 Ryzen Threadripper 2920X Type Desktop socket
AMD Socket SP3r2 Productivity24.99 Cores/threads12 / 24 Year of manufacture2018 Price now997 USD TDP180 W

#79 Ryzen 9 6900HX Notebook Type AMD Socket FP7 Productivity24. 78 Cores/threads8 / 16 Year of manufacture2022 Price now − TDP45 W

#80 EPYC 7501 Type server socket
AMD Socket TR4 Productivity24.72 Cores/Threads32 / 64 Year of issue2017 Price now900 USD TDP170 W

#81 Ryzen 7 PRO 5750G Type Desktop AMD Socket AM4 Productivity24.66 Cores/threads8 / 16 Year of manufacture2021 Price now − TDP65 W

#82 Ryzen 7 5700G Type Desktop AMD Socket AM4 Productivity24.36 Cores/threads8 / 16 Year of manufacture2021 Price now500 USD TDP65 W

#83 Ryzen 9 PRO 6950H Notebook Type AMD Socket FP7 Productivity24. 31 Cores/threads8 / 16 Year of release2022 Price now − TDP45 W

#84 Ryzen 9 6900HS Notebook Type AMD Socket FP7 Productivity23.93 Cores/threads8 / 16 Year of manufacture2022 Price now − TDP35 W

#85 Ryzen 9 PRO 6950HS Notebook Type AMD Socket FP7 Productivity23.65 Cores/threads8 / 16 Year of manufacture2022 Price now − TDP35 W

#86 Ryzen 7 3800XT Type Desktop AMD Socket AM4 Productivity23.58 Cores/threads8 / 16 Year of release2020 Price now206 USD TDP105 W

#87 Ryzen 7 PRO 6850H Notebook type AMD Socket FP7 Productivity23. 47 Cores/threads8 / 16 Year of manufacture2022 Price now − TDP45 W

#88 Ryzen 7 6800H Notebook Type AMD Socket FP7 Productivity23.44 Cores/threads8 / 16 Year of manufacture2022 Price now − TDP45 W

#89 EPYC 7351 Type server socket
AMD Socket TR4 Capacity23.38 Cores/Threads16 / 32 Year of issue2017 Price now286 USD TDP170 W

#90 Ryzen 7 3800X Type Desktop socket
AMD socket AM4 Productivity23.12 Cores/threads8 / 16 Year of manufacture2019 Price now343 USD TDP105 W

#91 Ryzen 9 5980HX Type for laptops SocketFP6 Capacity22. 89 Cores/threads8 / 16 Year of manufacture2021 Price now − TDP45 W

#92 Ryzen 7 PRO 3700 Type Desktop SocketSocket AM4 Performance22.86 Cores/threads8 / 16 Year of release2019 Price now1550 USD TDP65 W

#93 EPYC 7F32 Type server socket
AMD Socket SP3 Capacity22.84 Cores/threads8 / 16 Year of manufacture2020 Price now − TDP180 W

#94 Ryzen 9 5900HX Notebook Type AMD Socket FP6 Capacity22.81 Cores/threads8 / 16 Year of manufacture2021 Price now − TDP45 W

#95 Ryzen Threadripper 1920X Type Desktop socket
AMD Socket SP3r2 Capacity22. 62 Cores/Threads12 / 24 Year of manufacture2017 Price now1318 USD TDP180 W

#96 Ryzen 7 3700X Type Desktop socket
AMD socket AM4 Productivity22.53 Cores/threads8 / 16 Year of manufacture2019 Price now266 USD TDP65 W

#97 Ryzen 7 6800HS Type Notebook AMD Socket FP7 Productivity22.47 Cores/threads8 / 16 Year of manufacture2022 Price now − TDP35 W

#98 Ryzen 7 5700GE Type Desktop SocketSocket AM4 Productivity22.30 Cores/threads8 / 16 Year of manufacture − Price now294 USD TDP35 W

#99 Ryzen 7 PRO 5750GE Type Desktop socket
AMD socket AM4 Productivity22. 08 Cores/threads8 / 16 Year of manufacture2021 Price now − TDP35 W

#100 Ryzen 9 5900HS Type for laptops SocketFP6 Capacity21.98 Cores/threads8 / 16 Year of manufacture2021 Price now − TDP35 W

#101 Ryzen Threadripper 1950 Type Desktop socket
AMD Socket SP3r2 Capacity21.90 Cores/Threads16 / 32 Year of manufacture2017 Price now329 USD TDP180 W

#102 Ryzen Threadripper 1920 Type Desktop socket
AMD Socket SP3r2 Capacity21.89 Cores/threads12 / 24 Year of manufacture2017 Price now1318 USD TDP140 W

#103 EPYC 7551 Type Server socket
AMD Socket TR4 Capacity21. 83 Cores/Threads32 / 64 Year of manufacture2017 Price now1495 USD TDP180 W

#104 EPYC 7281 Type server socket
AMD Socket TR4 Capacity21.80 Cores/Threads16 / 32 Year of manufacture2017 Price now1299 USD TDP170 W

#105 Ryzen 5 5600X Type Desktop AMD Socket AM4 Performance21.79 Cores/threads6 / 12 Year of manufacture2020 Price now289USD TDP65 W

#106 Ryzen 5 5600 Type Desktop socket
AMD socket AM4 Capacity21.34 Cores/threads6 / 12 Year of manufacture2022 Price now269 USD TDP65 W

#107 Ryzen 9 5980HS Notebook Type AMD Socket FP6 Capacity21. 32 Cores/threads8 / 16 Year of manufacture2021 Price now − TDP35 W

#108 Ryzen 7 5800H Notebook Type AMD Socket FP6 Performance21.18 Cores/threads8 / 16 Year of issue2021 Price now − TDP54 W

#109 Ryzen 7 PRO 6850U Notebook Type AMD Socket FP7 Performance20.83 Cores/threads8 / 16 Year of manufacture2022 Price now − TDP15 W

#110 Ryzen 9 5900H Notebook Type SocketFP6 Performance20.79 Cores/threads8 / 16 Year of manufacture2021 Price now − TDP45 W

#111 Ryzen 7 6800U Notebook Type AMD Socket FP7 Performance20. 77 Cores/threads8 / 16 Year of release2022 Price now − TDP15 W

#112 EPYC 7262 Type server socket
AMD Socket TR4 Capacity20.66 Cores/threads8 / 16 Year of manufacture2019 Price now664 USD TDP155 W

#113 Ryzen 7 5800HS Notebook Type AMD Socket FP6 Performance20.49 Cores/threads8 / 16 Year of manufacture2021 Price now − TDP35 W

#114 Ryzen 7 PRO 4750G Type Desktop socket
AMD socket AM4 Performance20.39 Cores/Threads8 / 16 Year of manufacture2020 Price now602 USD TDP65 W

#115 EPYC 7451 Type server socket
AMD Socket TR4 Performance20. 31 Cores/Threads24 / 48 Year of manufacture2017 Price now2768 USD TDP180 W

#116 Ryzen 7 4700GE Type desktop socket
AMD socket AM4 Capacity20.25 Cores/threads8 / 16 Year of manufacture2020 Price now − TDP35 W

#117 Ryzen 7 4700G Type Desktop socket
AMD socket AM4 Productivity20.04 Cores/threads8 / 16 Year of manufacture2020 Price now826 USD TDP65 W

#118 Ryzen 5 PRO 5650G Type Desktop socket
AMD socket AM4 Performance19.98 Cores/threads6 / 12 Year of manufacture2021 Price now − TDP65 W

#119 Ryzen 5 PRO 6650H Type for laptops AMD Socket FP7 Performance19. 94 Cores/threads6 / 12 Year of manufacture2022 Price now − TDP45 W

#120 Ryzen 7 PRO 6850HS Notebook type AMD Socket FP7 Performance19.90 Cores/threads8 / 16 Year of manufacture2022 Price now − TDP35 W

#121 Ryzen 5 5600G Type Desktop AMD Socket AM4 Performance19.67 Cores/threads6 / 12 Year of manufacture2021 Price now170 USD TDP65 W

#122 EPYC 7252 Type server socket
AMD Socket TR4 Performance19.39 Cores/threads8 / 16 Year of manufacture2019 Price now442 USD TDP120 W

#123 Ryzen 5 5500 Type Desktop socket
AMD socket AM4 Performance19. 32 Cores/threads6 / 12 Year of manufacture2022 Price now189 USD TDP65 W

#124 Ryzen 9 4900HS Notebook Type AMD Socket FP6 Performance19.18 Cores/threads8 / 16 Year of manufacture2020 Price now1339USD TDP35 W

#125 Ryzen 9 4900H Notebook Type AMD Socket FP6 Productivity19.06 Cores/threads8 / 16 Year of manufacture2020 Price now1339 USD TDP54 W

#126 Ryzen 5 6600H Notebook Type AMD Socket FP7 Performance18.98 Cores/threads6 / 12 Year of manufacture2022 Price now − TDP45 W

#127 Ryzen 7 4800H Notebook Type AMD Socket FP6 Performance18. 80 Cores/threads8 / 16 Year of manufacture2020 Price now1141 USD TDP54 W

#128 Ryzen 5 5600GE Type Desktop SocketSocket AM4 Performance18.73 Cores/threads6 / 12 Year of manufacture − Price now − TDP35 W

#129 Ryzen 7 5800U Notebook Type AMD Socket FP6 Performance18.66 Cores/threads8 / 16 Year of manufacture2021 Price now − TDP15 W

#130 Ryzen 7 4800HS Notebook Type AMD Socket FP6 Performance18.66 Cores/threads8 / 16 Year of release2020 Price now1141 USD TDP35 W

#131 Ryzen 5 3600XT Type desktop socket
AMD socket AM4 Performance18. 58 Cores/threads6 / 12 Year of manufacture2020 Price now257 USD TDP95 W

#132 Ryzen 5 PRO 5650GE Type desktop socket
AMD socket AM4 Performance18.51 Cores/threads6 / 12 Year of manufacture2021 Price now − TDP35 W

#133 Ryzen 7 PRO 4750GE Type Desktop socket
AMD socket AM4 Performance18.32 Cores/Threads8 / 16 Year of manufacture2020 Price now − TDP35 W

#134 Ryzen 7 5825U Notebook Type AMD Socket FP6 Performance18.18 Cores/threads8 / 16 Year of manufacture2022 Price now − TDP15 W

#135 Ryzen 5 3600X Type desktop socket
AMD socket AM4 Performance18. 15 Cores/threads6 / 12 Year of manufacture2019 Price now245 USD TDP95 W

#136 Ryzen 5 3600 Type desktop socket
AMD socket AM4 Productivity17.67 Cores/threads6 / 12 Year of manufacture2019 Price now192 USD TDP65 W

#137 Ryzen 5 6600U Notebook Type AMD Socket FP7 Performance17.50 Cores/threads6 / 12 Year of manufacture2022 Price now − TDP15 W

#138 Ryzen 7 2700X Type Desktop AMD Socket AM4 Performance17.46 Cores/threads8 / 16 Year of manufacture2018 Price now355 USD TDP105 W

#139 Ryzen 7 PRO 5850U Notebook Type AMD Socket FP6 Productivity17. 23 Cores/threads8 / 16 Year of manufacture2021 Price now − TDP15 W

#140 Ryzen 7 PRO 2700X Type Desktop SocketSocket AM4 Productivity17.08 Cores/threads8 / 16 Year of manufacture2018 Price now999 USD TDP105 W

#141 Ryzen 5 PRO 6650U Type for laptops AMD Socket FP7 Performance17.01 Cores/threads6 / 12 Year of manufacture2022 Price now − TDP15 W

#142 Ryzen 5 5600H Notebook Type SocketFP6 Performance16.98 Cores/threads6 / 12 Year of manufacture2021 Price now − TDP45 W

#143 EPYC 7232P Type server socket
AMD Socket TR4 Performance16. 88 Cores/threads8 / 16 Year of manufacture2019 Price now399 USD TDP120 W

#144 Ryzen 7 4800U Type for laptops AMD Socket FP6 Performance16.87 Cores/threads8 / 16 Year of manufacture2020 Price now556 USD TDP25 W

#145 Ryzen Threadripper 1900X Type desktop socket
AMD Socket SP3r2 Performance16.86 Cores/threads8 / 16 Year of manufacture2017 Price now294 USD TDP125 W

#146 Ryzen Embedded V2718 Type Desktop socket
AMD socket FP6 Performance16.37 Cores/threads8 / 16 Year of manufacture2020 Price now − TDP10 W

#147 Ryzen 7 1800X Type Desktop AMD Socket AM4 Performance16. 32 Cores/threads8 / 16 Year of manufacture2017 Price now368 USD TDP95 W

#148 Ryzen 7 PRO 5875U Notebook Type AMD Socket FP6 Performance16.23 Cores/threads8 / 16 Year of manufacture2021 Price now − TDP15 W

#149 Ryzen 5 PRO 4650G Type Desktop socket
AMD socket AM4 Performance16.20 Cores/threads6 / 12 Year of manufacture2020 Price now613 USD TDP65 W

#150 Ryzen Embedded V2748 Type Desktop socket
AMD socket FP6 Performance16.11 Cores/threads8 / 16 Year of manufacture2020 Price now − TDP35 W

#151 Ryzen 7 5700U Notebook Type AMD Socket FP6 Performance15. 77 Cores/threads8 / 16 Year of manufacture2021 Price now − TDP15 W

#152 Ryzen 5 4500 Type Desktop socket
AMD socket AM4 Performance15.73 Cores/threads6 / 12 Year of release2022 Price now323 USD TDP65 W

#153 Ryzen 7 2700 Type Desktop AMD Socket AM4 Performance15.66 Cores/threads8 / 16 Year of manufacture2018 Price now335 USD TDP65 W

#154 Ryzen 7 1700X Type Desktop AMD Socket AM4 Performance15.56 Cores/threads8 / 16 Year of manufacture2017 Price now278 USD TDP95 W

#155 Ryzen 5 4600GE Type Desktop socket
AMD socket AM4 Performance15. 51 Cores/Threads6 / 12 Year of manufacture2020 Price now − TDP35 W

#156 Ryzen 7 PRO 1700X Type server socket
AMD socket AM4 Performance15.49 Cores/threads8 / 16 Year of manufacture2017 Price now236 USD TDP95 W

#157 Ryzen 5 PRO 4650GE Type desktop socket
AMD socket AM4 Performance15.48 Cores/threads6 / 12 Year of manufacture2020 Price now1000 USD TDP35 W

#158 Ryzen 5 4600G Type Desktop socket
AMD socket AM4 Productivity15.47 Cores/threads6 / 12 Year of manufacture2020 Price now127 USD TDP65 W

#159 Ryzen 7 PRO 4750U Notebook type SocketFP6 Performance15. 27 Cores/threads8 / 16 Year of manufacture2020 Price now − TDP15 W

#160 Ryzen 5 5600U Type for laptops AMD Socket FP6 Performance15.18 Cores/threads6 / 12 Year of manufacture2021 Price now − TDP15 W

#161 Ryzen 7 PRO 2700 Type Desktop SocketSocket AM4 Productivity15.08 Cores/threads8 / 16 Year of manufacture2018 Price now999 USD TDP65 W

#162 Ryzen 5 PRO 5650U Notebook type AMD Socket FP6 Productivity15.04 Cores/threads6 / 12 Year of manufacture2021 Price now − TDP15 W

#163 Phenom II X4 X920 BE Type for laptops Socket S1 Performance14. 88 Cores/threads4 / 4 Year of manufacture2010 Price now − TDP45 W

#164 EPYC 7301 Type server socket
AMD Socket TR4 Productivity14.87 Cores/Threads16 / 32 Year of manufacture2017 Price now1500 USD TDP170 W

#165 EPYC 7251 Type server socket
AMD Socket TR4 Performance14.81 Cores/threads8 / 16 Year of manufacture2017 Price now510 USD TDP120 W

#166 Ryzen 7 1700 Type Desktop AMD Socket AM4 Performance14.72 Cores/threads8 / 16 Year of manufacture2017 Price now256 USD TDP65 W

#167 Ryzen 5 4600HS Notebook Type AMD Socket FP6 Performance14. 62 Cores/threads6 / 12 Year of manufacture2020 Price now909 USD TDP35 W

#168 Ryzen 5 4600H Notebook Type AMD Socket FP6 Performance14.56 Cores/threads6 / 12 Year of manufacture2020 Price now909 USD TDP54 W

#169 Ryzen 7 2700E Type Desktop socket
AMD socket AM4 Performance14.54 Cores/threads8 / 16 Year of manufacture2018 Price now281 USD TDP65 W

#170 Phenom II X4 N970 Notebook Type Socket S1 Performance14.46 Cores/threads4 / 4 Year of manufacture2010 Price now − TDP35 W

#171 Ryzen 7 PRO 1700 Type server socket
AMD socket AM4 Performance14. 45 Cores/threads8 / 16 Year of issue2017 Price now676 USD TDP65 W

#172 Ryzen 5 5625U Notebook Type AMD Socket FP6 Performance14.31 Cores/threads6 / 12 Year of manufacture2022 Price now − TDP15 W

#173 Ryzen 5 PRO 5675U Notebook Type AMD Socket FP6 Productivity14.03 Cores/threads6 / 12 Year of manufacture2021 Price now − TDP15 W

#174 Ryzen 5 2600X Type Desktop AMD Socket AM4 Performance13.91 Cores/threads6 / 12 Year of issue2018 Price now210 USD TDP95 W

#175 Ryzen 3 PRO 5350G Type Desktop socket
AMD socket AM4 Performance13. 85 Cores/threads4 / 8 Year of manufacture2021 Price now − TDP65 W

#176 Turion X2 Ultra ZM-85 Type for laptops SocketS1g2 Performance13.81 Cores/threads2 / 2 Year of manufacture2008 Price now28 USD TDP35 W

#177 Opteron 6278 Type server socket
AMD Socket G34 Performance13.62 Cores/Threads16 / 16 Year of manufacture2012 Price now722 USD TDP115 W

#178 Ryzen 3 PRO 5350GE Type Desktop socket
AMD socket AM4 Performance13.57 Cores/threads4 / 8 Year of manufacture2021 Price now − TDP35 W

#179 Ryzen 3 5300GE Type Desktop SocketSocket AM4 Performance13. 53 Cores/threads4 / 8 Year of manufacture − Price now − TDP35 W

#180 Ryzen 7 4700U Notebook Type AMD Socket FP6 Productivity13.45 Cores/Threads8 / 8 Year of manufacture2020 Price now521 USD TDP25 W

#181 Ryzen 5 4600U Notebook Type AMD Socket FP6 Performance13.34 Cores/threads6 / 12 Year of manufacture2020 Price now519 USD TDP25 W

#182 Ryzen 3 3300X Type Desktop AMD Socket AM4 Performance13.32 Cores/threads4 / 8 Year of manufacture2020 Price now250 USD TDP65 W

#183 Ryzen 5 3500X Type Desktop socket
AMD socket AM4 Performance13. 16 Cores/threads6 / 6 Year of manufacture2019 Price now215 USD TDP65 W

#184 Ryzen 5 PRO 2600 Type Desktop socket
AMD socket AM4 Performance13.14 Cores/threads6 / 12 Year of manufacture2018 Price now215 USD TDP65 W

#185 Ryzen 5 2600 Type Desktop AMD Socket AM4 Performance13.14 Cores/threads6 / 12 Year of manufacture2018 Price now210 USD TDP65 W

#186 Ryzen Embedded V2516 Type Desktop socket
AMD socket FP6 Performance13.12 Cores/threads6 / 12 Year of manufacture2020 Price now − TDP10 W

#187 Ryzen 5 5500U Notebook Type AMD Socket FP6 Productivity13. 05 Cores/threads6 / 12 Year of manufacture2021 Price now − TDP25 W

#188 Ryzen 5 1600X Type Desktop socket
AMD socket AM4 Performance12.98 Cores/threads6 / 12 Year of manufacture2017 Price now160 USD TDP95 W

#189 Ryzen 3 5300G Type Desktop socket
AMD socket AM4 Performance12.86 Cores/threads4 / 8 Year of manufacture2021 Price now − TDP65 W

#190 Ryzen 5 4680U Notebook Type SocketFP6 Performance12.85 Cores/threads6 / 12 Year of manufacture2021 Price now − TDP15W

#191 Ryzen 5 3500 Type Desktop SocketSocket AM4 Performance12. 73 Cores/threads6 / 6 Year of manufacture − Price now215 USD TDP65 W

#192 Ryzen 5 PRO 4650U Notebook Type AMD Socket FP6 Performance12.72 Cores/threads6 / 12 Year of manufacture2020 Price now − TDP15 W

#193 Phenom II X3 P840 Notebook type Socket S1 Performance12.56 Cores/Threads3 / 3 Year of manufacture2010 Price now − TDP25 W

#194 Phenom II X2 N620 Notebook type Socket S1 Performance12.51 Cores/threads2 / 2 Year of manufacture2010 Price now − TDP35 W

#195 Ryzen 5 1600 Type Desktop AMD Socket AM4 Productivity12. 22 Cores/threads6 / 12 Year of manufacture2017 Price now161 USD TDP65 W

#196 Ryzen 3 PRO 5475U Notebook Type AMD Socket FP6 Performance11.98 Cores/threads4 / 8 Year of manufacture2022 Price now − TDP15 W

#197 Ryzen 3 3100 Type Desktop AMD Socket AM4 Performance11.83 Cores/threads4 / 8 Year of manufacture2020 Price now139 USD TDP65 W

#198 Ryzen 3 5400U Notebook Type AMD Socket FP6 Productivity11.72 Cores/threads4 / 8 Year of manufacture2021 Price now − TDP15 W

#199 Ryzen 3 4100 Type Desktop socket
AMD socket AM4 Performance11. 24 Cores/threads4 / 8 Year of manufacture2022 Price now120 USD TDP65 W

#200 Phenom II X4 P960 Notebook type SocketS1 (S1g4) Performance11.23 Cores/threads4 / 4 Year of manufacture2010 Price now − TDP25 W

Processors. GECID.com.

Thursday, September 29th

0008
19.09 AMD Ryzen 9 7900X CPU-Z lags behind Core i7-12700K in ST in test, downclocking due to temperature

16.09 Intel gets rid of the Celeron and Pentium brands, calling the processors of these lines Intel

16.09 AMD Ryzen 9 7950X can be overclocked to 5.85 GHz, but only if its temperature is below 50°C

13. 09 Intel Core i9-13900KS could be the world’s first 6 GHz processor

Show more

Intel Core i3-4170 vs. Core i5-4460 benchmark: Intel LGA 1150 platform in 2022

After an incredible journey through the world of retro AMD processors, of course, we couldn’t just pass by Intel.

20.09

AMD Ryzen 5 5600 vs. Ryzen 5 5600X/5600G/5500 and Core i5-12400/11400

We understand the differences between the Ryzen 5 5000 processors, find out how the hero of the review accelerates and whether it is worth paying extra for it for the video card to work in PCIe 4.0 mode.

15.09

$500 Ryzen 5 5600G build. Comparison with a PC based on Core i5-12400 for the same money

Let’s figure out what is better in the budget segment now — integrated graphics AMD Vega 7 or Intel UHD Graphics 730? We also find out which processor should be chosen for a future upgrade.

16.08

AMD Ryzen 7 5800X3D versus AMD Ryzen 7 5800X and Intel Core i7-12700K with DDR4/DDR5: The best Ryzen for 3D gaming

Exploring a new concept for building a multilayer processor with larger cache. Is there any benefit from this?

10.08

AMD Ryzen 3 4100 vs. Ryzen 5 4500, Ryzen 3 3100, and Core i3-12100F/10100: Should I pay extra?

Let’s explore the capabilities of a budget AMD processor and evaluate what is more profitable to choose now in this segment in terms of the cost of processors and motherboards.

04.08

Last 5 years202220212020201

20172016201520142013201220112010200

AMD
AMD	A12-9800	AD9800AUABBOX	Bristol Ridge	Socket AM4	10-01-2018
AMD	Athlon 200GE	YD200GC6M2OFB	Raven Ridge	Socket AM4	01-12-2018
AMD	Ryzen 3 2200G	YD2200C5FBBOX	Raven Ridge	Socket AM4	16-03-2018
AMD	Ryzen 3 3100	100-000000284	Matisse	Socket AM4	03-08-2020
AMD	Ryzen 3 3200G	YD3200C5FHBOX	Picasso	Socket AM4	14-11-2019
AMD	Ryzen 3 3300X	100-000000159	Matisse	Socket AM4	20-08-2020
AMD	Ryzen 3 4100	100-000000510	Renoir	Socket AM4	04-08-2022
AMD	Ryzen 3 4300G	100-000000144	Renoir	Socket AM4	17-11-2021
AMD	Ryzen 3 PRO 4350G	100-100000148MPK	Renoir	Socket AM4	01-02-2021
AMD	Ryzen 5 1600AF	YD1600BBAFBOX	Pinnacle Ridge	Socket AM4	20-01-2021
AMD	Ryzen 5 2400G	YD2400C5FBBOX	Raven Ridge	Socket AM4	31-03-2018
AMD	Ryzen 5 2600	YD2600BBAFBOX	Pinnacle Ridge	Socket AM4	04-08-2018
AMD	Ryzen 5 2600X	YD260XBCAFBOX	Pinnacle Ridge	Socket AM4	27-07-2018
AMD	Ryzen 5 3400G	YD3400C5FHBOX	Picasso	Socket AM4	22-11-2019
AMD	Ryzen 5 3500X	100-100000158CBX	Matisse	Socket AM4	21-01-2021
AMD	Ryzen 5 3600	100-100000031BOX	Matisse	Socket AM4	30-11-2019
AMD	Ryzen 5 3600X	100-100000022BOX	Matisse	Socket AM4	02-01-2020
AMD	Ryzen 5 3600XT	100-100000281BOX	Matisse	Socket AM4	12-10-2020
AMD	Ryzen 5 4500	100-000000644	Renoir	Socket AM4	19-07-2022
AMD	Ryzen 5 5500	100-000000457	Cezanne	Socket AM4	12-07-2022
AMD	Ryzen 5 5600G	100-100000252BOX	Cezanne	Socket AM4	29-09-2021
AMD	Ryzen 5 PRO 4650G	100-100000143MPK	Renoir	Socket AM4	26-05-2021
AMD	Ryzen 7 2700	YD2700BBAFBOX	Pinnacle Ridge	Socket AM4	14-07-2018
AMD	Ryzen 7 2700X	YD270XBGAFBOX	Pinnacle Ridge	Socket AM4	30-06-2018
AMD	Ryzen 7 3700X	100-100000071BOX	Matisse	Socket AM4	01-02-2020
AMD	Ryzen 7 3800XT	100-100000279WOF	Matisse	Socket AM4	15-10-2020
AMD	Ryzen 7 5800X	100-100000063WOF	Vermeer	Socket AM4	30-11-2020
AMD	Ryzen 7 5800X3D	100-000000651	Vermeer	Socket AM4	10-08-2022
AMD	Ryzen 9 3900X	100-100000023BOX	Matisse	Socket AM4	10-02-2020
AMD	Ryzen 9 5900X	100-100000061WOF	Vermeer	Socket AM4	18-11-2020
AMD	Ryzen 9 5950X / Ryzen 5 5600X	100-100000059WOF / 100-100000065BOX	Vermeer	Socket AM4	08-01-2021
Intel
Intel	Celeron G5920	SRh52	Comet Lake	Socket LGA1200	06-03-2021
Intel	Core i3-10100	SRh4N	Comet Lake	Socket LGA1200	10-07-2020
Intel	Core i3-10100F	SRH8U	Comet Lake	Socket LGA1200	13-02-2021
Intel	Core i3-12100F	SRL63	Alder Lake	Socket LGA1700	20-06-2022
Intel	Core i3-8350K	SR3N4	Coffee Lake	Socket LGA1151	11-08-2018
Intel	Core i5-10400	SRh4C	Comet Lake	Socket LGA1200	08-09-2020
Intel	Core i5-10400F	SRh4D	Comet Lake	Socket LGA1200	04-02-2021
Intel	Core i5-11400	SRKP0	Rocket Lake	Socket LGA1200	30-06-2021
Intel	Core i5-11600K	SRKNU	Rocket Lake	Socket LGA1200	02-07-2021
Intel	Core i5-12400	SRL5Y	Alder Lake	Socket LGA1700	13-06-2022
Intel	Core i5-12600K	SRL4T	Alder Lake	Socket LGA1700	13-01-2022
Intel	Core i5-8400	SR3QT	Coffee Lake	Socket LGA1151	09-03-2018
Intel	Core i5-9400F	SRF6M	Coffee Lake Refresh	Socket LGA1151	06-07-2019
Intel	Core i5-9600K	RELU	Coffee Lake Refresh	Socket LGA1151	20-04-2019
Intel	Core i7-11700K	SRKNL	Rocket Lake	Socket LGA1200	07-07-2021
Intel	Core i7-12700K	SRL4N	Alder Lake	Socket LGA1700	12-01-2022
Intel	Core i9-9900K	SRELS	Coffee Lake Refresh	Socket LGA1151	18-03-2019
Intel	Pentium Gold G5400	SR3X9	Coffee Lake	Socket LGA1151	10-09-2018
Intel	Pentium Gold G5500	SR3YD	Coffee Lake	Socket LGA1151	25-09-2018
Intel	Pentium Gold G6400	SRh4Y	Comet Lake	Socket LGA1200	25-02-2021

Accessories

(09/20/2022) Intel Core i3-4170 vs. Core i5-4460 test: Intel LGA 1150 platform in 2022
(01/08/2022) AMD FX-8350 20 Games Test in 2022: The Old Guard Marches!
(07/21/2022) 2022 AMD FX-6300 CPU Test: Just Add Overclocking!
(01/07/2022) Test AMD Athlon X4 860K in 20 games in 2022. 8 year old CPU in modern games?
(05/23/2022) Build on Core i7-12700K with GeForce RTX 3080 Ti and test in Full HD, Quad HD and 4K Ultra HD: out of time, but powerful
(04/29/2022) Build on Core i3-12100F with GeForce RTX 3050 and test in 20 games in Full HD
(05/04/2022) Intel Core i7-980X test in 20 games in 2022: is LGA1366 alive after 12 years?
(02/23/2022) Build with Radeon RX 6500 XT on Core i5-11400F and test in 21 games in Full HD: AMD, how come?!
(02/17/2022) 2022 Intel Core i3-3225 Benchmark: Is DDR3-1600 Already Deciding?
(07/02/2022) Windows 10 vs Windows 11 with Core i7-12700K: moving to a new OS urgently?!
(01/24/2022) Build on Core i5-3470 with GeForce GTX 750 Ti: used hardware PC is prettier than new
(01/10/2022) 2021 Core i7-2600K full HD test: what have the years done with the legend?
(01/05/2022) Full HD Core i5-12600K/GeForce RTX 3060 Build: Low Cost LGA1700 PC?!
(03/01/2022) 2021 Core i5-2500K test in 20 games in Full HD: more fun with overclocking!
(12/25/2021) Build on Core i3-10105F with Radeon RX 6600 XT: save for the sake of the graphics card!
(12/18/2021) MSI style build with Core i5-12600K and GeForce RTX 3070 Ti: where is 144+ FPS on Alder Lake in FHD and QHD?
(16/12/2021) Core i5-2300 test in 2021 in Full HD: when the cores are real!
(04/12/2021) Core i3-2100 test in 2021 in 20 games in Full HD: what is the great-grandfather of the «hyperstump» capable of?
(09/11/2021) Build with Core i5-10400F and GeForce GTX 1650 / RTX 3060: how to invest $1000?
(03/11/2021) Comparison of Ryzen 5 1600 AF vs. Core i3-10105F build with GeForce GTX 1650: frequencies vs. threads
(10/23/2021) Build on Core i3-10105F and GeForce GTX 1650: the best entry-level gaming PC in 2021
(10/18/2021) Build with Ryzen 5 5600G with Radeon Vega 7 graphics: can we wait out the crisis?
(06/10/2021) Overclocking and upgrading a build with Athlon 3000G: Ryzen 5 1600 AF with GeForce GT 1030 or GeForce GTX 1050 Ti?
(08/19/2021) $260 Athlon 3000G build with Radeon Vega 3 in 2021: (Non)gaming PC test in 24 games
(29/07/2021) $500 build with Ryzen 3 1200 and GeForce GT 1030 in 2021: gaming and upgrade
(07/28/2021) Build with Core i5-11600K and GeForce RTX 3070 Ti: not cheap, but cheerful
(07/20/2021) Build with Core i7-11700K and GeForce RTX 3080 Ti: is everything pulling the TOP $4.5K PC in 4K?
(07/09/2021) 2021 New & Used $500 build: Core i5-4590 + GeForce GTX 1060 3GB
(24/06/2021) Intel UHD Graphics 750 with DDR4-3200 and DDR4-3600 vs GT 1030, UHD 730, UHD 630 and Vega 8 in 16 games in 2021
(08/06/2021) Comparison of Intel UHD Graphics 730 with DDR4-3200 and DDR4-3600 vs GT 1030, GT 730, UHD 630 and Vega 8 in 16 games in 2021
(04/29/2021) Compare NVIDIA GeForce GT 710 with UHD 630, UHD 610 and Radeon Vega 3 integrated graphics in 20 games in 2021
(04/27/2021) AMD Radeon RX Vega 11 vs Vega 8 and Vega 3 comparison in 2021: how to ride out the hard times?
(04/16/2021) AMD Ryzen 7 5800X and Radeon RX 6800 XT build on GIGABYTE B550 AORUS PRO: 300-500 FPS in Full HD!?
(04/14/2021) GIGABYTE Z490M GAMING X Intel Core i5-10400 Build Looking for 144 FPS Esports
(03/04/2021) Build with GeForce RTX 3060 and Core i5-10600K: 144 FPS in Full HD is it real?
(02/04/2021) Build with AMD Ryzen 5 3400G and Radeon RX Vega 11: anti-crisis without graphics card
(03/15/2021) Build with AMD FX-9830P and DDR4 on BIOSTAR FX9830M: total savings!
(02/27/2021) AMD Radeon RX 6800 + Ryzen 5 5600X based build: A520 based system for 4K?
(02/12/2021) NVIDIA GeForce RTX 3070 + AMD Ryzen 5 5600X in ASUS ROG Z11: 4K in a compact system?
(06/02/2021) AMD Radeon RX 6800 XT + Ryzen 7 5800X Quad HD B&W Build
(02/02/2021) Game test iGPU Radeon Graphics in APU Ryzen 3 PRO 4350G: is it possible without «discrete»?
(01/30/2021) Intel Core i5-10600K + GIGABYTE Z490 AORUS MASTER Build: Enjoy Quad HD Gaming!
(01/29/2021) Ryzen 3 3100 gaming benchmark: AMD’s entry ticket to the gaming world?
(01/14/2021) AMD FX-8120 Gaming Test vs. FX-9370: Throwback
(09/01/2021) Surviving on Intel UHD 630 integrated graphics in Core i5-10400: waiting for new

graphics cards

(04/11/2020) GeForce RTX 3080 + Ryzen 7 3800XT: ASUS TUF Gaming

4K Gaming Build

(02/11/2020) AMD FX-8350 Gaming Test 2020: Alive
(10/22/2020) AMD FX-6300 gaming test in 2020: drags or not?
(16/10/2020) Top PC test with GeForce RTX 3090 and Ryzen 9 3900XT for 4K and 8K gaming
(10/14/2020) Build based on Intel Core i3-10100 and NVIDIA GeForce GTX 1660 SUPER: $800 and the end of an era of misery
(10/09/2020) AMD Ryzen 3 3300X and Radeon RX 5600 XT based build: Comfortable Full HD up to $1000
(09/28/2020) AMD FX-4320 gaming test in 2020: without overclocking anywhere
(09/09/2020) Build based on Intel Core i7-10700K and NVIDIA GeForce RTX 2080 SUPER: stable 144 FPS for $3500
(01/09/2020) Best $1,000 Gaming PC: Summer-Fall 2020
(08/26/2020) Best gaming PC for $500 or less: Summer 2020
(07/20/2020) Intel Core i3-9100F reveals NVIDIA GeForce RTX 2080 Ti in Full HD, Quad HD and 4K Ultra HD: what was that all about?!
(07/13/2020) AMD Ryzen 7 3700X and NVIDIA GeForce RTX 2070 SUPER Build: Upgrade Now Profitable!
(07/07/2020) Build with AMD Ryzen 3 3100 and NVIDIA GeForce GTX 1650 SUPER: B550 motherboard to boot!
(07/06/2020) Build based on Core i3-9100F + GeForce RTX 2060 SUPER: was it possible?
(03/07/2020) Best $600-$700 Gaming PC: Summer 2020
(06/25/2020) AMD Phenom II X6 1100T BE gaming test in 2020: there’s still gunpowder. ..
(06/18/2020) Build based on Intel Core i7-10700 and NVIDIA GeForce RTX 2080 SUPER: Comet Lake-S in action
(06/15/2020) Intel Core i3-9100F + NVIDIA GeForce GTX 1650 SUPER build: good now?
(06/11/2020) 2020 AMD Phenom II X4 955 BE Gaming Test: The Legend Is Back!
(03/06/2020) 2020 Intel Core i7-860 gaming test: the progenitor of the 8-thread Core i7
(05/22/2020) AMD Athlon II X4 605e gaming test in 2020: in Metro you can, but not in Fortnite?!
(05/20/2020) Core i3 9100F + GeForce GTX 1650 build: is it really that bad?
(05/15/2020) Athlon II X3 425 and Phenom II X3 705e gaming test in 2020: triple suffering!
(04/30/2020) 2020 Intel Core i5-760 Gaming Test: Already Good, But Could Be Better
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cores

review, specifications and comparison with M1

This article is a translation. The original is available at the link.

Despite the fact that the Apple WWDC conference is still more focused on software, technical innovations are announced there quite often, and this year Apple did not disappoint either. At the biggest Mac event of the year, Apple unveiled the M2, its second-generation Apple Silicon SoC for the Mac (and iPad) platform. Demonstrating a modest performance increase over the original M1 SoC of around 18% for CPU multi-threaded workloads and 35% for peak GPU workloads, the M2 is Apple’s first opportunity to replicate its Mac SoC to add improved technologies while also updating lower-end models for maintaining competitive advantage.

The M1 Ultra came out 3 months behind the M1 SoC and Apple wasted no time preparing its second generation Apple Silicon SoC. To this end, the company has prepared a new (and certainly not the last) SoC family — Apple Silicon M2. Designed to replace the M1 in Apple’s product line, the M2 SoC should appear first in the 13-inch MacBook Pro, as well as the MacBook Air, which will receive significant changes.

The M2 presentation also gives us our first real glimpse of how Apple is going to update the Apple Silicon ecosystem. In the iPhone family, Apple is adhering to the annual update frequency of the A-series SoCs, with the traditional PC ecosystem approaching a two-year rhythm lately. It seems that M2 is somewhere in the middle, because it came out about a year and a half after the original M1, but in terms of architecture, it is closer to the annual update of the A-series SoC.

At a high level, a limited number of changes have been made to the M2 — or at least as many as Apple wants to reveal at the moment — with a focus on a few important areas, compared to the M1 SoC, which made a splash in its time. While this is all speculation before further Apple reveals or hands-on with the hardware itself, the M2 is very similar to the A15 SoC, much like the M1 was derived from the A14. Therefore, at first glance, upgrading from M1 to M2 is very similar to upgrading from A14 to A15.

According to Apple, the new SoC has approximately 20 billion transistors, which is 4 billion (25%) more than the original M1 and 5 billion more than the A15. The chip is manufactured using the «second generation 5nm» process technology (as Apple calls it). We believe it is the TSMC N5P line, which in turn is used for the A15 SoC. The N5P offers improved performance over the N5, but no increase in density.

In terms of ARM-architecture CPU cores, the M2 retains Apple’s configuration of four high-performance and four power-efficient cores. Apple doesn’t reveal what generation of processor cores they’re using here, but based on performance expectations and timing, there’s every reason to believe these are the Avalanche and Blizzard cores that were first introduced in A15.

In terms of performance, Apple claims that the M2 offers 18% faster multi-threaded processor performance than the M1. The company doesn’t offer a breakdown of clock speeds versus IPC gains, but if our hunch that the M2 is an Avalanche/Blizzard is correct, then we already have a good idea of the breakdown. Compared to the Firestorm core in the A14/M1, the Avalanche offers only modest performance gains, as Apple has invested most of its improvements in improving overall power efficiency. As a result, most of the performance gains come from increased clock speeds rather than IPC improvements.

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The performance CPU cores on the M2 also have a larger L2 cache pool, which also improves performance. While the M1 had 12MB of L2 cache shared between the cores, the M2 increased that to 16MB, 4MB more than the M1 and, for that matter, the A15.

Based on what we’ve already seen with the A15, the bigger update in this generation is on the main side of efficiency. Blizzard CPU cores are increasingly behaving like not-so-small cores, offering relatively high performance and more design options than what we see with other efficient Arm cores. Among other things, Blizzard added a fourth integer ALU, which, combined with other changes, gave the A15 a significant (28%) increase in the performance of these cores. Therefore, it is quite reasonable to expect a similar increase for the M2, although the main trump card will be the choice of clock frequency.

This, in turn, also seems to explain why Apple chose to focus on MT performance to compare Apple to Apple. Since the largest performance gains come from efficiency cores, in performance situations, it is MT workloads that can use E cores along with P cores that will yield the greatest performance gains. All in all, Avalanche/Blizzard did a modest amount of work over the course of the year on CPU microarchitectures, and this seems to be the case for the M2 SoC as well.

Meanwhile, Apple GPUs are on the rise. Despite the lack of information about the underlying architecture — just bill it as the «next generation» GPU — the M2 comes with 10 integrated GPU cores, compared to 8 on the M1. This GPU is officially rated at 3.6 TFLOPS, 1 TFLOPS more than the 8-core M1. In addition, the new GPU has a larger shared L2 cache, although Apple hasn’t disclosed its size.

With a combination of more cores and about a 10% increase in GPU clock speed (based on teraflops), Apple is announcing two performance numbers for the M2 GPU. At iso power (~12W), the M2 should deliver 25% faster GPU performance than the M1. However, the M2 GPU, for better or worse, can also consume more power than the M1 GPU. At full power of 15W, performance is increased by 35%, according to Apple.

Overall, this indicates that while Apple has been able to improve its power efficiency — GPUs like to run «wide and slow» — peak power consumption of Apple GPUs is rising. This should have minimal impact on light workloads, but it will be interesting to see what it means for relatively heavy and persistent workloads, especially on a fanless MacBook Air. Meanwhile, the GPU’s display controller appears to remain unchanged, topping out at 6K for external monitors.

In addition to the GPU upgrades, the M2 also comes with an updated video encoder/decoder block that at first glance looks very similar to the stripped-down version of the block used in the M1 Pro/Max. These SoCs added support for Apple’s ProRes and ProRes RAW codecs, and that support is now back in the base M2 SoC. Also, Apple now officially supports 8K video decoding on the M2, while the M1, although it didn’t have an official resolution designation, was essentially able to decode 4K.

Finally, in terms of processing, M2 inherits the updated A15 neural engine. It still has 16 cores and performs 15.8 trillion operations per second (TOPS), just like the A15 neural engine, according to Apple. Which, while similar to the A15, still makes it 40% faster than the M1 Neural Engine, which hits 11 TOPS.

In general, Apple expresses great confidence in the performance of its second-generation Apple Silicon chip and, even more so, in its competitiveness compared to Intel. While we’ll have to wait to get our hands on the hardware to confirm its performance, the M1 certainly lives up to its claims. So expectations from the M2 are just as high.

Memory: LPDDR5-6400, up to 24GB

Although the core logic of Apple’s latest SoC seems to be a vastly improved version of the A15, it does have one very noticeable benefit: LPDDR5 support.

While the vanilla M1 (and A15) only supported LPDDR4x memory, the M2 supports the newer LPDDR5 memory standard. The biggest change is support for much higher memory clocks; According to Apple, the M2 runs at 6400 Mbps/pin (LPDDR5-6400), which is significantly faster than the original M1’s 4266 Mbps/pin (LPDDR4x-4266) memory. The end result is that on the SoC’s 128-bit memory bus, the M2 has a memory bandwidth of 100 GB/s, which is 50% more than the M1 (~68 GB/s).

Apple’s out-of-the-box use of memory technology remains one of its key advantages over laptop competitors, so the massive increase in memory bandwidth helps Apple maintain its position. Improvements in memory bandwidth further improve all aspects of the SoC, and this is especially true for GPU performance, where memory bandwidth is often a bottleneck, making the addition of LPDDR5 a key factor for a larger 10-core GPU. Although in this case, the M2 is in a sense catching up with its predecessors: the M1 Pro/Max/Ultra came with LPDDR5 support, while the M2 is actually the last M-series chip/level to receive a new type of memory.

In addition, Apple is again placing LPDDR5 memory blocks on the chip along with the processor matrix itself. So every M2 chip needs to be equipped with memory beforehand, and device shipments are likely to fluctuate a bit with memory capacity depending on which configurations are the most popular, especially early on.

M2 devices are available with 8 GB, 16 GB or 24 GB of memory. Considering that Apple still only uses two memory stacks, it looks like the company has finally taken advantage of LPDDR support for non-two die sizes (like 12GB dies), allowing them to get 12GB of memory in a single package without further scams. And assuming Apple repeats this for the mandatory Pro/Max/Ultra SoCs, we should note that the maximum memory capacity of all Apple SoCs will increase by 50% compared to the previous generation.

And finally: the same USB and updated ISP

There are a couple of other points that deserve mention.

First, M2 gets updated ISP and Secure Enclave. Like other technical features of the M2, they are likely inherited from the A15, which also received similar upgrades.

Meanwhile, a look at the specs for the new MBAs and MBPs reveals that there haven’t been any notable changes in USB or other I/O support for the new SoC. The M1 was already at the top of the curve in 2020 when it launched with USB4 support, so nothing has changed here. However, this means that the SoC is apparently still limited to Thunderbolt 3 support, despite Thunderbolt 4 being out for over a year now. Both the MBA and MBP also come with two USB ports, so this still seems to be the SoC’s natural limit.

Apple also didn’t talk about PCIe capabilities at all. We’ll know more when we get the hardware, but at least for now, there’s no reason to believe that Apple has added PCIe 5 support or changed the number of lanes available. I/O has remained something of a constraint on the entire Apple Silicon family, so I’m wondering what that means for a possible Apple Silicon Mac Pro.

To end today’s announcement, the M2 will ship in the new 2022 MacBook Air as well as the updated 2022 12-inch MacBook Pro. These devices will be available in July, with pre-orders open today, according to Apple.

In the meantime, M1 isn’t going anywhere. In addition to being Apple at the heart of the Mac Mini, which didn’t get an update today, Apple is keeping the 2020 M1-based MacBook Air. Thus, both versions of the entry-level M-series SoC will exist for some time.

***

Video reviews

MacBook Air (M2) review — the perfect Mac?

MacBook Pro M2 vs M1 — does it make sense to take a new one?

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Comparison of different generations of Intel Core i5 processors

Once a great sage in captain’s uniform once said that a computer cannot work without a processor. Since then, everyone considers it his duty to find the very processor, thanks to which his system will fly like a fighter.

Since we simply cannot cover all known science chips, we want to focus on one interesting family of the Intelovich family — Core i5. They have very interesting characteristics and good performance.

Why this series and not i3 or i7? It’s simple: excellent potential without overpaying for unnecessary instructions that the seventh line sins with. Yes, and more cores than in Core i3. You will quite naturally start arguing about Hyper Threading support and you will be partially right, but 4 physical cores can do much more than 2 + 2 virtual ones.

Top 15 rating of the best processors Intel Core i5 2021

place	Name
9000
20041 3	Intel Core i5-8600k	Find out the price
TOP-3 Intel Core i5 processors for 1200
Intel Core i5-10600	2	Intel Core i5-10500	Find out the price
3	Intel Core i5-10400	Learn the price of
TOP-3 TOP-3 Intel Core i5 for the co-Coquet 1151v20042			Intel Core i5-3570K	Get price

Series history

Today we have a comparison of different generations of Intel Core i5 processors on the agenda. Here I would like to touch upon such pressing topics as the technical process, the socket, the heat pack and the presence of solder under the lid. And if there is a mood, then we will also push especially interesting stones together with our foreheads. So let’s go.
I would like to start with the fact that only desktop processors will be considered, and not options for a laptop. There will be a comparison of mobile chips, but another time.

Tables of the exit frequency are as follows:

9000 9000

Generation release Architecture series

1 2009 (2010) Hehalem (Westmere) i5-7xx (i5-6xx) LGA 115 2/90 40042
8 MB (4 MB)

2 2011 Sandy Bridge i5-2xxx LGA 1155 4/4 2012 2012 2012 2012 i5-3xxx LGA 1155 4/4 6

4 2013 Haswell i5-4xxx LGA 1150 4/4 6

5 2015 Broadwell i5-5xxx LGA 1150 4/4 4

6 2015 Skylake i5-6xxx LGA 1151 4/4 6

7 2017 Kaby Lake i5-7xxx LGA 1151
LGA 2066 4/4 6

8 2018 Coffee Lake i5 -8xxx LGA 1151 v2 6/6 9MB

How to choose an Intel Core i5 processor and what to look for?

Of all the consumer properties of processors, are considered the most important:

installation — not all models are installed simultaneously on a laptop or desktop PC, laptop options come with an emphasis on reducing heat and power consumption. When choosing a processor, this point is worth paying the first attention;

gaming performance — if you plan to create an office system or a system that does not require the installation of demanding software, it is not necessary to purchase expensive multi-core high-speed processors. In addition, gaming options are very demanding in terms of energy efficiency and cooling and will entail additional expenses in the form of a powerful cooling system.

How many cores does an Intel Core i5 processor have?

Hello guys Intel Core i3, i5, i7 processors, this is probably the best middle among processors in the world. Yes, guys, it is in the world, if you need an optimal balance in terms of price and performance, then it is better to take processors from Intel. I don’t argue, AMD is also good, but in short, they have a lot of cores and a higher frequency, but they are still weaker .. And, you know what? Don’t forget that AMD processors consume more light. 0005

So, a bit off topic, so sorry. The question we have today is how many cores are in the Core i5 process? And here the answer cannot be taken and just given! Why? Processors can be laptop, desktop, and so to speak, the first i5 models. For all these three types, the number of cores may differ, and there may even be threads (Hyper-threading technology). Although there are such users, they are sure that there are no threads in i5 and that’s it, that’s it! In a sense, they are right, because there are no threads in the desktop versions (we’ll talk about the exception later).

So guys, in general, if you have an i5 processor, then you don’t have to guess and fool yourself, you can just download the CPU-Z utility, it will show you everything. Then you run the CPU-Z program, and there is something like Cores and Threads at the bottom, this is the cores and threads, this is where it is written:

But if you are just interested in the info about how many cores are in the Intel Core i5, OK guys, I’ll tell you.

So, as I already wrote, desktop versions of Core i5 have 4 cores. This is the golden mean among Intel processors, 4 cores and that’s it, without threads. i7 already comes with threads, but there are also 4 cores. Well, i3 does not have 4 cores, it has 2 cores, but it also has threads.

It has already happened that in the i5 process there are exactly 4 cores and a point. But, this all applies to desktop versions. But there is one exception on socket 1156, well, maybe there is not one, but several exceptions, well, the first i5 processors on socket 1156 had 2 cores and 4 threads. That is, they were i5 with 2 cores, many users will say that I am writing full bullshit, but it’s true. Here is an example, the i5 650 model in the CPU-Z program:

See what is written below? Cores: 2 and Threads: 4, i.e. two cores and four threads. But don’t worry, if you are a regular user, then I think that you are unlikely to have such a percentage, after all, socket 1156 is already in the past, it is an outdated socket and a bit rare. These are the exceptions, all other i5 models are on the 1155th socket, on the 1150th, on the 1151th, then there are already 4 cores everywhere.

Now about mobile processors. If you have a laptop, or you are thinking of taking it, then you should know that inside the laptop is not the same percentage as in a regular computer. It stands there for a laptop, and it is made in such a way that the laptop works for a long time, so that the percentage does not eat a lot of light, does not get warm, and all that. It is clear that this all affects performance, such a percentage is less productive than the desktop version. Sometimes, you can even say that it is truncated, because there are not 4 cores but 2, but there are threads. For example, the Core i5-4200U model:

As you can see, this is exactly what I was talking about, there are 2 cores and 4 threads, although it is i5! Here is another i5-6200U model, newer, but still there are 2 cores 4 threads:

So laptop processors are like that, well, a little different . .

If the laptop is expensive, then there may be i5 , which has all the full 4 cores, but alas, they still remain mobile. For example, the i5-6300HQ model:

By the way, the situation is about the same with the Core i7, there are also differences in terms of the number of cores!

Well, guys, is everything more or less normal, I wrote to you here? I hope that everything was clear here, and if something is wrong, then I’m sorry. You see, I bring screenshots of the CPU-Z program everywhere, this is because it is a suitable program and I advise you to it, this is a great program to quickly find out information about the process. It is free, the computer does not load at all, it works clearly, in short, I wrote that this is a suitable program

All the guys, that’s all, good luck to you in life, so that everything is fine with you, so that you don’t get sick and be happy, good luck

Home! processor 12/09/2016

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TOP 2 best Intel Core i5 processors for socket 1151

Intel Core i5-7500

A powerful mid-range processor that holds its position firmly in 2021 . For those who assemble a medium-powerful gaming PC, it becomes the golden mean in terms of pricing and performance indicators.
Four cores, no hyperthreading technology, L3 cache will be 6MB.

The integrated graphics card is not the most powerful, but it is enough to run simple games, watch movies, surf the web and work in office applications .

The overclocking of the model is not too high, so the processor is not of particular interest for overclocking. The Skylake architecture is optimized compared to its counterparts and is comparable to the more advanced i7.

Overall, this is a comfortable all-round chipset for everyday tasks and mid-range gaming PCs.

For the latest resource-intensive games, it’s best to look for something newer.

Specifications :

Gaming: yes;

Socket — LGA1151.

Cores: 4;

Graphics core: HD Graphics 630, 1100 MHz;

Clock frequency: 3400 MHz;

Memory: DDR3L/DDR4 1333/1600/2133/2400MHz, 64GB.

Pros

versatility;

value for money.

Cons

is not of interest for overclocking.

Intel Core i5-6600

The processor was released in July 2015, but is still relevant in 2021 . Designed for desktop personal computers.
Made on Skylake architecture. It does not have the ability to overclock, however, a slight overclocking is provided using the built-in system up to 3.9 GHz.

Supports several types of memory with different frequencies . Integrated graphics are optimal for simple gaming projects, but modern games for the processor will become a challenge.

Nevertheless, it performs well in 2021 projects. Supports Turbo Boost, Thermal Monitoring, Enhanced Intel SpeedStep technologies.

Graphics chipset supports 4K resolution and screen resolution up to 4096×2304 at 60GHz . The best option for a work or educational PC.

Specifications :

Gaming: yes;

Cores: 4;

Graphics core: HD Graphics 530, 1150 MHz;

Clock frequency: 3300 MHz;

Memory: DDR3L/DDR4 1333/1600/1866/2133MHz, 64GB.

Pros

Turbo Boost, Thermal Monitoring, Enhanced Intel SpeedStep;

cost;

performance.

Cons

is weak as a game option for projects older than 2018.

Characteristics of Intel Core i5 processors

— March 04, 2011

Progress does not stand still, and along with it the information technology sector is developing, which constantly needs to be upgraded and new devices appear. In this case, we are talking about Intel processors. Following the Intel Core i3 processors, the Intel Core i5 processors appeared. Now you will be asked to study the most important technical specifications for Intel Core i5 processors.

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Core i5-2300

Processor frequency 2.8 GHz or up to 3.1 GHz in the TURBO BOOST Unique technology SSE, SSE2, SSE4.2, SSE4.2 Hardware accelerated encryption AES, Intel Virtualization Technology (VT-x), EVP (Enhanced Virus Protection or Execute Disable Bit), Enhanced Intel Speedstep Technology, Enhanced Halt State (C1E)

Maximum resolution 2D/3D 2048×1536 @ 75Hz with analog monitor connection 1920 x 1200 @ 60Hz with DVI connection or 1920 x 1200 @ 60Hz with HDMI connection

DDR3 PC3-8500 (DDR3-1066), PC3-10600 (DDR3-1333), dual-channel controller

Officially supported memory standards

max volume of RAM 32 GB

Support ECC no Video processor frequency 850 MHz or up to 1. 1 GHz in the TURBO BOOST Processor speed 3.1 GHz or up to 3.4 GHz with Turbo Boost

Unique technologies , Intel Virtualization Technology for Directed I/O (VT-d), Intel Trusted Execution Technology, EVP (Enhanced Virus Protection or Execute Disable Bit), Enhanced Intel Speedstep Technology, Enhanced Halt State (C1E)

Maximum resolution 2D/3D 2048×1536 @ 75Hz with analog monitor connection 1920 x 1200 @ 60Hz with DVI connection or 1920 x 1200 @ 60Hz with HDMI connection

DDR3 PC3-8500 (DDR3-1066), PC3-10600 (DDR3-1333), dual-channel controller

Officially supported memory standards

max volume of RAM 32 GB

Support ECC no
Video processor frequency 850 MHz or up to 1.1 GHz in the TURBO BOOST Processor speed 3. 3 GHz or up to 3.7 GHz with Turbo Boost

Unique technologies , Intel Virtualization Technology for Directed I/O (VT-d), Intel Trusted Execution Technology, EVP (Enhanced Virus Protection or Execute Disable Bit), Enhanced Intel Speedstep Technology, Enhanced Halt State (C1E)

Maximum resolution 2D/3D 2048×1536 @ 75Hz with analog monitor connection 1920 x 1200 @ 60Hz with DVI connection or 1920 x 1200 @ 60Hz with HDMI connection

DDR3 PC3-8500 (DDR3-1066), PC3-10600 (DDR3-1333), dual-channel controller

Officially supported memory standards

Maximum resolution 2D/3D 2048×1536 @ 75Hz with analog monitor connection 1920 x 1200 @ 60Hz with DVI connection or 1920 x 1200 @ 60Hz with HDMI connection

DDR3 PC3-8500 (DDR3-1066), PC3-10600 (DDR3-1333), dual-channel controller

Officially supported memory standards

Maximum resolution 2D/3D 2048×1536 @ 75Hz with analog monitor connection 1920 x 1200 @ 60Hz with DVI connection or 1920 x 1200 @ 60Hz with HDMI connection

DDR3 PC3-8500 (DDR3-1066), PC3-10600 (DDR3-1333), dual-channel controller

Officially supported memory standards

Maximum resolution 2D/3D 2048×1536 @ 75Hz with analog monitor connection 1920 x 1200 @ 60Hz with DVI connection or 1920 x 1200 @ 60Hz with HDMI connection

DDR3 PC3-8500 (DDR3-1066), PC3-10600 (DDR3-1333), dual-channel controller

Officially supported memory standards

max volume of RAM 16 GB

Support ECC no

Core i5-760
Frequency of the processor
2. 8 GGC or UPD

Unique Technologies SSE, SSE2, SSE3, SSE4.2, Intel Virtualization Technology (VT-x), EVP (Enhanced Virus Protection or Execute Disable Bit), Enhanced Intel Speedstep Technology, Enhanced Halt State (C1E)

max volume of RAM 16 GB

Support ECC No

As you can see, characteristics of the Intel Core i5 processors will be pleased even with their abundance of the very demanding user, therefore, study with pleasure and select for the study and choose for the study and choose yourself the most suitable model
is

Features i5 processor.

Kernels. Desktop PCs — 4 cores except i5-6xx models and 2 cores in laptops. All 2 core i5 processors support HyperThread technology.

Turbo Boost. Fundamental difference from i3. Turbo boost, if needed, allows the processor to run at higher speeds. The benefits of this additional technology are especially noticeable in applications that use a single thread. And such applications, by the way, the majority.

Integrated video card. Some of the i5 processor models have an integrated graphics card. A computer with such a processor is of course cheaper, but then you should keep in mind that the processor is discrete, that is, less powerful, and RAM will be used to start the computer.

Memory controller. As with the video card, the memory controller is integrated into the processor. Such a processor determines the type of RAM that can be installed. That is, with an i5 processor, only DDR3 can be used.

PCI Express. The PCI Express controller is also integrated into the i5 processor. Thus, if you are using a discrete graphics card, the connection to the processor will be direct.

Versions of the i5 processor.

The first generation of i5 processors. It has several types of processors. I5-7xx, 7xxS — on the Lynnfield core. i5-6xx — on the Clarkdale core. i5-5xxM, 4xxM, 5xxUM, 4xxUM — on the Arrandale core for portable devices. The first models of processors have 4 cores, the other 2 cores with Hyperthread technology.

Manufacturing technology allows transistors to be built at 45nm at Lynnfield, versus 32nm at Arrandale and Clarkdale.

As an instruction set, they support SSE 4.1/4.2 and MMX. The i5 6xx series processor and Arrandale already have a graphics card integrated.

The second generation of i5 processors. Also known by its own name, Sandy Bridge. Support for AVX instructions has been added to the processor, which makes it possible to speed up scientific, financial calculations, signal processing, etc.

In desktop versions of the computer, all i5 processors have 4 cores, except for 2390T, which has 2 cores and Hyperthread technology. The laptop has everything as in the last version.