X5680 vs w3680: Intel Xeon W3680 @ 3.33GHz vs Intel Xeon X5680 @ 3.33GHz [cpubenchmark.net] by PassMark Software

Intel Xeon W3680 vs Intel Xeon X5680

Comparative analysis of Intel Xeon W3680 and Intel Xeon X5680 processors for all known characteristics in the following categories: Essentials, Performance, Memory, Compatibility, Security & Reliability, Advanced Technologies, Virtualization.
Benchmark processor performance analysis: PassMark — Single thread mark, PassMark — CPU mark, Geekbench 4 — Single Core, Geekbench 4 — Multi-Core, 3DMark Fire Strike — Physics Score, CompuBench 1.5 Desktop — Face Detection (mPixels/s), CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s), CompuBench 1.5 Desktop — T-Rex (Frames/s), CompuBench 1.5 Desktop — Video Composition (Frames/s), CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s).

Intel Xeon W3680

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Intel Xeon X5680

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Differences

Reasons to consider the Intel Xeon W3680

• Around 7% better performance in Geekbench 4 — Single Core: 649 vs 605
• Around 4% better performance in Geekbench 4 — Multi-Core: 3566 vs 3440

Geekbench 4 — Single Core	649 vs 605
Geekbench 4 — Multi-Core	3566 vs 3440

Reasons to consider the Intel Xeon X5680

• Around 16% higher maximum core temperature: 78. 5°C vs 67.9°C
• 12x more maximum memory size: 288 GB vs 24 GB
• Around 2% better performance in PassMark — Single thread mark: 1576 vs 1549
• Around 80% better performance in PassMark — CPU mark: 12431 vs 6909
• Around 85% better performance in CompuBench 1.5 Desktop — Face Detection (mPixels/s): 3.082 vs 1.662
• Around 17% better performance in CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s): 56.943 vs 48.725
• Around 35% better performance in CompuBench 1.5 Desktop — T-Rex (Frames/s): 0.691 vs 0.51
• Around 86% better performance in CompuBench 1.5 Desktop — Video Composition (Frames/s): 4.939 vs 2.657
• Around 99% better performance in CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s): 15.109 vs 7.601

Maximum core temperature	78.5°C vs 67.9°C
Maximum memory size	288 GB vs 24 GB
Max number of CPUs in a configuration	2 vs 1
PassMark — Single thread mark	1576 vs 1549
PassMark — CPU mark	12431 vs 6909
CompuBench 1. 5 Desktop — Face Detection (mPixels/s)	3.082 vs 1.662
CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s)	56.943 vs 48.725
CompuBench 1.5 Desktop — T-Rex (Frames/s)	0.691 vs 0.51
CompuBench 1.5 Desktop — Video Composition (Frames/s)	4.939 vs 2.657
CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s)	15.109 vs 7.601

Compare benchmarks

CPU 1: Intel Xeon W3680
CPU 2: Intel Xeon X5680

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
CompuBench 1. 5 Desktop — Face Detection (mPixels/s)	CPU 1 CPU 2
CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s)	CPU 1 CPU 2	48.725 56.943
CompuBench 1.5 Desktop — T-Rex (Frames/s)	CPU 1 CPU 2
CompuBench 1. 5 Desktop — Video Composition (Frames/s)	CPU 1 CPU 2
CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s)	CPU 1 CPU 2	15.109

Name	Intel Xeon W3680	Intel Xeon X5680
PassMark — Single thread mark	1549	1576
PassMark — CPU mark	6909	12431
Geekbench 4 — Single Core	649	605
Geekbench 4 — Multi-Core	3566	3440
3DMark Fire Strike — Physics Score	0	0
CompuBench 1. 5 Desktop — Face Detection (mPixels/s)	1.662	3.082
CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s)	48.725	56.943
CompuBench 1.5 Desktop — T-Rex (Frames/s)	0.51	0.691
CompuBench 1.5 Desktop — Video Composition (Frames/s)	2.657	4.939
CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s)	7.601	15.109

Compare specifications (specs)

	Intel Xeon W3680	Intel Xeon X5680
Architecture codename	Westmere EP	Westmere EP
Launch date	March 2010	February 2010
Launch price (MSRP)	$350	$172
Place in performance rating	1929	1692
Price now	$759. 95	$161.63
Processor Number	W3680	X5680
Series	Legacy Intel® Xeon® Processors	Legacy Intel® Xeon® Processors
Status	Discontinued	Discontinued
Value for money (0-100)	3.52	15.60
Vertical segment	Server	Server
64 bit support
Base frequency	3. 33 GHz	3.33 GHz
Bus Speed	6.4 GT/s QPI	6.4 GT/s QPI
Die size	239 mm	239 mm
L1 cache	64 KB (per core)	64 KB (per core)
L2 cache	256 KB (per core)	256 KB (per core)
L3 cache	12288 KB (shared)	12288 KB (shared)
Manufacturing process technology	32 nm	32 nm
Maximum core temperature	67. 9°C	78.5°C
Maximum frequency	3.60 GHz	3.60 GHz
Number of cores	6	6
Number of QPI Links	1	2
Number of threads	12	12
Transistor count	1170 million	1170 million
VID voltage range	0.800V-1.375V	0.750V-1.350V
ECC memory support
Max memory channels	3	3
Maximum memory bandwidth	32 GB/s	32 GB/s
Maximum memory size	24 GB	288 GB
Supported memory types	DDR3 800/1066/1333	DDR3 800/1066/1333
Low Halogen Options Available
Max number of CPUs in a configuration	1	2
Package Size	42. 5mm X 45mm	42.5mm x 45mm
Sockets supported	FCLGA1366	FCLGA1366
Thermal Design Power (TDP)	130 Watt	130 Watt
Execute Disable Bit (EDB)
Intel® Trusted Execution technology (TXT)
Enhanced Intel SpeedStep® technology
Idle States
Instruction set extensions	Intel® SSE4. 2	Intel® SSE4.2
Intel 64
Intel® AES New Instructions
Intel® Demand Based Switching
Intel® Hyper-Threading technology
Intel® Turbo Boost technology
Physical Address Extensions (PAE)	36-bit	40-bit
Thermal Monitoring
Intel® Virtualization Technology (VT-x)
Intel® VT-x with Extended Page Tables (EPT)
Intel® Virtualization Technology for Directed I/O (VT-d)

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Xeon X5680 vs Xeon W3680 Review

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LE-1100AMD Sempron LE-1150AMD Sempron LE-1200AMD Sempron LE-1250AMD Sempron LE-1300AMD Sempron X2 190AMD Sempron X2 198AMD Sempron X2 250AMD Turion 64 MK-36AMD Turion 64 MK-38AMD Turion 64 ML-28AMD Turion 64 ML-30AMD Turion 64 ML-34AMD Turion 64 ML-37AMD Turion 64 ML-40AMD Turion 64 ML-44AMD Turion 64 MT-28AMD Turion 64 MT-30AMD Turion 64 MT-32AMD Turion 64 MT-37AMD Turion 64 MT-40AMD Turion 64 X2 TL-50AMD Turion 64 X2 TL-52AMD Turion 64 X2 TL-56AMD Turion 64 X2 TL-58AMD Turion 64 X2 TL-60AMD Turion 64 X2 TL-62AMD Turion 64 X2 TL-64AMD Turion 64 X2 TL-66AMD Turion II M500AMD Turion II M520AMD Turion II N530AMD Turion II N550AMD Turion II Neo K625AMD Turion II Neo K685AMD Turion II P520AMD Turion II P540AMD Turion II P560AMD Turion II Ultra M600AMD Turion II Ultra M620AMD Turion II Ultra M660AMD Turion Neo X2 L625AMD Turion X2 RM-70AMD Turion X2 RM-72AMD Turion X2 RM-74AMD Turion X2 RM-75AMD Turion X2 RM-76AMD Turion X2 Ultra ZM-80AMD Turion X2 Ultra ZM-82AMD Turion X2 Ultra ZM-84AMD Turion X2 Ultra ZM-85AMD Turion X2 Ultra ZM-86AMD V-Series V105AMD V-Series V120AMD V-Series V140AMD Z-01Intel Atom 230Intel Atom 330Intel Atom C2350Intel Atom C2530Intel Atom C2550Intel Atom C2730Intel Atom C2750Intel Atom C3538Intel Atom C3558Intel Atom C3858Intel Atom C3955Intel Atom C3958Intel Atom D2500Intel Atom D2550Intel Atom D2560Intel Atom D2700Intel Atom D410Intel Atom D425Intel Atom D510Intel Atom D525Intel Atom E3805Intel Atom E3815Intel Atom E3825Intel Atom E3826Intel Atom E3827Intel Atom E3845Intel Atom E660Intel Atom E680Intel Atom N2600Intel Atom N270Intel Atom N280Intel Atom N2800Intel Atom N435Intel Atom N450Intel Atom N455Intel Atom N470Intel Atom N475Intel Atom N550Intel Atom N570Intel Atom S1220Intel Atom S1240Intel Atom S1260Intel Atom Z2760Intel Atom Z3460Intel Atom Z3735DIntel Atom Z3735EIntel Atom Z3735FIntel Atom Z3735GIntel Atom Z3736FIntel Atom Z3736GIntel Atom Z3740Intel Atom Z3740DIntel Atom Z3745Intel Atom Z3745DIntel Atom Z3770Intel Atom Z3770DIntel 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 i3-3250TIntel 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 i5-13600KIntel 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 i7-13700KIntel 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 i9-13900KIntel 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 P6100Intel 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 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Intel Xeon X5680 vs Intel Xeon W3680

Intel Xeon X5680 vs Intel Xeon W3680

Comparison of the technical characteristics between the processors, with the Intel Xeon X5680 on one side and the Intel Xeon W3680 on the other side. The first is dedicated to the server sector, It has 6 cores, 12 threads, a maximum frequency of 3,6GHz. The second is used on the server segment, it has a total of 6 cores, 12 threads, its turbo frequency is set to 3,6 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.

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Specifications:

Processor		Intel Xeon X5680				Intel Xeon W3680
Market (main)		Server				Server
ISA		x86-64 (64 bit)				x86-64 (64 bit)
Microarchitecture		Westmere				Westmere
Core name		Westmere-EP				Gulftown
Family		Xeon X5600				Xeon W3600
Part number(s), S-Spec		BX80614X5680, AT80614005124AA, Q3UV, SLBV5				BX80613W3680, AT80613003543AF, Q3VH, Q4EH, SLBV2
Release date		Q1 2010				Q1 2010
Lithography		32 nm				32 nm
Transistors		1. 170.000.000				1.170.000.000
Cores		6				6
Threads		12				12
Base frequency		3,3 GHz				3,3 GHz
Turbo frequency		3,6 GHz				3,6 GHz
Bus speed		6,4 GT/s				6,4 GT/s
Cache memory		12 MB				12 MB
Max memory capacity		288 GB				24 GB
Memory types		DDR3 800/1066/1333				DDR3 800/1066/1333
Max # of memory channels		3				3
Max memory bandwidth		32 GB/s				32 GB/s
Max PCIe lanes		36				16
TDP		130 W				130 W
Suggested PSU		650W ATX Power Supply				650W ATX Power Supply
GPU integrated graphics		None				None
Socket		LGA1366				LGA1366
Compatible motherboard		Socket LGA 1366 Motherboard				Socket LGA 1366 Motherboard
Maximum temperature		78. 5°C				67.9°C
CPU-Z single thread		291				449
CPU-Z multi thread		2.393				2.714
Cinebench R15 single thread		100				101
Cinebench R15 multi-thread		792				838
Cinebench R20 single thread		211				212
Cinebench R20 multi-thread		1.672				1.634
PassMark single thread		1.445				1.523
PassMark CPU Mark		6. 613				6.801
(Linux 64-bit) Geekbench 4 single core		2.666				3.699
(Linux 64-bit) Geekbench 4 multi-core		12.241				17.713
(Linux) Geekbench 5 single core		519				674
(Linux) Geekbench 5 multi-core		2.485				3.778
(SGEMM) GFLOPS performance		117,2 GFLOPS				133,3 GFLOPS
(Multi-core / watt performance) Performance / watt ratio		94 pts / W				136 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.

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, they have a similar turbo frequency, that their respective TDP are of the same order. Both were produced in the same year.

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 Xeon W3680	449 2.714
Intel Xeon X5680	291 2.393

In single core, the difference is 54%. In multi-core, the difference in terms of gap is 13%.

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 Xeon W3680	101 838
Intel Xeon X5680	100 792

In single core, the difference is 1%. In multi-core, the difference in terms of gap is 6%.

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 Xeon X5680	211 1.672
Intel Xeon W3680	212 1.634

In single core, the difference is -0%. In multi-core, the differential gap is 2%.

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 Xeon W3680	1.523 6.801
Intel Xeon X5680	1.445 6.613

In single core, the difference is 5%. In multi-core, the difference in terms of gap is 3%.

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 Xeon W3680	3.043 13.922
Intel Xeon X5680	3.009 13.450

In single core, the difference is 1%. In multi-core, the difference in terms of gap is 4%.

On Linux 64-bit:

	Geekbench 4 — Multi-core & single core score — Linux 64-bit
Intel Xeon W3680	3. 699 17.713
Intel Xeon X5680	2.666 12.241

In single core, the difference is 39%. In multi-core, the difference in terms of gap is 45%.

On Mac OS X 64-bit:

	Geekbench 4 — Multi-core & single core score — Mac OS X 64-bit
Intel Xeon X5680	3.050 14.159
Intel Xeon W3680	3.022 13.993

In single core, the difference is 1%. In multi-core, the differential gap is 1%.

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 Xeon W3680	667 3.687
Intel Xeon X5680	631 3.395

In single core, the difference is 6%. In multi-core, the difference in terms of gap is 9%.

On Linux:

	Geekbench 5 — Multi-core & single core score — Linux
Intel Xeon W3680	674 3.778
Intel Xeon X5680	519 2.485

In single core, the difference is 30%. In multi-core, the difference in terms of gap is 52%.

On macOS:

	Geekbench 5 — Multi-core & single core score — macOS
Intel Xeon X5680	645 3.455
Intel Xeon W3680	636 3.248

In single core, the difference is 1%. In multi-core, the differential gap is 6%.

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 Xeon X5680 AMD equivalentIntel Xeon W3680 AMD equivalent

See also:

Dual Intel Xeon X5680

Intel CPU Xeon W3680 und eine X5680 im Vergleich? (Computer, Spiele und Gaming)

Intel Xeon x5680 und rx 580 8gb + 8gb ram gut zum zocken?

Würde spiele wie bo4 usw spielen

…zur Frage

Lohnt sich auf diese cpu zu wechseln?

Ich hab zurzeit einen Server mit folgenden Spezifikationen:

CPU: 2x INTEL Xeon X5550 2,67Ghz .

GPU: /

RAM: 24Gb DDR3 1066Mhz.

Motherboard: ProLiant DL380 G6

Power supply: 2x 750 Watt

Storage: SSD 240Gb

lohnt sich auf die CPU Intel Xeon X5680 aufzurüsten?

Ich lass hauptsächlich von spielen die Server darauf laufen, es kommt aber ab und zu dazu das es laggs gibt und ich schätze mal das die momentane CPU es nicht ganz schafft, lohnt sich da ein upgrade oder ist es bei dem alter des CPU Sockels das man da nicht mehr viel rausholen kann?

. ..zur Frage

OBS Einstellungen RX 590?

Hallo Leute ich würde gerne streamen, aber weiß net welche Einstellung ich in bis bei endcodierer nehmen soll, und bitte schreibt nicht ,, deine Hardware ist veraltet und und und» ich habe nun mal das, und versuche das beste rauszuholen, CPU Intel xeon x5680, 20GB ddr4 1600mhz, ex 590 nitro plus

…zur Frage

Intel Xeon X5660 Spannungen?

Hallo!

Ich habe heute versucht meinen Intel Xeon X5660 zu übertakten. Ich habe diverse Spannungen ausprobiert wie z.B. 1,39V bei der CPU VCore Einstellung, jedoch bootet der PC in keinem Fall. Mein Ziel ist 4,0GHz aufwärts. Beim Mainboard handelt es sich um ein EVGA X58 FTW3 (eines der besten X58 Boards).

Hier nochmal alle Einstellungen aufgelistet

EVGA VDroop Control

CPU VCore

CPU VTT Voltage

CPU PLL VCore

QPI PLL VCore

IOH VCore

IOH/ICH I/O Voltage

ICH VCore

[EINSTELLUNGEN DIE OFFENSICHTLICH FÜR RAM ETC. SIND WURDEN AUSGELASSEN]

Danke im Voraus!

…zur Frage

Kann man mit einen Intel Xeon Cpu Zocken?

Hi . Ich möchte gerne DayZ, Arma 3 und ARK SPielen. Nur funktioniert das mit ein Xeon CPu zb so ein älteren Intel Xeon E5450? . Da ich zurzeit mir nicht sehr viel leisten kann würde ich mir vllt diesen Cpu holen nur schafft er die Spiele ??? Habe 8GB Ram Und meine Graka ist die R7 260x oc. Wäre nett wenn ohr mir helfen könntet Lg

. ..zur Frage

Kann Man einen Xeon CPU gleich verwenden und einbauen wie eine normale Intel CPU?(z.B I3, I5, I7)?

Kann man eine Xeon CPU gleich verwenden/einbauen bei einem normalen stand Pc wie eine normale Intel CPU??(z.B I3, I5, I7)?!?!

…zur Frage

GPU und CPU nur 50% ausgelastet?

Hallo Leute, ich wenn ich Fortnite zocke ist meine CPU sowie GPU zu 50% ausgelastet, und ich weiß nicht warum, als prozessor habe ich einen Intel Xeon x5680 und als Grafikkarte eine rx 590 nitro+. Ich habe gehört um die volle FPS zu bekommen MUSS die GPU um 100% ausgelastet sein. Also warum wird meine GPU nicht zu 100% ausgelastet ?

PS: Habe 20 GB ddr3 1666 mhz

. ..zur Frage

Welches Mainboard zum übertakten des Intel Xeon x5660?

Hallo, ich habe vor mir die billige 6 Kern CPU Intel Xeon x5660 zu kaufen, und diese dann auf etwa 4 GHz zu übertakten. Jedoch benutzt dieser Prozessor den etwas älteren Sockel LGA 1366. Welches Mainboard mit diesem Sockel ist für Übertaktung geeignet?

…zur Frage

Intel Xeon e3-1230v2 zu heiß im Leerlauf?

Hallo Leute, habe eine frage unzwar besitze ich eine RX 580 und ein Xeon e3-1230v2 und meine Xeon CPU wird im Leerlauf 67 Grad warm, ist das normal?

…zur Frage

Was ist der Nachteil an einer alten CPU?

Was für Nachteile hat eine alte CPU, wie z. B. ein Intel Xeon x5650?

…zur Frage

Intel xeon x5670 und ne GTX1080/Ti?

Hi, was haltet ihr davon nen xeon x5670 auf 4GHZ zu übertakten und mit ner 1080 zu kombinieren??? Die CPU wäre dann ja einem i7 ziemlich nahe oder???

…zur Frage

Was ist der Unterschied zwischen intel xeon E3 und e5 Prozessoren?

Es gibt ja intel xeon E3 quadcore prozessoren und intel xeon e5 quadcore Prozessoren aber die e5er sind viel teurer. Was genau sind die Unterschiede?

…zur Frage

Welches Mainboard/Motherboard zum Intel xeon x5650?

Hallo, ich will mir einen möglichst günstigen, guten Gaming Pc zusammenstellen. Den Prozessor (Intel xeon x5650) habe ich schon. Da dieser Prozessor einen FCLGA1366 Sockel benötigt ist meine Frage, welches passende Mainboard ihr zu diesem Prozessor empfehlen würdet?? Es sollte zum Gaming sein und nicht über 50 Euro kosten.
Und noch ne frage…. unterstützt der xeon x5650 auch Usb 3.0 und die heutigen CD Laufwerke?
Grüsse der Leihe

…zur Frage

Intel Xeon X5670 übertakten?

Hat jemand diese CPU auf 4.00ghz übertakt weil ich würde gerne wissen welche Temperaturen ihr so kriegt.

…zur Frage

KB4091664: Intel microcode updates

Summary

Recent Changes:

Intel recently announced that it has completed its validations and has started to release microcode for newer CPU platforms around Spectre Variant 2 (CVE 2017-5715: «Branch Target Injection»). This update includes microcode updates from Intel for the following CPUs.

Product name (CPU)	Public name	CPUID	Intel microcode update revision
Skylake H/S	6th Generation Intel Core Processor Family	506E3	0xC2
Skylake U/Y & Skylake U23e	6th Generation Intel Core m Processors	406E3	0xC2
Skylake Server SP (H0, M0, U0)	Intel® Xeon® Bronze Processor 3104, 3106, Intel® Xeon® Gold Processor 5115, 5118, 5119T, 5120, 5120T, 5122, 6126, 6126F, 6126T, 6128, 6130, 6130F, 6130T, 6132, 6134, 6134M, 6136, 6138, 6138F, 6138T, 6140, 6140M, 6142, 6142F, 6142M, 6144, 6146, 6148, 6148F, 6150, 6152, 6154, Intel® Xeon® Platinum Processor 8153, 8156, 8158, 8160, 8160F, 8160M, 8160T, 8164, 8168, 8170, 8170M, 8176, 8176F, 8176M, 8180, 8180M, Intel® Xeon® Silver Processor 4108, 4109T, 4110, 4112, 4114, 4114T, 4116, 4116T	00050654	0x2000049
Skylake D (Bakerville)	Intel® Xeon® Processor D-2123IT, D-2141I, D-2142IT, D2143IT, D-2145NT, D-2146NT, D-2161I, D-2163IT, D2166NT, D-2173IT, D-2177NT, D-2183IT, D-2187NT	00050654	0x2000049
Skylake X (Basin Falls)	Intel® Core™ i9 79xxX, 78xxX	00050654	0x2000049
Kaby Lake U	7th Generation Intel® Core™ Mobile Processors	000806E9	0x84
Kaby Lake U23e	7th Generation Intel® Core™ Mobile Processors	000806E9	0x84
Kaby Lake Y	7th Generation Intel® Core™ Mobile Processors	000806E9	0x84
KBL-R U	8th Generation Intel® Core™ Mobile Processor Family	000806EA	0x84
Kaby Lake G	7th Generation Intel® Core™ Processor Family	000906E9	0x84
Kaby Lake H	7th Generation Intel® Core™ Processor Family	000906E9	0x84
Kaby Lake S	7th Generation Intel® Core™ Processor Family	000906E9	0x84
Kaby Lake X	7th Generation Intel® Core™ Processor Family	000906E9	0x84
Kaby Lake Xeon E3	7th Generation Intel® Core™ Processor Family	000906E9	0x84
Coffee Lake H 6+2	8th Generation Intel® Core™ Processor Family	000906EA	0x84
Coffee Lake S 6+2	8th Generation Intel® Core™ Processor Family	000906EA	0x84
Coffee Lake S 6+2 Xeon E3	8th Generation Intel® Core™ Processor Family	000906EA	0x84
Coffee Lake S 6+2 x/KBP	8th Generation Intel® Core™ Processor Family	000906EA	0x84
Coffee Lake S (4+2)	8th Generation Intel® Core™ Desktop Processor Family	000906EB	0x84
Broadwell DE A1	Intel® Xeon® Processor D-1513N, D-1523N, D-1533N, D-1543N, D1553N	50665	0xE000009
Broadwell DE V1	Intel® Xeon® Processor D-1520, D-1540	50662	0x15
Broadwell DE V2,V3	Intel® Xeon® Processor D-1518, D-1519, D-1521, D-1527, D-1528, D-1531, D-1533, D-1537, D-1541, D-1548, Intel® Pentium® Processor D1507, D1508, D1509, D1517, D1519	50663	0x7000012
Broadwell DE Y0	Intel® Xeon® Processor D-1557, D-1559, D-1567, D-1571, D-1577, D-1581, D-1587	50664	0xF000011
Broadwell H 43e	Intel® Core™ Processor i7-5950HQ, i7-5850HQ, i7-5750HQ, i7-5700HQ, Intel® Core™ Processor i5-5575R, i5-5675C, i5-5675R, i7-5775C, i7-5775R, Intel® Core™ Processor i7-5700EQ, i7-5850EQ	40671	0x1D
Broadwell U/Y	Intel® Core™ Processor i7-5650U,i7-5600U, i7-5557U, i7-5550U, i7-5500U, Intel® Core™ Processor i5-5350U, i5-5350,i5-5300U, i5-5287U,i5-5257U, i5-5250U, i5-5200U, Intel® Core™ Processor i3-5157U, i3-5020U, i3-5015U, i3-5010U, i3-5006U, i3-5005U, i3-5010U, i5-5350U, i7-5650U, Intel® Core™ Processor M-5Y71, M-5Y70, M-5Y51, M-5Y3, M-5Y10c, M -5Y10a, M-5Y10, Intel® Pentium® Processor 3805U, 3825U, 3765U, 3755U, 3215U, 3205U, Intel® Celeron® 3765U	306D4	0x2A
Broadwell Xeon E3	Intel® Xeon® Processor v4 E3-1258L, E3-1265L, E3-1278L, E3-1285, E3-1285	40671	0x1D
Broadwell Server E, EP, EP4S	Intel® Xeon® Processor E5-2603V4, E5-2609V4, E5- 2620V4, E5-2623V4, E5-2630LV4, E5-2630V4, E5- 2637V4, E5-2640V4, E5-2643V4, E5-2650LV4, E5- 2650V4, E5-2660V4, E5-2667V4, E5-2679V4, E5-2680V4, E5-2683V4, E5-2690V4, E5-2695V4, E5-2697AV4, E5-2697V4, E5-2698V4, E5-2699AV4, E5-2699V4 Intel® Xeon® Processor E5-2608LV4, E5-2618LV4, E5- 2628LV4, E5-2648LV4, E5-2658V4, E5-2699RV4, E5- 4628LV4	406F1	0xB00002C
Broadwell Server EX	Intel® Xeon® Processor E7-4809V4, E7-4820V4, E7- 4830V4, E7-4850V4, E7-8855V4, E7-8860V4, E7-8867V4, E7-8870V4, E7-8880V4, E7-8890V4, E7-8891V4, E7-8893V4, E7-8894V4	406F1	0xB00002C
Haswell (including H, S), Xeon E3	4th Generation Intel® Core™ Mobile Processor Family, Intel® Pentium® Mobile Processor Family, Intel® Celeron® Mobile Processor Family	306C3	0x24
Haswell Perf Halo	Intel® Core™ Extreme Processor (5960x, 5930x, 5820x)	40661	0x19
Haswell Server E, EP, EP4S	Intel® Xeon® Processor v3 E5-1428L, E5-1603, E5-1607, E5-1620, E5-1630, E5-1650, E5-1660, E5-1680, E5-2408L, E5-2418L, E5-2428L, E5-2438L, E5-2603, E5-2608L, E5-2608L, E5-2609, E5-2618L, E5-2620, E5-2623, E5-2628L, E5-2630, E5-2630L, E5-2637, E5-2640, E5-2643, E5-2648L, E5-2650, E5-2650L, E5-2658, E5-2660, E5-2667, E5-2670, E5-2680, E5-2683, E5-2685, E5-2687W,E5-2690, E5-2695, E5-2697, E5-2698, E5-2699, E5-4610, E5-4620, E5-4627, E5-4640, E5-4648, E5-4650, E5-4655, E5-4660, E5-4667, E5-4669	306F2	0x3C
Haswell ULT	4th Generation Intel® Core™ Mobile Processor Family, Intel® Pentium® Mobile Processor Family, Intel® Celeron® Mobile Processor Family	40651	0x23
Ivy Bridge	3rd Generation Intel® Core™ Mobile Processor Family, Intel® Pentium® Mobile Processor Family, and Intel® Celeron® Mobile Processor Family	306A9	0x1F
Ivy Bridge Xeon E3	Intel® Core™ Processor Extreme Edition i7-4960X Intel® Core™ Processor i7-4820K, i7-4930K	306A9	0x1F
Ivy Bridge E, Ivy Bridge Server E, EN, EP, EP4S	Intel® Xeon® Processor v2 E5-1428L, E5-1620, E5-1650, E5-1660, E5-2403, E5-2407, E5-2418L, E5-2420, E52428L, E5-2430, E5-2430L, E5-2440, E5-2448L, E5-2450, E5-2450L, E5-2470, E5-2603, E5-2609, E5-2618L, E52620, E5-2628L, E5-2630, E5-2630L, E5-2637, E5-2640, E5-2643, E5-2648L, E5-2650, E5-2650L, E5-2658, E52660, E5-2667, E5-2670, E5-2680, E5-2687W, E5-2690, E5-2695, E5-2697, E5-4603, E5-4607, E5-4610, E5-4620, E5-4624L, E5-4627, E5-4640, E5-4650, E5-4657L	000306E4	0x42C
Ivy Bridge Server EX	E5-4610, E5-4620, E5-4624L, E5-4627, E5-4640, E54650, E5-4657L	000306E7	0x713
Sandy Bridge	Intel® Core™ i3-21xx/23xx-T/M/E/UE Processor, Intel® Core™ i5-23xx/24xx/25xx-T/S/M/K Processor, Intel® Core™ i7-2xxx-S/K/M/QM/LE/UE/QE Processor, Intel® Core™ i7-29xxXM Extreme Processor, Intel® Celeron® Desktop G4xx, G5xx Processor, Intel® Celeron® Mobile 8xx, B8xx Processor, Intel® Pentium® Desktop 350, G6xx, G6xxT, G8xx Processor, Intel® Pentium® Mobile 9xx, B9xx Processor	206A7	0x2D
Sandy Bridge Xeon E3	Intel® Xeon® Processor E3-1200 Product Family	206A7	0x2D
Sandy Bridge Server EN/EP/EP4S	Intel® Xeon® Processor E5-2620, E5-2630, E5-2630L, E52640, E5-2650, E5-2650L, E5-2660, E5-2667, E5-2670, E5-2680, E5-2690	206D6	0x61C
Sandy Bridge Server EN/EP/EP4S	Intel® Xeon® Processor E5-1428L, E5-1620, E5-1650, E51660, E5-2403, E5-2407, E5-2418L, E5-2420, E5-2428L, E5-2430, E5-2430L, E5-2440, E5-2448L, E5-2450, E52450L, E5-2470, E5-2603, E5-2609, E5-2620, E5-2630, E5-2630L, E5-2637, E5-2640, E5-2643, E5-2648L, E52650, E5-2650L, E5-2658, E5-2660, E5-2665, E5-2667, E5-2670, E5-2680, E5-2687W, E5-2690, E5-4603, E54607, E5-4610, E5-4617, E5-4620, E5-4640, E5-4650, E5-4650L Intel® Pentium® Processor 1405	206D7	0x713
Knights Landing	Intel® Xeon® Phi™ Processor 72xx	50671	0x1B6
Knights Mill	Intel® Xeon® Phi™ Processor Family	80650	0x18
Nehalem EP, Nehalem WS	Intel® Xeon® Processor E5502, E5503, E5504, E5506, E5507, E5520, E5530, E5540 Intel® Xeon® Processor L5506, L5508, L5518, L5520, L5530 Intel® Xeon® Processor W5580, W5590 Intel® Xeon® Processor X5550, X5560, X5570	106A5	0x1C
Lynnfield	Intel® Core™ Processor i7-860, 860S, 870, 870S, 875K, 880 Intel® Core™ Processor i5-750, 750S, 760	106E5	0x09
Lynnfield Xeon	Intel® Xeon® Processor L3426 Intel® Xeon® Processor X3430, X3440, X3450, X3460, X3470, X3480	106E5	0x09
Arrandale	Intel® Core™ Processor i7-i7-620M/LM/UM, i7-640LM/UM Intel® Core™ Processor i5-430M, i5-520M/UM, i5-540M Intel® Core™ Processor 330M, 350M Intel® Celeron® Processor P4500, P4505	20652	0x10
Clarkdale	Intel® Core™ Processor i5-650, 660, 661, 670 Intel® Core™ Processor i3-530, 540, 550, 560 Intel® Pentium® Processor G6950	20652	0x10
Clarkdale Xeon	Intel® Xeon® Processor L3406	20652	0x10
Arrandale	Intel® Core™ Processor i7-610E, 620LE/LM/M/UE/UM, 640LM/M/UM, 660LM/UE/UM, 680UM Intel® Core™ Processor i5-430M/UM, 450M, 460M, 470UM, 480M, 520E/M/UM, 540M/UM, 560M/UM, 580M Intel® Core™ Processor i3-330E/M/UM, 350M, 370M, 380M/UM, 390M Intel® Pentium® Processor P6000, P6100, P6200, P6300 Intel® Pentium® Processor U5400, U5600 Intel® Celeron® Processor P4500, P4505, P4600 Intel® Celeron® Processor U3400, U3405, U3600	20655	0x6
Clarkdale	Intel® Core™ Processor i5-650, 655K, 660, 661, 670, 680 Intel® Core™ Processor i3-530, 540 Intel® Pentium® Processor G6950, G6951, G6960	20655	0x6
WestmereEP, WS	Intel® Xeon® Processor E5603, E5606, E5607, E5620, E5630, E5640, E5645, E5649 Intel® Xeon® Processor L5609, L5618, L5630, L5638, L5640 Intel® Xeon® Processor W3670, W3680 Intel® Xeon® Processor X5647, X5650, X5660, X5667, X5670, X5672, X5675, X5677, X5680, X5687, X5690, X5698	206C2	0x1E

This update is a stand-alone update that’s available through the Microsoft Update Catalog and targeted to Windows 10, version 1607 (Anniversary Update) and Windows Server 2016. This update also includes Intel microcode updates that were already released for this operating system at the time of Release To Manufacturing (RTM).

We will offer additional microcode updates from Intel through this article for these operating systems as they become available to Microsoft.

Please make sure that mitigation against Spectre Variant 2 is enabled by applying the update through KB 4078407 or through the registry settings that are documented in the following articles:

• 
  Windows Client Guidance for IT Pros to protect against speculative execution side-channel vulnerabilities

• 
  Windows Server Guidance to protect against speculative execution side-channel vulnerabilities

Important: Consult with your device manufacturer and Intel via their websites regarding their microcode recommendation for your device before applying this update to your device.

Known issues

Microsoft is not aware of any issues that affect this update currently.

How to obtain and install the update

Method 1: Windows Update

To download and install this update, go to Settings > Update & Security > Windows Update and then select Check for updates. If Windows Update says your device is up to date, you have all the updates that are currently available.

Method 2: Windows Server Update Service

This update is now available for installation through WSUS.

Method 3: Microsoft Update Catalog

To get the stand-alone package for this update, go to the Microsoft Update Catalog website.

References

Learn about theterminology that Microsoft uses to describe software updates.

Third-party information disclaimer

The third-party products that this article discusses are manufactured by companies that are independent of Microsoft. Microsoft makes no warranty, implied or otherwise, about the performance or reliability of these products.

X5680, intel® xeon® processor x5680 (12m cache, 3

X5680, intel® xeon® processor x5680 (12m cache, 3

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The Intel Xeon X5680 was a server/workstation processor with 6 cores, launched in February 2010. It is part of the Xeon lineup, using the Westmere-EP architecture with Socket 1366. Thanks to Intel Hyper-Threading the core-count is effectively doubled, to 12 threads X5680. CPU part numbers. AT80614005124AA is an OEM/tray microprocessor. BX80614X5680 is a boxed microprocessor. Frequency ? 3333 MHz. Maximum turbo frequency

Intel Xeon X5680 Specs TechPowerUp CPU Databas

Intel Xeon X5680 @ 3.33GHz, Intel (R) Xeon (R) CPU X5680 @ 3.33GHz. Number of logical cores. 6 (2 logical cores per physical) Created with Highcharts 7.2.0. Benchmark score Compare Intel Xeon X5680 performance to most popular processors CPU Benchmark Intel Xeon X5680 Intel Pentium G4560 Intel i3 8100 AMD Ryzen 5 2600 Intel i7 9700K Intel i9. Upgrade Chance is a probability of a successful processor upgrade/downgrade from the Xeon X5680 (original CPU) to a specific model. This number is calculated as a percentage of all motherboards, compatible with both original and upgrade CPUs, compared to the number of motherboards, that support the original Intel X5680 Intel Xeon X5680 Hexa-core (6 Core) 3.33 Ghz Processor — Socket B Lga-1366 — 12 Mb Cache — 6.40 Gt/s Qpi — Yes — 32 Nm — 130 W New & Used (7) from $40.00 + $3. 69 shipping Buy this product as Renewed and save $82.99 off the current New price

What is up my dudes? Today I wanted to share an insane bargain I found on Aliexpress! The Xeon X5680! (i7 980 or Xeon W3680 performs the same)Games benchmark.. Welcom Procesador Intel® Xeon® X5680 (caché de 12M, 3,33 GHz, 6,40 GT/s Intel® QPI) guía rápida de referencia que incluye especificaciones, funciones, precios, compatibilidades, documentación de diseño, códigos de pedidos, códigos de especificación y mucho más

Today’s Video Sponsor — SCDKeys — Get a Genuine Windows 10 Pro x64 Key Here for under $13 using the coupon TYCSK (12% off!) — https://www.scdkeys.com/sk/win1.. Intel® Xeon® Prozessor X5680 (12 MB Cache, 3,33 GHz, Intel® QPI mit 6,40 GT/s) Kurzübersicht mit Spezifikationen, Funktionen, Preise, Kompatibilität, Design-Infos, Bestellcodes, SPEC-Codes und mehr INTEL XEON X5680 Socket LGA1366 CPU Processor Core 6 Duo Six-Core Xeon X5680 CPU (3.3GHz/12M/130W) US $34. 99. 26 sold. 4.4. Free Return. DLY PARTS Store. Intel Xeon W3680 12M/3.33G/Six Core CPU Processor SLBV2 LGA1366 Is equal to the X5680 I7 980 (working 100% Free Shipping) US $30.63 The X5680 processor has only one sSpec code, SLBV5, and can be bought new now from Intel for $1663.00 each. On eBay you can buy that processor today for about $200.00 each, USD, used. It is encouraging that you can get to the point of boot that the motherboard rejects your heatsink/fan combination, because my experience with truly non-listed. Detailed side by side comparison of W3680 vs X5680 specs can be found in the Specifications section below. Much more detailed comparison of low level features of both CPUs is located in the CPUIDs section

Lying dormant, being accused of being outdated, this little x5675 Xeon’s feelings got hurt to the point where he decided to bust out the 4.5GHz OC on air and.. Intel Xeon X5680 Hexa-core (6 Core) 3.33 Ghz Processor — Socket B Lga-1366 — 12 Mb Cache — 6. 40 Gt/s Qpi — Yes — 32 Nm — 130 W. This product is also available in New condition for $82.99 more than the current Renewed price. Intel Xeon X5680 Processor 3.33 GHz 12 MB Cache Socket LGA1366 $147.98. (6 The X5680 can be added to your Mac Pro laptop or desktop computer to augment its existing processor’s power. The X5680 CPU features six core technology for processing capabilities. With the 12 MB of advanced smart cache, your computer’s speed and performance will be optimized X5680 Intel Xeon 6 Core 3.33GHz 6.40GT/s QPI 12MB L3 Cache Processor Refurbished; Related Products. Intel Xeon X5680 6 Core 3.33GHz 6.40GT/s QPI 12MB L3 Cache Socket FCLGA1366 Processor Mfr P/N BX80614X5680 $78.77. Intel Xeon X5680 6-Core 3.33GHz 6.40GT/s QPI 12MB L3 Cache Socket FCLGA1366 Processor Mfr P/N SLBV5. Intel Xeon X5680. 4328MHz. 4328MHz 4524MHz 5232MHz 5468MHz. Default clock: 3333MHz, 130 Watt. Average overclock on air, water, cascade or liquid nitrogen. 44/100. Hardware index based on 1,060 submissions (performance relative to fastest system, more info ). LGA1366

The v2 Z600 can run ECC unbuffered and ECC buffered memory. It turns out that the v2 Z400 can run X5690, X5680, and X5672 (all ones I’ve tried). I had that spare X5672 from a Z600 to do a test whether using a Z600’s processor would allow the Z400 to also run ECC buffered memory…. it did not BUY • $74. 6 Cores, 12 Threads @2.66 GHz, Westmere EP. Release date ≤ Q4 2013. X5647 X5650 X5660 X5667 X5690. AMD vs INTEL VALUE. Effective Speed. +8%. Real World Speed. Performance profile from 16,564 user samples インテル® Xeon® プロセッサー X5680 (12M キャッシュ、3.33 GHz、6.40 GT/s インテル® QPI) 仕様、機能、価格、対応する製品、設計資料、製品コード、スペックコードなどが分かるクイック・リファレンス・ガイド

56 product ratings — Intel XEON X5680 3.33 GHz 12 MB SLBV5 6 Core 6.40GT/s LGA1366 Six Core CP Buy & sell electronics, cars, clothes, collectibles & more on eBay, the world’s online marketplace. Top brands, low prices & free shipping on many items AMD vs Intel: Gaming performance 2012-2021. 1-Core An consumer orientated single-core integer and floating point test. 2-Core 4-Core An important quad-core consumer orientated integer and floating point test. 64-Core A multi-core server orientated integer and floating point CPU benchmark test. Brand Seller Model Samples Part num Check Out How Good Will Intel Xeon X5680 Run Games . Results can vary in comparison to reality. Frames per second can vary because of differences in hardware and software enviroments. Shown number of Frames Per Second is the maximal possible you can get with this CPU, but you need to build PC without bottleneck. 1080p ; 1440p ; 2160p/4

Intel Xeon X5680 CPU processor /3.33GHz /LGA1366/12MB L3 Cache/Six Core/ server CPU , there are, sell X5670 CPU. Model #: YWC-SCV-CAS31317 Item #: 9SIANWNEV23863 Return Policy: View Return Policy $79.58 Intel Xeon Processor X5680 is a Server CPU part of the Xeon Series continuously released by Intel. <br/> It’s based on the Nehalem architecture and the memory controller supports memory controller.

Dual Intel Xeon X5680 Specs Specifications of the Dual Intel Xeon X5680 processor dedicated to the server sector, it has 6 cores, 12 threads, a maximum frequency of 3.6GHz. The table below makes it possible to observe well the lithography, the number of transistors (if present), the offered cache memory, the maximum capacity of RAM memory that. Intel Xeon X5680详细信息. 编辑 语音. 内核电压（V）：0.800-1.300. CPU类型： 至强. CPU系列： Xeon 5600系列. CPU架构：64位. 核心数量：六核心. 工作功率 ：130W. 制作工艺：32纳米 The Xeon X5680 @ 6102.7MHzscores getScoreFormatted in the CPU Frequency benchmark. moparmanranks #null worldwide and #3 in the hardware class. Find out more at HWBOT

Good consistency The range of scores (95th — 5th percentile) for the Intel Xeon X5690 is 20.2%. This is a relatively narrow range which indicates that the Intel Xeon X5690 performs reasonably consistently under varying real world conditions Intel® Xeon® Processor X5675 (12M Cache, 3.06 GHz, 6.40 GT/s Intel® QPI) quick reference with specifications, features, and technologies Procesador Intel Xeon X5680 3. 33GHz (24 Core) 32 GB de RAM DDR3 1333MHz Almacenamiento con discos SSD 500GB x 2 100 MB simétricos dedicados de conexión. Rates XP 20 SP x30 Party XP x1 Adena x20 Drop Items x20 Spoil x20. Enchants Safe para Fullbody: +4 Safe para cualquier otro item cualquiera sea su tipo y grado: + E5620、L5640、X5650、X5660、X5670、X5675、X5680、X5690 X5570等相似型号的志强处理器均为洋垃圾。. 根本三文不值二文，一般这些型号在淘宝上可以搜索到，通常价格也就几元、几十元，这些都是属于洋垃圾CPU。. 还有网上标注i7级E5，其实和i7处理器并没有任何联系. KB5005565 Windows 10 2004 19041.1237, 20h3 19042.1237, 21h2 19043.1237 Win Updat

Intel Xeon X5680 — AT80614005124AA / BX80614X568

1. 2. Intel Xeon X5680 LGA1366 CPU. This product comes with performance and affordability Key Features: This product is a 6 core processor with 12 MB cache ; It weighs 1.6 ounces ; It is of affordable price for desktop usag
2. Introduction to BIOS. BIOS also called System Setup is an acronym for Basic Input or Output System. BIOS is firmware that is embedded on a small memory chip on the computer’s system board or motherboard. It acts as an interface between the computer’s hardware and the operating system
3. Manual Update Option. From the Java Control Panel Update tab, you can manually check for an update any time by clicking on the Update Now button located at the bottom of the Update tab on the Java Control Panel. Java Update can only be run if the system is connected to the internet
4. The six-core, twelve-thread Xeon X5680 processor, with advanced features like ECC memory support, Trusted Execution Technology and Virtualization Technology, is built to handle the ever-changing demands of a virtualized and consolidated computing environment

Intel® Xeon ® プロセッサーX5680 3.33GHz/12M/1333 * WG736AA •4GB以上の構成は、Windows 7® Professional 64bit版 Windows 7® Professional 32bit正規版では、最大4GBまでのご利用となります Nob OCer Learning. x5680 @4.3ghz v1.375. OC Report — CPU. 33 comments. share. save. hide. report. 95% Upvoted. This thread is archived. New comments cannot be posted and votes cannot be cast. Sort by. best. level 1. 2700X @4.1ghz | Vega 56 1627/950 1 year ago. X58 can be a fickle mistress. I’ve got my 5650 running at 3.8 with all the dimms. Xeon Processor X5680 Game Requirement Analysis. Intel Xeon Processor X5680 is a Server CPU part of the Xeon Series continuously released by Intel. It’s based on the Nehalem architecture and the. Westmere (formerly Nehalem-C) is the code name given to the 32 nm die shrink of Nehalem.While sharing the same CPU sockets, Westmere included Intel HD Graphics, while Nehalem did not.. The first Westmere-based processors were launched on January 7, 2010, by Intel Corporation.. The Westmere architecture has been available under the Intel brands of Core i3, Core i5, Core i7, Pentium, Celeron and. Find out how your PC compares with the Intel Xeon Processor X5680 with 3DMark, the Gamer’s Benchmark. Get it from Steam. Intel Xeon Processor X5680 Review Intel Xeon Processor X5680 review is temporarily unavailable. Sorry for the inconvenience. Home >.

The Xeon X5680 3.33 GHz Six Core Processor by Intel delivers performance and power efficiency. To help you gain faster access to frequently used data, this 64-bit Xeon processor comes with an integrated L1 cache of 32 KB, 256 KB L2, and 2 MB L3 cache size Matched Pair (2) Delidded Intel XEON X5680 3.33GHz 6 Core Processor Mac Pro USA. $154.95. Free shipping Free shipping Free shipping. Almost gone Almost gone Almost gone. Intel Core i7-980 Extreme Edition 3.33GHz Six Core Processor (SLBUZ LGA 1366 B) $89.99 + shipping + shipping + shipping I have a Xeon X5680, but tested the Hackintosh also on a X5677 & X5670. Different Modell Numbers? Maybe but I don’t think so, I think it’s always the same Modell but they have quite different specs. My Quadro 4000 works like a Charme with the guide from me. ASUS Z97-AR (iMac14,2 Intel X5680 3.33GHZ/12M/6. 40 SLBV5 (SIX) 6 Cores / 12 Threads 130W XEON CPU. Report item. — opens in a new window or tab. Description. Shipping and payments. eBay item number: 203494085905. Seller assumes all responsibility for this listing List of all processors for socket lga 1366. The table contains all the main technical characteristics of processors. The list includes processors: Core i7 and Xeon on microarchitecture Gulftown and Westmere EP (32 nm), Bloomfield and Nehalem EP (45 nm)

Intel Xeon X5680 — CPU benchmark — Processor performance char

1. 在这些x5680的芯片制程有0.13微米、14nm、22纳米、28纳米和32纳米等多种，在x5680的CPU主频有4.7GHz、3.6GHz、3.5GHz、3.4GHz和3.3GHz等多种，在x5680的二级缓存容量有512KB、64KB、12MB、10MB和8MB等多种
2. Intel Xeon X5680 6 Core 3.33GHz 6.40GT/s QPI 12MB L3 Cache Socket LGA1366 Processor Mfr P/N AT80614005124AA $80.41 HP 3.33GHz 6.40GT/s QPI 12MB L3 Cache Intel Xeon X5680 6 Core Processor Upgrade for ProLiant Servers Mfr P/N 614739-00
3. Oct 4, 2021. after doing an update of the new 1.31 patch and trying to run the game, i get a crash right to desktop aka flatline. Now from what i have been reading, maybe it’s an AVX issue or an SSE 4. 2 issue, but i can’t narrow it down. All i know is that my x5680 DOES support SSE 4.2 and any AVX mod that i try doesn’t work
4. The professional space is peppered with products derived from the desktop. Today we’re looking at Intel’s Xeon X5680 CPUs, which look a lot like Core i7-980X, only they’re optimized for dual.
5. تفصيل. Série : Intel Xeon Type : XEON X5680 Fréquence : 3.33 GHz Turbo maxi : 3.60 GHz Nombre de cœurs : 6C/12T Mémoire de cache : 12 Mo Cach

価格帯：¥―～¥― (―店舗) メーカー希望小売価格：¥―. プロセッサ名：XEON X5680 クロック周波数：3.33GHz ソケット形状：LGA1366. メーカートップページ. CPU -位. Intel CPU -位. 4.432人. 6件. 2010年. 9月17日更新 Tendências de 2021 em Pesquisa quente em Computador e Escritório, CPUs, Placas-mães, Componentes Eletrônicos e Peças com x5680 e Pesquisa quente. Descubra mais de 54 Pesquisa quente na nossa seleção no AliExpress.com, incluindo marcas tops Pesquisa quente. Encontre uma seleção com 25 opções de Pesquisa quente a preços acessíveis e ótima qualidade 无论是数据中心、企业计算解决方案还是游戏体验，amd 处理器、显卡、技术和软件助你发挥优势、占尽先机。 寻找属于您的. إنتل® زيون® المعالج E5603، E5606، E5607، E5620، E5630، E5640، E5645، E5649Intel® Xeon® المعالج L5609، L5618، L5630، L5638، L5640Intel® Xeon® المعالج W3670، W3680Intel® Xeon® المعالج X5647، X5650، X5660، X56677، X5672، X5675، X5677، X5680، X5670، X5670، X5680، X5670، X5670. level 1. RodRevo. · 1y. I overclocked my x5680 to 4.29GHZ with 26 multi and 165bclk at exactly 1.375 VCORE. what are the odds of that happening. 1. level 2. koalalips. Op · 1y. get linx and test for stability. i found 23x best for voltage and stability

CPU-Upgrade: Intel Xeon X5680 CP

1. Dual-CPU Intel Xeon X5680 Benchmark , Reviews and Price , Dual-CPU Intel Xeon X5680 CPU Manufactured by Intel CO, with 6 Cores and 12 Thread and Base Clock speed 3.3 GHz and can reach up to 3.6 GHz turbo Clock speed . the Dual-CPU Intel Xeon X5680 CPU use motherboards with socket LGA136
2. Explore Brands: Shop for prosesor cpu x5680 from trusted and well-known brands you love by simply clicking on the brand logo in the left sidebar. This will help you filter for all the prosesor cpu x5680 the brand has available
3. Re:Best thermal paste for an Xeon X5680? Sunday, May 02, 2010 6:09 PM ( permalink ) The difference between any good thermal paste is a few degrees at most. OCZ Freeze is cheap, one of the very best performers (beats AC MX-2 from my testing), easy to apply, not electrically capacitive, and requires no curing time
4. X5680超4GHz该怎么设置？. 处理器外频，电压之类的？. 求给出一个超频参考。. 超4GHz怎么设置，4.2GHz怎么设置，4.5GHz怎么设置. 我感受不到爱了. i9未知版. 12. 该楼层疑似违规已被系统折叠 隐藏此楼 查看此楼. 现在这个外频对应的内存FSB是4:1，内存条最高只能设置.

Amazon.com: Intel Xeon X5680 Processor 3.33 GHz 12 MB ..

発売された「Xeon X5680」はクロック周波数が3.33GHz(TurboBoost時は3.6GHz)となるシリーズ最上位モデルで、L3キャッシュ容量が12MB、QPIが6.4GT/s Intel Xeon X5680. 2365. Intel Core i7 X 980. 2350. Intel Core i7 980. 2349. Intel Xeon X5675. 2331. Intel Xeon E5-2667. 2294. Intel Xeon W3670. 2265. Intel Core i7 970. 2201. Intel Xeon E5-2630 v2. 2164. Intel Xeon E5-2620 v3. 2112. Intel Xeon X5670. 2028. Intel Xeon X5650. 2014. Intel Xeon E5-2640. 2014. Intel Xeon X5660. 1952. Intel Xeon E5.

Benchmarking Xeon X5680 in 2020! (11 Games Tested) MUST

1. System HUANANZHI X58 Intel Xeon X5680 3333 MHz (6 cores) Uploaded Tue, 19 Oct 2021 22:28:56 +0000 HampusB. Platform Windows API Vulkan Vulkan Score 5199
2. Radeon Additional Settings has been retired and its previously supported controls for Switchable Graphics, Color Depth and Pixel Format have all been moved into Radeon Settings. Radeon ReLive 1. Now supports bitrates up to 100Mbps for recording or capturing. Added new controls for camera transparency
3. Description. The Battlefield series goes back to its roots in a never-before-seen portrayal of World War 2. Take on physical, all-out multiplayer with your squad in modes like the vast Grand Operations and the cooperative Combined Arms, or witness human drama set against global combat in the single player War Stories

Welcome [x5680.

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Intel Xeon X5680 Hexa Core Processor. 1 offer from ₹8,500.00. Next page. Have a question? Find answers in product info, Q&As, reviews There was a problem completing your request. Please try your search again later.. 中关村在线为您提供Intel Xeon X5680服务器CPU最新报价，同时包括Intel Xeon X5680图片、Intel Xeon X5680参数、Intel Xeon X5680评测行情、Intel Xeon X5680论坛、Intel Xeon X5680点评和经销商价格等信息，为您购买Intel Xeon X5680服务器CPU提供有价值的参 Xeon 5000-series (dual-processor) Gainestown (45 nm). Based on Nehalem microarchitecture; All models support: MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, Demand-Based Switching (Intel’s Server EIST), Intel 64, XD bit (an NX bit implementation), Intel VT-x, Intel EPT, Intel VT-d, Intel VT-c, Intel x8 SDDC All models support: Hyper-Threading, Turbo Boost except E5502, E5503, E5504, E5506. Compare cpus head to head to quickly find out which one is better and see key differences, compare cpus from Intel, AMD and mor X5680 Original. Supplier of Hard To Find, Discontinued Parts including X5680 Part Search, X5680 Search, X5680 Find, X5680 , X5680 price, datasheet,

Procesador Intel® Xeon® X5680 (caché de 12M, 3,33 GHz, 6

• ent capabilities of the processor include SSE 4. 2 + Intel VT-d.This processor has been found on OpenBenchmarking.org since Q1’2011 and found in approximately 3,202 results on OpenBenchmarking.org
• E3-1231v3相当于i7 4790降频版。. E3虽然是服务器CPU，不过是直接由桌面Haswell沿用来的，除了频率比i7 4790低0.2GHz以及没有核心显卡外，其它完全一致。. 最顶级的桌面CPU是i7 5960X，属于Haswell-E架构。. 它没有像E3v3系列那样直接对应的服务器版产品，不过最接近的服务.
• Intel Xeon X5680服务器CPU报价中心为您提供Intel Xeon X5680最新报价、Intel Xeon X5680图片、Intel Xeon X5680参数、Intel Xeon X5680评测,论坛等实用信息,通过我们指定的Intel Xeon X5680经销商选择您的Intel Xeon X5680,您还可以享受更多优
• Máy HP Z400 Model : HP Z400 — Cpu : Xeon X5680 ( 6nhan 12luong )- 3.3ghz — Ram 8gb /1600 — Ssd 120Gb — Vga : Gt730 2Gb/r5 — Nguồn 475W cst Giá bán : 5tr3 — 8884449
• ent capabilities of the processor include SSE 4.2 + Intel VT-d.This processor has been found on OpenBenchmarking.org since Q1’2011 and found in approximately 3,184 results on OpenBenchmarking.org

How to OVERCLOCK X58 6 CORE Xeons! — YouTub

1. PassMark Software has delved into the millions of benchmark results that PerformanceTest users have posted to its web site and produced a comprehensive range of CPU charts to help compare the relative speeds of different processors from Intel, AMD, Apple, Qualcomm and others. Included in these lists are CPUs designed for servers and workstations (such as Intel Xeon and AMD EPYC processors.
2. The Mixed Reality Forums here are no longer being used or maintained. There are a few other places we would like to direct you to for support, both from Microsoft and from the community. The first way we want to connect with you is our mixed reality developer program, which you can sign up for at https://aka.ms/IWantMR
3. Xeon (/ ˈ z iː ɒ n / ZEE-on) is a brand of x86 microprocessors designed, manufactured, and marketed by Intel, targeted at the non-consumer workstation, server, and embedded system markets. It was introduced in June 1998. Xeon processors are based on the same architecture as regular desktop-grade CPUs, but have advanced features such as support for ECC memory, higher core counts, more PCI.
4. Harga INTEL XEON X5680 — (3.33GHz — 3.60Ghz) 6 CORES 12 THREADS — LGA 1366. Rp550.000. Harga PROCESSOR INTEL XEON X5680 3.33GHZ 12M CACHE BERGARANSI. Rp1.350.000. Harga TRENDY!! INTEL XEON X5680 Socket LGA1366 CPU Processor Core 6 Duo. Rp826.000. Harga Processor Intel Xeon X5680 12M Cache, 3.33 GHz, 6.40 GT/s
5. The FPS remains about 80-100 in 1440p no matter it is low settings or high setting. The only difference is that, the gpu usage is 60% in low settings and is 90-99% in high settings lmao. The GPU-Z’ PerfCap reason says that, the gpu is limited by reliable voltage and power limits, but I am pretty sure that my psu can handle this
6. Buy Intel Xeon E5620 Processor 2.4 GHz 12 MB Cache Socket LGA1366 online at low price in India on Amazon.in. Check out Intel Xeon E5620 Processor 2.4 GHz 12 MB Cache Socket LGA1366 reviews, ratings, features, specifications and browse more Intel products online at best prices on Amazon.in
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Intel® Xeon® Prozessor X5680 (12 MB Cache, 3,33 GHz, Intel

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X5680 — Computer And Office — Aliexpress — Shop x5680 product

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インテル® Xeon® プロセッサー X5680 (12M キャッシュ、3

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0003

Comparison winner

Release price

$172 -178 $ (-50.9%) better than vs 350 $

Value for money

35. 9% 16.8% (88%) better than vs 19.1%

Permissible memory size

288 GB 264 GB (1100%) better than vs 24 GB

Benefits of Intel Xeon W3680

Maximum core temperature

68°C -11 °C (-13.9%) better than vs 79 °C

Passmark

6840 316 (4.8%) better than vs 6524

General
Type
Server	Server
Architecture code name
Westmere-EP	Gulftown
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.
6	6
Threads More threads help the cores process information more efficiently. Real performance will be noticeable in very specific tasks (video editing, databases).
12	12
Base frequency
3.333 GHz	3.333 GHz
Process
32 nm	32 nm
Chip size
239 mm2	239 mm2
Number of transistors
1 million	1 million
Maximum frequency Faster clocked processors perform more calculations per second and thus provide better performance.
3.6GHz	3.6 GHz
Support 64 bit
Max. number of processors per configuration
2	1
Socket
FCLGA1366	FCLGA1366
Release price
$172 -178 $ (-50.9%) better than	350 $
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.
35.9% 16.8% (88%) better than	19.1%
Maximum core temperature
79 °C	68°C -11 °C (-13.9%) better than
TXT Intel Trusted Execution Technology for hardware-based malware protection. For each protected program, the processor allocates its own isolated section of RAM.
Demand Based Switching
+	+
PAE
40 bit	36 bit
Level 1 Cache The fastest level of cache that works directly with the core. The larger the cache, the better the performance.
64 KB (per core)	64 KB (per core)
Level 2 cache
256 KB (per core)	256 KB (per core)
Level 3 cache
12 MB (total)	12 MB (total)
Power Demand (TDP) The calculated thermal power shows the average heat dissipation in load operation, the larger the value, the more the requirements for cooling and power consumption increase.
130W	130 W
EDB
+	+
Permissible core voltage
0.75V-1.35V	0.8V-1.375V

Benchmark
Passmark
6524	6840 316 (4.8%) better than

Technologies and Advanced Instructions
Extended Instructions
Intel® SSE4.2	Intel® SSE4.2
Turbo Boost
1.0	1.0
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.
Hyper-Threading Intel hardware technology that allows multiple threads to be processed on each processor core. For server applications, the performance improvement is up to 30%.
AES-NI Technology from Intel that speeds up the AES encryption process.
+	+

RAM options
RAM types
	DDR3-800, DDR3-1066, DDR3-1333
Allowable memory The maximum amount of RAM that can be used with this processor.
288 GB 264 GB (1100%) better than	24 GB
Number of memory channels
3	3
ECC memory support EEC memory is designed specifically for systems with high requirements for data processing reliability. This type of memory automatically recognizes errors that occur. Commonly used in server computers.

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 Comparative analysis of the Intel Xeon W3680 and Intel Xeon X5680 processors by all known characteristics in the categories: General information, Performance, Memory, Compatibility, Security and reliability, Technology, Virtualization. Analysis of processor performance by benchmarks: PassMark — Single thread mark, PassMark — CPU mark, Geekbench 4 — Single Core, Geekbench 4 — Multi-Core, 3DMark Fire Strike — Physics Score, CompuBench 1. 5 Desktop — Face Detection (mPixels/s), CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s), CompuBench 1.5 Desktop — T-Rex (Frames/s), CompuBench 1.5 Desktop — Video Composition (Frames/s), CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s).		649 vs 605
Geekbench 4 — Multi-Core	3566 vs 3440

Reasons to choose Intel Xeon X5680

• Approximately 16% higher max core temperature: 78.5°C vs 67.9°C
• 12x max memory size(s): 288 GB vs 24 GB
• benchmark PassMark — Single thread mark about 2% more: 1576 vs 1549
• About 80% more performance in PassMark — CPU mark benchmark: 12431 vs 6909
• About 85% more performance in CompuBench 1.5 Desktop — Face Detection (mPixels/s) benchmark: 3.082 vs 1.662
• CompuBench5 benchmark performance Desktop — Ocean Surface Simulation (Frames/s) about 17% more: 56. 943 vs 48.725
• CompuBench 1.5 performance Desktop — T-Rex (Frames/s) about 35% more: 0.691 vs 0.51
• Performance in CompuBench 1.5 Desktop — Video Composition (Frames/s) about 86% better: 4.939 vs 2.657
• Performance in CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s) about 99% better: 15.109 vs 7.601

configuration

Maximum core temperature	78.5°C vs 67.9°C
Maximum memory size	288 GB vs 24 GB
Maximum number of processors in	2 vs 1
PassMark — Single thread mark	1576 vs 1549
PassMark — CPU mark	12431 vs 6909
CompuBench 1. 5 Desktop — Face Detection (mPixels/s)	3.082 vs 1.662
CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s)	56.943 vs 48.725
CompuBench 1.5 Desktop — T-Rex (Frames/s)	0.691 vs 0.51
CompuBench 1.5 Desktop — Video Composition (Frames/s)	4.939 vs 2.657
CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s)	15.109 vs 7.601

Benchmark comparison

CPU 1: Intel Xeon W3680
CPU 2: Intel Xeon X5680

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
CompuBench 1. 5 Desktop — Face Detection (mPixels/s)	CPU 1 CPU 2
CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s)	CPU 1 CPU 2	48.725 56.943
CompuBench 1.5 Desktop — T-Rex (Frames/s)	CPU 1 CPU 2
CompuBench 1. 5 Desktop — Video Composition (Frames/s)	CPU 1 CPU 2
CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s)	CPU 1 CPU 2	15.109

Name	Intel Xeon W3680	Intel Xeon X5680
PassMark — Single thread mark	1549	1576
PassMark — CPU mark	6909	12431
Geekbench 4 — Single Core	649	605
Geekbench 4 — Multi-Core	3566	3440
3DMark Fire Strike — Physics Score	0	0
CompuBench 1. 5 Desktop — Face Detection (mPixels/s)	1.662	3.082
CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s)	48.725	56.943
CompuBench 1.5 Desktop — T-Rex (Frames/s)	0.51	0.691
CompuBench 1.5 Desktop — Video Composition (Frames/s)	2.657	4.939
CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s)	7.601	15.109

Performance comparison

configuration

	Intel Xeon W3680	Intel Xeon X5680
Architecture name	Westmere EP	Westmere EP
Production date	March 2010	February 2010
Price at first issue date	$350	$172
Place in the ranking	1929	1692
Price now	$759. 95	$161.63
Processor Number	W3680	X5680
Series	Legacy Intel® Xeon® Processors	Legacy Intel® Xeon® Processors
Status	Discontinued	Discontinued
Price/performance ratio (0-100)	3.52	15.60
Applicability	Server	Server
Support 64 bit
Base frequency	3. 33 GHz	3.33 GHz
Bus Speed ​​	6.4 GT/s QPI	6.4 GT/s QPI
Crystal area	239 mm	239mm
Level 1 cache	64 KB (per core)	64 KB (per core)
Level 2 cache	256 KB (per core)	256 KB (per core)
Level 3 cache	12288 KB (shared)	12288 KB (shared)
Process	32nm	32nm
Maximum core temperature	67. 9°C	78.5°C
Maximum frequency	3.60 GHz	3.60 GHz
Number of cores	6	6
Number of QPI Links	1	2
Number of threads	12	12
Number of transistors	1170 million	1170 million
Permissible core voltage	0.800V-1.375V	0.750V-1.350V
ECC support
Maximum number of memory channels	3	3
Maximum memory bandwidth	32 GB/s	32 GB/s
Maximum memory size	24GB	288GB
Supported memory types	DDR3 800/1066/1333	DDR3 800/1066/1333
Low Halogen Options Available
Maximum number of processors in	1	2
Package Size	42. 5mm X 45mm	42.5mm x 45mm
Supported sockets	FCLGA1366	FCLGA1366
Power consumption (TDP)	130 Watt	130 Watt
Execute Disable Bit (EDB)
Intel® Trusted Execution Technology (TXT)
Enhanced Intel SpeedStep® Technology
Idle States
Extended instructions	Intel® SSE4. 2	Intel® SSE4.2
Intel 64
Intel® AES New Instructions
Intel® Demand Based Switching
Intel® Hyper-Threading Technology
Intel® Turbo Boost Technology
Physical Address Extensions (PAE)	36-bit	40-bit
Thermal Monitoring
Intel® Virtualization Technology (VT-x)
Intel® VT-x with Extended Page Tables (EPT)
Intel® Virtualization Technology for Directed I/O (VT-d)

Intel Xeon X5680 processor

Top six-core model on 32nm Gulftown

Intel has always had such an important competitive advantage as being ahead of other market participants in the development of increasingly finer technical processes for the production of central processors. However, this path was not always smooth before — when, simultaneously with the new technological process, the company tried to make architectural changes to its products: the example of the Prescott crystal is still in the memory of many users. That is why for several years now Intel has been adhering to the «push-pull» scheme of progress: microarchitectural changes and new technical processes alternate, never intersecting. The scheme crystallized far from yesterday. For example, the company’s first desktop dual-core processors were based on the Smithfield chip, which is a «doubled» Prescott on an already well-established process in 90 nm. The transition to 65 nm was marked by the release of Presler, architecturally indistinguishable from Smithfield. Then the processors of the Core 2 line appeared fundamentally different from it, however, differing greatly in architecture, Conroe was produced using the same process technology — 65 nm. Need to master 45 nm? Wolfdale appeared — the same Conroe (in the first approximation), but 45 nm. And it was this process technology that was used by the first Nehalem architecture processors, which appeared at the end of 2008. In general, at each step, either an already well-mastered architecture was transferred to a new unmastered technical process, or … That’s right — representatives of the new architecture began to be produced, but using a mastered technical process.

Now is the time to switch from 45nm Nehalem to 32nm Westmere. It is obvious that there is no point in looking for some internal differences in these lines — the main thing for which the latter is needed: the transition to 32 nm in its purest form. And why do you need to master all the more subtle processes? Other things being equal, this allows you to get the following advantages:

1. Reduce the area and, accordingly, the cost of crystals compared to analogues of the previous generation
2. Increase the number of functional elements
3. Reduce power consumption
4. Increase clock speeds

Getting everything at once is unrealistic, since the points are mutually exclusive. Therefore, you have to choose what is more important and combine within certain limits. This is best seen in examples. The first representatives of Westmere were (and are) the processors of the Clarkdale line, which appeared in January, aimed at the mass market segment. Therefore, they must be inexpensive. For this, not only a more subtle process was used, but also a “halving” of the number of cores / cache memory compared to the already familiar Bloomfield and Lynnfield. As a result, if the latter mainly claimed the price segment above $200, then the former (despite the presence of the second crystal containing the video core) are quite capable of even fitting into $100. Power consumption has also dropped, despite the fact that clock speeds have increased to compensate for the loss in performance from a decrease in the number of cores. And now we meet a new representative of the Westmere line — Gulftown crystal, focused on the top segment of the market. First of all, the server side.

Why such a jump — from the youngest immediately to the oldest, bypassing the middle one? The point is that the replacement of Lynnfield is not needed yet: processors based on this core, in fact, have no competitors anyway, so they sell well. Switching them to 32 nm, of course, would reduce the cost, but this is not so important for the company. Here Clarkdale was needed, because it was necessary to offer a replacement for inexpensive processors of the Core 2 line and an alternative to competing designs. And Gulftown is also needed, since there is never much performance in servers, and this platform had competitors, both from Intel and AMD. Therefore, from the above list of possible improvements, the second and fourth are the most interesting. Well, since processors are primarily server ones, and multithreading began to be mastered in this area of ​​application a long time ago, the second one is more interesting. Moreover, Intel has already released six-core processors of the Xeon 7400 (Dunnington) family, so reducing the number of cores to four in the Xeon 5500 could be regarded as a step back. AMD has already announced twelve-core Opterons: albeit rather low-frequency ones, even a two-socket system will receive “honest” 24 cores that can simultaneously execute 24 computation threads. A system based on two Xeon 5600s will provide exactly the same number of threads, although there will be only 12 “real” cores in its case, but the specific performance of each is higher. However, it is obvious that the “totally multi-core” AMD processors (and Dunnington too) are primarily focused on systems with four sockets or more, so systems based on the Xeon 6500/7500, which should appear this year, will have to compete with them first of all. in the spring, however, it was not superfluous to raise the performance level of two-socket servers and workstations.

That’s why Gulftown turned out the way it turned out — «on the fingers» in older models is one and a half Bloomfield: six cores instead of four and 12 MB of L3 cache instead of 8 MB. Accordingly, the number of transistors has grown from 731 to 1170 million. Despite this, the area of ​​the crystal even slightly decreased: from 263 to 248 mm ² . It is worth thanking just 32 nm for this — otherwise this monster would have turned out to be too large and expensive, and you would probably have to reduce the clock frequency or upgrade the cooling system. Now this is not required: the new Xeon 5600 fit into the same heat packs and have comparable clock frequencies as the old ones. Yes, and they are comparable. And just like the representatives of the latter family can work in pairs, offering the buyer already 12 high-frequency cores, each of which supports two computational threads, i.e., in principle, a system based on two Xeon 5600s will rarely be able to lose to a system on four Xeon 7400 (if it can do it at all — the 5500 didn’t do it very often either).

However, it cannot be said that Intel was only interested in performance — the new line looks very representative: for every taste. It is crowned by two top representatives: a six-core Xeon X5680 with a frequency of 3.33 MHz and a quad-core X5677 operating at 3.47 GHz. Despite the «X» in the name, both have a TDP of 130W. Sold at the same price — the selling price is 1663 dollars. These processors came to replace the former flagship W5590 with a frequency of 3.33 GHz. In general, the choice is simple: for the same money and with the same heat pack, you can now get one and a half times more cache memory and either six cores at the same frequency, or all the same four, but at a higher one. A step below ($1440) two processors live again, but already with a TDP of 95W: hexa-core X5670 at 2.93GHz and quad-core X5667 at 3.06GHz. Replace, as you might guess, X5570. Instead of X5560 and X5550, X5660 and X5650 appeared: at the same frequencies and TDP, the novelties are six-core. Another six-core processor entered the E-line (with a TDP of 80 W): the E5645 has a frequency of 2.4 GHz. Other «old» representatives of the E-line, namely the E5540, E5530 and E5520 received equal-frequency quad-core «successors» of the E5640, E5630 and E5620: here the increase is only in the cache memory. However, new processors cost the same as the old ones.

The representatives of the low-consuming family have also been updated, and in an impressive way. The six-core models L5640 (2.26 GHz) and L5638 (2.0 GHz) fit into a TDP of 60 W, and the quad-core L5618 and L5609 generally fit into 40 W. The latest processors have the same frequency of 1.86 GHz and differ, first of all, in that the first supports Hyper-Threading, while the second does not. But it costs $440 versus $530, which allows you to save a couple of hundred on a pair of processors.

So, as we can see, the new Xeon 5600 processors are not released on instead of , and instead of the of the older Xeon 5500. They will run on the same boards, have the same TDP as the replacement models, but are able to offer the user at least more L3 cache capacity, and in many cases — also an increase in either the number of cores, or an increase in clock frequencies. In general, for the same money you can get a little more. By the way, the performance on some groups of tasks for new processors will be higher than for old ones, even all other things being equal. The fact is that, although Westmere does not have fundamental architectural differences from Nehalem, something has been added to them. Namely, a special set of AES-NI commands that speeds up encryption and decryption of information using the now very popular AES algorithm. He made his debut, as you might guess, back in Clarkdale and immediately showed an impressive increase in performance — more than an order of magnitude in synthetic tests. In real applications, of course, the gain from AES acceleration will be more modest, but even 5-10% will not be superfluous at all. Moreover, AES-NI support has already appeared even in some «purely user» applications (for example, 7-zip and WinRar archivers) and in modern operating systems: Cryptography API: Next Generation, implemented in Windows Server 2008, as well as desktop Windows Vista and Seven already supports AES-NI. Consequently, any program that uses this API will get an acceleration, regardless of whether its author expected such an effect or not 🙂 Well, since now it can already be argued that the new extension is supported by most server processors manufactured by Intel in L5609and ultra-budget L3406 for LGA1156) and a considerable number of desktop ones (in particular, these are all Core i5 600), its popularity among software manufacturers will only increase.

But we are talking about servers, and servers, mostly dual-processor ones… The reason for this is understandable — after all, LGA1366 was originally planned specifically as a platform for two-socket systems. However, due to force majeure circumstances, Intel had to position it for single-socket servers and workstations, and even as an extreme desktop solution. Now the last directions are already “covered” by LGA1156, so the situation is starting to turn upside down. For its final recovery, of course, it would make sense to «not let» multi-core Westmere into the single-socket segment at all, however, the company has repeatedly promised to release an extreme desktop six-core processor, and Intel is trying to fulfill promises (even if it is unprofitable for the company). In general, they did not deceive this time either — the processor was released. True, it is the processor in the singular, so the picture is quite obvious: for two-socket systems using the 32 nm manufacturing process, eight four-core and seven six-core processors were released, and for all other segments — zero (!) First and one second. Rather, however, two — Xeon W3680 and Core i7 9The 80X Extreme Edition are cuts from the Xeon X5680. In the first one, they limited themselves to removing one of the two QPI links, while the second was also deprived of register memory support. In addition, in these models, the «traditional» for the desktop LGA1366 1066 MHz is also limited by the official frequency of the supported memory. However, on the other hand, you only need to pay for this all 999, not 1663 dollars. Moreover, in the case of 980X, “surgical operations” are largely compensated by the fact that all coefficients (which is customary for Extreme Edition) are allowed to be changed by the user: i.e. overclocking the processor while maintaining the base bus frequency or using high-frequency memory (at least DDR3-2200) is possible easily and naturally. All this makes 980X is an extremely interesting choice. Not for all users, of course, but for those who are ready to pay the cost of not the worst system unit for just a processor 🙂 And what he will get for this money — we will try to evaluate today.

Configuration of test stands

Processor	Xeon X5680	Core I7 Extreme	Core I7 EXTREME	Core I7 870
Phenom II X4 X4 X4 961 Phenom II X4 Phenom II X40030	24	22	17
Turbo Boost diagram	2-?-?-?-?-?	2-1-1-1	2-1-1-1	5-4-2-2	—
No. of compute cores/threads	6/12 9023 8	4/8	4/8	4/4
cache L1, I/D, KB	32/32	32/32	32/32	32/32		64/64
cache L2, KB	6 x 256	4 x 256	4 x 256	4 x 256	4 x 512
Kash L3, KB	12288	8192	8192 89	6144
frequency Uncore, GHC	2.66	2.66	2.66	2.4	2.0
RAM	3 x DDR3-1	3 x DDR3-1066	3 x DDR3-1066	$1299(15)	N/A(2)	N/A(1)	N/A(2)	N/A(0)

980X, and Xeon X5680: this should not significantly affect the results, since we do not use either the freedom to change multipliers or any other specific features of either of these two products. We decided to test in two versions — with Hyper-Threading enabled and disabled. It is clear that the second situation is not standard, but six cores is already quite a lot for “desktop” use, so … Why not check at the same time right away — is “virtual” multi-core is needed in this situation? Dual-core processors obviously need it, while quad-core processors are useful in a number of tasks… Can you say the same about six-core processors? Let’s check. The dashes in the column relating to Turbo Boost indicate that we still don’t know exactly how this function works in X5680 — we only know that the maximum increase in the multiplier is two steps. Obviously, it refers to cases where only one core is used. In Core i7 9The 80X scheme is simple — 2-1-1-1-1-1, but we already know that earlier Xeon X5500 worked more aggressively than Core i7: 3-2-2-2 versus 2-1-1-1. It seems that this advantage has now been eliminated, but there is still no exact answer.

We took four processors for comparison. Core i7 Extreme 975 raises no questions — it is he who comes to replace the novelty. The previous extreme had to be “disturbed” because its performance is approximately equal to the current “non-extremal” Core i7 960. In fact, a little higher, due to the UnCore frequency of 2.66 GHz versus 2.16 GHz, but this is not fundamental now — the question is more important , how much approximately the processor for 9$99 is faster than the next one at $562. The Core i7 870 also lives on the same price bar under the cheaper LGA1156 platform, which at the same time has a very aggressive Turbo Boost scheme: let’s see how much it helps. In the near future, this model will be replaced, however, by a new one — with an index of 880, but so far it is not there, we will consider 870 the older one. Well, the last participant is AMD Phenom II X4 965. It is out of competition — this is a completely different price class: the processor is more likely a competitor to the Core i5 750. However, since this is the fastest AMD processor, and even running at comparable clock speeds, we decided not to ignore it — it’s easier than later to fight off claims that there is not a single AMD processor among the competitors 🙂 Intel, what can we say about Phenom II X4? However, situations are quite possible when this very cheap model turns out to be not much slower than much more expensive test participants — we will definitely pay close attention to them 🙂 920 on a board bought a long time ago for a new extreme processor (if there are any, of course).

Testing

The performance testing methodology (list of software used and testing conditions) is described in detail in the article. For ease of perception, the results on the diagrams are presented as a percentage (the result of Intel Core 2 Quad Q9300 is taken as 100% in each of the tests). Detailed results in absolute terms are available as a spreadsheet in Microsoft Excel format.

3D modeling packages

The very first group of tests and the first disappointments — the X5680 in normal mode does not even reach the Core i7 965, and when the NT is turned off, it overtakes it very slightly. The fastest, and by a noticeable margin, remains the Core i7 975. Why is that? Firstly, as we have long known, more than two cores are unnecessary here, so six-core processors are in an even worse position than quad-core ones. Secondly, the cache is important here. More than 8 MB, however, is clearly not required, which is why Gulftown does not have an increase. But there is a drop, most likely due to the fact that, having increased the capacity of the third level cache, the designers failed to keep its speed at the same level. This is where the loss came in. On the other hand, we did not expect to win in this group of applications, did we? 🙂

Rendering of three-dimensional scenes

And here they expected and received. As you can see, even with Hyper-Threading disabled, the six-core Gulftown easily smashes the equal-frequency Bloomfield, which uses NT. The inclusion of this technology increases the results, as usual, but in numerical form the increase is less than usual — only 10%. Maya turned out to be the culprit here — when testing dual-processor systems, we already found out that the capabilities of the package in the field of rendering scaling by the number of cores are quite limited. As you can see, now this has begun to manifest itself in a single-processor system: the performance of the X5680 with the NT turned off turned out to be even higher than when it was turned on. So the costs of (insufficient) optimization are already inherent in professional applications today. And in general — everything is more than convincing, of course. There are one and a half times more cores, but other parameters (such as clock frequency) were not worsened — a convincing victory.

Scientific and engineering calculations

Applications in the third diagram are somewhat less cache-responsive than those in the first. At the same time, both of them do not need more than a couple of cores. As a result, the X5680, of course, slightly lagged behind the 975 with the NT turned on, but not by much. In principle, as expected, this is another group of programs in which multi-core processors are idle.

Bitmap graphics

Despite everything, the X5680 managed to come out on top. Mainly due to the powerful leap forward in Paint.NET (which is associated with the .NET environment itself), as well as partial optimization of Photoshop for multi-core. In other programs, as expected, the new processors behave worse than the old ones.

Data compression

The cache has really become slower, which completely «ate» the joy of its increase. In general, we again record Gulftown’s defeat on points. Although, of course, it is so scanty that it can be ignored.

Compilation (VC++)

The «bad programs» are over, so the X5680 can prove that it really is the best. The picture is one to one with rendering practically, i.e. even when NT is turned off, we are noticeably ahead of the former flagship, and when turned on, we generally move to a different level of performance 🙂

Java

The main thing that the JVM loves is computational threads, so here 975 still turned out to be faster than 5680 with NT turned off. Just a little, but faster. But this doesn’t change anything — disabling Hyper-Threading is not a regular mode of operation, but with the X5680 turned on, it’s again the fastest. Another group of tests, by the way, where its results exceed 200 points, i.e. the processor is more than twice as fast as the «reference» Core 2 Quad Q9300.

Audio encoding

The situation repeats itself — the X5680 catches up with the former extreme sportsman even with NT turned off, and with it turned on it “takes away” for two hundred points. It could not be otherwise: desperate to wait for favors from codec authors, we took advantage of head-on optimization — encoding of several files is simply carried out in parallel, which allows loading any number of cores.

Video encoding

There were fears that due to the single-threaded ProCoder the picture would be very «smeared», but fortunately they were not confirmed. Well, all other codecs are well optimized for multithreading, so the result is appropriate.

Gaming 3D

Despite the fact that Intel assures everyone that the new processors are extremely good in a gaming computer, we cannot agree with this. In general, nothing else was expected — when purchasing a processor for $ 1,000 for games, you should first make sure that you have already bought a video card for at least the same $ 1,000, or better, more. What happens when you save money on a video card can be clearly seen from the diagram. Note that the GTX 275 is, generally speaking, far from the worst possible result, but it is obviously not enough. We have already conducted a special study of this issue, so we can say that the benefits of processors of this level can be clearly manifested only when using at least some Radeon HD 5970, or even better — pairs of such cards. The LGA1366 platform is the best fit for this application, but even in this case we have strong suspicions that the Core i7 960 or even a weaker processor will suffice, i.e. it is for gaming use that a new extremal is not needed in practice. And when using only one single-chip video card, all the more so, all this power will be absolutely unclaimed.

Total

So what can be said in general? The transition to 32nm technology allowed Intel to increase the number of cores almost painlessly. The updated Xeon 5600 series is definitely either better than the old 5500, or at least not inferior to them (even if we consider the «cut down» models with only four cores). The performance of dual-processor systems has been raised to a new level, which cannot but rejoice. Even more encouraging is that the transition to new crystals can solve another problem, namely, to reduce power consumption. Indeed, the best low-power model until recently was the L5530: a 2.4GHz quad-core processor with a TDP of 60W. Now, on the same platform, you can install a pair of L5640s, although they have a frequency of 2.26 GHz, but together they provide 12 «real» processor cores and 24 computation threads. In general, in their main area of ​​application, processors based on the Gulftown core look the best.

It is much more difficult to formulate our attitude towards the «stripped down» models for single-socket systems, namely the Xeon W3680 and Core i7 980X Extreme Edition. However, the first one is more or less simple — an excellent solution for single-processor workstations that can easily and naturally defeat its predecessor in the form of the Xeon W3580. Of course, when using software that is well optimized for multi-core, which is most often performed in this market segment. Moreover, the appearance of such processors will in some cases make it possible to abandon dual-processor workstations: for example, our x264 encoding test was performed by a system on X5680 (W3680, obviously, will provide an identical result) in three minutes 58 seconds, and two Xeon X5570 coped with him in three minutes 52 seconds. Rendering in 3Ds Max — 23.2 and 23.74 points, respectively. Yes, of course, a two-processor system is a little faster, but do not forget that the W3680 costs about a thousand dollars and can be used on an inexpensive (relatively) board in a regular desktop case, and a pair of X5570 cost about three thousand dollars, and requires the use an expensive two-socket board, at least two sets of memory and, most likely, a special case with a very special power supply (not to mention the fact that the W3680 will cost 130 W, and 2 x X5570 can gobble up to 190 W). Of course, now instead of the X5570 you can buy the X5670 for the same money, which will be faster, but it is obvious that a single-processor system with the performance of yesterday’s dual-processor system will suffice for many.

But things are not so simple with the 980X — although it is extreme, it is a processor for ordinary desktop computers, where a huge amount of poorly optimized software is still used. Why look far for examples — Intel is actively pushing for unsurpassed gaming capabilities 980X, while the new version of «Stalker» received an updated graphics engine, even more beautiful than we saw in «Clear Sky», but… still capable of using only two processor cores! And if «Stalker» was an exception to the rule, then this is not the case. As a result, users are still arguing about whether it makes sense to use quad-core processors in a regular computer, or whether two or three cores can be dispensed with. And so far we are simply not talking about six-core ones. Although it is obvious that in some cases they can be useful, only these cases are still rare and do not belong to the mass market.

On the other hand, the appearance of the Core i7 980X Extreme Edition can be regarded positively as a landmark event. In the end, the release of this processor finally stops the already boring practice, when extreme versions of processors were, in fact, just slightly accelerated modifications of ordinary ones, equipped with multipliers that were not blocked upwards. The new product looks especially good against the backdrop of last year’s transition from Extreme 965 to 975, when they «gave» only 133 MHz of clock frequency (yes — and a new stepping, of course, but buyers of much cheaper Core i7 received the same improvement 950 and even 920). Of course, replacing the 975 with the 980X is much more like a step forward. How necessary in practice? Everyone will have to find the answer to this question on their own. The main thing is that this question may now arise at all 🙂

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Thank you this store! We had a bad experience at the JSF CPU store and this store kept me and sent a quality product! A little more expensive but worth it. JSF sent me an engineering sample of the processor, everyone buzzed, only gave a blue screen and rejected the return, losing 180 real for nothing. Then asked «Ming & Yang store» to check if the CPU was not es before shipping, they checked and sent me a great disc! Now I can restore the stability and performance of my PC. Highly recommend!
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December 14, 2021

The seller sent quickly. Arrived a little over two weeks. Installed it and everything fired up right away. Overclocked to 4.2 and everything works fine with a temperature of 52 degrees at full load. Cooling tower with 6 tubes and three fans taken here by Ali.

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• Estado del artículo: Usado
• Marca del procesador: İntel
• Uso: Servidor
• Tipo de enchufe: LGA 1366
• Tipo: 6-Core
• Frecuencia de la CPU: 3,3 GHz
• Capacidad de caché L3: 12 MB
• Tecnología de fabricación del chip: 32 nanómetros
• Número de núcleos: Seis núcleos
• Soporte de 64 bits: Si
• Tipo de interfaz: LGA 1366
• Nombre de la marca: Intel
• Modelo de Intel: Xeon w3680

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Intel Xeon W3680 3.

33 GHz Six Core LGA1366 Processor SLBV2 = X5680 I7 980

Testing the six-core Intel Xeon X5680 processor

The performance testing methodology (list of software used and testing conditions) is described in detail in the article. For ease of perception, the results on the diagrams are presented as a percentage (the result of Intel Core 2 Quad Q9300 is taken as 100% in each of the tests). The very first group of tests and the first disappointments — X5680 in normal mode does not even reach Core i7 965, and when turned off, the NT overtakes it very slightly. The fastest, and by a noticeable margin, remains the Core i7 975. Why is that? Firstly, as we have long known, more than two cores are unnecessary here, so six-core processors are in an even worse position than quad-core ones. Secondly, the cache is important here. More than 8 MB, however, is clearly not required, which is why Gulftown does not have an increase. But there is a drop, most likely due to the fact that, having increased the capacity of the third level cache, the designers failed to keep its speed at the same level. This is where the loss came in. On the other hand, we did not expect to win in this group of applications, did we?

And this is where they counted and got it. As you can see, even with Hyper-Threading disabled, the six-core Gulftown easily smashes the equal-frequency Bloomfield, which uses NT. The inclusion of this technology increases the results, as usual, but in numerical form the increase is less than usual — only 10%. Maya turned out to be the culprit here — when testing dual-processor systems, we already found out that the capabilities of the package in the field of rendering scaling by the number of cores are quite limited. As you can see, now this has begun to manifest itself in a single-processor system: the performance of the X5680 processor with NT turned off turned out to be even higher than when it was turned on. So the costs of (insufficient) optimization are already inherent in professional applications today. And in general — everything is more than convincing, of course. There are one and a half times more cores, but other parameters (such as clock frequency) were not worsened — a convincing victory.

Applications in the third diagram are somewhat less cache-responsive than those in the first diagram. At the same time, both of them do not need more than a couple of cores. As a result, the X5680, of course, slightly lagged behind the 975 with the NT turned on, but not by much. In principle, as expected, this is another group of programs in which multi-core processors are idle. Despite everything, the X5680 processor managed to come out on top. Mainly due to a powerful leap forward in, as well as partial optimization of Photoshop for multi-core. In other programs, as expected, the new processors behave worse than the old ones. The cache has become, indeed, slower, which completely «ate» the joy of its increase. In general, we again record Gulftown’s defeat on points. Although, of course, it is so scanty that it can be ignored. The «bad programs» are over, so the Intal X5680 processor can prove that it really is the best. The picture is one to one with rendering practically, i.e. even when the NT is turned off, we are noticeably ahead of the former flagship, and when turned on, we generally move to a different level of performance.

The situation repeats itself — the former extreme X5680 catches up even with the NT turned off, and with it turned on it «takes away» for two hundred points. It could not be otherwise: desperate to wait for favors from codec authors, we took advantage of head-on optimization — encoding of several files is simply carried out in parallel, which allows loading any number of cores. Despite the fact that Intel assures everyone that the new processors are extremely good in a gaming computer, we cannot agree with this. In general, nothing else was expected — when purchasing a processor for $ 1,000 for games, you should first make sure that you have already bought a video card for at least the same $ 1,000, or better, more. What happens when you save money on a video card can be clearly seen from the diagram. Note that the GTX 275 is, generally speaking, far from the worst possible result, but it is obviously not enough. We have already conducted a special study of this issue, so we can say that the benefits of processors of this level can be clearly manifested only when using at least some Radeon HD 5

Price:

US $65.99 Product Link

My computer is about 8 years old. Yes, he is already old, but since I practically don’t play games, while he copes with his duties quite well. However, in games it is still quite good, there a lot is taken over by the video card.

The computer is built on a very successful motherboard Gigabyte GA-P35-DS3L. It has 8GB of RAM in dual-channel mode, a 256GB system SSD and an Intel Core Quad Q8300 quad-core processor. Why is the pay successful? 2 Oz copper conductors, low ESR solid capacitors, good Fe chokes and other components. I managed to install MAC OS 10. 8 and 10.9 on this board without problems and loading DSDT, making the entire periphery work only by loading a few kexts. For me personally, this is an indicator. Well, okay, I digress from the main topic, let’s continue.

Previously, many years ago, I was constantly upgrading my computers: adding memory, changing processors to faster ones, hard drives to faster and more voluminous ones. Now with the upgrade, things are worse. New processors are released for new sockets, different types of memory and for different slots. Manufacturers in every possible way force us to change the entire computer if necessary, even a small increase in performance. At a minimum, you will have to change the motherboard, processor and RAM, and this is 80% of the price of a new computer. Doing an upgrade for spare parts is already becoming unprofitable. Old DDR2 memory is very expensive (especially 4GB DIMMs, they are unrealistically rare and expensive). There are few processors for the LGA775 socket with a performance higher than that of the Q8300, and their price absolutely does not correspond to the difference in performance that they can provide. In short, I have already resigned myself to the fact that this computer will work as it is until it ceases to cope with the work performed and I will already change it to a more productive one.

And suddenly I came across information that on socket 775 people learned how to install Xeon server processors under socket 771. the processor itself, and some managed to make it with foil from a cigarette pack. And the enterprising Chinese have already set up the production of adapters for installing LGA771 processors on LGA775. It was already interesting. XEON is already a real step forward.

I decided to buy a processor and an adapter on AliExpress, there is still some kind of buyer protection there. Since I used to have a good processor, I didn’t want to take a Xeon of a completely lower price range, you could not see a real increase in performance, then what’s the point of starting all this fuss? The processor decided to take the maximum of those that my motherboard can support.

My choice was the Intel® Xeon® Processor X5470. Just two or three years ago it cost almost fifteen hundred dollars. Here are its characteristics:

Intel has always had the important competitive advantage of being ahead of other market participants in mastering ever finer processes in CPU manufacturing. Today we will consider the six-core processor Intel Xeon X5680 However, this path was not always smooth before — when, simultaneously with the new technological process, the company tried to make architectural changes to its products: the example of the Prescott crystal is still in the memory of many users. That is why for several years now Intel has been adhering to the «push-pull» scheme of progress: microarchitectural changes and new technical processes alternate, never intersecting. The scheme crystallized far from yesterday. For example, the company’s first desktop dual-core processors were based on the Smithfield chip, which is a «doubled» Prescott on an already well-established process in 90 nm. The transition to 65 nm was marked by the release of Presler, architecturally indistinguishable from Smithfield. Then the processors of the Core 2 line appeared fundamentally different from it, however, differing greatly in architecture, Conroe was produced using the same process technology — 65 nm. Need to master 45 nm? Wolfdale appeared — the same Conroe (in the first approximation), but 45 nm. And it was this process technology that was used by the first Nehalem architecture processors, which appeared at the end of 2008. In general, at each step, either an already well-mastered architecture was transferred to a new undeveloped process technology, or … That’s right — representatives of the new architecture began to be produced, but using a mastered process technology. Now is the time to move from 45nm Nehalem to 32nm Westmere. It is obvious that there is no point in looking for some internal differences in these lines — the main thing for which the latter is needed: the transition to 32 nm in its purest form. And why do you need to master all the more subtle processes? Ceteris paribus, this allows you to get the following advantages: Reduce the area and, accordingly, the cost of crystals compared to analogues of the previous generation; Increase the number of functional elements; Reduce power consumption;Increase clock speeds. Getting everything at once is unrealistic because the items are mutually exclusive. Therefore, you have to choose what is more important and combine within certain limits. This is best seen in examples. The first representatives of Westmere were (and are) the processors of the Clarkdale line, which appeared in January, aimed at the mass market segment. Therefore, they must be inexpensive. For this, not only a more subtle process was used, but also a “halving” of the number of cores / cache memory compared to the already familiar Bloomfield and Lynnfield. As a result, if the latter mainly claimed the price segment above $200, then the former (despite the presence of the second crystal containing the video core) are quite capable of even fitting into $100. Power consumption has also dropped, despite the fact that clock speeds have increased to compensate for the loss in performance from a decrease in the number of cores. And now we meet a new representative of the Westmere line — Gulftown crystal, focused on the top segment of the market. Why such a jump — from the youngest immediately to the oldest, bypassing the middle one? The point is that the replacement of Lynnfield is not needed yet: processors based on this core, in fact, have no competitors anyway, so they sell well. Switching them to 32 nm, of course, would reduce the cost, but this is not so important for the company. Here Clarkdale was needed, because it was necessary to offer a replacement for inexpensive processors of the Core 2 line and an alternative to competing designs. And Gulftown is also needed, because there is never much performance in servers, and by With boards, everything is simple — as we have already noted more than once, the new Xeon and the new Core i7 are designed for an existing infrastructure. Despite the fact that the DX58SO board does not officially support any Xeon with a TDP of 130 W, with the BIOS of February 24 this year, it worked smoothly with an Intel X5680 processor. Only the settings were very limited: it was possible to turn on one, two or all cores, but not four (fortunately, all six work in automatic mode), and for memory only multipliers 6 and 8 remained available at all — as for non-extreme Core i7 (old Xeon X5500 supports 10 in manual mode). However, again, in automatic mode, the memory «stood» at its legal 1333 MHz, so this did not cause problems. We think they will not appear for those who decide to replace the old Core i7 920 on a board bought a long time ago for a new extreme processor (if there are any, of course).	12 MB
System tire frequency	1333 MHZ
System tire Plains	YES
Team			Available options for the concrete	, Affordable options for the built-in	Lithography	45 nm
Max. calc. power	120 W
Voltage range VID	0.850V-1.3500V	No
Function Cancel bit	Yes

The processor vendor had adapters from LGA771 to LGA775 and promised two with the processor. The seller said that he tests all processors to work in LGA775. He’s lying, of course, but it doesn’t matter. It’s not the processor that matters, but the BIOS of the motherboard used (whether the processor is recognized or not), the correct operation of the processor depends on this.

I asked the seller to stick on the adapter and check the processor. He promised to do it, but immediately began to make excuses that during transportation, the adapter could peel off or move. Of course, he didn’t do anything. Well, I did not expect.

I checked my motherboard BIOS is F9, it’s the latest.

I was a little worried whether the cooler could cope with the increased heat dissipation? Still, the old processor was at 90W, and the ordered XEON X5470 was as much as 120W. I have a good cooler, original INTEL from a boxed Core Quad. But still…

Therefore, I dug out some monstrous TITAN in my junk with heat pipes and a decent radiator area.

I decided not to install it yet, since to install it you will have to remove the motherboard completely and place a special power plate on the reverse side, otherwise this cooler, when tightened and due to its considerable weight, can deform the board. If the boxed Intel cooler fails, then I will already think about what to do, install this TITAN or buy something more decent from a modern one, maybe copper . ..

The processor came in a transparent special package.

Contacts are protected from below by soft pink foam. Two adapters, as the seller promised, «peeled off» and are in a separate compartment of the package. On their adhesive layer is a protective paper.

Here is my handsome Zion.

There is clearly a scratch on the processor itself. It’s good that it is on the top cover and not in the center, where it is pressed against the cooler. The scratch had to be sanded down.

I will need the following tools.

Scalpel. It must be very sharp, because. The plastic of the socket is quite hard. Plus, the scalpel should cut off excess protrusions without much effort so as not to damage anything and not slip off.

Fine and strong tweezers for precise positioning of the adapter. They can then roll self-adhesive sections.

You can probably use other tools. I’ve had enough of these.

And, of course, you definitely need:

Main Tool:

The LGA771 and LGA775 sockets have their guide keys in different locations. Therefore, in order for the new processor to fit into place, the keys on the motherboard socket will have to be cut off.

Since I did this without disassembling the computer, I could not get to the socket with a dremel, so I used a sharply sharpened scalpel. The plastic of the socket is hard, but the scalpel cut off the protrusions easily enough. The main thing here is to calculate the effort and not just press the blade, but advance the blade with pressure so that the sharp scalpel gently cuts, and does not break and damage the socket contacts. Some people did this with small wire cutters or side cutters. I found the scalpel to be more convenient.

The next step is to stick the adapter so that the holes in it coincide with the contact pads of the processor, then the adapter contacts will fall into the right place. The figure shows how to do this. This is not my photo, my adapter was slightly different, it did not have such long “ears”, but it doesn’t matter.

You can see it bigger here. The main thing is that the adapter does not block any contact pad. This is also not my photo.

Sorry, and again not my photo, I took it from the Internet. I was in a hurry to try XEON and forgot to film the process of installing the processor. However, it is not difficult at all.

I put the processor in place so that the processor key (triangle) matches the key on the socket. Here you need to be careful, since there are no guides on the socket and it is possible to insert the processor incorrectly. The result can be disastrous.

Lubricate the processor with thermal paste. I just have a tube left. When lubricating the processor with thermal paste, it is important to observe the principle of reasonable sufficiency. There should not be too little paste; after grinding the cooler, it should cover the entire surface of the processor heat sink with a thin even layer. But it shouldn’t be too much. Excess thermal paste can impair heat dissipation and, since the “silver” is electrically conductive, the excess that crawls out from under the cooler can short-circuit something on the motherboard.

Putting the cooler back in place. Having pressed my hands against the processor, I lightly “grind” back and forth so that the thermal paste is better distributed over the surface and clamp the latches. It is important that the cooler stands exactly on the processor and pressed evenly against its surface. With a boxed Intel cooler, this is not at all difficult. I insert a 4-pin cooler connector into the mating part on the motherboard. My cooler is branded, with intelligent rotation speed control.

Attention! First inclusion.

Started up! The download started and almost immediately BSOD (Blue Screen of Death) or «blue screen of death». Nothing, do not despair. It would be nice to look into the BIOS. That’s where the dog rummaged, in the processor power settings, the values ​​\u200b\u200bset for the previous processor were not reset. Here is something that needs to be changed. In particular, the processor multiplier, its supply voltage (I lower it to 1.21 V), I also forcibly set the PCI Express frequency and something else in a trifle. I had to restart 2-3 times until I put everything up. Last changes. Restart again. Now Windows has booted normally.

CPU-Z reports that the processor is operating in the correct mode. Processor XEON X5470 Harpertown, frequency 3333.52 MHz, multiplier 10, cache 2×6=12MB.

CPU-Z about the motherboard.

Here is more about the cache.

Running AIDA 64

This is AIDA 64 about the motherboard.

AIDA 64 CPU ID. Approximately the same information as in CPU-Z. Multiplier 10, frequency 3333.3 MHz.

But after a few minutes of inactivity. The processor itself reduced the multiplier and reset the frequency. We see a multiplier of 6, a frequency of 2000.0 MHz.

Very competently, there is no need to thresh in vain. The CoreQuad Q8300 didn’t do that. I run all kinds of programs. AIDA 64 monitors the temperature of the processor. Oddly, the temperature fluctuates around 35 degrees. I have a good boxed cooler from CoreQuad, not a small one, aluminum with a brass (or copper) core. But the temperature of the Q8300 was between 50 and 70 degrees. And this despite the fact that its power is 90w. I was ready for the fact that with a new processor, the power of which is 120W, the cooler will very quickly warm up to critical temperatures. But, oddly enough, this did not happen. Even running Far Cry 3 couldn’t warm up the XEON. The cooler just increased the speed by a couple of hundred revolutions per minute (noticeably up to 1500 rpm), but the processor remained colder than 40-45 degrees. To be honest, I was surprised.

I need a computer that I can trust. So I’m doing a stress test.

I don’t know if it will be clearly visible in the drawings, so I’ll explain.

35 minutes in stress test mode with 100% load on all four cores showed a stable result.

The temperature of the hottest 1st processor core only reached 61 degrees for short moments only a few times. The rest of the time it’s below 60 degrees. The CPU temperature fluctuated around 50 degrees and peaked at 54 degrees. Quite a decent result for such a modest-sized cooler. This means that you can not bother with replacing the cooler with a more productive one, at least until next summer.

\

CPU usage stable 100%, CPU Throttling 0. All voltages stable. So the 450W FSP power supply can do just fine.

A few more words about the cooler. I found out that I have a D60188-001 model with a DELTA 0.60A fan with a temperature sensor and PWM.

The cooler speed reaches ~2000 rpm before the sensor on the cooler is triggered, and after it is triggered, it can rise to ~3125 rpm depending on the temperature of the forced air and the temperature of the radiator itself). I don’t know if this is true or if there is a temperature sensor in the cooler itself. But the fact that the fan speed can rise to 2000 rpm, I’m sure. During the 35-minute stress test, the cooler fan speed in my case was just over 1600 rpm. In the normal operating mode, the cooler speed dropped to 1400. The difference is only 200 rpm. between the unloaded state and the stress test indicates that the cooler copes with such heating easily and naturally.

This table will summarize the numbers. I will not comment, everything is clearly visible.

35 minutes of stress testing is enough testing for me. If something gets extremely hot, you can see it within the first 10 minutes. If everything is stable for 35 minutes, I see no reason for something to change over a longer period. It can be seen that 120W is far from constant consumption. The processor in terms of power consumption turned out to be very economical.

And finally. Before removing the old Core Quad 8300, I performed a Performance Test and saved the values.

Then did the same test with a new processor. In the pictures below, the results for the Core Quad 8300 are shown in yellow, and the results in green for the XEON X5470.

To summarize.

Test results show that the difference in processor performance ranges from 25% to 50%.

I paid $65.99-$7(coupon)=$58.99 for the processor. The selling price of my old Q8300 is just about that amount. That is, if I sell the Q8300, I will get the XEON X5470 for free (well, or for a price of no more than $10). To get a 25% to 50% increase in processor performance from a computer (an increase in overall computer performance of about 23%) by investing such little money in it — in my opinion this is an excellent result! It’s all the more pleasant when you realize that just a couple of years ago, the recommended selling price for this boxed processor was $1467.00.

Recommended for purchase.

P.S. At the request of Vladimir, I post screenshots from my BIOS

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Conclusions on the Intel Xeon X5680 processor

So, what can we say in general? The transition to 32nm technology allowed Intel to increase the number of cores almost painlessly. The updated Xeon 5600 series is definitely either better than the old 5500, or at least not inferior to them (even if we consider the «cut down» models with only four cores). The performance of dual-processor systems has been raised to a new level, which cannot but rejoice. Even more encouraging is that the transition to new crystals can solve another problem, namely, to reduce power consumption. Indeed, the best low-power model until recently was the L5530: a 2.4GHz quad-core processor with a TDP of 60W. Now, on the same platform, you can install a pair of L5640s, although they have a frequency of 2.26 GHz, but together they provide 12 «real» processor cores and 24 computation threads. In general, in their main area of ​​application, processors based on the Gulftown core look the best. It is much more difficult to formulate our attitude towards the «cut down» models for single-socket systems, namely the Xeon W3680 and Core i7 980X Extreme Edition. However, the first one is more or less simple — an excellent solution for single-processor workstations that can easily and naturally defeat its predecessor in the form of the Xeon W3580. Of course, when using software that is well optimized for multi-core, which is most often performed in this market segment. Moreover, the appearance of such processors will in some cases make it possible to abandon dual-processor workstations: for example, our x264 encoding test was performed by a system on X5680 (W3680, obviously, will provide an identical result) in three minutes 58 seconds, and two Xeon X5570 coped with him in three minutes 52 seconds. Rendering in 3Ds Max — 23.2 and 23.74 points, respectively. Yes, of course, a two-processor system is a little faster, but do not forget that the W3680 costs about a thousand dollars and can be used on an inexpensive (relatively) board in a regular desktop case, and a pair of X5570 cost about three thousand dollars, and requires the use an expensive two-socket board, at least two sets of memory and, most likely, a special case with a very special power supply (not to mention the fact that the W3680 will cost 130 W, and 2 x X5570 can gobble up to 190 W). Of course, now instead of the X5570 you can buy the X5670 for the same money, which will be faster, but it is obvious that a single-processor system with the performance of yesterday’s dual-processor system will suffice for many. But with the 980X, everything is not so simple — although it is extreme, it is a processor for ordinary desktop computers, where a huge amount of poorly optimized software is still used. Why look far for examples — Intel is actively pushing for unsurpassed gaming capabilities 980X, while the new version of Stalker received an updated graphics engine, even more beautiful than we saw in Clear Sky, but … still capable of using only two processor cores! And if «Stalker» was an exception to the rule, then this is not the case. As a result, users are still arguing about whether it makes sense to use quad-core processors in a regular computer, or whether two or three cores can be dispensed with. And so far we are simply not talking about six-core ones. Although it is obvious that in some cases they can be useful, only these cases are still rare and do not belong to the mass market. On the other hand, the advent of the Core i7 980X Extreme Edition can be regarded positively as a landmark event. In the end, the release of this processor finally stops the already boring practice, when extreme versions of processors were, in fact, just slightly accelerated modifications of ordinary ones, equipped with multipliers that were not blocked upwards. The new product looks especially good against the backdrop of last year’s transition from Extreme 965 to 975, when they «gave» only 133 MHz of clock frequency (yes — and a new stepping, of course, but buyers of much cheaper Core i7 9 also received the same improvement0030

8 x 256 KB cache 3 levels 20 MB Built -in graphics NO TDP W XEON E5 2689:

3 Sandy Bridge Platform Romley-EP Romley-WS Core Sandy Bridge-EP RAM0030

384 GB (per Socket) Multi CPU Up to 2 processors Instruction and technology support MMX, SSE, SSE2, SSE3, SSE3, SSE4. 2 + AES, AVX, EM64T, HT (Hyper-Threading), VT-x, VT-d, Turbo Boost technology 2.0, NX / XD, TXT (Trusted Execution technology) Number of RAM controllers 1 Number of RAM channels 4 RAM DDR3-800, DDR3-1066, DDR3-1333, DDR3-1600 DIMM connectors to the channel 3 Maximum access capacity (GB/C) memory 51.2 Support ECC memory Yes Voltage to the kernel 0.6 V-1.35 V

Advantages

reasons to choose I7-7700K

• Newer processor, release date difference 6 year(s) 11 month(s)
• Unlocked processor, unlocked multiplier allows easy overclocking
• Approximately 25% more clock speed: 4.50 GHz vs 3.60 GHz
• 27% more max core temperature: 100°C vs 78.5°C
• Newer CPU manufacturing process allows for more powerful but lower power consumption: 14 nm vs 32 nm
• About 43% less power consumption: 91 Watt vs 130 Watt
• About 82% more performance in PassMark benchmark — Single thread mark: 2775 vs 1522
• About 42% more performance in PassMark benchmark — CPU mark: 9750 vs 6879
• 2x more Geekbench 4 — Single Core performance: 1239 vs 605
• About 38% more Geekbench 4 — Multi-Core performance: 4751 vs 3440
• 2. 1x better CompuBench 1.5 Desktop — Face Detection (mPixels/s) performance: 6.495 vs 3.091
• Approximately 86% better CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s) performance: 105.82 vs 57.041
• Approximately 10% improvement in CompuBench 1.5 Desktop — T-Rex (Frames/s): 0.818 vs 0.744

Release Date0030

Specifications
PassMark — Single thread mark	2775 vs 1522
PassMark — CPU mark	9750 vs 6879
Geekbench 4 — Single Core	1239 vs 605
Geekbench 4 — Multi- CompuBench 1.5 Desktop — Face Detection (mPixels/s)	6.495 vs 3.091
CompuBench 1.5 Desktop — Surface Detection (mPixels/s) CompuBench 1.50030	105.82 VS 57.041
Compubench 1.5 Desktop-T-Rex (Frames/S)	0.818 VS 0.744

METHENTIONS, more, more, more, more, more vs 4

4 more threads: 12 vs 8

L1 cache is about 50% larger, which means more data can be stored in it for quick access

L2 cache is about 50% larger, which means more data can be stored in it for quick access quick access

The L3 cache is about 50% larger, which means more data can be stored in it for quick access

The maximum memory size is 4. 5 times larger: 288 GB vs 64 GB

Performance in the benchmark CompuBench 1.5 Desktop — Video Composition ( Frames/s) about 53% more: 4.96 vs 3.248

CompuBench 1.5 Desktop — Bitcoin Mining performance (mHash/s) about 87% more: 15.112 vs 8.076

9ATHER Maximum number of processors in a configuration

Intel

Family of processors

Xeon

Processor line

Xeon X

Processor Model

X5690

$ 149

$ 20000,000

Service 9000

server

server

For servers

Release date

February 14, 2011

Main specifications

Number of cores

6 cores

Number of flows

12 flows

socket (connector)

LGA1366

processor architecture

WestMere-Ed

3460 MHz

. 000 M. Free processor multiplier

None

Processor

Process technology

32 nm

Transistors (millions)

1170 million 9Ol000 /s Qpi

Cache 1st level L1

6×32 + 6×32 KB

CASH 2nd level L2

256×6 KB

level 3 level L3

12288 KB

RAM

RAM controller

There are

Types of RAM

DDR3-1333, DDR3-1066, DDR3-800

memory channels

Maximum memory volume

288 GB

memory 6,0002 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 Gb/s

ECC memory support

Mining data

Bitcoin(BTC) «SHA256» hashrate

20 Mh/s

Xeon X5690 speed rating

Attention! The general rating calculation method is chosen, which means that the percentage of the rating is calculated relative to the most powerful processor participating on our site.

Rating calculation method:
Overall ratingBy Westmere-EP architectureBy LGA1366 socketAmong Intel processorsAmong AMD processorsAmong server processorsAmong Xeon processorsAmong Xeon X-series processorsAmong 6-core processorsAmong 2011 processors

General performance rating

8337.87

(7.86%)

Passmark CPU MARK

6922

(7.89%)

Cinebench 11.5 (64-bit) Multipoeter Test

7.38%)

Cinebench 11.5 (64-bit) Single-threaded test

1.24

(14.34%)

Cinebench 15 (64-bit) Multi-threaded test

714.8

( 60003)

Cinebench 15 (64-bit) Single threaded test

108.23

(32.29%)

Geekbench 4.0 (64-bit) Multipotive test

160303

(8.65%)

Geekbench 4.0 (64-bit) Single-test test

9000 3397

(21 6%)

x264 HD 4.0 Pass 1

196.81

(7.61%)

x264 HD 4.0 Pass 2

43.45

(7. 04%)

3DMARK06 CPU

9935.38

( 6.95%)

WinRAR 4.0

5485.46

(9.18%)

Positions in the rating

Attention! The general rating calculation method is chosen, which means that the percentage of the rating is calculated relative to the most powerful processor participating on our site.

Rating calculation method:
Overall ratingBy Westmere-EP architectureBy LGA1366 socketAmong Intel processorsAmong AMD processorsAmong server processorsAmong Xeon processorsAmong Xeon X-series processorsAmong 6-core processorsAmong 2011 processors

The total performance rating
in the ranking 3291 processor

2572 place

(out of 3291)

Passmark CPU Mark
in the ranking 3279 processors

25 (from 32779) 9000

. bit) Multi-threaded test
3221 processors participate in the rating

2526 place

(out of 3221)

Cinebench 11. 5 (64-bit) Single-threaded test
3215 processors participate in the rating

2123 Place

(out of 3215)

Cinebench 15 (64-bit) multipo-stroke test
in the ranking 3218 processors

2533 place

(out of 3218)

Cinebench 15 (64-bit) single-flow Test
VN The rating is participated in 3217 processors

2128 place

(out of 3217)

Geekbench 4.0 (64-bit) multipropoped test
in the ranking is participated in the rating

2542 place

(out of 3209)

GEEKBENCH 4.0 (64-BIT) Single Thread Test
The ranking is involved in 3209 processors

2135 place

(out of 3209)

x264 HD 4.0 Pass 1
in the ranking 3211 processors

2568 place

(out of 3211)

x264 hd 4.0 pass 2
3211 processors

2510 place

(out of 3211)

3dmark06 CPU
The ranking is 3242 processors

2602 place

(out of 3242)

Winrar 4. 0
in the ranking in the ranking is participated in the ranking of 3212 processors

2586 place

(out of 3212)

Features
The number of nuclei	6 vs 4
Number of flows	12 VS 8
level 1 level	64 KB (Per Core) VS 256 KB
Kesh 2- GO level	256 KB (Per Core) VS 1 MB
CASH 3rd level	12288 KB (shared) VS 8 MB
Maximum memory	288 GB

Auto overclocking and processor power increase technologies

Technology or instruction name	Meaning	Short description
Turbo Boost	1.0	Intel Auto Overclocking Technology.

Energy saving technologies

Technology or instruction name	Meaning	Brief description
EIST (Enhanced Intel SpeedStep)		Enhanced Intel SpeedStep Energy Saving Technology.
Idle States		Idle states.

Standard extension set

Technology or instruction name	Meaning	Short description
MMX (Multimedia Extensions)		Multimedia extensions.
SSE (Streaming SIMD Extensions)		Streaming SIMD processor extension.
SSE2 (Streaming SIMD Extensions 2)		Processor Streaming SIMD Extension 2.
SSE3 (Streaming SIMD Extensions 3)		Streaming SIMD Processor Extension 3.
SSSE3 (Supplemental Streaming SIMD Extension 3)		Additional SIMD extensions for streaming 3.
EM64T (Extended Memory 64-bit Technology)		64-bit extended memory technology.
NX (Execute disable bit)		Execution inhibit bit.
SSE4 (Streaming SIMD Extensions 4)		Processor Streaming SIMD Extension 4.
AES (Intel Advanced Encryption Standard New Instructions)		Command system extension.

Safety technology

Technology or instruction name	Meaning	Short description
TXT (Trusted Execution Technology)		Trusted execution technology.
EDB (Execute Disable Bit)		Execute trip bit.

Virtualization technologies

Technology or instruction name	Meaning	Short description
VT-x (Virtualization technology)		Virtualization technology.
VT-d (Virtualization Technology for Directed I/O)		Virtualization technology for directed I/O.
EPT		Extended page tables.

Other technologies and instructions

Technology or instruction name	Meaning	Short description
Hyper-Threading		Hyperthreading technology.
DBS (Demand Based Switching)		Switching on request.
PAE (Physical Address Extension)	40 bit	Physical address extension.

Overview of the Intel Xeon X5690 processor

The Xeon X5690 microprocessor, based on the Westmere-EP architecture, is designed to organize server computers. Began to go on sale since February 14, 2011.

The processor works with DDR3-1333,DDR3-1066,DDR3-800 memory in 3-channel mode, having a bandwidth of 32 Gb/s. The amount of memory in this case will be no more than 288 GB.

The clock frequency of 3460 MHz is enough for many new tasks assigned to servers. In addition, the new Turbo mode will make this processor as powerful as possible by significantly raising the base frequency from 3460 to 3730 megahertz.

The Intel Xeon X5690 is for LGA1366 socket boards only. This processor needs efficient cooling since the TDP reaches 130 watts. The maximum temperature threshold under heavy load can reach up to 785 degrees. The technical process is 32 nanometers — the total number of transistors is 1170 million. The manufacturer claims that the bus speed will be 6.4 GT / s QPI.

High-quality server processor manufactured in 2011 for complex and serious tasks.

Competitors and analogues

On the LGA1366 socket, solutions from Intel stand out among the competitors: the W3670 model on the LGA1366 socket among the Xeon W processor family, the X5680 model from the Xeon X family, the Xeon X5679 of 2010, the W3680 model from the Xeon W processor series , model X5675 from the Xeon X processor line, model 995X from the Core i7 family. In 2011, the X5690 had few rivals among processors of its type, only the Opteron 6238 based on the Interlagos architecture, model 129 deserve attention0 LGA1155 from Xeon E3 series, model 6274 on Socket G34 among Opteron family, model 1245 from Xeon E3 processor series, model W3690 LGA1366 from Xeon W series, Xeon E3-1270 on Sandy Bridge microarchitecture, Opteron 4274 HE on Valencia architecture, model 6220 from the Opteron processor family, Model SE from the Opteron family, Model 1280 from the Xeon E3 family, Model X5647 from the Xeon X processor family, Model 6276 from the Opteron processor family, Model 1230 LGA1155 from the Xeon E3 processor line, Xeon X5672 based on Westmere- EP, Opteron 6282 SE based on Interlagos microarchitecture, model 6272 Socket G34 from Opteron family, model 1240 from Xeon E3 line, Xeon X5675 based on Westmere-EP architecture, Opteron 4280 based on Valencia microarchitecture, Xeon E3-1235 based on Sandy Bridge microarchitecture, Xeon E3 -1275 on Sandy Bridge architecture, model E5649on the LGA1366 socket from the Xeon E5 processor line, Xeon X5687 on the Westmere-EP architecture, model 4284 on the Socket C32 socket from the Opteron processor series. AMD’s analogues include the 2012 Opteron 6378, which was released 1 year later than the Opteron 6380, the SE Socket G34 model from the Opteron processor family, the SE model from the Opteron processor family, the 6348 Socket G34 model from the Opteron line, and the Opteron 6344 on the microarchitecture Abu Dhabi.

If we take into account all models of Core processors, then it confidently holds the 2nd place in the rating. The most similar processors under the Intel brand are Xeon X5680, Xeon X5679, Xeon X5687, Xeon L5640, Xeon E5645, Xeon X5672, Xeon X5650, Xeon X5677, Xeon W3670. They run on the same LGA1366 socket and the same Westmere-EP microarchitecture.

Technologies and Instructions

The Intel Xeon X5690 Processor supports many new technologies and instructions.

This model supports built-in energy saving technologies such as: EIST, Idle States. The usual sets of extensions SSE2, SSSE3, EM64T, AES, NX-Bit, SSE, MMX, SSE3 (Streaming SIMD Extensions 3), Streaming SIMD Extensions 4 are used.