Intel pentium dual core p6100 vs i3: Intel Core i3-6100 vs Pentium P6100

Intel Pentium P6100 vs Intel Core i3-370M

Comparative analysis of Intel Pentium P6100 and Intel Core i3-370M processors for all known characteristics in the following categories: Essentials, Performance, Memory, Graphics, Graphics interfaces, Compatibility, Peripherals, Security & Reliability, Advanced Technologies, Virtualization.
Benchmark processor performance analysis: PassMark — Single thread mark, PassMark — CPU mark, Geekbench 4 — Single Core, Geekbench 4 — Multi-Core, CompuBench 1.5 Desktop — Face Detection (mPixels/s), CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s), CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s), CompuBench 1.5 Desktop — T-Rex (Frames/s).

Intel Pentium P6100

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vs

Intel Core i3-370M

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Differences

Reasons to consider the Intel Pentium P6100

• CPU is newer: launch date 8 month(s) later

Launch date

26 September 2010 vs 10 January 2010

Reasons to consider the Intel Core i3-370M

• 2 more threads: 4 vs 2
• Around 20% higher clock speed: 2. 4 GHz vs 2 GHz
• Around 17% better performance in PassMark — Single thread mark: 974 vs 832
• Around 31% better performance in PassMark — CPU mark: 1128 vs 858
• Around 12% better performance in Geekbench 4 — Single Core: 343 vs 306
• Around 39% better performance in Geekbench 4 — Multi-Core: 750 vs 540

Number of threads	4 vs 2
Maximum frequency	2.4 GHz vs 2 GHz
PassMark — Single thread mark	974 vs 832
PassMark — CPU mark	1128 vs 858
Geekbench 4 — Single Core	343 vs 306
Geekbench 4 — Multi-Core	750 vs 540

Compare benchmarks

CPU 1: Intel Pentium P6100
CPU 2: Intel Core i3-370M

PassMark — Single thread mark	CPU 1 CPU 2
PassMark — CPU mark	CPU 1 CPU 2
Geekbench 4 — Single Core	CPU 1 CPU 2
Geekbench 4 — Multi-Core	CPU 1 CPU 2

Name	Intel Pentium P6100	Intel Core i3-370M
PassMark — Single thread mark	832	974
PassMark — CPU mark	858	1128
Geekbench 4 — Single Core	306	343
Geekbench 4 — Multi-Core	540	750
CompuBench 1. 5 Desktop — Face Detection (mPixels/s)		0.288
CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s)		9.804
CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s)		1.677
CompuBench 1.5 Desktop — T-Rex (Frames/s)		0.175

Compare specifications (specs)

	Intel Pentium P6100	Intel Core i3-370M
Architecture codename	Arrandale	Arrandale
Launch date	26 September 2010	10 January 2010
Launch price (MSRP)	$12	$245
Place in performance rating	2276	2512
Price now	$12	$39. 96
Processor Number	P6100	i3-370M
Series	Legacy Intel® Pentium® Processor	Legacy Intel® Core™ Processors
Status	Discontinued	Discontinued
Value for money (0-100)	32.59	14.87
Vertical segment	Mobile	Mobile
64 bit support
Base frequency	2. 00 GHz	2.40 GHz
Bus Speed	2.5 GT/s DMI	2.5 GT/s DMI
Die size	81 mm2	81 mm2
Front-side bus (FSB)	2500 MHz	2500 MHz
L1 cache	128 KB	64 KB (per core)
L2 cache	512 KB	512 KB
L3 cache	3072 KB	3072 KB
Manufacturing process technology	32 nm	32 nm
Maximum core temperature	90°C	90°C for rPGA, 105°C for BGA
Maximum frequency	2 GHz	2. 4 GHz
Number of cores	2	2
Number of threads	2	4
Transistor count	382 million	382 million
Max memory channels	2	2
Maximum memory bandwidth	17.1 GB/s	17.1 GB/s
Maximum memory size	8 GB	8 GB
Supported memory types	DDR3 800/1066	DDR3 800/1066
Graphics base frequency	500 MHz	500 MHz
Graphics max dynamic frequency	667 MHz	667 MHz
Graphics max frequency	667 MHz	667 MHz
Intel® Clear Video technology
Intel® Flexible Display Interface (Intel® FDI)
Processor graphics	Intel HD Graphics	Intel HD Graphics
Intel® Clear Video HD technology
Number of displays supported	2	2
Low Halogen Options Available
Max number of CPUs in a configuration	1	1
Package Size	37. 5mmx37.5mm	rPGA 37.5mmx 37.5mm, BGA 34mmx28mm
Sockets supported	PGA988	PGA988
Thermal Design Power (TDP)	35 Watt	35 Watt
Max number of PCIe lanes	1	16
PCI Express revision	2.0	2.0
PCIe configurations	1×16	1×16
Execute Disable Bit (EDB)
Intel® Trusted Execution technology (TXT)
Enhanced Intel SpeedStep® technology
Flexible Display interface (FDI)
Idle States
Intel 64
Intel® AES New Instructions
Intel® Demand Based Switching
Intel® Fast Memory Access
Intel® Flex Memory Access
Intel® Hyper-Threading technology
Intel® Turbo Boost technology
Intel® vPro™ Platform Eligibility
Physical Address Extensions (PAE)	36-bit	36-bit
Thermal Monitoring
Instruction set extensions		Intel® SSE4. 1, Intel® SSE4.2
Intel® Virtualization Technology (VT-x)
Intel® Virtualization Technology for Directed I/O (VT-d)
Intel® VT-x with Extended Page Tables (EPT)

Pentium P6100 vs Core i3-3250T ulasan

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Atom Z3775Intel Atom Z3775DIntel Atom Z3785Intel Atom Z3795Intel Atom Z510Intel Atom Z515Intel Atom Z520Intel Atom Z530Intel Atom Z540Intel Atom Z550Intel Atom Z670Intel Atom x5-E3930Intel Atom x5-E8000Intel Atom x5-Z8300Intel Atom x5-Z8330Intel Atom x5-Z8350Intel Atom x5-Z8500Intel Atom x5-Z8550Intel Atom x7-E3950Intel Atom x7-Z8700Intel Atom x7-Z8750Intel Celeron 1000MIntel Celeron 1005MIntel Celeron 1007UIntel Celeron 1017UIntel Celeron 1019YIntel Celeron 1020EIntel Celeron 1020MIntel Celeron 1037UIntel Celeron 1047UEIntel Celeron 2. 10Intel Celeron 2.20Intel Celeron 2.30Intel Celeron 2.40Intel Celeron 2.60Intel Celeron 2.70Intel Celeron 2.80Intel Celeron 220Intel Celeron 2950MIntel Celeron 2955UIntel Celeron 2957UIntel Celeron 2961YIntel Celeron 2970MIntel Celeron 2980UIntel Celeron 2981UIntel Celeron 3205UIntel Celeron 3215UIntel Celeron 3755UIntel Celeron 3765UIntel Celeron 3855UIntel Celeron 3865UIntel Celeron 3955UIntel Celeron 3965UIntel Celeron 3965YIntel Celeron 420Intel Celeron 4205UIntel Celeron 430Intel Celeron 440Intel Celeron 450Intel Celeron 5205UIntel Celeron 807Intel Celeron 807UEIntel Celeron 827EIntel Celeron 847Intel Celeron 847EIntel Celeron 857Intel Celeron 867Intel Celeron 877Intel Celeron 887Intel Celeron B710Intel Celeron B720Intel Celeron B800Intel Celeron B810Intel Celeron B815Intel Celeron B820Intel Celeron B830Intel Celeron B840Intel Celeron D 352Intel Celeron Dual-Core SU2300Intel Celeron Dual-Core T1400Intel Celeron Dual-Core T1500Intel Celeron Dual-Core T1600Intel Celeron Dual-Core T1700Intel Celeron Dual-Core T3000Intel Celeron Dual-Core T3100Intel Celeron Dual-Core T3300Intel Celeron Dual-Core T3500Intel Celeron E1200Intel Celeron E1400Intel Celeron E1500Intel Celeron E1600Intel Celeron E3200Intel Celeron E3300Intel Celeron E3400Intel Celeron E3500Intel Celeron G1101Intel Celeron G1610Intel Celeron G1610TIntel Celeron G1620Intel Celeron G1620TIntel Celeron G1630Intel Celeron G1820Intel Celeron G1820TIntel Celeron G1820TEIntel Celeron G1830Intel Celeron G1840Intel Celeron G1840TIntel Celeron G1850Intel Celeron G3900Intel Celeron G3900EIntel Celeron G3900TIntel Celeron G3900TEIntel Celeron G3920Intel Celeron G3930Intel Celeron G3930TIntel Celeron G3930TEIntel Celeron G3950Intel Celeron G440Intel Celeron G460Intel Celeron G465Intel Celeron G470Intel Celeron G4900Intel Celeron G4900TIntel Celeron G4920Intel Celeron G4930Intel Celeron G530Intel Celeron G530TIntel Celeron G540Intel Celeron G540TIntel Celeron G550Intel Celeron G550TIntel Celeron G555Intel Celeron J1750Intel Celeron J1800Intel Celeron J1850Intel Celeron J1900Intel Celeron J3060Intel Celeron J3160Intel Celeron J3355Intel Celeron J3455Intel Celeron J4005Intel Celeron J4025Intel Celeron J4105Intel Celeron J4125Intel Celeron M 340Intel Celeron M 353Intel Celeron M 360Intel Celeron M 370Intel Celeron M 380Intel Celeron M 390Intel Celeron M 410Intel Celeron M 420Intel Celeron M 430Intel Celeron M 440Intel Celeron M 450Intel Celeron M 520Intel Celeron M 530Intel Celeron M 540Intel Celeron M 550Intel Celeron M 560Intel Celeron M 575Intel Celeron M 585Intel Celeron M 723Intel Celeron M 743Intel Celeron M 900Intel Celeron M P4500Intel Celeron M P4600Intel Celeron M U3400Intel Celeron N2805Intel Celeron N2806Intel Celeron N2807Intel Celeron N2808Intel Celeron N2810Intel Celeron N2815Intel Celeron N2820Intel Celeron N2830Intel Celeron N2840Intel Celeron N2910Intel Celeron N2920Intel Celeron N2930Intel Celeron N2940Intel Celeron N3000Intel Celeron N3010Intel Celeron N3050Intel Celeron N3060Intel Celeron N3150Intel Celeron N3160Intel Celeron N3350Intel Celeron N3450Intel Celeron N4000Intel Celeron N4020Intel Celeron N4100Intel Celeron N4120Intel Celeron P4500Intel Celeron P4505Intel Celeron P4600Intel Celeron U3400Intel Celeron U3405Intel Celeron U3600Intel Core 2 Duo E4300Intel Core 2 Duo E4400Intel Core 2 Duo E4500Intel Core 2 Duo E4600Intel Core 2 Duo E4700Intel Core 2 Duo E6300Intel Core 2 Duo E6320Intel Core 2 Duo E6400Intel Core 2 Duo E6420Intel Core 2 Duo E6540Intel Core 2 Duo E6550Intel Core 2 Duo E6600Intel Core 2 Duo E6700Intel Core 2 Duo E6750Intel Core 2 Duo E6850Intel Core 2 Duo E7200Intel Core 2 Duo E7300Intel Core 2 Duo E7400Intel Core 2 Duo E7500Intel Core 2 Duo E7600Intel Core 2 Duo E8190Intel Core 2 Duo E8200Intel Core 2 Duo E8300Intel Core 2 Duo E8400Intel Core 2 Duo E8500Intel Core 2 Duo E8600Intel Core 2 Duo L7100Intel Core 2 Duo L7300Intel Core 2 Duo L7500Intel Core 2 Duo L7700Intel Core 2 Duo P7350Intel Core 2 Duo P7370Intel Core 2 Duo P7450Intel Core 2 Duo P7550Intel Core 2 Duo P7570Intel Core 2 Duo P8400Intel Core 2 Duo P8600Intel Core 2 Duo P8700Intel Core 2 Duo P8800Intel Core 2 Duo P9500Intel Core 2 Duo P9600Intel Core 2 Duo P9700Intel Core 2 Duo SL9400Intel Core 2 Duo SL9600Intel Core 2 Duo SP7500Intel Core 2 Duo SP9300Intel Core 2 Duo SP9400Intel Core 2 Duo SP9600Intel Core 2 Duo SU7300Intel Core 2 Duo SU9300Intel Core 2 Duo SU9400Intel Core 2 Duo T5200Intel Core 2 Duo T5250Intel Core 2 Duo T5270Intel Core 2 Duo T5300Intel Core 2 Duo T5450Intel Core 2 Duo T5470Intel Core 2 Duo T5500Intel Core 2 Duo T5550Intel Core 2 Duo T5600Intel Core 2 Duo T5670Intel Core 2 Duo T5750Intel Core 2 Duo T5800Intel Core 2 Duo T5850Intel Core 2 Duo T5870Intel Core 2 Duo T5900Intel Core 2 Duo T6400Intel Core 2 Duo T6500Intel Core 2 Duo T6570Intel Core 2 Duo T6600Intel Core 2 Duo T6670Intel Core 2 Duo T7100Intel Core 2 Duo T7200Intel Core 2 Duo T7250Intel Core 2 Duo T7300Intel Core 2 Duo T7400Intel Core 2 Duo T7500Intel Core 2 Duo T7600Intel Core 2 Duo T7700Intel Core 2 Duo T7800Intel Core 2 Duo T8100Intel Core 2 Duo T8300Intel Core 2 Duo T9300Intel Core 2 Duo T9400Intel Core 2 Duo T9500Intel Core 2 Duo T9550Intel Core 2 Duo T9600Intel Core 2 Duo T9800Intel Core 2 Duo T9900Intel Core 2 Duo U7500Intel Core 2 Duo U7600Intel Core 2 Duo U7700Intel Core 2 Extreme QX6700Intel Core 2 Extreme QX6800Intel Core 2 Extreme QX6850Intel Core 2 Extreme QX9300Intel Core 2 Extreme QX9650Intel Core 2 Extreme QX9770Intel Core 2 Extreme QX9775Intel Core 2 Extreme X6800Intel Core 2 Extreme X7800Intel Core 2 Extreme X7900Intel Core 2 Extreme X9000Intel Core 2 Extreme X9100Intel Core 2 Quad Q6600Intel Core 2 Quad Q6600 (95W)Intel Core 2 Quad Q6700Intel Core 2 Quad Q8200Intel Core 2 Quad Q8200SIntel Core 2 Quad Q8300Intel Core 2 Quad Q8400Intel Core 2 Quad Q8400SIntel Core 2 Quad Q9000Intel Core 2 Quad Q9100Intel Core 2 Quad Q9300Intel Core 2 Quad Q9400Intel Core 2 Quad Q9400SIntel Core 2 Quad Q9450Intel Core 2 Quad Q9505Intel Core 2 Quad Q9505SIntel Core 2 Quad Q9550Intel Core 2 Quad Q9550SIntel Core 2 Quad Q9650Intel Core 2 Solo SU3300Intel Core 2 Solo SU3500Intel Core 2 Solo U2100Intel Core 2 Solo U2200Intel Core Duo L2300Intel Core Duo L2400Intel Core Duo L2500Intel Core Duo T2050Intel Core Duo T2250Intel Core Duo T2300Intel Core Duo T2350Intel Core Duo T2400Intel Core Duo T2450Intel Core Duo T2500Intel Core Duo T2600Intel Core Duo T2700Intel Core Duo U2400Intel Core Duo U2500Intel Core M-5Y10Intel Core M-5Y10aIntel Core M-5Y10cIntel Core M-5Y31Intel Core M-5Y51Intel Core M-5Y70Intel Core M-5Y71Intel Core Solo T1200Intel Core Solo T1300Intel Core Solo T1350Intel Core Solo T1400Intel Core Solo U1300Intel Core Solo U1400Intel Core Solo U1500Intel Core i3-1000G1Intel Core i3-1000G4Intel Core i3-1005G1Intel Core i3-10100Intel Core i3-10110UIntel Core i3-10110YIntel Core i3-10300Intel Core i3-10320Intel Core i3-11100Intel Core i3-11300Intel Core i3-11320Intel Core i3-12100Intel Core i3-12300Intel Core i3-2100Intel Core i3-2100TIntel Core i3-2102Intel Core i3-2105Intel Core i3-2120Intel Core i3-2120TIntel Core i3-2125Intel Core i3-2130Intel Core i3-2310EIntel Core i3-2310MIntel Core i3-2312MIntel Core i3-2328MIntel Core i3-2330EIntel Core i3-2330MIntel Core i3-2332MIntel Core i3-2340UEIntel Core i3-2348MIntel Core i3-2350MIntel Core i3-2357MIntel Core i3-2365MIntel Core i3-2367MIntel Core i3-2370MIntel Core i3-2375MIntel Core i3-2377MIntel Core i3-3110MIntel Core i3-3120MIntel Core i3-3130MIntel Core i3-3210Intel Core i3-3217UIntel Core i3-3217UEIntel Core i3-3220Intel Core i3-3220TIntel Core i3-3225Intel Core i3-3227UIntel Core i3-3229YIntel Core i3-3240Intel Core i3-3240TIntel Core i3-3245Intel Core i3-3250Intel Core i3-330EIntel Core i3-330MIntel Core i3-330UMIntel Core i3-350MIntel Core i3-370MIntel Core i3-380MIntel Core i3-380UMIntel Core i3-390MIntel Core i3-4000MIntel Core i3-4005UIntel Core i3-4010UIntel Core i3-4010YIntel Core i3-4012YIntel Core i3-4020YIntel Core i3-4025UIntel Core i3-4030UIntel Core i3-4030YIntel Core i3-4100MIntel Core i3-4100UIntel Core i3-4110MIntel Core i3-4120UIntel Core i3-4130Intel Core i3-4130TIntel Core i3-4150Intel Core i3-4150TIntel Core i3-4158UIntel Core i3-4160Intel Core i3-4160TIntel Core i3-4170Intel Core i3-4330Intel Core i3-4330TIntel Core i3-4340Intel Core i3-4350Intel Core i3-4350TIntel Core i3-4360Intel Core i3-4360TIntel Core i3-4370Intel Core i3-5005UIntel Core i3-5010UIntel Core i3-5015UIntel Core i3-5020UIntel Core i3-5157UIntel Core i3-530Intel Core i3-540Intel Core i3-550Intel Core i3-560Intel Core i3-6006UIntel Core i3-6098PIntel Core i3-6100Intel Core i3-6100EIntel Core i3-6100HIntel Core i3-6100TIntel Core i3-6100TEIntel Core i3-6100UIntel Core i3-6102EIntel Core i3-6157UIntel Core i3-6167UIntel Core i3-6300Intel Core i3-6300TIntel Core i3-6320Intel Core i3-7020UIntel Core i3-7100Intel Core i3-7100EIntel Core i3-7100HIntel Core i3-7100TIntel Core i3-7100UIntel Core i3-7101EIntel Core i3-7101TEIntel Core i3-7102EIntel Core i3-7130UIntel Core i3-7167UIntel Core i3-7300Intel Core i3-7300TIntel Core i3-7320Intel Core i3-7350KIntel Core i3-8100Intel Core i3-8100BIntel Core i3-8100HIntel Core i3-8100TIntel Core i3-8109UIntel Core i3-8121UIntel Core i3-8130UIntel Core i3-8145UIntel Core i3-8300Intel Core i3-8300TIntel Core i3-8350KIntel Core i3-9100Intel Core i3-9100FIntel Core i3-9100TIntel Core i3-9300Intel Core i3-9300TIntel Core i3-9320Intel Core i3-9350KIntel Core i3-9350KFIntel Core i5-10210UIntel Core i5-10210YIntel Core i5-10300HIntel Core i5-1030G4Intel Core i5-1030G7Intel Core i5-10310YIntel Core i5-1035G1Intel Core i5-1035G4Intel Core i5-1035G7Intel Core i5-10400Intel Core i5-10400FIntel Core i5-10500Intel Core i5-10600Intel Core i5-10600KIntel Core i5-10600KFIntel Core i5-11400Intel Core i5-11500Intel Core i5-11600Intel Core i5-11600KIntel Core i5-12400Intel Core i5-12600KIntel Core i5-2300Intel Core i5-2310Intel Core i5-2320Intel Core i5-2380PIntel Core i5-2390TIntel Core i5-2400Intel Core i5-2400SIntel Core i5-2405SIntel Core i5-2410MIntel Core i5-2415MIntel Core i5-2430MIntel Core i5-2435MIntel Core i5-2450MIntel Core i5-2450PIntel Core i5-2467MIntel Core i5-2500Intel Core i5-2500KIntel Core i5-2500SIntel Core i5-2500TIntel Core i5-2510EIntel Core i5-2515EIntel Core i5-2520MIntel Core i5-2537MIntel Core i5-2540MIntel Core i5-2550KIntel Core i5-2557MIntel Core i5-2560MIntel Core i5-3210MIntel Core i5-3230MIntel Core i5-3317UIntel Core i5-3320MIntel Core i5-3330Intel Core i5-3330SIntel Core i5-3335SIntel Core i5-3337UIntel Core i5-3339YIntel Core i5-3340Intel Core i5-3340MIntel Core i5-3340SIntel Core i5-3350PIntel Core i5-3360MIntel Core i5-3380MIntel Core i5-3427UIntel Core i5-3437UIntel Core i5-3439YIntel Core i5-3450Intel Core i5-3450SIntel Core i5-3470Intel Core i5-3470SIntel Core i5-3470TIntel Core i5-3475SIntel Core i5-3550Intel Core i5-3550SIntel Core i5-3570Intel Core i5-3570KIntel Core i5-3570SIntel Core i5-3570TIntel Core i5-3610MEIntel Core i5-4200HIntel Core i5-4200MIntel Core i5-4200UIntel Core i5-4200YIntel Core i5-4202YIntel Core i5-4210HIntel Core i5-4210MIntel Core i5-4210UIntel Core i5-4210YIntel Core i5-4220YIntel Core i5-4250UIntel Core i5-4258UIntel Core i5-4260UIntel Core i5-4278UIntel Core i5-4288UIntel Core i5-4300MIntel Core i5-4300UIntel Core i5-4300YIntel Core i5-4302YIntel Core i5-4308UIntel Core i5-430MIntel Core i5-430UMIntel Core i5-4310MIntel Core i5-4310UIntel Core i5-4330MIntel Core i5-4340MIntel Core i5-4350UIntel Core i5-4360UIntel Core i5-4400EIntel Core i5-4402EIntel Core i5-4430Intel Core i5-4430SIntel Core i5-4440Intel Core i5-4440SIntel Core i5-4460Intel Core i5-4460SIntel Core i5-4460TIntel Core i5-450MIntel Core i5-4570Intel Core i5-4570RIntel Core i5-4570SIntel Core i5-4570TIntel Core i5-4570TEIntel Core i5-4590Intel Core i5-4590SIntel Core i5-4590TIntel Core i5-460MIntel Core i5-4670Intel Core i5-4670KIntel Core i5-4670RIntel Core i5-4670SIntel Core i5-4670TIntel Core i5-4690Intel Core i5-4690KIntel Core i5-4690SIntel Core i5-4690TIntel Core i5-470UMIntel Core i5-480MIntel Core i5-5200UIntel Core i5-520MIntel Core i5-520UMIntel Core i5-5250UIntel Core i5-5257UIntel Core i5-5287UIntel Core i5-5300UIntel Core i5-5350HIntel Core i5-5350UIntel Core i5-540MIntel Core i5-540UMIntel Core i5-5575RIntel Core i5-560MIntel Core i5-560UMIntel Core i5-5675CIntel Core i5-5675RIntel Core i5-580MIntel Core i5-6198DUIntel Core i5-6200UIntel Core i5-6260UIntel Core i5-6267UIntel Core i5-6287UIntel Core i5-6300HQIntel Core i5-6300UIntel Core i5-6350HQIntel Core i5-6360UIntel Core i5-6400Intel Core i5-6400TIntel Core i5-6402PIntel Core i5-6440EQIntel Core i5-6440HQIntel Core i5-6442EQIntel Core i5-650Intel Core i5-6500Intel Core i5-6500TIntel Core i5-6500TEIntel Core i5-655KIntel Core i5-6585RIntel Core i5-660Intel Core i5-6600Intel Core i5-6600KIntel Core i5-6600TIntel Core i5-661Intel Core i5-6685RIntel Core i5-670Intel Core i5-680Intel Core i5-7200UIntel Core i5-7260UIntel Core i5-7267UIntel Core i5-7287UIntel Core i5-7300HQIntel Core i5-7300UIntel Core i5-7360UIntel Core i5-7400Intel Core i5-7400TIntel Core i5-7440HQIntel Core i5-7442EQIntel Core i5-750Intel Core i5-7500Intel Core i5-7500TIntel Core i5-750SIntel Core i5-760Intel Core i5-7600Intel Core i5-7600KIntel Core i5-7600TIntel Core i5-7640XIntel Core i5-7Y54Intel Core i5-7Y57Intel Core i5-8200YIntel Core i5-8210YIntel Core i5-8250UIntel Core i5-8257UIntel Core i5-8259UIntel Core i5-8265UIntel Core i5-8269UIntel Core i5-8279UIntel Core i5-8300HIntel Core i5-8305GIntel Core i5-8310YIntel Core i5-8350UIntel Core i5-8365UIntel Core i5-8365UEIntel Core i5-8400Intel Core i5-8400HIntel Core i5-8400TIntel Core i5-8500Intel Core i5-8500BIntel Core i5-8500TIntel Core i5-8600Intel Core i5-8600KIntel Core i5-8600TIntel Core i5-9300HIntel Core i5-9300HFIntel Core i5-9400Intel Core i5-9400FIntel Core i5-9400HIntel Core i5-9400TIntel Core i5-9500Intel Core i5-9500FIntel Core i5-9500TIntel Core i5-9600Intel Core i5-9600KIntel Core i5-9600KFIntel Core i5-9600TIntel Core i7-10510UIntel Core i7-10510YIntel Core i7-1060G7Intel Core i7-1065G7Intel Core i7-1068G7Intel Core i7-10700Intel Core i7-10700FIntel Core i7-10700KIntel Core i7-10700KFIntel Core i7-10710UIntel Core i7-10750HIntel Core i7-10850HIntel Core i7-11700Intel Core i7-11700KIntel Core i7-12700KIntel Core i7-2600Intel Core i7-2600KIntel Core i7-2600SIntel Core i7-2610UEIntel Core i7-2617MIntel Core i7-2620MIntel Core i7-2630QMIntel Core i7-2635QMIntel Core i7-2637MIntel Core i7-2640MIntel Core i7-2655LEIntel Core i7-2657MIntel Core i7-2670QMIntel Core i7-2675QMIntel Core i7-2677MIntel Core i7-2700KIntel Core i7-2710QEIntel Core i7-2715QEIntel Core i7-2720QMIntel Core i7-2760QMIntel Core i7-2820QMIntel Core i7-2840QMIntel Core i7-2860QMIntel Core i7-2920XMIntel Core i7-2960XMIntel Core i7-3517UIntel Core i7-3517UEIntel Core i7-3520MIntel Core i7-3537UIntel Core i7-3540MIntel Core i7-3555LEIntel Core i7-3610QEIntel Core i7-3610QMIntel Core i7-3612QEIntel Core i7-3612QMIntel Core i7-3615QEIntel Core i7-3615QMIntel Core i7-3630QMIntel Core i7-3632QMIntel Core i7-3635QMIntel Core i7-3667UIntel Core i7-3687UIntel Core i7-3689YIntel Core i7-3720QMIntel Core i7-3740QMIntel Core i7-3770Intel Core i7-3770KIntel Core i7-3770SIntel Core i7-3770TIntel Core i7-3820Intel Core i7-3820QMIntel Core i7-3840QMIntel Core i7-3920XMIntel Core i7-3930KIntel Core i7-3940XMIntel Core i7-3960XIntel Core i7-3960X Extreme EditionIntel Core i7-3970XIntel Core i7-3970X Extreme EditionIntel Core i7-4500UIntel Core i7-4510UIntel Core i7-4550UIntel Core i7-4558UIntel Core i7-4578UIntel Core i7-4600MIntel Core i7-4600UIntel Core i7-4610MIntel Core i7-4610YIntel Core i7-4650UIntel Core i7-4700EQIntel Core i7-4700HQIntel Core i7-4700MQIntel Core i7-4702HQIntel Core i7-4702MQIntel Core i7-4710HQIntel Core i7-4710MQIntel Core i7-4712HQIntel Core i7-4712MQIntel Core i7-4720HQIntel Core i7-4722HQIntel Core i7-4750HQIntel Core i7-4760HQIntel Core i7-4765TIntel Core i7-4770Intel Core i7-4770HQIntel Core i7-4770KIntel Core i7-4770RIntel Core i7-4770SIntel Core i7-4770TIntel Core i7-4770TEIntel Core i7-4771Intel Core i7-4785TIntel Core i7-4790Intel Core i7-4790KIntel Core i7-4790SIntel Core i7-4790TIntel Core i7-4800MQIntel Core i7-4810MQIntel Core i7-4820KIntel Core i7-4850HQIntel Core i7-4860EQIntel Core i7-4860HQIntel Core i7-4870HQIntel Core i7-4900MQIntel Core i7-4910MQIntel Core i7-4930KIntel Core i7-4930MXIntel Core i7-4940MXIntel Core i7-4950HQIntel Core i7-4960HQIntel Core i7-4960XIntel Core i7-4960X Extreme EditionIntel Core i7-4980HQIntel Core i7-5500UIntel Core i7-5550UIntel Core i7-5557UIntel Core i7-5600UIntel Core i7-5650UIntel Core i7-5700HQIntel Core i7-5750HQIntel Core i7-5775CIntel Core i7-5775RIntel Core i7-5820KIntel Core i7-5850EQIntel Core i7-5850HQIntel Core i7-5930KIntel Core i7-5950HQIntel Core i7-5960XIntel Core i7-610EIntel Core i7-620LMIntel Core i7-620MIntel Core i7-620UMIntel Core i7-640LMIntel Core i7-640MIntel Core i7-640UMIntel Core i7-6498DUIntel Core i7-6500UIntel Core i7-6560UIntel Core i7-6567UIntel Core i7-6600UIntel Core i7-660UMIntel Core i7-6650UIntel Core i7-6700Intel Core i7-6700HQIntel Core i7-6700KIntel Core i7-6700TIntel Core i7-6700TEIntel Core i7-6770HQIntel Core i7-6785RIntel Core i7-6800KIntel Core i7-680UMIntel Core i7-6820EQIntel Core i7-6820HKIntel Core i7-6820HQIntel Core i7-6822EQIntel Core i7-6850KIntel Core i7-6870HQIntel Core i7-6900KIntel Core i7-6920HQIntel Core i7-6950XIntel Core i7-6970HQIntel Core i7-720QMIntel Core i7-740QMIntel Core i7-7500UIntel Core i7-7560UIntel Core i7-7567UIntel Core i7-7600UIntel Core i7-7660UIntel Core i7-7700Intel Core i7-7700HQIntel Core i7-7700KIntel Core i7-7700TIntel Core i7-7740XIntel Core i7-7800XIntel Core i7-7820EQIntel Core i7-7820HKIntel Core i7-7820HQIntel Core i7-7820XIntel Core i7-7920HQIntel Core i7-7Y75Intel Core i7-8086KIntel Core i7-820QMIntel Core i7-840QMIntel Core i7-8500YIntel Core i7-8550UIntel Core i7-8557UIntel Core i7-8559UIntel Core i7-8565UIntel Core i7-8569UIntel Core i7-860Intel Core i7-860SIntel Core i7-8650UIntel Core i7-8665UIntel Core i7-870Intel Core i7-8700Intel Core i7-8700BIntel Core i7-8700KIntel Core i7-8700TIntel Core i7-8705GIntel Core i7-8706GIntel Core i7-8709GIntel Core i7-870SIntel Core i7-8750HIntel Core i7-875KIntel Core i7-880Intel Core i7-8809GIntel Core i7-8850HIntel Core i7-920Intel Core i7-920XMIntel Core i7-930Intel Core i7-940Intel Core i7-940XMIntel Core i7-950Intel Core i7-960Intel Core i7-965Intel Core i7-965 Extreme EditionIntel Core i7-970Intel Core i7-9700Intel Core i7-9700FIntel Core i7-9700KIntel Core i7-9700KFIntel Core i7-9700TIntel Core i7-975Intel Core i7-975 Extreme EditionIntel Core i7-9750HIntel Core i7-9750HFIntel Core i7-980Intel Core i7-9800XIntel Core i7-980XIntel Core i7-980X EEIntel Core i7-980X Extreme EditionIntel Core i7-9850HIntel Core i7-990XIntel Core i7-990X EEIntel Core i7-990X Extreme EditionIntel Core i9-10875HIntel Core i9-10900Intel Core i9-10900FIntel Core i9-10900KIntel Core i9-10900KFIntel Core i9-10900XIntel Core i9-10920XIntel Core i9-10940XIntel Core i9-10980HKIntel Core i9-10980XEIntel Core i9-11900Intel Core i9-11900KIntel Core i9-12900KIntel Core i9-7900XIntel Core i9-7920XIntel Core i9-7940XIntel Core i9-7960XIntel Core i9-7980XEIntel Core i9-8950HKIntel Core i9-9800XIntel Core i9-9820XIntel Core i9-9880HIntel Core i9-9900Intel Core i9-9900KIntel Core i9-9900KFIntel Core i9-9900KSIntel Core i9-9900TIntel Core i9-9900XIntel Core i9-9920XIntel Core i9-9940XIntel Core i9-9960XIntel Core i9-9980HKIntel Core i9-9980XEIntel Core m3-6Y30Intel Core m3-7Y30Intel Core m3-7Y32Intel Core m3-8100YIntel Core m5-6Y54Intel Core m5-6Y57Intel Core m7-6Y75Intel Core2 Duo E6700Intel Mobile Pentium 4 2. 40Intel Mobile Pentium 4 2.66Intel Mobile Pentium 4 2.80Intel Mobile Pentium 4 3.06Intel Mobile Pentium 4 520Intel Mobile Pentium 4 532Intel Mobile Pentium 4 552Intel Pentium 2020MIntel Pentium 2030MIntel Pentium 2117UIntel Pentium 2127UIntel Pentium 2129YIntel Pentium 3550MIntel Pentium 3556UIntel Pentium 3558UIntel Pentium 3560MIntel Pentium 3560YIntel Pentium 3805UIntel Pentium 3825UIntel Pentium 4 1.80Intel Pentium 4 2.26Intel Pentium 4 2.4 GHzIntel Pentium 4 2.40Intel Pentium 4 2.53Intel Pentium 4 2.60Intel Pentium 4 2.66Intel Pentium 4 2.80Intel Pentium 4 560Intel Pentium 4 630Intel Pentium 4 660Intel Pentium 4 P4 3.0Intel Pentium 4-M P4-M 1,7Intel Pentium 4405UIntel Pentium 4405YIntel Pentium 4415UIntel Pentium 957Intel Pentium 967Intel Pentium 977Intel Pentium 987Intel Pentium 997Intel Pentium B940Intel Pentium B950Intel Pentium B960Intel Pentium B970Intel Pentium B980Intel Pentium D 820Intel Pentium D 830Intel Pentium D 915Intel Pentium D 940Intel Pentium D 950Intel Pentium D 960Intel Pentium Dual Core SU4100Intel Pentium Dual Core T2060Intel Pentium Dual Core T2080Intel Pentium Dual Core T2130Intel Pentium Dual Core T2310Intel Pentium Dual Core T2330Intel Pentium Dual Core T2370Intel Pentium Dual Core T2390Intel Pentium Dual Core T2410Intel Pentium Dual Core T3200Intel Pentium Dual Core T3400Intel Pentium Dual-Core T4200Intel Pentium Dual-Core T4300Intel Pentium Dual-Core T4400Intel Pentium Dual-Core T4500Intel Pentium Dual-Core E2140Intel Pentium Dual-Core E2160Intel Pentium Dual-Core E2180Intel Pentium Dual-Core E2200Intel Pentium Dual-Core E2210Intel Pentium Dual-Core E2220Intel Pentium E2140Intel Pentium E2160Intel Pentium E2180Intel Pentium E2200Intel Pentium E2220Intel Pentium E5200Intel Pentium E5300Intel Pentium E5400Intel Pentium E5500Intel Pentium E5700Intel Pentium E5800Intel Pentium E6300Intel Pentium E6500Intel Pentium E6600Intel Pentium E6700Intel Pentium E6800Intel Pentium G2010Intel Pentium G2020Intel Pentium G2020TIntel Pentium G2030Intel Pentium G2100TIntel Pentium G2120Intel Pentium G2130Intel Pentium G2140Intel Pentium G3220Intel Pentium G3220TIntel Pentium G3240Intel Pentium G3240TIntel Pentium G3250Intel Pentium G3250TIntel Pentium G3258Intel Pentium G3260Intel Pentium G3420Intel Pentium G3420TIntel Pentium G3430Intel Pentium G3440Intel Pentium G3440TIntel Pentium G3450Intel Pentium G3450TIntel Pentium G3460Intel Pentium G3470Intel Pentium G4400Intel Pentium G4400TIntel Pentium G4400TEIntel Pentium G4500Intel Pentium G4500TIntel Pentium G4520Intel Pentium G4560Intel Pentium G4560TIntel Pentium G4600Intel Pentium G4600TIntel Pentium G4620Intel Pentium G550Intel Pentium G620Intel Pentium G620TIntel Pentium G630Intel Pentium G630TIntel Pentium G640Intel Pentium G640TIntel Pentium G645Intel Pentium G645TIntel Pentium G6950Intel Pentium G6951Intel Pentium G6960Intel Pentium G840Intel Pentium G850Intel Pentium G860Intel Pentium G870Intel Pentium Gold 4410YIntel Pentium Gold 4415UIntel Pentium Gold 4415YIntel Pentium Gold 4417UIntel Pentium Gold 4425YIntel Pentium Gold 5405UIntel Pentium Gold 6405UIntel Pentium Gold G5400Intel Pentium Gold G5400TIntel Pentium Gold G5420Intel Pentium Gold G5420TIntel Pentium Gold G5500Intel Pentium Gold G5500TIntel Pentium Gold G5600Intel Pentium Gold G5620Intel Pentium III 1133Intel Pentium III 1200Intel Pentium III 1266SIntel Pentium III 1400Intel Pentium III 1400SIntel Pentium J2850Intel Pentium J2900Intel Pentium J3710Intel Pentium J4205Intel Pentium M 1. 30Intel Pentium M 1.40Intel Pentium M 1.50Intel Pentium M 1.60Intel Pentium M 1.70Intel Pentium M 1300Intel Pentium M 705Intel Pentium M 710Intel Pentium M 715Intel Pentium M 718Intel Pentium M 725Intel Pentium M 730Intel Pentium M 735Intel Pentium M 738Intel Pentium M 740Intel Pentium M 745Intel Pentium M 750Intel Pentium M 753Intel Pentium M 758Intel Pentium M 760Intel Pentium M 765Intel Pentium M 770Intel Pentium M 780Intel Pentium N3510Intel Pentium N3520Intel Pentium N3530Intel Pentium N3540Intel Pentium N3700Intel Pentium N3710Intel Pentium N4200Intel Pentium P6000Intel Pentium P6200Intel Pentium P6300Intel Pentium SU2700Intel Pentium SU4100Intel Pentium Silver J5005Intel Pentium Silver J5040Intel Pentium Silver N5000Intel Pentium Silver N5030Intel Pentium U5400Intel Pentium U5600Intel Xeon 2.66Intel Xeon 3.06Intel Xeon 3.20Intel Xeon 5110Intel Xeon 5120Intel Xeon 5130Intel Xeon 5140Intel Xeon 5148Intel Xeon 5150Intel Xeon 5160Intel Xeon Bronze 3104Intel Xeon Bronze 3106Intel Xeon D-1518Intel Xeon D-1520Intel Xeon D-1521Intel Xeon D-1528Intel Xeon D-1531Intel Xeon D-1537Intel Xeon D-1539Intel Xeon D-1540Intel Xeon D-1541Intel Xeon D-1548Intel Xeon D-1557Intel Xeon D-1559Intel Xeon D-1567Intel Xeon D-1587Intel Xeon D-2123ITIntel Xeon D-2141IIntel Xeon D-2143ITIntel Xeon D-2146NTIntel Xeon D-2183ITIntel Xeon E-2104GIntel Xeon E-2124Intel Xeon E-2124GIntel Xeon E-2126GIntel Xeon E-2134Intel Xeon E-2136Intel Xeon E-2144GIntel Xeon E-2146GIntel Xeon E-2174GIntel Xeon E-2176GIntel Xeon E-2176MIntel Xeon E-2186GIntel Xeon E-2186MIntel Xeon E-2224Intel Xeon E-2224GIntel Xeon E-2226GIntel Xeon E-2236Intel Xeon E-2244GIntel Xeon E-2246GIntel Xeon E-2274GIntel Xeon E-2276GIntel Xeon E-2276MIntel Xeon E-2276MEIntel Xeon E-2276MLIntel Xeon E-2278GIntel Xeon E-2286GIntel Xeon E-2286MIntel Xeon E-2288GIntel Xeon E3-1220Intel Xeon E3-1220 V2Intel Xeon E3-1220 V3Intel Xeon E3-1220 V5Intel Xeon E3-1220 V6Intel Xeon E3-1220LIntel Xeon E3-1220L v2Intel Xeon E3-1220L v3Intel Xeon E3-1225Intel Xeon E3-1225 V2Intel Xeon E3-1225 V3Intel Xeon E3-1225 V5Intel Xeon E3-1225 V6Intel Xeon E3-1226 V3Intel Xeon E3-1230Intel Xeon E3-1230 V2Intel Xeon E3-1230 V3Intel Xeon E3-1230 V5Intel Xeon E3-1230 V6Intel Xeon E3-1230L v3Intel Xeon E3-1231 V3Intel Xeon E3-1235Intel Xeon E3-1235L V5Intel Xeon E3-1240Intel Xeon E3-1240 V2Intel Xeon E3-1240 V3Intel Xeon E3-1240 V5Intel Xeon E3-1240 V6Intel Xeon E3-1240L V5Intel Xeon E3-1241 V3Intel Xeon E3-1245Intel Xeon E3-1245 V2Intel Xeon E3-1245 V3Intel Xeon E3-1245 V5Intel Xeon E3-1245 V6Intel Xeon E3-1246 V3Intel Xeon E3-1260LIntel Xeon E3-1260L V5Intel Xeon E3-1265L V2Intel Xeon E3-1265L V3Intel Xeon E3-1268L v5Intel Xeon E3-1270Intel Xeon E3-1270 V2Intel Xeon E3-1270 V3Intel Xeon E3-1270 V5Intel Xeon E3-1270 V6Intel Xeon E3-1271 V3Intel Xeon E3-1275Intel Xeon E3-1275 V2Intel Xeon E3-1275 V3Intel Xeon E3-1275 V5Intel Xeon E3-1275 V6Intel Xeon E3-1276 V3Intel Xeon E3-1280Intel Xeon E3-1280 V5Intel Xeon E3-1280 V6Intel Xeon E3-1280 v2Intel Xeon E3-1280 v3Intel Xeon E3-1285 V6Intel Xeon E3-1285 v3Intel Xeon E3-1285 v4Intel Xeon E3-1285L v3Intel Xeon E3-1290Intel Xeon E3-1290 v2Intel Xeon E3-1505L v5Intel Xeon E3-1505L v6Intel Xeon E3-1505M v5Intel Xeon E3-1505M v6Intel Xeon E3-1515M v5Intel Xeon E3-1535M v5Intel Xeon E3-1535M v6Intel Xeon E3-1545M v5Intel Xeon E3-1575M v5Intel Xeon E3-1585 v5Intel Xeon E3-1585L v5Intel Xeon E5-1410Intel Xeon E5-1603 v4Intel Xeon E5-1607 v4Intel Xeon E5-1620Intel Xeon E5-1620 V2Intel Xeon E5-1620 V3Intel Xeon E5-1620 V4Intel Xeon E5-1630 V3Intel Xeon E5-1630 V4Intel Xeon E5-1650Intel Xeon E5-1650 V2Intel Xeon E5-1650 V3Intel Xeon E5-1650 V4Intel Xeon E5-1660Intel Xeon E5-1660 V2Intel Xeon E5-1660 V3Intel Xeon E5-1660 v4Intel Xeon E5-1680 V3Intel Xeon E5-1680 v4Intel Xeon E5-2403Intel Xeon E5-2403 v2Intel Xeon E5-2407Intel Xeon E5-2407 v2Intel Xeon E5-2418LIntel Xeon E5-2420Intel Xeon E5-2420 v2Intel Xeon E5-2420V2Intel Xeon E5-2430Intel Xeon E5-2430 v2Intel Xeon E5-2430LIntel Xeon E5-2430V2Intel Xeon E5-2440Intel Xeon E5-2440 v2Intel Xeon E5-2440V2Intel Xeon E5-2450Intel Xeon E5-2450LIntel Xeon E5-2450V2Intel Xeon E5-2470Intel Xeon E5-2470 v2Intel Xeon E5-2470V2Intel Xeon E5-2603Intel Xeon E5-2603 V2Intel Xeon E5-2603 V3Intel Xeon E5-2603 V4Intel Xeon E5-2608L v3Intel Xeon E5-2609Intel Xeon E5-2609 V2Intel Xeon E5-2609 V3Intel Xeon E5-2609 V4Intel Xeon E5-2618L v3Intel Xeon E5-2618L v4Intel Xeon E5-2620Intel Xeon E5-2620 V2Intel Xeon E5-2620 V3Intel Xeon E5-2620 V4Intel Xeon E5-2622 V3Intel Xeon E5-2623 V3Intel Xeon E5-2623 v4Intel Xeon E5-2628L v3Intel Xeon E5-2628L v4Intel Xeon E5-2630Intel Xeon E5-2630 V2Intel Xeon E5-2630 V3Intel Xeon E5-2630 V4Intel Xeon E5-2630LIntel Xeon E5-2630L V2Intel Xeon E5-2630L V3Intel Xeon E5-2630L v4Intel Xeon E5-2637Intel Xeon E5-2637 V2Intel Xeon E5-2637 V3Intel Xeon E5-2637 v4Intel Xeon E5-2640Intel Xeon E5-2640 V2Intel Xeon E5-2640 V3Intel Xeon E5-2640 V4Intel Xeon E5-2643Intel Xeon E5-2643 V2Intel Xeon E5-2643 V3Intel Xeon E5-2643 V4Intel Xeon E5-2648LIntel Xeon E5-2648L v3Intel Xeon E5-2648L v4Intel Xeon E5-2650Intel Xeon E5-2650 V2Intel Xeon E5-2650 V3Intel Xeon E5-2650 V4Intel Xeon E5-2650LIntel Xeon E5-2650L V2Intel Xeon E5-2650L V3Intel Xeon E5-2650L V4Intel Xeon E5-2658Intel Xeon E5-2658 V3Intel Xeon E5-2658 v4Intel Xeon E5-2660Intel Xeon E5-2660 V2Intel Xeon E5-2660 V3Intel Xeon E5-2660 V4Intel Xeon E5-2665Intel Xeon E5-2667Intel Xeon E5-2667 V2Intel Xeon E5-2667 V3Intel Xeon E5-2667 v4Intel Xeon E5-2670Intel Xeon E5-2670 V2Intel Xeon E5-2670 V3Intel Xeon E5-2673 v4Intel Xeon E5-2679 v4Intel Xeon E5-2680Intel Xeon E5-2680 V2Intel Xeon E5-2680 V3Intel Xeon E5-2680 V4Intel Xeon E5-2682 v4Intel Xeon E5-2683 V3Intel Xeon E5-2683 V4Intel Xeon E5-2685 V3Intel Xeon E5-2686 v4Intel Xeon E5-2687WIntel Xeon E5-2687W V2Intel Xeon E5-2687W V3Intel Xeon E5-2687W V4Intel Xeon E5-2689 v4Intel Xeon E5-2690Intel Xeon E5-2690 V2Intel Xeon E5-2690 V3Intel Xeon E5-2690 V4Intel Xeon E5-2692 v2Intel Xeon E5-2695 V2Intel Xeon E5-2695 V3Intel Xeon E5-2695 V4Intel Xeon E5-2696 v4Intel Xeon E5-2697 V2Intel Xeon E5-2697 V3Intel Xeon E5-2697 V4Intel Xeon E5-2697A v4Intel Xeon E5-2698 V3Intel Xeon E5-2698 V4Intel Xeon E5-2699 V3Intel Xeon E5-2699 V4Intel Xeon E5-4603Intel Xeon E5-4610Intel Xeon E5-4617Intel Xeon E5-4620Intel Xeon E5-4627 v4Intel Xeon E5-4640Intel Xeon E5-4650Intel Xeon E5-4650LIntel Xeon E5-4669 v4Intel Xeon E5502Intel Xeon E5503Intel Xeon E5504Intel Xeon E5506Intel Xeon E5507Intel Xeon E5520Intel Xeon E5530Intel Xeon E5540Intel Xeon E5603Intel Xeon E5606Intel Xeon E5607Intel Xeon E5620Intel Xeon E5630Intel Xeon E5640Intel Xeon E5645Intel Xeon E5649Intel Xeon E7-2850 v2Intel Xeon E7-2870 v2Intel Xeon E7-2880 v2Intel Xeon E7-2890 v2Intel Xeon E7-4809 v2Intel Xeon E7-4820 v2Intel Xeon E7-4830 v2Intel Xeon E7-4850 v2Intel Xeon E7-4860 v2Intel Xeon E7-4870 v2Intel Xeon E7-4880 v2Intel Xeon E7-4890 v2Intel Xeon E7-8850 v2Intel Xeon E7-8857 v2Intel Xeon E7-8870 v2Intel Xeon E7-8880 v2Intel Xeon E7-8880L v2Intel Xeon E7-8890 v2Intel Xeon E7-8891 v2Intel Xeon E7-8893 v2Intel Xeon Gold 5115Intel Xeon Gold 5117Intel Xeon Gold 5117FIntel Xeon Gold 5118Intel Xeon Gold 5119TIntel Xeon Gold 5120Intel Xeon Gold 5120TIntel Xeon Gold 5122Intel Xeon Gold 5215Intel Xeon Gold 5215LIntel Xeon Gold 5215MIntel Xeon Gold 5217Intel Xeon Gold 5218Intel Xeon Gold 5218BIntel Xeon Gold 5218NIntel Xeon Gold 5218RIntel Xeon Gold 5218TIntel Xeon Gold 5219YIntel Xeon Gold 5220Intel Xeon Gold 5220RIntel Xeon Gold 5220SIntel Xeon Gold 5220TIntel Xeon Gold 5222Intel Xeon Gold 6126Intel Xeon Gold 6126FIntel Xeon Gold 6126TIntel Xeon Gold 6128Intel Xeon Gold 6130Intel Xeon Gold 6130FIntel Xeon Gold 6130TIntel Xeon Gold 6132Intel Xeon Gold 6134Intel Xeon Gold 6134MIntel Xeon Gold 6136Intel Xeon Gold 6138Intel Xeon Gold 6138FIntel Xeon Gold 6138TIntel Xeon Gold 6140Intel Xeon Gold 6140MIntel Xeon Gold 6142Intel Xeon Gold 6142FIntel Xeon Gold 6142MIntel Xeon Gold 6144Intel Xeon Gold 6146Intel Xeon Gold 6148Intel Xeon Gold 6148FIntel Xeon Gold 6150Intel Xeon Gold 6152Intel Xeon Gold 6154Intel Xeon Gold 6208UIntel Xeon Gold 6209UIntel Xeon Gold 6210UIntel Xeon Gold 6212UIntel Xeon Gold 6222Intel Xeon Gold 6222VIntel Xeon Gold 6226Intel Xeon Gold 6226RIntel Xeon Gold 6230Intel Xeon Gold 6230NIntel Xeon Gold 6230RIntel Xeon Gold 6230TIntel Xeon Gold 6234Intel Xeon Gold 6238Intel Xeon Gold 6238LIntel Xeon Gold 6238MIntel Xeon Gold 6238RIntel Xeon Gold 6238TIntel Xeon Gold 6240Intel Xeon Gold 6240LIntel Xeon Gold 6240MIntel Xeon Gold 6240RIntel Xeon Gold 6240YIntel Xeon Gold 6242Intel Xeon Gold 6242RIntel Xeon Gold 6244Intel Xeon Gold 6246Intel Xeon Gold 6246RIntel Xeon Gold 6248Intel Xeon Gold 6250Intel Xeon Gold 6250LIntel Xeon Gold 6252Intel Xeon Gold 6252NIntel Xeon Gold 6254Intel Xeon Gold 6256Intel Xeon Gold 6258RIntel Xeon Gold 6262Intel Xeon Gold 6262VIntel Xeon Gold 6269YIntel Xeon L5506Intel Xeon L5520Intel Xeon L5530Intel Xeon L5630Intel Xeon L5638Intel Xeon L5640Intel Xeon Platinum 8124MIntel Xeon Platinum 8153Intel Xeon Platinum 8156Intel Xeon Platinum 8158Intel Xeon Platinum 8160Intel Xeon Platinum 8160FIntel Xeon Platinum 8160MIntel Xeon Platinum 8160TIntel Xeon Platinum 8164Intel Xeon Platinum 8168Intel Xeon Platinum 8170Intel Xeon Platinum 8173MIntel Xeon Platinum 8175MIntel Xeon Platinum 8176Intel Xeon Platinum 8268Intel Xeon Silver 4108Intel Xeon Silver 4109TIntel Xeon Silver 4110Intel Xeon Silver 4112Intel Xeon Silver 4114Intel Xeon Silver 4116Intel Xeon Silver 4208Intel Xeon Silver 4210Intel Xeon Silver 4214Intel Xeon Silver 4215Intel Xeon Silver 4216Intel Xeon W-2102Intel Xeon W-2104Intel Xeon W-2123Intel Xeon W-2125Intel Xeon W-2133Intel Xeon W-2135Intel Xeon W-2140BIntel Xeon W-2145Intel Xeon W-2150BIntel Xeon W-2155Intel Xeon W-2170BIntel Xeon W-2175Intel Xeon W-2191BIntel Xeon W-2195Intel Xeon W-2223Intel Xeon W-2225Intel Xeon W-2235Intel Xeon W-2245Intel Xeon W-2255Intel Xeon W-2265Intel Xeon W-2275Intel Xeon W-2295Intel Xeon W-3175XIntel Xeon W-3235Intel Xeon W-3265Intel Xeon W3503Intel Xeon W3505Intel Xeon W3520Intel Xeon W3530Intel Xeon W3540Intel Xeon W3550Intel Xeon W3565Intel Xeon W3570Intel Xeon W3580Intel Xeon W3670Intel Xeon W3680Intel Xeon W3690Intel Xeon W5580Intel Xeon W5590Intel Xeon X5550Intel Xeon X5560Intel Xeon X5570Intel Xeon X5647Intel Xeon X5650Intel Xeon X5660Intel Xeon X5667Intel Xeon X5670Intel Xeon X5672Intel Xeon X5675Intel Xeon X5677Intel Xeon X5680Intel Xeon X5687Intel Xeon X5690Intel Xeon X5698

ubah gpu
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Intel Core i3-3120M vs Intel Pentium P6100

Intel Core i3-3120M vs Intel Pentium P6100

Comparison of the technical characteristics between the processors, with the Intel Core i3-3120M on one side and the Intel Pentium P6100 on the other side. The first is dedicated to the laptop sector, It has 2 cores, 4 threads, a maximum frequency of 2,5GHz. The second is used on the entry-level laptop segment, it has a total of 2 cores, 2 threads, its turbo frequency is set to 2,0 GHz. The following table also compares the lithography, the number of transistors (if indicated), the amount of cache memory, the maximum RAM memory capacity, the type of memory accepted, the release date, the maximum number of PCIe lanes, the values ​​obtained in Geekbench 4 and Cinebench R15.

Note: Commissions may be earned from the links above.

This page contains references to products from one or more of our advertisers. We may receive compensation when you click on links to those products. For an explanation of our advertising policy, please visit this page.

Specifications:

Processor		Intel Core i3-3120M				Intel Pentium P6100
Market (main)		Laptop				Entry-level laptop
ISA		x86-64 (64 bit)				x86-64 (64 bit)
Microarchitecture		Ivy Bridge				Westmere
Core name		Ivy Bridge				Arrandale
Family		Core i3-3000				Pentium 6000
Part number(s), S-Spec		AW8063801111700, QCh3, SR0TX				CP80617004125AL, SLBUR
Release date		Q3 2012				Q3 2010
Lithography		22 nm				32 nm
Transistors		970. 000.000				382.000.000
Cores		2				2
Threads		4				2
Base frequency		2,5 GHz				2,0 GHz
Turbo frequency		—				—
Bus speed		5 GT/s				2,5 GT/s
Cache memory		3 MB				3 MB
Max memory capacity		32 GB				8 GB
Memory types		DDR3/L/-RS 1333/1600				DDR3 800/1066
Max # of memory channels		2				2
Max memory bandwidth		25,6 GB/s				17,1 GB/s
Max PCIe lanes		16				6
TDP		35 W				35 W
GPU integrated graphics		Intel HD Graphics 4000 Mobile				Intel HD Graphics (Westmere Mobile)
GPU execution units		16				12
GPU shading units		128				96
GPU base clock		650 MHz				500 MHz
GPU boost clock		1100 MHz				667 MHz
GPU FP32 floating point		256 GFLOPS				96 GFLOPS
Socket		PGA988				PGA988
Maximum temperature		90°C				90°C
Security		—				Execute Disable Bit
CPU-Z single thread		193				53
CPU-Z multi thread		579				89
Cinebench R15 single thread		99				66
Cinebench R15 multi-thread		221				111
Cinebench R20 single thread		218				131
Cinebench R20 multi-thread		485				220
PassMark single thread		1. 271				820
PassMark CPU Mark		1.620				859
(Windows 64-bit) Geekbench 4 single core		2.344				1.540
(Windows 64-bit) Geekbench 4 multi-core		4.570				2.597
(Windows) Geekbench 5 single core		447				325
(Windows) Geekbench 5 multi-core		1.010				606
(SGEMM) GFLOPS performance		48,4 GFLOPS				21 GFLOPS
(Multi-core / watt performance) Performance / watt ratio		131 pts / W				74 pts / W
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Note: Commissions may be earned from the links above.

We can better compare what are the technical differences between the two processors.

Price: For technical reasons, we cannot currently display a price less than 24 hours, or a real-time price. This is why we prefer for the moment not to show a price. You should refer to the respective online stores for the latest price, as well as availability.

We see that the two processors have an equivalent number of cores, the maximum frequency of Intel Core i3-3120M is greater, that their respective TDP are of the same order. The Intel Core i3-3120M was designed earlier.

Performances :

Performance comparison between the two processors, for this we consider the results generated on benchmark software such as Geekbench 4.

	CPU-Z — Multi-thread & single thread score
Intel Core i3-3120M	193 579
Intel Pentium P6100	53 89

In single core, the difference is 264%. In multi-core, the differential gap is 551%.

Note: Commissions may be earned from the links above. These scores are only an
average of the performances got with these processors, you may get different results.

CPU-Z is a system information software that provides the name of the processor, its model number, the codename, the cache levels, the package, the process. It can also gives data about the mainboard, the memory. It makes real time measurement, with finally a benchmark for the single thread, as well as for the multi thread.

	Cinebench R15 — Multi-thread & single thread score
Intel Core i3-3120M	99 221
Intel Pentium P6100	66 111

In single core, the difference is 50%. In multi-core, the differential gap is 99%.

Note: Commissions may be earned from the links above. These scores are only an
average of the performances got with these processors, you may get different results.

Cinebench R15 evaluates the performance of CPU calculations by restoring a photorealistic 3D scene. The scene has 2,000 objects, 300,000 polygons, uses sharp and fuzzy reflections, bright areas, shadows, procedural shaders, antialiasing, and so on. The faster the rendering of the scene is created, the more powerful the PC is, with a high number of points.

	Cinebench R20 — Multi-thread & single thread score
Intel Core i3-3120M	218 485
Intel Pentium P6100	131 220

In single core, the difference is 66%. In multi-core, the differential gap is 120%.

Note: Commissions may be earned from the links above. These scores are only an
average of the performances got with these processors, you may get different results.

Cinebench R20 is a multi-platform test software which allows to evaluate the hardware capacities of a device such as a computer, a tablet, a server. This version of Cinebench takes into account recent developments in processors with multiple cores and the latest improvements in rendering techniques. The evaluation is ultimately even more relevant.

	PassMark — CPU Mark & single thread
Intel Core i3-3120M	1.271 1.620
Intel Pentium P6100	820 859

In single core, the difference is 55%. In multi-core, the differential gap is 89%.

Note: Commissions may be earned from the links above. These scores are only an
average of the performances got with these processors, you may get different results.

PassMark is a benchmarking software that performs several performance tests including prime numbers, integers, floating point, compression, physics, extended instructions, encoding, sorting. The higher the score is, the higher is the device capacity.

On Windows 64-bit:

	Geekbench 4 — Multi-core & single core score — Windows 64-bit
Intel Core i3-3120M	2.344 4.570
Intel Pentium P6100	1.540 2.597

In single core, the difference is 52%. In multi-core, the differential gap is 76%.

On Linux 64-bit:

	Geekbench 4 — Multi-core & single core score — Linux 64-bit
Intel Core i3-3120M	2. 534 4.379
Intel Pentium P6100	1.594 2.930

In single core, the difference is 59%. In multi-core, the differential gap is 49%.

Note: Commissions may be earned from the links above. These scores are only an
average of the performances got with these processors, you may get different results.

Geekbench 4 is a complete benchmark platform with several types of tests, including data compression, images, AES encryption, SQL encoding, HTML, PDF file rendering, matrix computation, Fast Fourier Transform, 3D object simulation, photo editing, memory testing. This allows us to better visualize the respective power of these devices. For each result, we took an average of 250 values on the famous benchmark software.

On Windows:

	Geekbench 5 — Multi-core & single core score — Windows
Intel Core i3-3120M	447 1. 010
Intel Pentium P6100	325 606

In single core, the difference is 38%. In multi-core, the differential gap is 67%.

On Linux:

	Geekbench 5 — Multi-core & single core score — Linux
Intel Core i3-3120M	534 1.091
Intel Pentium P6100	354 663

In single core, the difference is 51%. In multi-core, the differential gap is 65%.

On Android:

	Geekbench 5 — Multi-core & single core score — Android
Intel Core i3-3120M	436 1.003
Intel Pentium P6100	285 356

In single core, the difference is 53%. In multi-core, the differential gap is 182%.

Note: Commissions may be earned from the links above. These scores are only an
average of the performances got with these processors, you may get different results.

Geekbench 5 is a software for measuring the performance of a computer system, for fixed devices, mobile devices, servers. This platform makes it possible to better compare the power of the CPU, the computing power and to compare it with similar or totally different systems. Geekbench 5 includes new workloads that represent work tasks and applications that we can find in reality.

Equivalence:

Intel Core i3-3120M AMD equivalentIntel Pentium P6100 AMD equivalent

Intel Core i3-3220 vs Intel Pentium P6100

Intel Core i3-3220 vs Intel Pentium P6100

Comparison of the technical characteristics between the processors, with the Intel Core i3-3220 on one side and the Intel Pentium P6100 on the other side. The first is dedicated to the desktop sector, It has 2 cores, 4 threads, a maximum frequency of 3,3GHz. The second is used on the entry-level laptop segment, it has a total of 2 cores, 2 threads, its turbo frequency is set to 2,0 GHz. The following table also compares the lithography, the number of transistors (if indicated), the amount of cache memory, the maximum RAM memory capacity, the type of memory accepted, the release date, the maximum number of PCIe lanes, the values ​​obtained in Geekbench 4 and Cinebench R15.

Note: Commissions may be earned from the links above.

This page contains references to products from one or more of our advertisers. We may receive compensation when you click on links to those products. For an explanation of our advertising policy, please visit this page.

Specifications:

Processor		Intel Core i3-3220				Intel Pentium P6100
Market (main)		Desktop				Entry-level laptop
ISA		x86-64 (64 bit)				x86-64 (64 bit)
Microarchitecture		Ivy Bridge				Westmere
Core name		Ivy Bridge				Arrandale
Family		Core i3-3000				Pentium 6000
Part number(s), S-Spec		BX80637I33220, BXC80637I33220, CM8063701137502, CM8063701246900, CM8063701247200, QC8H, QCC0, QCFW, QCKW, SR0RG				CP80617004125AL, SLBUR
Release date		Q3 2012				Q3 2010
Lithography		22 nm				32 nm
Transistors		830. 000.000				382.000.000
Cores		2				2
Threads		4				2
Base frequency		3,3 GHz				2,0 GHz
Turbo frequency		—				—
Bus speed		5 GT/s				2,5 GT/s
Cache memory		3 MB				3 MB
Max memory capacity		32 GB				8 GB
Memory types		DDR3 1333/1600				DDR3 800/1066
Max # of memory channels		2				2
Max memory bandwidth		25,6 GB/s				17,1 GB/s
Max PCIe lanes		16				6
TDP		55 W				35 W
Suggested PSU		600W ATX Power Supply				—
GPU integrated graphics		Intel HD Graphics 2500				Intel HD Graphics (Westmere Mobile)
GPU execution units		6				12
GPU shading units		48				96
GPU base clock		650 MHz				500 MHz
GPU boost clock		1050 MHz				667 MHz
GPU FP32 floating point		110,4 GFLOPS				96 GFLOPS
Socket		LGA1155				PGA988
Compatible motherboard		Socket LGA 1155 Motherboard				—
Maximum temperature		65. 3°C				90°C
Security		—				Execute Disable Bit
CPU-Z single thread		293				53
CPU-Z multi thread		821				89
Cinebench R15 single thread		114				66
Cinebench R15 multi-thread		277				111
PassMark single thread		1.715				820
PassMark CPU Mark		2.161				859
(Windows 64-bit) Geekbench 4 single core		3. 004				1.540
(Windows 64-bit) Geekbench 4 multi-core		5.786				2.597
(SGEMM) GFLOPS performance		63 GFLOPS				21 GFLOPS
(Multi-core / watt performance) Performance / watt ratio		105 pts / W				74 pts / W
Amazon
eBay

Note: Commissions may be earned from the links above.

We can better compare what are the technical differences between the two processors.

Suggested PSU: We assume that we have An ATX computer case, a high end graphics card, 16GB RAM, a 512GB SSD, a 1TB HDD hard drive, a Blu-Ray drive. We will have to rely on a more powerful power supply if we want to have several graphics cards, several monitors, more memory, etc.

Price: For technical reasons, we cannot currently display a price less than 24 hours, or a real-time price. This is why we prefer for the moment not to show a price. You should refer to the respective online stores for the latest price, as well as availability.

We see that the two processors have an equivalent number of cores, the maximum frequency of Intel Core i3-3220 is greater, that the thermal dissipation power of Intel Pentium P6100 is less. The Intel Core i3-3220 was designed earlier.

Performances :

Performance comparison between the two processors, for this we consider the results generated on benchmark software such as Geekbench 4.

	CPU-Z — Multi-thread & single thread score
Intel Core i3-3220	293 821
Intel Pentium P6100	53 89

In single core, the difference is 453%. In multi-core, the differential gap is 822%.

Note: Commissions may be earned from the links above. These scores are only an
average of the performances got with these processors, you may get different results.

CPU-Z is a system information software that provides the name of the processor, its model number, the codename, the cache levels, the package, the process. It can also gives data about the mainboard, the memory. It makes real time measurement, with finally a benchmark for the single thread, as well as for the multi thread.

	Cinebench R15 — Multi-thread & single thread score
Intel Core i3-3220	114 277
Intel Pentium P6100	66 111

In single core, the difference is 73%. In multi-core, the differential gap is 150%.

Note: Commissions may be earned from the links above. These scores are only an
average of the performances got with these processors, you may get different results.

Cinebench R15 evaluates the performance of CPU calculations by restoring a photorealistic 3D scene. The scene has 2,000 objects, 300,000 polygons, uses sharp and fuzzy reflections, bright areas, shadows, procedural shaders, antialiasing, and so on. The faster the rendering of the scene is created, the more powerful the PC is, with a high number of points.

	PassMark — CPU Mark & single thread
Intel Core i3-3220	1.715 2.161
Intel Pentium P6100	820 859

In single core, the difference is 109%. In multi-core, the differential gap is 152%.

Note: Commissions may be earned from the links above. These scores are only an
average of the performances got with these processors, you may get different results.

PassMark is a benchmarking software that performs several performance tests including prime numbers, integers, floating point, compression, physics, extended instructions, encoding, sorting. The higher the score is, the higher is the device capacity.

On Windows 64-bit:

	Geekbench 4 — Multi-core & single core score — Windows 64-bit
Intel Core i3-3220	3.004 5.786
Intel Pentium P6100	1.540 2.597

In single core, the difference is 95%. In multi-core, the differential gap is 123%.

On Linux 64-bit:

	Geekbench 4 — Multi-core & single core score — Linux 64-bit
Intel Core i3-3220	3. 061 5.519
Intel Pentium P6100	1.594 2.930

In single core, the difference is 92%. In multi-core, the differential gap is 88%.

Note: Commissions may be earned from the links above. These scores are only an
average of the performances got with these processors, you may get different results.

Geekbench 4 is a complete benchmark platform with several types of tests, including data compression, images, AES encryption, SQL encoding, HTML, PDF file rendering, matrix computation, Fast Fourier Transform, 3D object simulation, photo editing, memory testing. This allows us to better visualize the respective power of these devices. For each result, we took an average of 250 values on the famous benchmark software.

Equivalence:

Intel Core i3-3220 AMD equivalentIntel Pentium P6100 AMD equivalent

See also:

Intel Core i3-3220TIntel Core i3-3225Intel Core i3-3227U

Pentium P6100 — Intel — WikiChip

Pentium P6100 is a 64-bit dual-core x86 mobile microprocessor introduced by Intel in 2010. This processor operates at a frequency of 2.00 GHz and a TDP of 35 W. This MPU is manufactured on a 32 nm process based on the Westmere microarchitecture (Arrandale core). This processor incorporated the HD Graphics (Ironlake) IGP on the same package operating at a base frequency of 500.00 MHz and a burst frequency of 667.00 MHz.

Contents

• 1 Cache
• 2 Memory controller
• 3 Expansions
• 4 Graphics
• 5 Features

Main article: Westmere § Cache

[Edit/Modify Cache Info]

Cache Organization Cache is a hardware component containing a relatively small and extremely fast memory designed to speed up the performance of a CPU by preparing ahead of time the data it needs to read from a relatively slower medium such as main memory. The organization and amount of cache can have a large impact on the performance, power consumption, die size, and consequently cost of the IC. Cache is specified by its size, number of sets, associativity, block size, sub-block size, and fetch and write-back policies. Note: All units are in kibibytes and mebibytes.

L1$ 128 KiB 0.125 MiB 131,072 B 1.220703e-4 GiB L1I$ 64 KiB 0.0625 MiB 65,536 B 6.103516e-5 GiB 2×32 KiB 4-way set associative write-back L1D$ 64 KiB 0.0625 MiB 65,536 B 6.103516e-5 GiB 2×32 KiB 8-way set associative write-back L2$ 512 KiB 0.5 MiB 524,288 B 4.882812e-4 GiB     2×256 KiB 8-way set associative write-back L3$ 3 MiB 3,072 KiB 3,145,728 B 0. 00293 GiB     2×1.5 MiB 12-way set associative write-back

Memory controller[edit]

[Edit/Modify Memory Info]

	Integrated Memory Controller
	Max Type DDR3 12800s Supports ECC No Max Mem 8 GiB Controllers 1 Channels 2 Max Bandwidth 15.88 GiB/s 27.631 GB/s 16,261.12 MiB/s 0.0155 TiB/s 0.0171 TB/s Bandwidth Single 7.942 GiB/s Double 15.88 GiB/s Physical Address (PAE) 36 bit

Expansions[edit]

[Edit/Modify Expansions Info]

	Expansion Options
	PCIe Revision 2. 0 Max Lanes 16 Configs 1×16

Graphics[edit]

[Edit/Modify IGP Info]

	Integrated Graphics Information
	GPU HD Graphics (Ironlake) Designer Intel Device ID 0x0046 Execution Units 12 Max Displays 2 Frequency 500 MHz 0.5 GHz 500,000 KHz Burst Frequency 667 MHz 0.667 GHz 667,000 KHz Standards DirectX 10.1 OpenGL 2.1 Additional Features Intel Flexible Display Interface (FDI) Intel Clear Video

Features[edit]

[Edit/Modify Supported Features]

Supported x86 Extensions & Processor Features

MMX MMX Extension EMMX Extended MMX Extension SSE Streaming SIMD Extensions SSE2 Streaming SIMD Extensions 2 SSE3 Streaming SIMD Extensions 3 SSSE3 Supplemental SSE3 x86-16 16-bit x86 x86-32 32-bit x86 x86-64 64-bit x86 Real Real Mode Protected Protected Mode SMM System Management Mode FPU Integrated x87 FPU NX No-eXecute EIST Enhanced SpeedStep Technology Flex Memory Flex Memory Access FMA Fast Memory Access (w\ GMCH)

Facts about «Pentium P6100 — Intel»

RDF feed

Has subobject «Has subobject» is a predefined property representing a container construct and is provided by Semantic MediaWiki.	Pentium P6100 — Intel#package + and Pentium P6100 — Intel#io +
base frequency	1,999.99 MHz (2 GHz, 1,999,990 kHz) +
bus links	1 +
bus rate	2,500 MT/s (2.5 GT/s, 2,500,000 kT/s) +
bus type	DMI 1.0 +
chipset	Ibex Peak +
clock multiplier	15 +
core count	2 +
core family	6 +
core model	37 +
core name	Arrandale +
core stepping	K0 +
cpuid	0x20655 +
designer	Intel +
device id	0x0046 +
die area	81 mm² (0.126 in², 0.81 cm², 81,000,000 µm²) +
family	Pentium +
first announced	September 26, 2010 +
first launched	September 26, 2010 +
full page name	intel/pentium (2009)/p6100 +
has ecc memory support	false +
has feature	Enhanced SpeedStep Technology + and Flex Memory Access +
has intel enhanced speedstep technology	true +
has intel flex memory access support	true +
has locked clock multiplier	true +
instance of	microprocessor +
integrated gpu	HD Graphics (Ironlake) +
integrated gpu base frequency	500 MHz (0. 5 GHz, 500,000 KHz) +
integrated gpu designer	Intel +
integrated gpu execution units	12 +
integrated gpu max frequency	667 MHz (0.667 GHz, 667,000 KHz) +
isa	x86-64 +
isa family	x86 +
l1$ size	0.125 MiB (128 KiB, 131,072 B, 1.220703e-4 GiB) +
l1d$ description	8-way set associative +
l1d$ size	0.0625 MiB (64 KiB, 65,536 B, 6.103516e-5 GiB) +
l1i$ description	4-way set associative +
l1i$ size	0.0625 MiB (64 KiB, 65,536 B, 6.103516e-5 GiB) +
l2$ description	8-way set associative +
l2$ size	0.5 MiB (512 KiB, 524,288 B, 4.882812e-4 GiB) +
l3$ description	12-way set associative +
l3$ size	3 MiB (3,072 KiB, 3,145,728 B, 0.00293 GiB) +
ldate	September 26, 2010 +
manufacturer	Intel +
market segment	Mobile +
max cpu count	1 +
max junction temperature	363. 15 K (90 °C, 194 °F, 653.67 °R) +
max memory	8,192 MiB (8,388,608 KiB, 8,589,934,592 B, 8 GiB, 0.00781 TiB) +
max memory bandwidth	15.88 GiB/s (27.631 GB/s, 16,261.12 MiB/s, 0.0155 TiB/s, 0.0171 TB/s) +
max memory channels	2 +
max pcie lanes	16 +
max storage temperature	398.15 K (125 °C, 257 °F, 716.67 °R) +
microarchitecture	Westmere +
min junction temperature	273.15 K (0 °C, 32 °F, 491.67 °R) +
min storage temperature	248.15 K (-25 °C, -13 °F, 446.67 °R) +
model number	P6100 +
name	Intel Pentium P6100 +
package	rPGA-988A + and BGA-1288 +
part number	CP80617004125AL +
platform	Calpella +
process	32 nm (0.032 μm, 3.2e-5 mm) +
s-spec	SLBUR +
series	P6000 +
smp max ways	1 +
supported memory type	DDR3 12800s +
tdp	35 W (35,000 mW, 0. 0469 hp, 0.035 kW) +
technology	CMOS +
thread count	2 +
transistor count	382,000,000 +
word size	64 bit (8 octets, 16 nibbles) +

Difference Between Pentium and Core i3 Processors

The Intel budget category of CPUs can get a bit confusing. You have the Intel Celeron, Intel Pentium and the Intel Core i3 all in the seemingly “budget” or “entry-level” categories of CPUs.

In many instances having so many lines of budget CPUs seems a bit redundant. However, there are a plethora of differences between Pentium and Core i3 processors that make them quite distinct from each other.

In the simplest of terms, the Intel Pentium CPUs are INFERIOR to the Intel Core i3 CPUs in terms of performance. However, the Intel Pentium CPUs are also cheaper.

The clear demarcation of price and performance between these two Intel CPUs line make them both still quite viable for their respective market segment.

We will explore the differences between the two further more below.

Also Read: Difference Between Intel Atom vs Intel Celeron vs Intel Pentium

TABLE OF CONTENTS

Important Note: When Comparing, Select CPUs from the Same Generation!

Before comparing any two CPUs or a CPU line it is imperative that you compare them ideally from the same generation.

For instance, you cannot compare a 10th Generation Intel Core series processor with a decade old Pentium processor.

Also, always make use of the benchmarks such as Passmark or the Cinebench R15 and Cinebench R20 to figure out the performance difference instead of relying on sheer specs.

With that in mind, let us talk about the differences between Intel Pentium and Core i3 CPUs with examples.

Also Read: How is Processor Speed Measured?

Key Differences Between Pentium and Core i3 CPUs (Desktop)

Basically, given any CPU generation, the Intel Core i3 has a superior performance to the Intel Pentium CPUs.

For Instance, considering the recent “Comet-Lake” or 10th Generation DESKTOP-BASED Intel CPUs, the Intel Core i3 offers 4 cores whereas the Intel Pentium CPUs offer 2 cores.

The table below explains the key features considering current 10th Gen (Comet-Lake) CPUs.

	Intel Pentium	Intel Core i3
Current Flaghip CPU (Desktop)	Intel Pentium Gold G6600 (Q1 2021)	Intel Core i3 10320 (Q2 2020)
Core Count	2	4
Hyper-Threading	Yes (4 Threads)	Yes (8 Threads)
Clock Speed	Lower Clock Speed	Higher Clock Speed
Boost Clock Speed	None	Yes
Cache	Lower Cache	Higher Cache
Cost	Cheap	Higher
Purpose	Light day to day work such as browsing, school work, writing reports, light casual gaming etc.	Entry into the Performance Grade PC Builds, For AAA gaming at a budget, for working on professional software with light workloads

Basically, both Intel Pentium and the Intel Core i3 serve two very different purposes.

Intel Pentium is intended for those who have a very basic computing demands. So if you are looking for a CPU for day-to-day computing such as writing emails, watching movies, researching, surfing on the web, then Pentium is way to go.

Once you start delving into the Intel Core i3 series, you are now beginning to scratch the surface of performance grade CPUs. These are intended for gamers and professionals on a budget.

Also Read: What is AMD Equivalent to Intel Core i3?

Performance and Cost Benchmark

One of the biggest advantage Intel Pentium has to its side is its cost. An Intel Pentium CPU typically costs almost HALF as much as an Intel Core i3 CPUs.

The question is: Are Intel Pentium CPUs HALF as much powerful as Intel Core i3 CPUs?

The following table should explain this further:

	Specs	MSRP ($)	Cinebench R15 (Single Core)	Cinebench R15 (Multi Core)	Passmark
Intel Core i3 10320 (Flagship)	4/8 (c/t) 3. 8-4.8 GHz	162 ($)	206	1080	10127
Intel Core i3 10100 (Value)	4/8 (c/t) 3.6-4.3 GHz	122 ($)	191	1001	8825
Intel Pentium G6600 (Flagship)	2/4 (c/t) 4.2 GHz	93 ($)	176	437	4396
Intel Pentium G6400 (Value)	2/4 (c/t) 4.0 GHz	64 ($)	166	416	4155

• Cinebench scores taken from CPU-Monkey
• Passmark scores taken from cpubenchmark.net

In the table above, we have selected two DESKTOP-BASED CPUs from both Intel Core i3 and Intel Pentium (latest Gen).

The flagship CPUs are expensive with a lower performance/dollar value. whereas the popular “value” based CPUs have a better performance/dollar value.

If I were you, I would always go for the “value” based models. Anyhow I digress. Going back to the benchmarks above, we can see some very interesting results

Not a Huge Single Core Performance Difference Between the Two

When comparing the single core performance, there isn’t a significant difference between Intel Pentium and Intel Core i3 processors.

There is perhaps a 14-15% difference between the two in single core performance.

The Single Core performance is a very important factor of a CPU as it determines how well it would perform on single-threaded applications.

Most popular online games for instance, Fortnite, Minecraft etc still rely more on the single core prowess of a CPU than its multi-core performance.

However, single-core performance is only one part of the equation for a CPU.

Also Read: Is Intel Celeron Good for School Work?

Significant Multi-Core Performance Difference Between the Intel Pentium and Core i3

The critical difference between the two series is in their multi-core performance difference. In terms of multi-core performance, the Intel Core 3s are about 60% more powerful than the Intel Pentium CPUs.

As mentioned earlier, Intel Core i3 CPUs have twice as many cores as Intel Pentium CPUs (given the current gen) and hence naturally they have at least twice as good a multi-core performance.

The multi-core performance of a CPU determines how well it can multi-task and how well it can handle apps and services running simultaneously.

PCs, apps and games today are complex. You can have so many critical background applications and services running in the background without you even knowing about them.

Having more cores can significantly improve your experience particularly if you are a gamer or someone who works on professional software.

Also Read:

• How Many Cores Does an i3 Have?
• What Does Processor Count Mean?

For Gaming, Aim for Atleast a Quad Core CPU

There was a time half or so decade ago when games did not scale well with multiple cores. In fact, a decade ago, an Intel Pentium would have given you almost the same performance as an Intel Core i3 CPU in gaming.

Take League of Legends released back in 2009, for example, this old title is still playable on high graphics on even an entry level Intel Celeron G390 released back 2017.

Modern AAA games and their engines, however, are particularly designed to scale well with multiple cores. Hence, if you are remotely a AAA title gamer, a Quad Core Intel Core i3 CPU is the least I would recommend today.

Also Read:

• Is Core i7 Good for Gaming?
• Is a Dual Core Processor Good for Gaming?

Balancing Single and Multi-Core Performance

Having a lot of cores and an over the top multi-core score doesn’t always mean better performance.

For instance, the Intel Core i9-11900K, the workstation grade CPUs with 8 cores and 16 threads scores a whopping 2575 on Cinebench R15. Compare this to a mere 1080 for Intel Core i3-10320.

Source: CPU-Monkey

However, if your workload does not make use of so many cores and threads, you will not see any kind of performance difference in your games or applications.

An over-the-top core count is often used by professionals and is used in video rendering, simulation, machine learning, and also for simulation games such as Cities:Skyline and Microsoft Flight Simulator.

Also Read: What is a Good Processor for a Laptop?

Differences In Laptop-Based Intel Core i3 and Pentium CPUs

When it comes to mobile or laptop based CPUs, the key overall performance difference mirrors that of the desktop-based variants i.e the Intel Core i3 is twice as powerful, whereas the Pentium is half as cheap.

However, there are a few key spec differences. For one, the laptop-based Intel Core i3 has the same amount of cores as the Intel Pentium.

The real winner for Intel Core i3 for laptop-grade CPUs is the Turbo boost frequency. The Intel Core i3-10110U can reach speeds of a whopping 4.1 GHz per core – almost twice as high as that of the Intel Pentium Gold 6405U.

	Specs	MSRP ($)	PassMark (Single Core)	PassMark (Multi Core)	Passmark (Overall)
Intel Pentium Gold 6405U (Flagship)	2/4 (c/t) 2.4 GHz	161 ($)	1413	2313	2359
Intel Core i3-10110U (Flagship)	2/4 (c/t) 2.1-4.1 GHz	281($)	2313	4006	4064

• Scores taken from nanoreview.net and cpubenchmark.net

Also Read:

• Is Intel Celeron Good for Gaming?
• Can You Use NVIDIA Graphics Card with AMD Processor?

Final Words

Here we looked into the differences between Pentium and Core i3 processors from the latest generation.

We looked at a handful of desktop models for both CPU lines, however, the same general idea can be applied to most, if not all, desktop and mobile grade Intel Core i3 and Intel Pentium CPUs.

The bottom line can be summarized as follows: While the Intel Pentiums are half as cheap as Intel Core i3s, the Intel Core i3s are more than twice as powerful.

As such, the value of money remains almost the same for both. The deciding factor between the two is your budget and the work you plan to perform.

Also Read: Intel Core i5 vs i7 for Video Editing – Which is Better?

Comparison Intel Pentium P6100 vs Intel Core i3-3240 which is better?

Home / Intel Pentium P6100 VS Intel Core i3-3240

Intel Pentium P6100

10%

Devicelist

VS

Intel Core I3-3240

% 9000 3% 9000 3% 3% 9000 3% specifications of the Intel Pentium P6100 and Intel Core i3-3240 and compiled a list of advantages and a comparison table for you. Find out which one to choose in 2022.

Benefits Intel Pentium P6100

Release price

$12 -63$ (-84%) better than vs 75 $

Power Demand (TDP)

35 W -20 W (-36.4%) better than vs 55 W

Benefits of Intel Core i3-3240

Comparison winner

556% (6898.4%) better than

vs

0.69444444%

Threads

4 2 (100%) better than vs 2

Maximum frequency

3.4 GHz At 1.4 GHz (70%) better than vs 2 GHz

Process

22 nm -10 nm (-31. 2%) better than vs 32 nm

Value for money

48.6% 47.

Maximum core temperature

65°C -25°C (-27.8%) better than vs 90 °C

TXT

vs

Permissible memory size

32 GB 24 GB (300%) better than vs 8 GB

556% (6898.4%) better than

General information
Type
For laptops	Desktop
Architecture code name
Arrandale	Ivy Bridge
Cores A large number of cores improves performance in multi-threaded applications. At the moment, increasing the number of processor cores is one of the priorities for increasing performance.
2	2
Threads More threads help the cores process information more efficiently. Real performance will be noticeable in very specific tasks (video editing, databases).
2	4 2 (100%) better than
Base frequency
n/a	3.4 GHz
Process
32 nm	22 nm -10 nm (-31.2%) better than
Chip size
81+114 mm2	94 mm2
Number of transistors
384 million	no data
Maximum frequency Faster clocked processors perform more calculations per second and thus provide better performance.
2 GHz	3.4 GHz At 1.4 GHz (70%) better than
Support 64 bit
Max. number of processors in configuration
1	1
Socket
PGA988	FCLGA1155
Series
Intel Pentium	no data
Release price
$12 -63 $ (-84%) better than	75 $
Value for money The sum of all the advantages of the device divided by its price. The more%, the better the quality per unit price in comparison with all analogues.
0.69444444%	48.6% 47.
Bus
2500 MHz	no data
Maximum core temperature
90 °C	65°C -25°C (-27. 8%) better than
vPro
TXT Intel Trusted Execution Technology for hardware-based malware protection. For each protected program, the processor allocates its own isolated section of RAM.
PCI Express revision
2.0	2.0
Number of PCI-Express lanes
1	no data
Demand Based Switching
—	no data
PAE
36bit	no data
Secure Key
Identity Protection
n/a	+
Flex Memory Access
+	no data
Quick Sync
n/a	+
FMA
+	no data
My WiFi
n/a	+
FDI
+	+
Anti-Theft
n/a	+
Fast Memory Access
+	no data
Level 1 Cache The fastest level of cache that works directly with the core. The larger the cache, the better the performance.
64K (per core)	64 KB (per core)
Level 2 cache
256K (per core)	256 KB (per core)
Level 3 cache
3 MB (total)	3 MB (total)
Maximum case temperature (TCase)
n/a	65 °C
Power Demand (TDP) Calculated thermal power indicates the average heat dissipation in load operation, the larger the value, the more the requirements for cooling and power consumption increase.
35W -20 W (-36.4%) better than	55 W
EDB
+	+
Clear Video
+	no data
InTru 3D
n/a	+

		2330
Cinebench 10 32-bit single-core
2245	no data
Cinebench 10 32-bit multi-core
4355	no data
3DMark06 CPU
1843	no data
3DMark Fire Strike Physics
n/a	2630
Cinebench 11. 5 64-bit multi-core
861	no data

Technologies and additional instructions
Extended instructions
n/a	Intel® SSE4.1, Intel® SSE4.2, Intel® AVX
Turbo Boost
—	—
Idle States
Enhanced SpeedStep (EIST) Technology from Intel that allows the processor to slow down to a minimum frequency to save power when the processor is idle.
Thermal Monitoring
Hyper-Threading Hardware technology from Intel that allows multiple threads to be processed on each processor core. For server applications, the performance improvement is up to 30%.
AVX The presence of AVX instructions improves performance in floating point and processor-intensive operations applications.

RAM parameters
RAM types
	DDR3-1333, DDR3-1600
Allowable memory The maximum amount of RAM that can be used with this processor.
8 GB	32 GB 24 GB (300%) better than
Number of memory channels
2	2

Virtualization Technologies
VT-x
EPT
VT-d Intel virtualization technology allows you to forward devices on the PCI bus to the guest operating system so that it can work with them using its standard tools.

Integrated graphics
Maximum GPU clock
667 MHz	1.05 GHz
Maximum number of monitors
2	3
Clear Video HD
Video core The presence of the video core allows you to use your computer without using a video card.
Intel® HD Graphics for Previous Generation Intel® Processors	+

Comparison Intel Pentium P6100 vs Intel Core i3-2120 which is better?

Home / Intel Pentium P6100 VS Intel Core i3-2120

Intel Pentium P6100

10%

Estimation Devicelist

VS

Intel Core I3-2120

3%

% specifications of the Intel Pentium P6100 and Intel Core i3-2120 and compiled a list of advantages and a comparison table for you. Find out which one to choose in 2022.

Benefits Intel Pentium P6100

Release price

$12 -83$ (-87.4%) better than vs 95 $

Power Demand (TDP)

35 W -30 W (-46.2%) better than vs 65 W

Benefits of Intel Core i3-2120

Comparison winner

Threads

4 2 (100%) better than vs 2

Maximum frequency

3.3 GHz At 1.3 GHz (65%) better than vs 2 GHz

Number of transistors

504 million 120 million (31. 3%) better than vs 384 million

Value for money

41.1% 40.40555556% (5818.4%) better than vs 0.69444444%

Maximum core temperature

69°C -21°C (-23.3%) better than vs 90 °C

TXT

vs

Permissible memory size

32 GB 24 GB (300%) better than vs 8 GB

General information
Type
For laptops	Desktop
Architecture code name
Arrandale	Sandy Bridge
Cores A large number of cores improves performance in multi-threaded applications. At the moment, increasing the number of processor cores is one of the priorities for increasing performance.
2	2
Threads More threads help the cores process information more efficiently. Real performance will be noticeable in very specific tasks (video editing, databases).
2	4 2 (100%) better than
Base frequency
n/a	3.3 GHz
Process
32 nm	32 nm
Chip size
81+114 mm2	131 mm2
Number of transistors
384 million	504 million 120 million (31.3%) better than
Maximum frequency Faster clocked processors perform more calculations per second and thus provide better performance.
2 GHz	3.3 GHz At 1.3 GHz (65%) better than
Support 64 bit
Max. number of processors in configuration
1	1
Socket
PGA988	FCLGA1155
Series
Intel Pentium	no data
Release price
$12 -83 $ (-87.4%) better than	95 $
Value for money The sum of all the advantages of the device divided by its price. The more%, the better the quality per unit price in comparison with all analogues.
0.69444444%	41.1% 40.40555556% (5818.4%) better than
Bus
2500 MHz	no data
Maximum core temperature
90 °C	69°C -21°C (-23. 3%) better than
vPro
TXT Intel Trusted Execution Technology for hardware-based malware protection. For each protected program, the processor allocates its own isolated section of RAM.
PCI Express revision
2.0	2.0
Number of PCI-Express lanes
1	16
Demand Based Switching
—	no data
PAE
36bit	no data
Identity Protection
no data	+
Flex Memory Access
+	+
Quick Sync
n/a	+
FMA
+	no data
FDI
+	+
Fast Memory Access
+	+
Level 1 Cache The fastest level of cache that works directly with the core. The larger the cache, the better the performance.
64K (per core)	64 KB (per core)
L2 cache
256K (per core)	256 KB (per core)
Level 3 cache
3 MB (total)	3 MB (total)
Power Demand (TDP) Calculated thermal power indicates the average heat dissipation in load operation, the larger the value, the more the requirements for cooling and power consumption increase.
35W -30 W (-46.2%) better than	65 W
EDB
+	+
Clear Video
+	no data
InTru 3D
n/a	+

		1968
Cinebench 10 32-bit single-core
2245	no data
Cinebench 10 32-bit multi-core
4355	no data
3DMark06 CPU
1843	no data
3DMark Fire Strike Physics
n/a	2650
Cinebench 11. 5 64-bit multi-core
861	no data

Technologies and additional instructions
Extended instructions
n/a	Intel® SSE4.1, Intel® SSE4.2, Intel® AVX
Turbo Boost
—	—
Idle States
Enhanced SpeedStep (EIST) Technology from Intel that allows the processor to slow down to a minimum frequency to save power when the processor is idle.
Thermal Monitoring
Hyper-Threading Hardware technology from Intel that allows multiple threads to be processed on each processor core. For server applications, the performance improvement is up to 30%.

RAM parameters
RAM types
	DDR3-1066, DDR3-1333
Allowable memory The maximum amount of RAM that can be used with this processor.
8 GB	32 GB 24 GB (300%) better than
Number of memory channels
2	2

Virtualization Technologies
VT-x
EPT
VT-d Intel virtualization technology allows you to forward devices on the PCI bus to the guest operating system so that it can work with them using its standard tools.

Integrated graphics
		1. 10 GHz
Maximum number of monitors
2	2
Clear Video HD
Video core The presence of the video core allows you to use your computer without using a video card.
Intel® HD Graphics for Previous Generation Intel® Processors	+

Laptop processor replacement. 1st Generation Intel Core i7 Processor Upgrade

01/21/2019

44.6 K

core, intel, laptop, mobile, P6100, pentium, PGA988

A bit about chipsets

Pentium and Celeron of the first generation) are mainly used motherboards based on chipsets Intel PM55 , Intel HM55 , Intel HM57 . These chipsets support DDR3 memory with a maximum frequency of 1066MHz and can work with a maximum of 8GB of memory, although memory operation depends more on the processor, because in this generation of processors the memory controller is already in the processor. The first generation Core i7 processors are based on the Intel Nehalem architecture. The memory subsystem of the first generation Core i7 (Socket G1) processors can operate in a maximum of dual-channel mode.

The first generation Core i7 processors were produced in two versions:

1. Socket G1 (aka rPGA988A) — Intel processor socket for a series of mobile processors Celeron, Pentium, Core i3, Core i5, Core i7. These processors have replaced the mobile processors of the Core 2 Duo generation. If you have a previous generation processor installed in your laptop, the upgrade of such processors is described in the article on upgrading processors of the Core 2 Duo generation.
2. BGA1288 is a BGA version of the processor, i.e. The processor is not plugged into the appropriate socket, but is soldered directly to the motherboard using a Balloon Array (BGA). In this version, the processor pins are solder balls applied to the contact pads of the processor from its underside.

Processor variant plays a key role when upgrading (replacing) the processor. As you already understood, Socket G1 processors can be replaced independently (upgrade), but BGA1288 processors cannot be replaced just like that — the processor is tightly soldered to the motherboard. However, if you are a seasoned service center specialist and change BGA chips 5 pieces a day, then it will not be difficult for you to unsolder one BGA1288 processor and solder another to the motherboard. For ordinary home laptop users, this option is not suitable!

List of BGA1288 processors

I will immediately give a list of BGA1288 processors that cannot be upgraded at home:

• Celeron P4505, Celeron U3400, Celeron U3405, Celeron U3600;
• Pentium U5400, Pentium U5600;
• Core i3-330E, Core i3-330UM, Core i3-380UM;
• Core i5-430UM, Core i5-470UM, Core i5-520E, Core i5-520UM, Core i5-540UM, Core i5-560UM;
• Core i7-610E, Core i7-620LE, Core i7-620LM, Core i7-620UE, Core i7-620UM, Core i7-640LM, Core i7-640UM, Core i7-660LM, Core i7-660UE, Core i7- 660UM, Core i7-680UM.

Note: Some processors that were produced in the Socket G1 (PGA988) version were also produced in the second variant, the BGA1288 variant. If such a processor is indicated in the characteristics of your laptop (which was produced in two versions), then I recommend that you first disassemble the laptop and make sure that your processor is not soldered to the motherboard (not BGA1288), but a regular Socket G1 processor.

Unlike BGA1288 processors, rPGA9 processors88A (Socket G1 or simply PGA988) can be easily changed without resorting to the services of service center specialists. You don’t need to solder anything, you just need to disassemble the laptop, unlock the processor socket, insert the “new” processor, fix it in the socket, update the thermal paste on the chip, install the cooling system back and assemble the laptop.

Note: Before installing a new processor in your laptop, be sure to first update your laptop’s BIOS to the latest version. Updating the BIOS will help you avoid frequent situations when, after installing a new processor, it is not detected by the laptop and the laptop turns on only with a black screen. Update the BIOS, take the time, it will save you thousands of nerve cells!

Below is a list of interchangeable Socket G1 (PGA988) processors that can be upgraded (although there are some considerations).

Note: By clicking on the image of cart next to the name of the processor, you will open an online store where you can purchase this processor. The prices are quite reasonable, the quality from Intel is on top, hundreds and thousands of successful purchases and installations. Order and install! The store has a 100% refund in case of an unsuccessful purchase. Payment from both MasterCard/Visa and WebMoney is very convenient. Delivery to your post office directly from China in 10-30 days (usually about 14 days). , 3MB SmartCache, TDP 35W, max 8GB DDR3 1066MHz, Intel HD Graphics, BGA1288 & PGA988

Intel Core i5-450M — 2 cores 4 threads, 2. 4GHz@ SmartCache 35W max 8GB DDR3 1066MHz HD Graphics, BGA1288 & PGA988

First-generation Core i7 mobile processors feature that quad-core Core i7 processors (i7-720QM, i7-740QM, i7-820QM, i7-840QM, i7-920XM, i7-940XM) do not have an integrated video core and can be used only in conjunction with a discrete video chip! In other words, if your laptop had only an Intel HD Graphics card and you decided to replace the processor with a first-generation quad-core Core i7, then you will not succeed 100%. After replacing the processor, the laptop simply will not have a video card and the laptop will not turn on, or turn on, but there will be a black screen at best.

Also, for most first-generation Core i7 processors, DDR3-1333 (DDR3-1066, DDR3-800) memory is allowed, while other processors use only DDR3-1066 (DDR3-800) memory.

The graphics core of the first generation mobile processors is not part of a common chip, but is only placed side by side on a substrate and is made according to 45 nm standards.

Features of replacing mobile processors

For the vast majority of laptops based on these chipsets, installation of quad-core processors instead of dual-core ones is not possible. The main reason is the lack of integrated graphics in them and a higher TDP (processor thermal package).

The main problem when replacing the processor is heat dissipation . For example, you can replace the P4600 processor with a Core i7-640M without overloading the cooling system at all, because both processors have a power of 35W. However, you can take a chance and put one of the 4-core Core i7 with TDP 45W instead of P4600, but in this case, you must definitely monitor the maximum temperature of the processor, it should be at the level of 55-65 ° C and not allow the processor to heat up more than indicated in its characteristics in parameter T JUNCTION (This setting is 90°C for most processors). Sometimes a TDP difference of 10W can give a temperature increase above 25°C, which may be unacceptable — the risk of overheating and laptop failure.

The most recommended upgrade processors are i5-5x0M and i7-6x0M .

Do not try to install 8GB memory modules. The largest memory modules (DDR3-1066) that suitable dual-core processors support are 4 GB with 8 chips on each side of the module. In total, two modules give a maximum of 8 GB of RAM.

Note: Unfortunately, in some cases the manufacturer does not care about the support of processors with K0 stepping. The lack of such support sharply narrows the range of suitable processors.

Examples of successful processor upgrades:

1. Notebook NP-R440-JT01UA. Was P6000 , replaced with Intel Core i5-430M . Flight normal!
2. Notebook Acer Aspire 5820TZG, was Pentium P6000 , replaced by Intel Core i3-350M . It became 2 cores and 4 threads, though only after flashing the BIOS.
3. Notebook Acer Travelmate 5740ZG. It was Pentium P6200 , replaced with Intel Core i5-560M . The temperature is 70 degrees in the load.
4. Notebook Acer Aspire 5733z, was Pentium P6100 , replaced by Intel Core i5-560M . Works flawlessly.
5. Replaces old Pentium P6200, Intel Core i5-560M stood up perfectly. The laptop has found a 2nd life!
6. I put on the laptop Acer 5742zg Intel Core i5-560M , I had to update the BIOS to make the turbo mode work. I am delighted with the purchase, the laptop has taken on a new life.
7. Notebook HP 4520s. To replace Intel Core i3-330M took Intel Core i5-560M . Earned immediately, the difference in performance is about a third. Turbo Boost somehow works strangely, the frequency does not decrease, all the time 3.2ghz, a multiplier of 24.
8. Notebook Acer Aspire 5733z. The new Intel Core i3-350M worked immediately.
9. I upgraded the Samsung R440 laptop, the native processor was P6100 , the new Core i5-560M worked immediately and without problems.
10. Notebook Asus K52jr. Instead of Core i3-350M I took Core i5-560M . Everything is fine, the processor is working.
11. Notebook Lenovo B560. Replaced the old P6200 with the new Core i5-560M , everything worked right away.
12. On ASUS K52JT Core i5-560M got up without a tambourine.
13. Installed Intel Core i5-560M on Asus A52J, was determined by the system immediately, did not climb into the BIOS.
14. Was i3-370M , installed Intel Core i7-640M . Of course, the speed has not increased at times, but it works!
15. Installed new Intel Core i5-560M in Samsung R730 instead of P6200 . The laptop is working fine. I am satisfied with the purchase.
16. I installed Intel Core i5-560M in my old Sony Vaio PCG-71211V (VPCEB3E1R) instead of P6100 . Everything worked immediately without dancing with a tambourine.
17. Notebook SONY VAIO VPC-EB2S1R. Was i5-430M , installed Intel Core i7-640M . I got up like a native.
18. Notebook Acer Aspire 4820tg. Intel Core i5-560M got up like a native.
19. Lenovo B560 replaced P6100 with Intel Core i5-560M .
20. Intel Core i5-560M is successfully installed in Acer Travelmate 5740 laptop. Feelings of a new car.
21. Intel Core i7-640M on Acer 7745G with two gigs of RAM got up perfectly.
22. Installed on Dell N5010 instead of P6100 percent Intel Core i5-560M . Everything works, only the temperature below 50 practically does not fall.
23. Intel Core i5-560M took for Asus K42jc. Everything started up without problems, it was determined in the BIOS.
24. Took Intel Core i5-560M to replace my i3-380M in eMachines E732G laptop. I got up like a native. The BIOS was determined immediately, no problems arose.
25. Installed Intel Core i5-560M on Toshiba C650. Everything is working.
26. Intel Core i5-560M now works in Dell N5040 instead of P6200 .
27. Installed Intel Core i5-560M in Sony VAIO VPCEB1E9R instead of Core i3-330m . Everything worked right away!
28. Notebook SONY VAIO VPCF11E1R/H. Installing Intel Core i5-560M initially had problems due to the BIOS version. With the BIOS version supplied by the manufacturer, it didn’t start right away! It is necessary to update the BIOS on the old process.
29. Intel Core i5-560M started up without problems on Lenovo G560 laptop with BIOS version 29CN38WW.
30. Intel Core i5-430M installed in Lenovo Y560. Works right out of the box!
31. Toshiba L650d replaced cpu P6200 with Intel Core i5-580M . All without dancing with a tambourine. Doesn’t get hot, laptop works fine.
32. Processor Intel Core i5-580M installed in Samsung R440 instead of P6000 . Everything is working.
33. Ordered Intel Core i5-580M for HP 630. Delivered. Everything works great!
34. I have a 2010 Lenovo Ideapad v360. Initially, there was an Intel Core i3 330M, a discrete video card NVidia GeForce G 305M. Delivered Intel Core i7-640M . The processor got up and started working without problems, and when installing an SSD hard drive, you can generally get an excellent result that will delight you for many years to come.

Examples of unsuccessful processor upgrades:

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   Testing inexpensive Celeron G5920, Pentium G6400 and Core i3-10100 processors for the LGA1200 platform

   , Pentium and Core i3) we ended up with models for the «second version» of the LGA1151 platform. A year ago, relevant, but quickly losing this «relevance» as the new LGA1200 is introduced. Focused more on older models, of course — so the latest Rocket Lake exists only in the form of Core i5 and higher. On the other hand, Comet Lake has already brought something to the Core i3 — these models have acquired support for Hyper-Threading, so that, at a first approximation, they become similar to the Core i7 four or five years ago. And very similar to the earlier Core i7, since the introduction of this family in late 2008 — four cores capable of performing eight computation threads. But what about performance — this already needs to be measured specifically. Moreover, there is something to compare. And not only with the old «top» (once) products, but also with AMD Ryzen 3 — they have become the same since last year (an amazing coincidence :)).

   As for Celeron and Pentium, they simply exist for the new platform. The same as the old ones — the first ones have not fundamentally changed for more than ten years, the second ones have “upped a little”, but it was already four years ago. So for buyers of budget processors, all three of the latest Intel platforms are the same. Yes, of course, there are more options for upgrading the LGA1200, but… If you start with Celeron, then the prospects for replacing the processor on the oldest version of LGA1151 are endless. As for the price, then here you already need to look at specific options — and not the recommended prices of processors at the time of release. Since it will still be more of a secondary market — with its own approach to pricing. The only thing is that the variant with used Xeon E3, which was popular at one time, does not officially roll here: just starting with LGA1151, Intel removed the possibility of these processors working on boards with “civilian” chipsets. However, looking at the popularity of “kofimod” or various “mutants” from AliExpress (when it comes to “screwing” eight-core Comet Lake laptops to the first version of LGA1151), there are suspicions that this problem is not a problem at all. If there was a need, there would be solutions. In any case, replacing a Celeron or Pentium with something much more powerful is definitely possible without any modifications — no one has canceled the “old” quad-core Core i7, and then the upgrade method that suits the price will simply be chosen.

   Another during the journey of , USB support has grown — we started in the first half of the «tenth» with the banal USB3 Gen1 (aka USB 3.0 of the decade before last), the «second version» LGA1151 has already brought USB3 Gen2, and now USB3 Gen2 is being introduced ×2. However, this may be interesting only if you buy a motherboard based on at least a junior B-chipset — various Hx10 are now and forever limited to the same USB3 Gen1. Which, in general, is enough for users of budget systems — they usually don’t buy top-end external SSDs anyway. For the same reason, you can not find too much fault with the fact that h510 and H510, unlike their predecessors (h210 and h410), already support PCIe 3.0, not 2.0 — a high-speed internal SSD paired with a Celeron / Pentium looks strange (and raises doubts about the mental the health of the author of such an assembly).

   In general, again, for buyers of Celeron and Pentium, the last three Intel platforms are equivalent. Accordingly, you can choose even the oldest of them — if you have it in the nearest store and the price suits you. Yes, and there is no reason to rush to change it either — even if there is not enough performance, you can change the processor, add memory, buy a faster and more capacious SSD, or finally install some kind of discrete video card, but without touching the board itself and the processor. In all cases except one — if the soul requires quality leaps in all directions, then this is the minimum Core i5-11400 + B560. Or at least Ryzen 5 3600/4650G+B550. Anything “less” is just an upgrade for the sake of an upgrade and nothing more, since a similar effect can be achieved without changing the platform.

   To the same extent, this can be attributed to the old Core i3. However, there is no need to talk about the equivalence of platforms here — these models became quad-core a little more than three years ago, then they received support for Turbo Boost, and then Hyper-Threading. But this, as mentioned above, is “only” the level of the old Core i7, so there is not much point in changing the old Core i3 to the new one. And the new Core i5 or Ryzen 5 is another question.

   But whether it is necessary to think about replacing the old system at all — it depends more not on it, but on the tasks being solved. Celeron and Pentium have not changed for a long time, largely due to the fact that there is a steady demand for this level of performance. In the end, even older budget systems are still used in places — since , the basic needs of are closed, so in the absence of any other, the pursuit of resources does not make sense. At change of requests — has.

   But all these moments are generally very poorly formalized — each specific situation requires a specific solution. We can only make it easier to find it by providing information about the performance of different processors. Even if it is believed that speed is not decisive in the budget segment, it is also impossible to completely ignore it. After all, the demand for software is also constantly growing as the average power of computers increases, so sooner or later you still have to follow the rest of the users. And, since the relative, and not the absolute level of performance is still important, there is no fundamental difference in how exactly it is determined. The main thing is the same way. What are we going to do now.

   Test participants

   	Intel Celeron G3900	Intel Celeron G4900	Intel Celeron G5920
   Core name	Skylake	Coffee Lake	Comet Lake
   Production technology	14 nm	14 nm	14 nm
   Core frequency, GHz	2. 8	3.1	3.5
   Number of cores/threads	2/2	2/2	2/2
   L1 cache (total), I/D, KB	64/64	64/64	64/64
   L2 cache, KB	2×256	2×256	2×256
   L3 cache, MiB	2	2	2
   RAM	2×DDR4-2133	2×DDR4-2400	2×DDR4-2666
   TDP, W	51	54	58
   Number of PCIe 3.0 lanes	16	16	16
   Integrated GPU	HD Graphics 510	UHD Graphics 610	UHD Graphics 610

   Everything that happened with Celeron from 2015 to the end of 2020 was that clock speeds increased slightly. In total, about 25% have accumulated over this period if we compare the youngest models on each platform, which is not so little. We took the G5920, and not the G5900 for good measure — so that it was exactly 25%. And the same amount of memory frequency turned out. And nothing more. Which is why, apparently, Intel got bored too — so a few months ago they doubled the capacity of the third-level cache memory in Celeron. And they threw 100 MHz into the bargain. In our opinion, it would be better if Hyper-Threading support was finally added, since it helped Pentium a lot in its time. But what is, is.

   	Intel Pentium G4620	Intel Pentium Gold G5500	Intel Pentium Gold G6400
   Core name	Kaby Lake	Coffee Lake	Comet Lake
   Production technology	14 nm	14 nm	14 nm
   Core frequency, GHz	3.7	3.8	4.0
   Number of cores/threads	2/4	2/4	2/4
   L1 cache (total), I/D, KB	64/64	64/64	64/64
   L2 cache, KB	2×256	2×256	2×256
   L3 cache, MiB	3	4	4
   RAM	2×DDR4-2400	2×DDR4-2400	2×DDR4-2666
   TDP, W	51	54	58
   Number of PCIe 3. 0 lanes	16	16	16
   Integrated GPU	HD Graphics 630	UHD Graphics 630	UHD Graphics 610

   Pentium clock speeds have since reached even more impressive heights — for a long time only overclockers stuttered about 4 GHz, and now this is the clock frequency of the junior Pentium Gold for LGA1200. Seniors have recently mastered 4.3 GHz. But in reality, nothing has changed significantly since the days of Kaby Lake, but the older “two-stream” models can no longer be remembered. Except that some of their limitations are still alive and well — for example, the lack of support for AVX instructions (not to mention AVX2), which recently turned 10 years old. Generally — but still not in the Pentium. Therefore, their lag behind Core i3 has only increased in recent years — the convergence of 2017 turned out to be unique.

   	Intel Core i3-8100	Intel Core i3-10100
   Core name	Coffee Lake	Comet Lake
   Production technology	14 nm	14 nm
   Core frequency, GHz	3. 6	3.6/4.3
   Number of cores/threads	4/4	4/8
   L1 cache (total), I/D, KB	128/128	128/128
   L2 cache, KB	4×256	4×256
   L3 cache, MiB	6	6
   RAM	2×DDR4-2400	2×DDR4-2666
   TDP, W	65	65
   Number of PCIe 3.0 lanes	16	16
   Integrated GPU	UHD Graphics 630	UHD Graphics 630

   And largely because of him, you can no longer return to the Core i3 of the first half of 2017 and earlier. On reflection, we left only the i3-8100 from the historical models — the junior model for the “second version” of the LGA1151, since all the rest, except for the frequencies, are no different from it. But the current Core i3, as has been said more than once, have become “eight-threaded”, but at the same time, the 8100-10100 pair has a lot in common: the “base” frequency, the number of cores, the L3 capacity, finally (only representatives of the 103xx family received 8 MiB).

   	Intel Core i7-7700K	Intel Core i5-9400F	Intel Core i5-10400
   Core name	Kaby Lake	Coffee Lake	Comet Lake
   Production technology	14 nm	14 nm	14 nm
   Core frequency, GHz	4.2/4.5	2.9/4.1	2.9/4.3
   Number of cores/threads	4/8	6/6	6/12
   L1 cache (total), I/D, KB	128/128	192/192	192/192
   L2 cache, KB	4×256	6×256	6×256
   L3 cache, MiB	8	9	12
   RAM	2×DDR4-2400	2×DDR4-2666	2×DDR4-2666
   TDP, W	91	65	65
   Number of PCIe 3.0 lanes	16	16	16
   Integrated GPU	HD Graphics 630	no	UHD Graphics 630

   Celeron and Pentium only make sense to compare with each other, but for a more accurate assessment of the place of modern Core i3, we will not be hindered by Core i7-7700K, Core i5-9400F and i5-10400. The latter is obviously the fastest, but we also need an estimate from above: if the LGA1200 platform is chosen for an inexpensive computer, then you still need to decide exactly on a specific processor family. Moreover, the costs differ in this case only by the cost of the processor. This is not clear when comparing different platforms.

   	Athlon 3000G	AMD Ryzen 3 2200G	AMD Ryzen 3 3100	AMD Ryzen 5 2600
   Core name	Raven Ridge	Raven Ridge	Matisse	Pinnacle Ridge
   Production technology	14 nm	14 nm	7/12 nm	12 nm
   Core frequency, GHz	3.5	3.5/3.7	3.6/3.9	3.4/3.9
   Number of cores/threads	2/4	4/4	4/8	6/12
   L1 cache (total), I/D, KB	128/64	256/128	128/128	384/192
   L2 cache, KB	2×512	4×512	4×512	6×512
   L3 cache, MiB	4	4	16	16
   RAM	2×DDR4-2667	2×DDR4-2933	2×DDR4-3200	2×DDR4-2933
   TDP, W	35	65	65	65
   Number of PCIe lanes	4 (3. 0)	12 (3.0)	20 (4.0)	20 (3.0)
   Integrated GPU	Vega 3	Vega 8	no	no

   Just like you can’t do without comparison with AMD processors, but here the «correct» selection of models is rather complicated. Therefore, we simply voluntaristically took four processors. Athlon 3000G — as an alternative to Celeron. Ryzen 3 2200G — the price of some members of the « Ryzen 3 on old cores» family is at the level of junior Pentiums, and the performance of the processor part is comparable for all of them. The Ryzen 3 3100 is a direct competitor to the Core i3-10100. And … another direct competitor to this processor in price, but a six-core one: Ryzen 5 2600. In principle, it’s already close to Ryzen 5 3600, since it has fallen in price recently (especially thanks to the situation with video cards), but it’s not worth adding interesting — it is already clear that the fastest (even the i5-10400 is still slower). The main topic is the budget segment, and here AMD has had nothing new since the middle of last year, and even then the range was replenished with a couple of models (then several interesting APUs came out, but their availability is limited). Basically, you have to take the rap with the old microarchitectures, but looking at them in the 4C / 8T version is already tired.

   And so formally, all AMD processors belong to the same platform — and even motherboards are found in nature, on which all of the above can work (there are even models where you can plug everything in general — from Athlon to the 4000 and 5000 lines). Intel processors, of course, this does not apply. Why does the company have to regularly re-release all the lines in general, with each update of the platform, although at least the same Celeron and Pentium could not be touched for a long time — but they themselves are to blame.

   Other environments traditional: AMD Radeon Vega 56 graphics card, SATA SSD and 16 GB DDR4 memory, maximum frequency spec.

   Test Method

   Methodology for testing computer systems of the 2020 sample

   The testing methodology is described in detail in a separate article, and the results of all tests are available in a separate table in Microsoft Excel format. Directly in the articles, we use the processed results: normalized with respect to the reference system (Intel Core i5-9600K with 16 GB of memory, AMD Radeon Vega 56 graphics card and SATA SSD) and grouped by computer application. Accordingly, on all diagrams related to applications, dimensionless points, so here “more is better” everywhere. And starting from this year, we are finally transferring game tests to an optional status (the reasons for which are discussed in detail in the description of the test methodology), so that only specialized materials will be available for them. In the main lineup there are only a couple of «processor-dependent» games in low resolution and medium quality — synthetic, of course, but conditions close to reality for testing processors are not suitable, since nothing depends on them in such conditions.

   iXBT Application Benchmark 2020

   In terms of performance, the Core i3-10100 is closer to the old i7-6700 than to the 7700K, but this does not matter. The main thing is that it is still a little slower than the Ryzen 3 3100. You can, however, recall the presence of an integrated GPU — which is currently a great thing, but makes the processors not quite direct competitors. However, then will need to remember and Ryzen 3 4350G — where the video part is even bolder. And in general, this is all a separate issue that requires a separate study (we plan to do it soon). With a discrete video card — this is the alignment. At the same time explaining — why in AMD took a break from with the update of budget products: two Zen cores with SMT support are enough to seamlessly compete with any Celeron, and four of them without SMT can easily cope with Pentium. Intel constantly updates the processors of these families — but this has practically no effect on performance. And all AMD needs in such conditions is to flexibly vary the prices of old (technically) products, sometimes creatively renaming them (for example, the quad-core Athlon Gold Pro 3150G is still the same Ryzen 3 2200G from three years ago, but with a chopped GPU). Here Core i3 has changed significantly over the past three years — therefore, the new Ryzen 3 is completely different from the old ones. In terms of performance, they are more reminiscent of the old Ryzen 5 — and not even quad-core. As for the comparison of LGA1200 lines, everything is simple here: Core i3 is twice as fast as Pentium, but one and a half times slower than Core i5. Correspondence with the number of cores is close to ideal.

   No significant changes. For some, this is true even in absolute terms. Core i3 moved a little away from Pentium — remember what was said at the beginning about command systems and their limitations. By the way, because of this, dual-core Athlons are already almost and is enough to compete with Pentium. In general, the update of budget AMD products in the near future will depend only on the actions of Intel. There doesn’t seem to be any other reason. Unfortunately, the new Athlon based on the 4000G APUs would be a bomb (especially if the GPU is left at the level of the Ryzen 3 of this line). Yes, and it’s high time — because the old boards are already simply «plugged in, but do not work.» However, there is a feeling that we will not see them until the quad-core Pentium and Celeron with Hyper-Threading appear. Until then, there is no need.

   All the same. Yes, it could not be otherwise. Although the architecture is already important here, the only thing that this leads to is that the old six-core Ryzen 5s began to look worse. But at prices at the level of modern Ryzen 3 or Core i3, this is also normal. The mentioned families grow synchronously. The younger ones are equally synchronous … almost do not change.

   When too many cores are not needed, and the efficiency of Hyper-Threading drops, and in general everything degenerates into tests for architecture and frequency. But Intel’s architecture in this segment has not changed for a long time — and here again the same thing. Therefore, only last year’s Ryzen 3 can be noted — the breakthrough of the year is unambiguous. And all, perhaps.

   On the one hand, doesn’t matter what — it matters how many . On the other hand, architectural features, and the memory system, matter. But in the Intel processors of the three younger lines, the same Skylake continues to live — so is really more important for them than . Moreover, here the specificity of the code is such that Hyper-Threading is only slightly inferior to «real» cores. So this is the schedule.

   A similar case — but here the number of cores and computation threads is noticeably less important. Although the main trends, as we can see, persist for a variety of types of load.

   And here the group itself is “motley” in terms of working scenarios. But the results are the same as everywhere else.

   At the time of release, the Ryzen 3 3100 was positioned as a competitor to the Core i3-9100F. In fact, only a few days remained before the release of the LGA1200 platform, the characteristics of all processors were approximately known, so no one doubted that the main task of the 3100 was to fight the i3-10100/10100F. Under what they sharpened — that’s what happened. Yes, and the “release” time is appropriate — previously, such a processor would have interfered too much with the sale of the remnants of the old Ryzen 5, and later the old rule would have “broke” to position Ryzen 3 precisely against the Core i3. However, since Celeron and Pentium have not changed, there are no significant updates in the lower AMD families. Although, we repeat, it’s time — the current Athlons no longer work even on budget boards based on the A520 chipset, which does not climb into any gates. Although, in general, the B450 is no worse — but it would be time for him to rest. And the idea of ​​​​buying the cheapest processor with a board “for the future” (for which you already need not the A520, but the B550 — but the B450 is not suitable at all) generally cuts in the bud. With Intel in this regard, it is easier — although is generally considered AMD’s great friend by upgraders. However, this is a separate topic, somewhat beyond the scope of today’s testing. Everything is clear with him.

   Power Consumption and Energy Efficiency

   As soon as the race for performance began again, so did the power consumption. However, it leads to problems only in the top segment (and even then not always) — budget processors cannot gobble up a lot just by design.

   However, they also work slowly. So a system that solves tasks faster and spends more time in sleep can be more effective. On the other hand, such scenarios for using modern computers are not uncommon, in which Celeron will also sleep 99% of the time.

   Games

   As already mentioned in the description of the methodology, it makes no sense to keep the «classic approach» to testing gaming performance — since video cards have long been determining not only it, but also significantly affect the cost of the system, you need to «dance» exclusively from them. And from the games themselves — too: in modern conditions, fixing a game set for a long time does not make sense, since literally everything can change with the next update. But we will carry out a brief test in (albeit) relatively synthetic conditions — using a couple of games in the «processor-dependent» mode.

   AMD vs. Intel: we, however, removed a lot of testing of processors in

   Celeron games altogether — many modern and even not very games sometimes simply do not run on it. On the other hand, no one will buy it paired with a more or less decent video card. Yes, and Pentium is unlikely, although these processors, along with the old Ryzen 3, can still do something. And even the new Ryzen 3 with Core i3 in practice will usually coexist with such video cards that things simply won’t come to “processor dependence”. If you are interested in the question of their work in a serious gaming system, we recommend our large test of different processor models, released in March: many of today’s heroes are there are presented in pure form .

   Total

   A priori it was clear that the new Core i3 reached the level of the «old» Core i7, but Celeron and Pentium remained the same — but sometimes it’s useful to test the theory with practice. And now we can confidently repeat — for buyers of budget systems based on Intel processors, nothing has been happening on the market for a long time. There is definitely no point in changing even a five-six-year-old computer for a similar one. If it’s broken, it might be worth repairing. If it just “presses” somewhere, consider upgrading. After all, motherboards fail much more often than processors. Especially expensive and sophisticated — which enthusiasts love so much, so that after some time after leaving the market of any platform near-top processors for it in the secondary market can be found inexpensively. The platforms themselves haven’t changed much either. Another question is that when buying a new computer, it is better to look at the same new platforms — for the sake of a longer maintainability period and a stock of modernization.