AMD Athlon 300U vs Intel Core i5-8250U: What is the difference?
53points
AMD Athlon 300U
49points
Intel Core i5-8250U
vs
64 facts in comparison
AMD Athlon 300U
Intel Core i5-8250U
Why is AMD Athlon 300U better than Intel Core i5-8250U?
- 700MHz faster GPU clock speed?
1000MHzvs300MHz - 0.25MB/core more L2 cache per core?
0.5MB/corevs0.25MB/core - 32GB larger maximum memory amount?
64GBvs32GB - 0.5MB/core more L3 cache per core?
2MB/corevs1.5MB/core - Supports ECC memory?
- 100MHz faster GPU turbo speed?
1200MHzvs1100MHz - 8 higher clock multiplier?
24vs16
Why is Intel Core i5-8250U better than AMD Athlon 300U?
- 33.33% faster CPU speed?
4 x 1.6GHzvs2 x 2. 4GHz - 4 more CPU threads?
8vs4 - 48.3% higher PassMark result?
5941vs4006 - 2MB bigger L3 cache?
6MBvs4MB - 63KB bigger L1 cache?
256KBvs193KB - 21 more GPU execution units?
24vs3 - Has NX bit?
Which are the most popular comparisons?
AMD Athlon 300U
vs
Intel Celeron N4000
Intel Core i5-8250U
vs
Intel Core i3-1115G4
AMD Athlon 300U
vs
Intel Core i3-8100H
Intel Core i5-8250U
vs
AMD Ryzen 5 3500U
AMD Athlon 300U
vs
AMD Ryzen 3 2200U
Intel Core i5-8250U
vs
Intel Core i3-1005G1
AMD Athlon 300U
vs
Intel Core i3-7020U
Intel Core i5-8250U
vs
AMD Ryzen 3 2200U
AMD Athlon 300U
vs
Intel Celeron 4205U
Intel Core i5-8250U
vs
Intel Core i7-6500U
AMD Athlon 300U
vs
Intel Core i3-8130U
Intel Core i5-8250U
vs
AMD Ryzen 3 3200U
AMD Athlon 300U
vs
AMD A9-9425
Intel Core i5-8250U
vs
AMD Ryzen 5 2500U
AMD Athlon 300U
vs
Intel Core i3-10110U
Intel Core i5-8250U
vs
AMD Ryzen 5 5500U
AMD Athlon 300U
vs
AMD Ryzen 5 2500U
Intel Core i5-8250U
vs
Intel Core i7-7500U
Intel Core i5-8250U
vs
Intel Core i5-7200U
Price comparison
User reviews
Overall Rating
AMD Athlon 300U
1 User reviews
AMD Athlon 300U
10. 0/10
1 User reviews
Intel Core i5-8250U
5 User reviews
Intel Core i5-8250U
7.4/10
5 User reviews
Features
Value for money
9.0/10
1 votes
7.4/10
5 votes
Gaming
5.0/10
1 votes
6.6/10
5 votes
Performance
7.0/10
1 votes
7.4/10
5 votes
Reliability
9.0/10
1 votes
8.8/10
5 votes
Energy efficiency
9.0/10
1 votes
6.4/10
5 votes
Performance
1.CPU speed
2 x 2.4GHz
4 x 1.6GHz
The CPU speed indicates how many processing cycles per second can be executed by a CPU, considering all of its cores (processing units). It is calculated by adding the clock rates of each core or, in the case of multi-core processors employing different microarchitectures, of each group of cores.
2.CPU threads
More threads result in faster performance and better multitasking.
3.turbo clock speed
3.3GHz
3.4GHz
When the CPU is running below its limitations, it can boost to a higher clock speed in order to give increased performance.
4.Has an unlocked multiplier
✖AMD Athlon 300U
✖Intel Core i5-8250U
Some processors come with an unlocked multiplier which makes them easy to overclock, allowing you to gain increased performance in games and other apps.
5.L2 cache
A larger L2 cache results in faster CPU and system-wide performance.
6.L3 cache
A larger L3 cache results in faster CPU and system-wide performance.
7.L1 cache
A larger L1 cache results in faster CPU and system-wide performance.
8. L2 core
0.5MB/core
0.25MB/core
More data can be stored in the L2 cache for access by each core of the CPU.
9.L3 core
2MB/core
1.5MB/core
More data can be stored in the L3 cache for access by each core of the CPU.
Memory
1.RAM speed
2400MHz
2400MHz
It can support faster memory, which will give quicker system performance.
2.maximum memory bandwidth
35.76GB/s
34.1GB/s
This is the maximum rate that data can be read from or stored into memory.
3.DDR memory version
DDR (Double Data Rate) memory is the most common type of RAM. Newer versions of DDR memory support higher maximum speeds and are more energy-efficient.
4.memory channels
More memory channels increases the speed of data transfer between the memory and the CPU.
5. maximum memory amount
The maximum amount of memory (RAM) supported.
6.bus transfer rate
Unknown. Help us by suggesting a value. (AMD Athlon 300U)
The bus is responsible for transferring data between different components of a computer or device.
7.Supports ECC memory
✔AMD Athlon 300U
✖Intel Core i5-8250U
Error-correcting code memory can detect and correct data corruption. It is used when is it essential to avoid corruption, such as scientific computing or when running a server.
8.eMMC version
Unknown. Help us by suggesting a value. (AMD Athlon 300U)
Unknown. Help us by suggesting a value. (Intel Core i5-8250U)
A higher version of eMMC allows faster memory interfaces, having a positive effect on the performance of a device. For example, when transferring files from your computer to the internal storage over USB.
9. bus speed
Unknown. Help us by suggesting a value. (AMD Athlon 300U)
Unknown. Help us by suggesting a value. (Intel Core i5-8250U)
The bus is responsible for transferring data between different components of a computer or device.
Benchmarks
1.PassMark result
This benchmark measures the performance of the CPU using multiple threads.
2.PassMark result (single)
This benchmark measures the performance of the CPU using a single thread.
3.Geekbench 5 result (multi)
Unknown. Help us by suggesting a value. (AMD Athlon 300U)
Geekbench 5 is a cross-platform benchmark that measures a processor’s multi-core performance. (Source: Primate Labs, 2022)
4.Cinebench R20 (multi) result
Unknown. Help us by suggesting a value. (AMD Athlon 300U)
Cinebench R20 is a benchmark tool that measures a CPU’s multi-core performance by rendering a 3D scene.
5.Cinebench R20 (single) result
Unknown. Help us by suggesting a value. (AMD Athlon 300U)
Cinebench R20 is a benchmark tool that measures a CPU’s single-core performance by rendering a 3D scene.
6.Geekbench 5 result (single)
Unknown. Help us by suggesting a value. (AMD Athlon 300U)
Geekbench 5 is a cross-platform benchmark that measures a processor’s single-core performance. (Source: Primate Labs, 2022)
7.Blender (bmw27) result
Unknown. Help us by suggesting a value. (AMD Athlon 300U)
771.41seconds
The Blender (bmw27) benchmark measures the performance of a processor by rendering a 3D scene. More powerful processors can render the scene in less time.
8.Blender (classroom) result
Unknown. Help us by suggesting a value. (AMD Athlon 300U)
2852.02seconds
The Blender (classroom) benchmark measures the performance of a processor by rendering a 3D scene. More powerful processors can render the scene in less time.
9.performance per watt
Unknown. Help us by suggesting a value. (AMD Athlon 300U)
This means the CPU is more efficient, giving a greater amount of performance for each watt of power used.
Features
1.uses multithreading
✔AMD Athlon 300U
✔Intel Core i5-8250U
Multithreading technology (such as Intel’s Hyperthreading or AMD’s Simultaneous Multithreading) provides increased performance by splitting each of the processor’s physical cores into virtual cores, also known as threads. This way, each core can run two instruction streams at once.
2.Has AES
✔AMD Athlon 300U
✔Intel Core i5-8250U
AES is used to speed up encryption and decryption.
3.Has AVX
✔AMD Athlon 300U
✔Intel Core i5-8250U
AVX is used to help speed up calculations in multimedia, scientific and financial apps, as well as improving Linux RAID software performance.
4.SSE version
SSE is used to speed up multimedia tasks such as editing an image or adjusting audio volume. Each new version contains new instructions and improvements.
5.Has F16C
✔AMD Athlon 300U
✔Intel Core i5-8250U
F16C is used to speed up tasks such as adjusting the contrast of an image or adjusting volume.
6.bits executed at a time
Unknown. Help us by suggesting a value. (AMD Athlon 300U)
Unknown. Help us by suggesting a value. (Intel Core i5-8250U)
NEON provides acceleration for media processing, such as listening to MP3s.
7.Has MMX
✔AMD Athlon 300U
✔Intel Core i5-8250U
MMX is used to speed up tasks such as adjusting the contrast of an image or adjusting volume.
8.Has TrustZone
✖AMD Athlon 300U
✖Intel Core i5-8250U
A technology integrated into the processor to secure the device for use with features such as mobile payments and streaming video using digital rights management (DRM).
9.front-end width
Unknown. Help us by suggesting a value. (AMD Athlon 300U)
Unknown. Help us by suggesting a value. (Intel Core i5-8250U)
The CPU can decode more instructions per clock (IPC), meaning that the CPU performs better
Price comparison
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Which are the best CPUs?
A history of Intel vs. AMD desktop performance, with CPU charts galore
haha cpu fan go brrrrt —
Intel vs. AMD is a tortoise vs. hare race—but which company is which?
Jim Salter
—
Enlarge / Spoiler: When it comes to performance over the years, Intel is the slow and steady tortoise to AMD’s speedy-but-intermittent hare.
Aurich Lawson / Getty Images
The comment wars between Intel and AMD fans have been hot for the last few release cycles, with a lot of digital ink spilled about which company has—or has not—improved significantly over the years. There’s been no shortage of opinions about the current raw performance of each company’s fastest processors, either. We thought it would be interesting to dive into archived performance benchmarks of the fastest desktop/enthusiast CPUs for each company to get a good overview of how each has really done over the years—and perhaps to even see if there are patterns to be gleaned or to make some bets about the future.
Before we dive into charts, let’s start out with some tables—that way, you can see which CPUs we’re using as milestones for each year. While we’re at it, there are a couple of irregularities in the data; we’ll discuss those also and talk about the things that a simple chart won’t show you.
Twenty years of enthusiast computing
Year | Intel Model | AMD Model | Notes |
2001 | Pentium 4 2.0GHz (1c/1t) | Athlon XP 1900+ (1c/1t) | |
2002 | Pentium 4 2. 8GHz (1c/2t) | Athlon XP 2800+ (1c/1t) | Intel introduces hyperthreading |
2003 | Pentium 4 Extreme 3.2GHz (1c/2t) | Athlon XP 3200+ (1c/1t) | |
2004 | Pentium 4 3.4GHz (1c/2t) | Athlon 64 FX-55 (1c/1t) | |
2005 | Pentium 4 3.8GHz (1c/2t) | Athlon 64 X2 4800+ (2c/2t) | |
2006 | Pentium Extreme 965 (2c/4t) | Athlon 64 X2 5000+ (2c/2t) | Intel takes the undisputed performance lead here—and keeps it for a decade straight. |
2007 | Core 2 Extreme QX6800 (4c/4t) | Phenom X4 9600 (4c/4t) | Intel and AMD both launch the first true quad-core desktop CPUs |
2008 | Core 2 Extreme X9650 (4c/4t) | Phenom X4 9950 (4c/4t) | |
2009 | Core i7-960 (4c/8t) | Phenom II X4 965 (4c/4t) | |
2010 | Core i7-980X (6c/12t) | Phenom II X6 1100T (6c/6t) | Intel and AMD both introduce hex-core desktop CPUs |
2011 | Core i7-990X (6c/12t) | FX-8150 (8c/8t) | |
2012 | Core i7-3770K (4c/8t) | FX-8350 (8c/8t) | Intel abandons hex-core desktop CPUs—but few miss them, due to large single-threaded gains |
2013 | Core i7-4770K (4c/8t) | FX-9590 (8c/8t) | AMD’s underwhelming FX-9590 launches—and it’s Team Red’s last enthusiast CPU for four long years |
2014 | Core i7-4790K (4c/8t) | FX-9590 (8c/8t) | Intel’s 5th generation Core dies stillborn. AMD releases low-power APUs, but no successor to FX-9590 |
2015 | Core i7-6700K (4c/8t) | FX-9590 (8c/8t) | |
2016 | Core i7-7700K (4c/8t) | FX-9590 (8c/8t) | Strictly speaking, 2016 was an Intel whiff—Kaby Lake didn’t actually launch until January 2017 |
2017 | Core i7-8700K (6c/12t) | Ryzen 7 1800X (8c/16t) | Launch of AMD’s Zen architecture, return of the Intel hex-core desktop CPU |
2018 | Core i9-9900K (8c/16t) | Ryzen 7 2700X (8c/16t) | |
2019 | Core i9-9900KS (8c/16t) | Ryzen 9 3950X (16c/32t) | AMD’s Zen 2 architecture launches, Intel whiffs hard in the performance segment |
2020 | Core i9-10900K (10c/20t) | Ryzen 9 5950X (16c/32t) | AMD’s Zen 3 finally crushes Intel’s long-held single-threaded performance record |
Although both Intel and AMD obviously launch a wide array of processors for different price points and target markets each year, we’re limiting ourselves to the fastest desktop or «enthusiast» processor from each year. That means no server processors and no High-End Desktop (HEDT) processors either—so we won’t be looking at either Threadrippers or the late model XE series Intel parts.
Even for someone like myself who lived through this entire period as a system builder, it’s a giant pain in the butt assembling a list like this—let alone matching test results. It’s especially difficult on the AMD side, where there’s no real equivalent to Intel’s Ark providing a single list of processors, sortable by generation, type, and launch date. If you think I picked the wrong «top processor» for a year, let me know in the comments.
We should address a couple of anomalies in the charts right off the top—first of all, no, the absence of a new AMD performance CPU in 2014, 2015, and 2016 is not an oversight. 2013’s FX-9590—widely (and deservedly) panned for its monstrous-for-the-time 225W TDP and unimpressive performance—was Team Red’s fastest CPU for four years running. During that time, AMD launched several generations of low-power, inexpensive desktop APUs—none of which outperformed the FX-9590.
Intel also had a couple of stumbles during 2013-2017, though none so serious or for so long. The fifth-generation Core series was basically stillborn in 2014, although a refresh of the fourth-generation Core i7 series did provide a significant performance boost. Two years later was technically another whiff—Kaby Lake, with the Core i7-7700K, didn’t actually launch until January 2017. We fudged a little and allowed Kaby Lake in 2016’s row, because otherwise it would disappear entirely—Coffee Lake, and the i7-8700K, appeared later the same year.
Jim Salter
Jim is an author, podcaster, mercenary sysadmin, coder, and father of three—not necessarily in that order.
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Difference Between an Intel Core i7 & AMD Vision | Small Business
By Jeff Grundy
When it comes to processors for desktop or laptop computers, AMD and Intel are the only two names you really need to know. Combined, the two companies control well over 99 percent of the personal computer CPU market. While Intel is definitely the larger of the two companies, AMD continues to fight the chip giant for bragging rights in the CPU market. The competition seems to be good for businesses and consumers, as it forces both companies to develop faster and more efficient processor products, which means companies can get more work done faster. Intel’s latest mobile and desktop CPU offerings based on the i7 core and AMD’s similarly designed Vision processors both offer all-in-one CPU and graphics integration to boost the performance of personal computers.
Cores and Threads
-
Both the AMD Vision and Intel i7 series of processors offer multiple CPU cores. Cores are essentially additional processors inside the CPU that allow PCs to multithread or perform calculations and operations in parallel series. Depending upon the model, AMD Vision processors may have four, six or eight cores. Intel i7 CPUs generally only have four cores — except for those in its ultra-expensive Extreme series — but also include technology known as hyper-threading that creates additional virtual processor threads for multithreading or parallel operations. Hyper-threading technology is unique to Intel processors and is something that AMD does not incorporate into its CPUs. While Intel’s hyper-threading technology does boost performance by doubling the number of virtual processors, you’ll only notice a speed increase if you’re using an operating system and application that both support the virtual processor threads. Although all modern versions of Windows support hyper-threading, many alternative operating systems do not.
Cache Memory
-
To increase performance of processors, both AMD and Intel began including varying amounts of cache memory to help process and push data faster through pipelines to applications. Generally speaking, the larger the amount of cache memory in a processor, the faster it will perform.
Cache Comparison
-
Most i7 core processors have at least 8MB of cache memory while lower-end Vision-based, processors may have as little as only 2MB. Cache amounts in both series of processors vary slightly from model to model, but Intel processors generally have better cache-to-core ratio. For instance, the Intel i7 2700K processor and the AMD Vision-based FX-8150 CPU both have 8MB of L3-level cache memory. However, if you consider that the Intel i7 2700K has only four cores and the AMD FX-8150 has eight, you can see that the Intel processor offers a larger amount of cache memory per core. Consequently, the four cores in the i7 2700K can work more efficiently; they don’t have to transmit requested data to and from the hard drive nearly as often.
Integrated Video Differences
-
While Intel i7 processors have a slight advantage in pure CPU performance over its AMD counterparts, the Vision series of processors have higher-end integrated GPUs. Intel i7 processors use the company’s HD 2000, HD 2500, HD 3000, HD 4000 and HD 5000 integrated graphics chipsets. Intel designed its graphics chipset more for multidisplay use and encoding of videos. AMD Vision-based CPUs use HD chipsets created by ATI. ATI chipsets generally provide much better 3-D and gaming performance than those used in Intel processors. AMD purchased ATI in 2006 specifically for the purpose of catering to users needing high-end graphics performance.
Pricing and Intended Use
-
If you want raw processor power, choose an Intel i7 CPU. If you want an affordable all-in-one solution that offers reasonably fast performance and better gaming graphics, select one of the AMD Vision series processors. For the ultimate in gaming power, using an Intel i7 CPU with a discrete ATI or NVidia video card will give you the best of both worlds: faster clock cycles and incredible graphics performance. Remember that Intel i7 processors cost significantly more than do the AMD Vision counterparts. Intel’s flagship i7 3960x processor is approximately four times the price of an AMD FX–8350.
References
- Tech-FAQ: CPU Speed
- PCWorld: AMD Announces Trinity APUs – Superb Graphics, Improved CPU
- TechRadar: Intel vs AMD — Which Processor Is Best?
- BeHardware: Mobile CPUs — AMD A8 and A10 vs Core i5 and i7 (Llano, Trinity, Sandy and Ivy Bridge)
- TechRadar: AMD A10-4600M Review
- HardwareSecrets: Core i7-3770K vs. AMD FX-8150 and Core i7-2600K CPU Review
- CNET: Intel vs. AMD: Who’s Got the Fastest Chip Now?
- PCPitStop: Why Does My AMD CPU Have the «Wrong Speed»?
Writer Bio
Jeff Grundy has been writing computer-related articles and tutorials since 1995. Since that time, Grundy has written many guides to using various applications that are published on numerous how-to and tutorial sites. Born and raised in South Georgia, Grundy holds a Master of Science degree in mathematics from the Georgia Institute of Technology.
CPU Database | TechPowerUp
Below you will find a processor list of the CPUs released in recent years. This reference CPU Database will help you find the processor specs of your CPU or the specifications of the one you are looking to buy.
Comments can be posted in this thread.
-
Manufacturer
AllAMD (1107)Intel (1717)VIA (15) -
Release Date
All2022 (133)2021 (165)2020 (109)2019 (103)2018 (114)2017 (109)2016 (42)2015 (109)2014 (139)2013 (240)2012 (247)2011 (206)2010 (144)2009 (122)2008 (133)2007 (69)2006 (137)2005 (155)2004 (148)2003 (93)2002 (39)2001 (66)2000 (17) -
Mobile
AllNo (1982)Yes (857) -
Server
AllNo (2173)Yes (666) -
TDP
All1 W (6)2 W (16)3 W (21)4 W (12)5 W (17)6 W (7)7 W (19)8 W (10)9 W (28)10 W (23)12 W (5)13 W (7)15 W (117)16 W (1)17 W (46)18 W (12)19 W (2)20 W (1)21 W (7)22 W (4)24 W (5)25 W (64)26 W (1)27 W (12)28 W (41)29 W (5)30 W (12)31 W (9)32 W (10)35 W (328)37 W (13)38 W (5)40 W (6)43 W (1)44 W (7)45 W (153)46 W (4)47 W (30)49 W (1)50 W (5)51 W (28)52 W (3)53 W (1)54 W (28)55 W (47)57 W (2)58 W (8)59 W (4)60 W (22)61 W (2)62 W (67)63 W (5)64 W (3)65 W (372)66 W (6)67 W (18)68 W (19)69 W (9)70 W (11)72 W (12)73 W (25)74 W (1)75 W (5)76 W (1)77 W (13)79 W (3)80 W (54)82 W (31)83 W (3)84 W (58)85 W (38)86 W (4)87 W (2)88 W (7)89 W (65)90 W (1)91 W (7)92 W (9)95 W (206)97 W (4)100 W (19)104 W (7)105 W (31)110 W (22)112 W (3)115 W (32)120 W (16)125 W (67)127 W (1)129 W (1)130 W (80)135 W (42)136 W (1)140 W (30)145 W (3)150 W (18)155 W (8)160 W (2)165 W (29)170 W (11)180 W (19)185 W (6)190 W (2)195 W (1)200 W (7)205 W (14)215 W (3)220 W (3)225 W (13)230 W (4)235 W (1)240 W (7)245 W (2)250 W (12)255 W (2)260 W (1)265 W (1)270 W (7)280 W (19)300 W (11)320 W (1)350 W (1)380 W (1)400 W (1) -
Cores
All1 (636)2 (786)3 (33)4 (650)5 (5)6 (203)8 (178)10 (51)12 (60)14 (21)16 (68)18 (17)20 (3)22 (1)24 (33)26 (2)28 (13)32 (28)36 (3)38 (3)40 (1)48 (5)56 (2)57 (3)60 (2)61 (9)64 (17)68 (3)72 (3) -
Threads
All1 (537)2 (600)3 (33)4 (635)6 (49)8 (334)12 (168)16 (173)20 (53)24 (55)28 (12)32 (45)36 (17)40 (3)44 (1)48 (30)52 (2)56 (13)64 (27)72 (3)76 (3)80 (1)96 (5)112 (2)128 (13)228 (3)240 (2)244 (9)256 (5)272 (3)288 (3) -
Generation
AllIntel Atom (78)Intel Atom x5 (2)Intel Atom x7 (1)Intel Celeron (108)Intel Pentium (75)Intel Pentium III (15)Intel Pentium 4 (37)Intel Pentium 4 HT (52)Intel Pentium 4-M (11)Intel Mobile Pentium 4 (4)Intel Mobile Pentium 4 HT (9)Intel Celeron D (10)Intel Pentium M (17)Intel Pentium D (16)Intel Pentium Dual-Core (24)Intel Core Solo (7)Intel Core Duo (12)Intel Core 2 Duo (64)Intel Core 2 Extreme (11)Intel Core 2 Solo (4)Intel Core 2 Quad (18)Intel Core i3 (139)Intel Core i5 (228)Intel Core i7 (240)Intel Core M (7)Intel Core m3 (1)Intel Core i9 (48)Intel Core i9 Extreme (8)Intel Pentium Silver (1)Intel Pentium Gold (16)Intel Core i7 40th (1)Intel Xeon (113)AMD Athlon Model 4 (18)AMD Athlon XP (61)AMD Sempron (54)AMD Mobile Sempron (23)AMD Athlon 64 (80)AMD Athlon 64 FX (10)AMD Mobile Athlon 64 (15)AMD Athlon 64 X2 (53)AMD Turion 64 (14)AMD Sempron X2 (4)AMD Athlon X2 (10)AMD Phenom X3 (10)AMD Phenom X4 (19)AMD Athlon II X2 (18)AMD Phenom II X2 (10)AMD Athlon II X3 (12)AMD Phenom II X3 (10)AMD Athlon II X4 (15)AMD Phenom II X4 (31)AMD Phenom II X6 (8)AMD Turion X2 Ultra (7)AMD Turion X2 (5)AMD C (4)AMD Z (2)AMD E1 (5)AMD E2 (6)AMD A4 (30)AMD A6 (35)AMD A8 (29)AMD E (4)AMD Athlon (33)AMD A9 (4)AMD A10 (29)AMD FirePro (2)AMD FX (29)AMD A12 (6)AMD Ryzen 3 (35)AMD Ryzen 5 (55)AMD Ryzen 7 (53)AMD Ryzen Threadripper (26)AMD Ryzen Embedded (13)AMD Ryzen 9 (18)AMD Opteron (116)AMD Opteron X2 (25)AMD EPYC (60)AMD EPYC Embedded (1)Intel Xeon MP (16)Intel Xeon E7 (15)Intel Xeon E3 (48)Intel Xeon E5 (142)Intel Xeon D (16)Intel Xeon W (7)Intel Xeon Bronze (1)Intel Xeon Silver (6)Intel Xeon Gold (26)Intel Xeon Platinum (35)Intel Xeon E (2)Intel Xeon Phi (26)VIA CHA (1)VIA Nano Quad (5)VIA Nano X2 (1)VIA Nano U (6)VIA Nano L (2) -
Socket
All (1)AMD BGA SP4r2 (1)AMD Socket 563 (5)AMD Socket 754 (88)AMD Socket 939 (59)AMD Socket 940 (92)AMD Socket A (91)AMD Socket AM1 (5)AMD Socket AM2 (93)AMD Socket AM2+ (35)AMD Socket AM3 (103)AMD Socket AM3+ (31)AMD Socket AM4 (117)AMD Socket AM5 (4)AMD Socket C32 (8)AMD Socket F (4)AMD Socket FM1 (18)AMD Socket FM2 (39)AMD Socket FM2+ (32)AMD Socket FP2 (11)AMD Socket FP4 (1)AMD Socket FP5 (32)AMD Socket FP6 (41)AMD Socket FP7 (18)AMD Socket FS1 (15)AMD Socket FS1r2 (8)AMD Socket FT1 (14)AMD Socket FT3 (15)AMD Socket FT4 (5)AMD Socket Fr2 (1)AMD Socket G34 (15)AMD Socket S1 (17)AMD Socket SP1 (3)AMD Socket SP3 (60)AMD Socket SP3r2 (12)AMD Socket TRX4 (5)AMD Socket WRX8 (9)Intel BGA 437 (17)Intel BGA 441 (8)Intel BGA 518 (9)Intel BGA 559 (8)Intel BGA 592 (1)Intel BGA 617 (7)Intel BGA 676 (8)Intel BGA 951 (3)Intel BGA 956 (6)Intel BGA 1023 (75)Intel BGA 1090 (1)Intel BGA 1168 (40)Intel BGA 1170 (17)Intel BGA 1224 (14)Intel BGA 1234 (7)Intel BGA 1283 (5)Intel BGA 1288 (4)Intel BGA 1296 (3)Intel BGA 1356 (9)Intel BGA 1364 (31)Intel BGA 1380 (2)Intel BGA 1440 (45)Intel BGA 1449 (13)Intel BGA 1466 (6)Intel BGA 1499 (1)Intel BGA 1526 (7)Intel BGA 1598 (4)Intel BGA 1667 (16)Intel BGA 1744 (27)Intel BGA 1781 (7)Intel BGA 1787 (11)Intel BGA 1964 (7)Intel BGA 2270 (5)Intel BGA 5903 (4)Intel Socket 370 (15)Intel Socket 423 (7)Intel Socket 478 (74)Intel Socket 479 (38)Intel Socket 604 (46)Intel Socket 771 (16)Intel Socket 775 (150)Intel Socket 1150 (80)Intel Socket 1151 (103)Intel Socket 1155 (113)Intel Socket 1156 (23)Intel Socket 1200 (67)Intel Socket 1356 (21)Intel Socket 1366 (67)Intel Socket 1567 (3)Intel Socket 1700 (50)Intel Socket 2011 (62)Intel Socket 2011-1 (2)Intel Socket 2011-3 (84)Intel Socket 2066 (24)Intel Socket 3647 (26)Intel Socket 4189 (55)Intel Socket G1 (17)Intel Socket G2 (988B) (69)Intel Socket G3 (19)Intel Socket M (5)Intel Socket P (37)PCIe x16 (13)SFF 230-Pin (2)VIA Socket 2084 (2)VIA nanoBGA2 (13) -
Codename
AllAbu Dhabi (6)Agena (19)Albany (5)Alder Lake-H (11)Alder Lake-HX (7)Alder Lake-P (6)Alder Lake-S (42)Alder Lake-U (17)Allendale (14)Apollo Lake (3)Arrandale (21)Athens (12)Banias (5)Barcelo (3)Barcelona (1)Barton (35)Bay Trail-I (5)Bay Trail-M (12)Bay Trail-T (3)Bloomfield (16)Brisbane (25)Bristol Ridge (19)Broadwell (21)Broadwell-DT (8)Broadwell-E (4)Broadwell-H (5)Broadwell-U (20)Broadwell-Y (7)CHA (1)CNA (8)CNC (1)CNQ (2)CNR (2)Callisto (10)Cannon Lake-Y (1)Carrizo (9)Cascade Lake-AP (4)Cascade Lake-SP (9)Cascade Lake-X (5)Cedar Mill (5)Cedarview (5)Centerton (3)Cezanne (15)Cezanne-U (13)Chagall (1)Chagall PRO (5)Clarkdale (14)Clawhammer (24)Clovertrail (3)Cloverview (1)Coffee Lake (54)Coffee Lake-H (5)Coffee Lake-HR (7)Coffee Lake-R (4)Coffee Lake-S (2)Coffee Lake-U (2)Comet Lake (27)Comet Lake-H (9)Comet Lake-R (11)Comet Lake-U (6)Comet Lake-Y (4)Conroe (9)Conroe XE (1)Conroe-CL (1)Conroe-L (5)Cooper Lake-SP (15)Coppermine (1)Coppermine T (5)Cranford (4)Crystalwell (14)Dali (6)Delhi (3)Dempsey (7)Deneb (25)Denmark (5)Desna (1)Diamondville (4)Dothan (12)Egypt (10)Gainestown (18)Gallatin (9)Georgetown (5)Gladden (2)Godaveri (12)Griffin (17)Gulftown (7)Haswell (102)Haswell-E (3)Haswell-EP (67)Haswell-EX (12)Haswell-ULT (5)Haswell-WS (13)Heka (10)Hondo (1)Ice Lake-SP (35)Ice Lake-U (7)Ice Lake-W (5)Ice Lake-Y (5)Interlagos (7)Irwindale (4)Italy (10)Ivy Bridge (125)Ivy Bridge-E (7)Ivy Bridge-EN (7)Ivy Bridge-EP (20)Jasper Forest (1)Kabini (13)Kaby Lake (29)Kaby Lake G (5)Kaby Lake-DT (1)Kaby Lake-H (1)Kaby Lake-R (8)Kaby Lake-X (2)Kaveri (17)Kentsfield (6)Knights Corner (14)Knights Ferry (1)Knights Landing (8)Knights Mill (3)Kuma (5)Kyoto (2)Lancaster (14)Lima (11)Lincroft (9)Llano (33)Lucienne (3)Lynnfield (9)Magny-Cours (2)Manchester (6)Manila (11)Matisse (17)Matisse 2 (3)Merom (19)Merom XE (1)Merom-L (2)Milan (19)Milan-X (4)Naples (14)NewCastle (13)Newark (6)Nocona (5)Northwood (45)Odessa (4)Ontario (4)Orleans (11)Palermo (11)Palomino (7)Paris (6)Paxville (6)Penryn (26)Penryn QC (1)Penryn QC XE (1)Penryn XE (2)Penryn-L (2)Penwell (3)Picasso (13)Pineview (10)Potomac (8)Prescott (63)Presler (11)Prestonia (5)Propus (12)Rana (12)Raphael (4)Raptor Lake-S (8)Raven Ridge (14)Raven Ridge 2 (2)Regor (19)Rembrandt (18)Renoir (32)Richland (33)Rocket Lake (19)Rocket Lake-E (10)Roma (5)Rome (23)San Diego (5)Sandy Bridge (144)Sandy Bridge-E (8)Sandy Bridge-EN (14)Sandy Bridge-EP (27)Sargas (4)Seattle (3)Seoul (8)Silvermont (1)Silverthorne (12)Skylake (16)Skylake-H (1)Skylake-S (1)Skylake-SP (5)Skylake-W (2)Skylake-X (15)SledgeHammer (47)Smithfield (5)Sodaville (3)Sonora (4)Sparta (5)Stealey (2)Stellarton (6)Steppe Eagle (1)Stoney Ridge (6)Temash (4)Thoroughbred (24)Thorton (12)Thuban (8)Thunderbird (8)Thunderbird B (5)Thunderbird C (5)Tiger Lake-H (17)Tiger Lake-U (12)Toledo (8)Toliman (10)Trinity (25)Troy (12)Tualatin (9)Tulsa (9)Tunnel Creek (8)Venice (10)Venus (14)Vermeer (9)Vishera (15)Westmere-EP (25)Westmere-EX (3)Whiskey Lake-U (3)Willamette (15)Winchester (3)Windsor (34)Wolfdale (28)Woodcrest (7)Yonah (19)Yorkfield (17)ZX-C+ (1)Zacate (8)Zambezi (13)Zen (56)Zosma (4) -
Process
All5 nm (4)6 nm (18)7 nm (147)10 nm (176)12 nm (36)14 nm (427)16 nm (1)22 nm (409)28 nm (90)32 nm (423)40 nm (17)45 nm (280)65 nm (217)90 nm (304)130 nm (244)180 nm (46) -
Multiplier Unlocked
AllNo (2456)Yes (383) -
Integrated Graphics
AllNo (1756)Yes (1083)
Reset Filter
Popular | |||||||||
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Core i9-13900K | Raptor Lake-S | 24 / 32 | 3 to 5. 8 GHz | Socket 1700 | 10 nm | 36MB | 125 W | Sep 27th, 2022 | |
Ryzen 9 7950X | Raphael | 16 / 32 | 4.5 to 5.7 GHz | Socket AM5 | 5 nm | 64MB | 170 W | Sep 27th, 2022 | |
Core i5-13600K | Raptor Lake-S | 14 / 20 | 3.5 to 5.1 GHz | Socket 1700 | 10 nm | 24MB | 125 W | Sep 27th, 2022 | |
Ryzen 5 3600 | Matisse | 6 / 12 | 3.6 to 4.2 GHz | Socket AM4 | 7 nm | 32MB | 65 W | Jul 7th, 2019 | |
Ryzen 5 5600X | Vermeer | 6 / 12 | 3.7 to 4.6 GHz | Socket AM4 | 7 nm | 32MB | 65 W | Nov 5th, 2020 | |
Ryzen 7 7700X | Raphael | 8 / 16 | 4.5 to 5.4 GHz | Socket AM5 | 5 nm | 32MB | 105 W | Sep 27th, 2022 | |
Ryzen 5 5600G | Cezanne | 6 / 12 | 3. 9 to 4.4 GHz | Socket AM4 | 7 nm | 16MB | 65 W | Apr 13th, 2021 | |
Ryzen 9 7900X | Raphael | 12 / 24 | 4.7 to 5.6 GHz | Socket AM5 | 5 nm | 64MB | 170 W | Sep 27th, 2022 | |
Ryzen 5 7600X | Raphael | 6 / 12 | 4.7 to 5.3 GHz | Socket AM5 | 5 nm | 32MB | 105 W | Sep 27th, 2022 | |
Ryzen 7 5800X | Vermeer | 8 / 16 | 3.8 to 4.7 GHz | Socket AM4 | 7 nm | 32MB | 105 W | Nov 5th, 2020 | |
Core i7-13700K | Raptor Lake-S | 16 / 24 | 3.4 to 5.4 GHz | Socket 1700 | 10 nm | 30MB | 125 W | Sep 27th, 2022 | |
Ryzen 5 5500U | Lucienne | 6 / 12 | 2.1 to 4 GHz | Socket FP6 | 7 nm | 8MB | 15 W | Jan 12th, 2021 | |
Ryzen 9 5900X | Vermeer | 12 / 24 | 3. 7 to 4.8 GHz | Socket AM4 | 7 nm | 64MB | 105 W | Nov 5th, 2020 | |
Ryzen 5 5500 | Cezanne | 6 / 12 | 3.6 to 4.2 GHz | Socket AM4 | 7 nm | 16MB | 65 W | Apr 4th, 2022 | |
FX-8350 | Vishera | 8 | 4 to 4.2 GHz | Socket AM3+ | 32 nm | 8MB | 125 W | Oct 23rd, 2012 | |
Core i5-13500 | Raptor Lake-S | 10 / 16 | 2.5 to 4.6 GHz | Socket 1700 | 10 nm | 20MB | 65 W | 2022 | |
Ryzen 9 5950X | Vermeer | 16 / 32 | 3.4 to 4.9 GHz | Socket AM4 | 7 nm | 64MB | 105 W | Nov 5th, 2020 | |
Ryzen 5 2600 | Zen | 6 / 12 | 3.4 to 3.9 GHz | Socket AM4 | 12 nm | 16MB | 65 W | Apr 19th, 2018 | |
A8-7680 | Carrizo | 4 | 3. 5 to 3.8 GHz | Socket FM2+ | 28 nm | N/A | 45 W | Oct 26th, 2018 | |
Core i9-12900K | Alder Lake-S | 16 / 24 | 3.2 to 5.2 GHz | Socket 1700 | 10 nm | 30MB | 125 W | Nov 4th, 2021 | |
Core i5-3470 | Ivy Bridge | 4 | 3.2 to 3.6 GHz | Socket 1155 | 22 nm | 6MB | 77 W | Jun 1st, 2012 | |
Ryzen 5 5600 | Vermeer | 6 / 12 | 3.5 to 4.4 GHz | Socket AM4 | 7 nm | 32MB | 65 W | Apr 20th, 2022 | |
Ryzen 7 3700X | Matisse | 8 / 16 | 3.6 to 4.4 GHz | Socket AM4 | 7 nm | 32MB | 65 W | Jul 7th, 2019 | |
FX-6300 | Vishera | 6 | 3.5 to 4.1 GHz | Socket AM3+ | 32 nm | 8MB | 95 W | Oct 23rd, 2012 | |
Ryzen 7 5700X | Vermeer | 8 / 16 | 3. 4 to 4.6 GHz | Socket AM4 | 7 nm | 32MB | 65 W | Apr 4th, 2022 | |
Ryzen 7 5800X3D | Vermeer | 8 / 16 | 3.4 to 4.5 GHz | Socket AM4 | 7 nm | 96MB | 105 W | Apr 20th, 2022 | |
Ryzen 5 PRO 4650G | Renoir | 6 / 12 | 3.7 to 4.2 GHz | Socket AM4 | 7 nm | 8MB | 65 W | Jul 21st, 2020 | |
Ryzen 3 4100 | Renoir | 4 / 8 | 3.8 to 4 GHz | Socket AM4 | 7 nm | 8MB | 65 W | Apr 4th, 2022 | |
Ryzen 5 4600G | Renoir | 6 / 12 | 3.7 to 4.2 GHz | Socket AM4 | 7 nm | 8MB | 65 W | Jul 21st, 2020 | |
A8-7600 | Kaveri | 4 | 3.1 to 3.8 GHz | Socket FM2+ | 28 nm | N/A | 65 W | Jul 31st, 2014 | |
Ryzen 3 3200G | Picasso | 4 | 3. 6 to 4 GHz | Socket AM4 | 12 nm | 4MB | 65 W | Jul 7th, 2019 | |
Core 2 Duo E8400 | Wolfdale | 2 | 3 GHz | Socket 775 | 45 nm | N/A | 65 W | Jan 1st, 2008 | |
Core i5-10400F | Comet Lake | 6 / 12 | 2.9 to 4.3 GHz | Socket 1200 | 14 nm | 12MB | 65 W | Apr 30th, 2020 | |
Ryzen 5 4500 | Renoir | 6 / 12 | 3.6 to 4.1 GHz | Socket AM4 | 7 nm | 8MB | 65 W | Apr 4th, 2022 | |
Ryzen 7 5700U | Lucienne | 8 / 16 | 1.8 to 4.3 GHz | Socket FP6 | 7 nm | 8MB | 15 W | Jan 12th, 2021 | |
Core i7-3770 | Ivy Bridge | 4 / 8 | 3.4 to 3.9 GHz | Socket 1155 | 22 nm | 8MB | 77 W | Apr 29th, 2012 | |
Ryzen 7 5800H | Cezanne | 8 / 16 | 3. 2 to 4.4 GHz | Socket FP6 | 7 nm | 16MB | 45 W | Jan 12th, 2021 | |
Core i7-2600 | Sandy Bridge | 4 / 8 | 3.4 to 3.8 GHz | Socket 1155 | 32 nm | 8MB | 95 W | Jan 9th, 2011 | |
Ryzen 3 3250U | Raven Ridge | 2 / 4 | 2.6 to 3.5 GHz | Socket FP5 | 14 nm | 4MB | 15 W | Jan 6th, 2020 | |
Core i5-12400F | Alder Lake-S | 6 / 12 | 2.5 to 4.4 GHz | Socket 1700 | 10 nm | 18MB | 65 W | Jan 4th, 2022 | |
Athlon 3000G | Zen | 2 / 4 | 3.5 GHz | Socket AM4 | 14 nm | 4MB | 35 W | Nov 20th, 2019 | |
Core i5-6500 | Skylake | 4 | 3.2 to 3.6 GHz | Socket 1151 | 14 nm | 6MB | 65 W | Jul 2nd, 2015 | |
Ryzen 7 2700X | Zen | 8 / 16 | 3. 7 to 4.35 GHz | Socket AM4 | 12 nm | 16MB | 105 W | Apr 19th, 2018 | |
Core i7-12700K | Alder Lake-S | 12 / 20 | 3.6 to 5 GHz | Socket 1700 | 10 nm | 25MB | 125 W | Nov 4th, 2021 | |
Core i5-13600KF | Raptor Lake-S | 14 / 20 | 3.5 to 5.1 GHz | Socket 1700 | 10 nm | 24MB | 125 W | Sep 27th, 2022 | |
Core i5-2400 | Sandy Bridge | 4 | 3.1 to 3.4 GHz | Socket 1155 | 32 nm | 6MB | 95 W | Jan 9th, 2011 | |
Ryzen 5 1600 | Zen | 6 / 12 | 3.2 to 3.6 GHz | Socket AM4 | 14 nm | 16MB | 65 W | Apr 11th, 2017 | |
Core i5-650 | Clarkdale | 2 / 4 | 3.2 to 3.466 GHz | Socket 1156 | 32 nm | 4MB | 73 W | Jan 7th, 2010 | |
Ryzen 7 5700G | Cezanne | 8 / 16 | 3. 8 to 4.6 GHz | Socket AM4 | 7 nm | 16MB | 65 W | Apr 13th, 2021 | |
Core i7-4790 | Haswell | 4 / 8 | 3.6 to 4 GHz | Socket 1150 | 22 nm | 8MB | 84 W | May 1st, 2014 |
Novabench CPU Benchmarks — Compare top processors
Novabench
DownloadMy Account
Overview
- Average score
-
694
Score distribution
1,0002,0003,0004,0005,000
Top CPUs
Score | Part | Compare |
---|---|---|
5191 | AMD Ryzen Threadripper 3970X 32-Core | |
4316 | AMD Ryzen Threadripper 3960X 24-Core | |
4108 | AMD Ryzen 9 5950X 16-Core | |
4044 | AMD Ryzen Threadripper 2990WX 32-Core | |
3381 | AMD Ryzen 9 5900X 12-Core | |
3291 | AMD Ryzen 9 3950X 16-Core | |
2797 | 12th Gen Intel Core i9-12900KF | |
2785 | 12th Gen Intel Core i9-12900K | |
2757 | AMD Ryzen 9 3900XT 12-Core | |
2716 | AMD Ryzen 9 3900X 12-Core | |
2716 | AMD Ryzen Threadripper 2950X 16-Core | |
2700 | Intel Core i9-7980XE | |
2617 | AMD Ryzen 9 3900 12-Core | |
2598 | AMD Ryzen 7 5800X 8-Core | |
2541 | AMD Ryzen Threadripper 1950X 16-Core | |
2498 | AMD Ryzen 7 5700G with Radeon Graphics | |
2456 | 12th Gen Intel Core i7-12700KF | |
2449 | 12th Gen Intel Core i7-12700K | |
2416 | AMD Ryzen 9 5900HX with Radeon Graphics | |
2393 | 12th Gen Intel Core i7-12700 | |
2366 | AMD Ryzen 9 5900HS with Radeon Graphics | |
2274 | Intel Core i9-7940X | |
2271 | AMD Ryzen 7 5800H with Radeon Graphics | |
2270 | 12th Gen Intel Core i7-12700H | |
2195 | Intel Xeon W-2191B | |
2180 | AMD Ryzen 7 3800XT 8-Core | |
2120 | AMD Ryzen 7 3800X 8-Core | |
2101 | AMD Ryzen Threadripper 1920X 12-Core | |
2079 | AMD Ryzen 7 3700X 8-Core | |
2076 | 12th Gen Intel Core i5-12600K | |
2065 | 11th Gen Intel Core i9-11900KF | |
2062 | 11th Gen Intel Core i9-11900K | |
2057 | Intel Core i9-10900K | |
2055 | Intel Core i9-10900KF | |
2048 | Intel Core i9-10850K | |
2044 | AMD Ryzen 5 5600X 6-Core | |
2031 | 11th Gen Intel Core i7-11700K | |
2027 | AMD Ryzen 9 4900HS with Radeon Graphics | |
2026 | Intel Core i9-10900F | |
2023 | 11th Gen Intel Core i7-11700KF | |
2009 | AMD Ryzen 7 4800H with Radeon Graphics | |
1996 | 11th Gen Intel Core i7-11700F | |
1991 | AMD Ryzen 5 5600G with Radeon Graphics | |
1984 | Intel Core i9-10900 | |
1979 | 11th Gen Intel Core i7-11700 | |
1976 | AMD Ryzen 7 4800HS with Radeon Graphics | |
1937 | 11th Gen Intel Core i9-11900H | |
1926 | Intel Core i9-7920X | |
1903 | 11th Gen Intel Core i7-11800H | |
1893 | Intel Core i9-10900X | |
1811 | Intel Core i9-10910 | |
1806 | Intel Core i9-7900X | |
1797 | AMD Ryzen 7 5700U with Radeon Graphics | |
1791 | AMD Ryzen 5 5600H with Radeon Graphics | |
1787 | Intel Core i9-9900KS | |
1739 | Intel Core i7-10700KF | |
1737 | AMD Ryzen 5 3600XT 6-Core | |
1721 | AMD Ryzen 7 2700X Eight-Core | |
1715 | Intel Core i7-10700K | |
1714 | Intel Core i9-9900KF | |
1714 | Intel Core i7-10700F | |
1706 | Intel Core i7-10700 | |
1698 | AMD Ryzen 5 3600X 6-Core | |
1696 | Intel Core i9-9900 | |
1689 | Intel Core i9-9900K | |
1666 | 11th Gen Intel Core i5-11600K | |
1663 | 12th Gen Intel Core i5-12400F | |
1656 | AMD Ryzen Threadripper 1900X 8-Core | |
1653 | Intel Core i9-10980HK | |
1652 | 12th Gen Intel Core i5-12400 | |
1647 | AMD Ryzen 5 3600 6-Core | |
1619 | 11th Gen Intel Core i5-11500 | |
1600 | Intel Core i7-6950X | |
1599 | AMD Ryzen 7 1800X Eight-Core | |
1593 | 11th Gen Intel Core i5-11400F | |
1589 | Intel Xeon W-2150B | |
1587 | 11th Gen Intel Core i5-11400 | |
1578 | Intel Core i9-10885H | |
1567 | 12-Core Intel Xeon E5 | |
1553 | Intel Core i7-10875H | |
1551 | Intel Core i7-10870H | |
1542 | Intel Core i7-7820X | |
1541 | AMD Ryzen 7 1700X Eight-Core | |
1532 | 11th Gen Intel Core i5-11400H | |
1530 | AMD Ryzen 5 4600H with Radeon Graphics | |
1521 | AMD Ryzen 7 2700 Eight-Core | |
1460 | Intel Xeon E5-2690 | |
1455 | Intel Xeon E5-2680 v2 | |
1434 | AMD Ryzen 7 1700 Eight-Core | |
1420 | AMD Ryzen 5 5500U with Radeon Graphics | |
1417 | Intel Core i5-10600K | |
1417 | Intel Core i5-10600KF | |
1413 | Intel Core i9-9980HK | |
1401 | Intel Core i7-6900K | |
1397 | AMD Ryzen 5 2600X Six-Core | |
1388 | Intel Xeon W-2140B | |
1385 | Intel Core i7-8086K | |
1381 | Intel Core i9-9880H | |
1366 | Intel Xeon E5-2670 | |
1360 | Intel Core i7-8700K | |
1344 | Intel Xeon X5690 | |
1339 | Intel Xeon E5-2680 | |
1328 | Intel Xeon E5-2650 v2 | |
1326 | Intel Core i7-5960X | |
1325 | AMD Ryzen 7 1800X EightCore | |
1321 | Intel Core i7-8700 | |
1316 | AMD Ryzen 3 3300X 4-Core | |
1313 | AMD Ryzen 5 2600 Six-Core | |
1308 | Intel Xeon E5-2630 v3 | |
1307 | AMD Ryzen 5 1600X Six-Core | |
1303 | 8-Core Intel Xeon E5 | |
1303 | Intel Core i5-10600 | |
1298 | Intel Core i5-10500H | |
1288 | Intel Core i5-10400F | |
1284 | Intel Core i5-10400 | |
1282 | Intel Core i5-10500 | |
1281 | Intel Core i7-10750H | |
1275 | AMD Ryzen 7 1700X EightCore | |
1271 | Intel Core i7-7800X | |
1258 | Genuine Intel 0000 | |
1254 | Intel Core i7-9850H | |
1243 | Intel Xeon X5670 | |
1232 | 11th Gen Intel Core i7-11370H | |
1221 | AMD Ryzen 5 1600 Six-Core | |
1215 | Intel Xeon E-2176M | |
1208 | AMD Ryzen 3 3100 4-Core | |
1208 | 6-Core Intel Xeon | |
1207 | Intel Xeon X5675 | |
1205 | Intel Core i7-8700T | |
1203 | 11th Gen Intel Core i5-11300H | |
1197 | AMD Ryzen 7 1700 EightCore | |
1187 | Intel Xeon X5680 | |
1187 | 11th Gen Intel Core i7-1165G7 | |
1186 | 11th Gen Intel Core i7-1185G7 | |
1183 | Intel Core i7-9750H | |
1173 | Intel Core i7-6850K | |
1172 | Intel Xeon E5-2650 | |
1172 | Intel Xeon X5690 | |
1171 | Intel Core i7-8700B | |
1168 | Intel Xeon E5-2678 v3 | |
1167 | 11th Gen Intel Core i5-1135G7 | |
1161 | Intel Core i7-10710U | |
1161 | Intel Core i7-5930K | |
1161 | Intel Core i7-8750H | |
1158 | Genuine Intel | |
1157 | AMD Ryzen 7 4700U with Radeon Graphics | |
1156 | Intel Core i9-8950HK | |
1150 | Intel Xeon E5-2689 | |
1133 | Intel Xeon E5-2630 v2 | |
1133 | Intel Core i7-6800K | |
1133 | Intel Core i7-8850H | |
1117 | 6-Core Intel Xeon E5 | |
1110 | Intel Core i7-4930K | |
1108 | Intel Core i7-5820K | |
1107 | Intel Core i7-3970X | |
1101 | Intel Core i7-4960X | |
1090 | Intel Core i7-9700KF | |
1088 | Intel Core i7-3960X | |
1082 | Intel Core i7-9700K | |
1076 | AMD Ryzen 5 1600X | |
1073 | Intel Xeon E5-1650 v3 | |
1073 | Intel Xeon E5-2660 | |
1068 | Intel Core i7-1065G7 | |
1056 | Intel Xeon X5650 | |
1054 | Intel Core i7-9700 | |
1052 | Intel Core i7-9700F | |
1049 | Intel Core i5-1035G1 | |
1047 | Intel Xeon E5-2620 v3 | |
1045 | Intel Core i7-3930K | |
1037 | Intel Xeon X5660 | |
1030 | Intel Core i7 X 990 | |
1029 | AMD Ryzen 5 3400G with Radeon Vega Graphics | |
1027 | Intel Xeon E5-2630 | |
1026 | Intel Core i7-7700K | |
1011 | Intel Core i5-1035G7 | |
1009 | AMD Ryzen 5 3500 6-Core | |
1008 | AMD Ryzen 5 3500X 6-Core | |
1005 | Intel Xeon W3690 | |
1003 | Intel Xeon E5-1650 | |
1003 | Intel Core i5-1035G4 | |
999 | Intel Core i7-980 | |
994 | Intel Core i7 X 980 | |
990 | Intel Core i3-10100 | |
987 | Intel Core i3-10100F | |
983 | Intel Xeon W3680 | |
982 | Intel Core i7-970 | |
980 | Intel Xeon E5-2640 | |
971 | Intel Xeon E5-2620 v4 | |
968 | Intel Core i7-6700K | |
967 | AMD Ryzen 5 2400G with Radeon Vega Graphics | |
959 | Intel Core i5-10300H | |
956 | Intel Xeon E5-645 | |
943 | Intel Core i7-7700 | |
943 | AMD Ryzen 5 1500X Quad-Core | |
931 | AMD Ryzen 5 4500U with Radeon Graphics | |
929 | Intel Core i7-8809G | |
921 | Intel Core i7-4790K | |
911 | Intel Xeon X5550 | |
901 | Intel Xeon E5-2620 v2 | |
901 | Intel Core i7-1068NG7 | |
900 | Intel Xeon E5-2620 | |
887 | Intel Core i7-8559U | |
883 | Intel Xeon E5-2697 v2 | |
883 | Intel Core i7-6700 | |
880 | Intel Core i7-7820HK | |
880 | Intel Core i7-10510U | |
872 | Intel Xeon X5570 | |
869 | Intel Core i5-9600KF | |
869 | Intel Core i5-9600K | |
868 | Intel Core i5-9300H | |
866 | Intel Core i5-8300H | |
862 | Intel Core i7-4770K | |
859 | Intel Core i7-8665U | |
859 | AMD Ryzen 7 3750H with Radeon Vega Mobile Gfx | |
856 | Intel Core i5-1038NG7 | |
855 | Intel Core i5-8600K | |
855 | Intel Core i7-8705G | |
851 | Intel Core i7-4790 | |
848 | Quad-Core Intel Xeon E5 | |
844 | AMD Ryzen 5 1400 Quad-Core | |
841 | Intel Core i7-3770K | |
841 | Intel Core i7-7700T | |
840 | Intel Core i7-8565U | |
836 | Intel Core i7-4820K | |
835 | AMD Ryzen 5 3550H with Radeon Vega Mobile Gfx | |
832 | Intel Core i5-10210U | |
830 | Intel Core i5-8365U | |
830 | Intel Core i5-9500 | |
829 | Intel Core i7-4770 | |
829 | Intel Core i5-8279U | |
829 | Intel Core i7-4790S | |
824 | AMD Ryzen 5 1600 | |
822 | Intel Core i5-8259U | |
817 | Intel Core i5-8257U | |
816 | Intel Core i7-8650U | |
815 | Intel Xeon E3-1505M v6 | |
815 | Intel Core i7-6700T | |
815 | Intel Core i7-2700K | |
814 | Intel Core i7-3820 | |
812 | Intel Core i7-6820HK | |
810 | Intel Xeon E3-1240 V2 | |
808 | Intel Core i5-8600 | |
806 | Intel Core i7-7920HQ | |
804 | Intel Core i7-4771 | |
803 | Intel Core i7-2600K | |
797 | Intel Xeon E5-1620 v3 | |
796 | Intel Core i7-7700HQ | |
796 | Intel Core i7-8550U | |
794 | Intel Core i5-8350U | |
793 | AMD Ryzen 5 1500X | |
793 | Intel Core i5-9400 | |
793 | Intel Core i5-9400F | |
792 | Intel Core i5-8265U | |
790 | Intel Core i7-4770S | |
790 | Intel Core i7-5700HQ | |
786 | Intel Core i7-7820HQ | |
783 | Intel Core i7-6770HQ | |
782 | Intel Xeon E5-1620 | |
781 | Intel Core i5-8400 | |
778 | Intel Core i5-8500 | |
775 | Intel Core i7-3770 | |
774 | Intel Xeon E3-1231 v3 | |
764 | Intel Core i7-6920HQ | |
762 | Intel Core i5-8500B | |
762 | AMD FX9590 EightCore | |
760 | AMD Ryzen 7 3700U with Radeon Vega Mobile Gfx | |
759 | Intel Core i5-8250U | |
754 | Intel Core i7-4980HQ | |
750 | Intel Core i7-975 | |
750 | Intel Core i7 K 875 | |
748 | AMD Ryzen 5 3500U with Radeon Vega Mobile Gfx | |
742 | Intel Xeon E5-620 | |
740 | Intel Core i5-1030NG7 | |
740 | Intel Core i7-6820HQ | |
739 | AMD FX-9590 Eight-Core | |
739 | Intel Xeon E3-1505M v5 | |
738 | Intel Core i7-6700HQ | |
734 | Intel Core i7-965 | |
733 | Intel Core i7-4910MQ | |
733 | Intel Core i7-4870HQ | |
732 | Intel Xeon E3-1230 v3 | |
729 | Intel Core i7-4960HQ | |
729 | Intel Xeon E5-520 | |
728 | AMD FX9370 EightCore | |
727 | Intel Core i7-4810MQ | |
725 | AMD Ryzen 7 2700U with Radeon Vega Mobile Gfx | |
721 | Intel Core i7-4720HQ | |
719 | Intel Core i7-960 | |
718 | Intel Xeon E3-1230 V2 | |
718 | Intel Core i7-4900MQ | |
716 | 11th Gen Intel Core i3-1115G4 | |
716 | AMD Ryzen 5 2500U with Radeon Vega Mobile Gfx | |
713 | Intel Core i7-2600 | |
713 | Intel Core i7-870 | |
709 | AMD FX-9370 Eight-Core | |
707 | Intel Core i7-4800MQ | |
700 | Intel Core i7-950 | |
699 | Intel Core i7-4710MQ | |
698 | Intel Core i7-4700MQ | |
698 | Intel Core i7-4700HQ | |
696 | Intel Core i7-4770HQ | |
694 | Intel Core i7-4710HQ | |
694 | Intel Core i7-4850HQ | |
693 | Intel Core i7-3630QM | |
688 | Intel Core i7-860 | |
685 | AMD FX8370 EightCore | |
685 | AMD FX8350 EightCore | |
682 | AMD FX-8370 Eight-Core | |
681 | AMD Athlon | |
680 | Intel Core i7-940 | |
680 | AMD FX-8350 Eight-Core | |
677 | Intel Core i7-3610QM | |
672 | Intel Core i7 | |
670 | Intel Core i7-3770S | |
670 | Intel Core i7-4712MQ | |
667 | Intel Core i3-1005G1 | |
667 | Intel Core i7-930 | |
663 | Intel Core i5-8500T | |
656 | Intel Core i7-4750HQ | |
651 | Intel Core i7-3632QM | |
649 | Intel Core i7-920 | |
645 | Intel Core i7-4702MQ | |
645 | Intel Core i5-8400T | |
642 | AMD FX-8300 Eight-Core | |
639 | Intel Core i3-8350K | |
637 | Intel Core i7-4702HQ | |
637 | Intel Core i7-4712HQ | |
634 | AMD FX-8320 Eight-Core | |
632 | AMD FX8320 EightCore | |
632 | Intel Xeon W3565 | |
629 | AMD FX-8150 Eight-Core | |
628 | AMD Ryzen 3 2300X Quad-Core | |
624 | AMD FX8150 EightCore | |
622 | Intel Core i7-3612QM | |
621 | Intel Core i5-7600K | |
614 | Intel Xeon E5-1680 v2 | |
613 | Intel Xeon | |
610 | AMD FX-8320E Eight-Core | |
608 | Quad-Core Intel Xeon | |
607 | AMD FX8300 EightCore | |
603 | AMD FX-8120 Eight-Core | |
600 | Intel Core i3-9100 | |
600 | Intel Core i3-9100F | |
598 | AMD Phenom II X6 1100T | |
598 | Intel Xeon E5-462 | |
597 | AMD Ryzen 3 3200G with Radeon Vega Graphics | |
595 | AMD FX8320E EightCore | |
589 | Intel Core i5-6600K | |
589 | AMD Phenom II X6 1090T | |
586 | Intel Core i7-3740QM | |
586 | AMD Ryzen 3 1300X Quad-Core | |
586 | Intel Core i7-2670QM | |
584 | Intel Xeon W3550 | |
583 | Intel Core i7 X 920 | |
580 | Intel Core i5-7600 | |
575 | AMD FX8120 EightCore | |
574 | AMD Ryzen 3 2200G with Radeon Vega Graphics | |
572 | Intel Xeon X5355 | |
571 | AMD Phenom II X6 1075T | |
569 | Intel Xeon W3530 | |
568 | Intel Xeon E5-1650 v2 | |
567 | Intel Core i7-3840QM | |
562 | Intel Core i7-2630QM | |
560 | Intel Core i3-8100 | |
560 | Intel Core i7 Q 840 | |
558 | Intel Core i3-7100 | |
558 | Intel Xeon W3520 | |
553 | Intel Core i5-7500 | |
553 | AMD FX6350 | |
549 | Intel Core i5-4690K | |
547 | AMD FX-6350 Six-Core | |
546 | AMD Athlon 3000G with Radeon Vega Graphics | |
543 | Intel Core i3-8100B | |
543 | Intel Core i5-4670K | |
543 | Intel Core i5-6600 | |
540 | AMD Phenom II X6 1055T | |
537 | Intel Core i3-6100 | |
536 | Intel Xeon X5460 | |
536 | Intel Core i5-5675R | |
533 | Intel Xeon X5450 | |
531 | Intel Core i5-4690 | |
530 | Intel Pentium Gold G5400 | |
530 | AMD Ryzen 3 1200 Quad-Core | |
527 | Intel Core i7-7567U | |
527 | Intel Pentium G4600 | |
526 | Intel Xeon E5-345 | |
526 | Intel Core i5-4670 | |
525 | Intel Core i5-3570K | |
521 | AMD A12-9800 Radeon R7 12 COMPUTE CORES 4C+8G | |
521 | Intel Core i5-7400 | |
519 | AMD FX6300 | |
517 | Intel Xeon E5-430 | |
517 | AMD FX-6300 Six-Core | |
516 | AMD FX6200 | |
516 | AMD Phenom II X6 1045T | |
516 | Intel Core i5-6500 | |
514 | Intel Pentium G4560 | |
514 | Intel Core i7 Q 740 | |
513 | Intel Core i3-10110U | |
511 | Intel Core i5-4590 | |
509 | Intel Core i5-2550K | |
509 | Intel Xeon E5-440 | |
509 | Intel Core i5-6402P | |
508 | Intel Xeon E5-450 | |
508 | Intel Core i5-5575R | |
504 | Intel Core i5-4570 | |
504 | Intel Core i5-3570 | |
503 | Intel Core i3-8145U | |
502 | AMD Phenom II X6 1035T | |
501 | Intel Xeon E5-420 | |
501 | Intel Core i5-2500K | |
501 | Intel Core i5-7500T | |
500 | Intel Core i7 Q 820 | |
500 | AMD Athlon 200GE with Radeon Vega Graphics | |
499 | AMD Athlon X4 845 Core | |
499 | Intel Core i5-6400 | |
499 | Intel Core i5-3550 | |
498 | Intel Core i7-7660U | |
498 | Intel Core i7-2600S | |
497 | Intel Core i5-4590S | |
496 | Intel Core i3-1000NG4 | |
496 | Intel Core i5-7360U | |
494 | Intel Core i7-7600U | |
493 | Intel Core i5-4570S | |
490 | Intel Core i3-4170 | |
482 | Intel Xeon E5-410 | |
482 | Intel Core i5-7300HQ | |
481 | Intel Xeon E3-1225 v3 | |
480 | Intel Core i7-7500U | |
480 | AMD Athlon X4 880K Core | |
479 | Intel Core i3-4160 | |
478 | Intel Core i5-7267U | |
478 | Intel Core i5-3450 | |
477 | AMD FX-6100 Six-Core | |
476 | AMD Phenom II X4 980 | |
475 | AMD A10-9700 Radeon R7 10 COMPUTE CORES 4C+6G | |
475 | Intel Core i5-2500 | |
474 | Intel Core i5-4460 | |
474 | Intel Core i3-6100T | |
471 | Intel Core i7 Q 720 | |
470 | Intel Core i3-4150 | |
469 | Intel Core i5-7300U | |
468 | Intel Core i5-6500T | |
467 | Intel Core i5-4570R | |
467 | AMD Athlon X4 860K Core | |
467 | AMD Phenom II X4 975 | |
467 | Intel Core i3-4330 | |
465 | Intel Core i5-4440 | |
464 | Intel Core i5-4460S | |
464 | Intel Core i7-6567U | |
464 | Intel Core i5-3470 | |
463 | Intel Xeon E5-1620 v2 | |
462 | Intel Core i3-8130U | |
461 | Intel Core i7-2860QM | |
461 | Intel Core i5-3350P | |
461 | AMD FX6100 | |
461 | Intel Xeon E3-1220 v3 | |
461 | AMD A10-7870K Radeon R7 12 Compute Cores 4C+8G | |
461 | Intel Core i3-4130 | |
459 | AMD A10-7850K Radeon R7 12 Compute Cores 4C+8G | |
458 | Intel Core i7-6650U | |
458 | Intel Core i3-3240 | |
456 | Intel Core i5-661 | |
456 | Intel Core i5-3340 | |
454 | Intel Core i7-4600M | |
454 | Intel Core i5-4570T | |
454 | Intel Core i5-660 | |
453 | Intel Core i5-4430 | |
452 | Intel Core i5-7400T | |
452 | AMD Phenom II X4 970 | |
450 | AMD Phenom II X4 B60 | |
450 | Intel Core i5-3470T | |
449 | Intel Core i7-5557U | |
448 | Intel Core2 Extreme X9650 | |
447 | Intel Core i3-3220 | |
447 | AMD Ryzen 3 3200U with Radeon Vega Mobile Gfx | |
446 | Intel Core i5-7200U | |
445 | Intel Core i7-6560U | |
445 | Intel Core i5-6300HQ | |
445 | Intel Core i5-3330 | |
445 | Intel Core2 QuadQ9650 | |
444 | AMD Phenom II X4 965 | |
444 | Intel Core i3-2130 | |
444 | Intel Core i5-4440S | |
444 | AMD Ryzen 3 2200U with Radeon Vega Mobile Gfx | |
444 | Intel Core i7-6600U | |
444 | Intel Core i7-4610M | |
443 | Intel Core i5-2320 | |
443 | Intel Xeon E5-405 | |
442 | AMD Ryzen 3 3250U with Radeon Graphics | |
442 | AMD A8-9600 Radeon R7 10 COMPUTE CORES 4C+6G | |
442 | Intel Core i7-4578U | |
441 | AMD A10-7860K Radeon R7 12 Compute Cores 4C+8G | |
440 | Intel Core i3-3210 | |
439 | Intel Core i5-4210H | |
439 | AMD A10-7700K Radeon R7 10 Compute Cores 4C+6G | |
438 | Intel Core i5-650 | |
437 | Intel Core i5-3360M | |
435 | AMD A106800K APU with Radeon HD Graphics | |
433 | Intel Core i7-6500U | |
433 | Intel Core i5-2400 | |
433 | Intel Core i5-4310M | |
432 | Intel Core i5-4300M | |
432 | Intel Core i5-4200H | |
432 | Intel Core i5-5287U | |
430 | AMD A10-6800K APU | |
430 | Intel Core i3-550 | |
430 | AMD FX-4350 Quad-Core | |
430 | AMD A8-7650K Radeon R7 10 Compute Cores 4C+6G | |
429 | Intel Core i5-2310 | |
428 | Intel Core2 Q9650 | |
428 | Intel Core i5-6400T | |
428 | Intel Core i5-6267U | |
428 | AMD Phenom II X4 955 | |
427 | AMD FX4350 | |
427 | Intel Core i3-2120 | |
426 | Intel Core i5-2300 | |
425 | AMD Phenom II X4 960T | |
425 | Intel Core2 QuadQ9550 | |
425 | Intel Core i5-760 | |
424 | Intel Core i5-8210Y | |
422 | Intel Core i7-2760QM | |
421 | AMD A10-7800 Radeon R7 12 Compute Cores 4C+8G | |
421 | AMD A8-7600 Radeon R7 10 Compute Cores 4C+6G | |
420 | Intel Core i5-4308U | |
420 | Intel Core i5-6300U | |
420 | Intel Core i7-5650U | |
420 | AMD Phenom II X4 840 | |
420 | Intel Core i7-5600U | |
419 | Intel Core i5-4210M | |
419 | AMD FX-9830P Radeon R7 12 COMPUTE CORES 4C+8G | |
417 | AMD A10-6700 APU | |
416 | Intel Core i5-3320M | |
415 | Intel Core i3-540 | |
415 | AMD FX4170 | |
415 | AMD A106700 APU with Radeon HD Graphics | |
415 | AMD A107870K Radeon R7 12 Compute Cores 4C+8G | |
415 | AMD Phenom II X4 B50 | |
415 | AMD A8-6600K APU | |
415 | Intel Xeon E5-1603 | |
414 | AMD A86600K APU with Radeon HD Graphics | |
414 | Intel Core i5-4590T | |
414 | Intel Core2 Extreme Q6850 | |
413 | AMD Athlon II X4 645 | |
412 | Intel Core i3-4130T | |
412 | Intel Core i5-3340M | |
411 | Intel Core i7-4558U | |
410 | AMD A107850K APU with Radeon R7 Graphics | |
410 | AMD Phenom II X4 940 | |
409 | Intel Core i5 | |
409 | AMD Phenom II X4 945 | |
409 | Intel Core i5-750 | |
409 | Intel Core2 Q9550 | |
409 | AMD A107850K Radeon R7 12 Compute Cores 4C+8G | |
409 | Intel Core i5-5257U | |
408 | Intel Core i7-3540M | |
408 | AMD A10-5800K APU | |
407 | Intel Core i7 M 640 | |
406 | Intel Core i3-2100 | |
405 | Intel Core i3-530 | |
405 | AMD A105800K APU with Radeon HD Graphics | |
405 | AMD Phenom II X4 840T | |
405 | Intel Core i3 | |
405 | Intel Core i5-4200M | |
404 | Intel Core i5-4278U | |
404 | AMD Athlon II X4 640 | |
403 | AMD Phenom II X4 B55 | |
403 | AMD A83870 APU with Radeon HD Graphics | |
403 | Intel Core i5-6200U | |
403 | AMD Athlon X4 760K Core | |
403 | Intel Core2 QuadQ9400 | |
402 | AMD FX-4300 Quad-Core | |
402 | Intel Core i5-6360U | |
399 | Intel Core i3-7130U | |
399 | Intel Core i7-3687U | |
397 | AMD FX4300 | |
397 | Intel Core i7-5500U | |
396 | AMD Phenom II X4 20 | |
396 | Intel Core i5-2540M | |
396 | Intel Core i5-3230M | |
396 | Intel Core2 QuadQ8400 | |
395 | Intel Core i7 M 620 | |
395 | Intel Core i7-7Y75 | |
395 | Intel Core i5-4288U | |
395 | AMD A8-5600K APU | |
393 | Intel Core i7-4600U | |
393 | Intel Core2 Q9450 | |
392 | Intel Core i5 M 560 | |
392 | AMD A87650K Radeon R7 10 Compute Cores 4C+6G | |
392 | AMD A85600K APU with Radeon HD Graphics | |
391 | Intel Core2 Q6700 | |
391 | AMD Athlon II X4 635 | |
390 | Intel Core i7-3635QM | |
390 | Intel Core i7-4650U | |
390 | AMD Phenom II X4 925 | |
389 | AMD A107700K Radeon R7 10 Compute Cores 4C+6G | |
388 | Intel Core2 Q8400 | |
388 | AMD Athlon X4 750K Core | |
388 | AMD A86500 APU with Radeon HD Graphics | |
387 | Intel Core i7-4510U | |
387 | Intel Core i7-2820QM | |
387 | AMD Phenom II X4 920 | |
386 | AMD Athlon II X4 630 | |
386 | Intel Core i5-7Y54 | |
386 | Intel Core2 Q9400 | |
385 | AMD Phenom II X4 820 | |
385 | Intel Core i5 M 480 | |
385 | AMD Phenom II X4 830 | |
384 | Intel Core i5-5300U | |
384 | AMD A8-6500 APU | |
384 | Intel Core2 QuadQ9300 | |
383 | AMD A83850 APU with Radeon HD Graphics | |
383 | Intel Core2 QuadQ6700 | |
383 | Intel Core i7-3720QM | |
381 | Intel Core2 QuadQ8300 | |
381 | Intel Core i3-7100U | |
380 | AMD FX-4130 Quad-Core | |
379 | AMD A10-5700 APU | |
378 | Intel Core i3-3225 | |
377 | AMD A87600 Radeon R7 10 Compute Cores 4C+6G | |
373 | Intel Core i5-5350U | |
373 | AMD Athlon X4 740 Core | |
372 | AMD A107800 Radeon R7 12 Compute Cores 4C+8G | |
371 | Intel Core i5 M 540 | |
371 | AMD A63670 APU with Radeon HD Graphics | |
370 | Intel Core2 Q8300 | |
368 | Intel Core i3-6100U | |
368 | Intel Core i7-4500U | |
368 | Intel Core i5-4300U | |
368 | Intel Core2 Q9300 | |
368 | AMD A105700 APU with Radeon HD Graphics | |
368 | Intel Core i5 M 460 | |
367 | AMD FX4130 | |
366 | AMD A8-5500 APU | |
366 | Intel Core i5-2450M | |
366 | AMD FX-4100 Quad-Core | |
366 | AMD FX4100 | |
365 | Intel Core i7-3520M | |
365 | AMD A12-9720P Radeon R7 12 COMPUTE CORES 4C+8G | |
365 | Intel Xeon 5160 | |
365 | Intel Core i5-3437U | |
365 | Intel Core i5 M 520 | |
364 | Intel Pentium Silver N5000 | |
364 | Intel Core i5-4258U | |
364 | Intel Core2 | |
364 | Intel Core2 Q6600 | |
364 | AMD Phenom II X4 810 | |
363 | AMD model unknown | |
362 | Intel Core m3-7Y30 | |
362 | Intel Core i5-5200U | |
362 | Intel Core i7-3537U | |
362 | AMD Athlon II X4 620 | |
361 | Intel Core2 QuadQ8200 | |
361 | Intel Core i5-4310U | |
360 | Intel Core i5-2520M | |
360 | Intel Core2 QuadQ6600 | |
359 | Intel Core i3-3120M | |
357 | Intel Core i5-2430M | |
356 | Intel Pentium 4415U | |
356 | Intel Core i7 L 640 | |
355 | Intel Core i3-7020U | |
354 | Intel Core i5 M 450 | |
353 | Intel Core i5-2410M | |
353 | Intel Core2 Q8200 | |
351 | Intel Core i3-4000M | |
351 | AMD A63650 APU with Radeon HD Graphics | |
351 | Intel Core i5-4210U | |
350 | AMD A10-9620P Radeon R5 10 COMPUTE CORES 4C+6G | |
350 | Intel Core i3 M 380 | |
349 | Intel Core i7-2720QM | |
348 | Intel Pentium 4405U | |
347 | Intel Core i3-3110M | |
347 | AMD Phenom 9950 | |
345 | Intel Core i5 M 430 | |
344 | AMD Athlon II X3 455 | |
344 | AMD A85500 APU with Radeon HD Graphics | |
342 | Intel Core i5-3337U | |
341 | AMD Athlon II X3 450 | |
340 | Intel Core i5-5250U | |
338 | Intel Core i5-4200U | |
338 | Intel Core i3-5020U | |
337 | AMD Athlon II X3 445 | |
337 | Intel Core i7-3517U | |
336 | Intel Core i5-3210M | |
336 | AMD A12-9700P Radeon R7 10 COMPUTE CORES 4C+6G | |
336 | Intel Pentium N4200 | |
335 | AMD Phenom 9850 | |
335 | Intel Core i3 M 370 | |
333 | Intel Core m5-6Y54 | |
331 | Intel Celeron N4100 | |
330 | Intel Celeron J3455 | |
329 | AMD A8-7410 APU with AMD Radeon R5 Graphics | |
329 | Intel Core i7-3820QM | |
328 | Intel Core i3-5010U | |
326 | AMD Athlon II X3 440 | |
325 | Intel Core i3-2370M | |
325 | Intel Core i5-4260U | |
325 | Intel Core i3-6006U | |
323 | Intel Core M | |
322 | AMD A6-7310 APU with AMD Radeon R4 Graphics | |
320 | AMD A8-6410 APU with AMD Radeon R5 Graphics | |
320 | Intel Core i3 M 350 | |
318 | Intel Pentium G4400 | |
318 | AMD A63620 APU with Radeon HD Graphics | |
318 | AMD A10-9600P Radeon R5 10 COMPUTE CORES 4C+6G | |
316 | AMD Phenom 9750 | |
316 | AMD Phenom II X3 720 | |
314 | AMD Athlon II X3 435 | |
313 | Intel Core i3-2350M | |
312 | Intel Celeron N3450 | |
311 | AMD Phenom 9650 | |
311 | Intel Pentium G3258 | |
311 | Intel Core i3-2348M | |
310 | Intel Core i3-5005U | |
309 | AMD Phenom 9600 | |
309 | AMD Athlon 5350 APU with Radeon R3 | |
309 | Intel Core i7-2640M | |
308 | AMD A10-8700P Radeon R6 10 Compute Cores 4C+6G | |
308 | Intel Core i5-3317U | |
307 | Intel Pentium III Xeon | |
307 | AMD A10-5750M APU | |
306 | AMD A6-6310 APU with AMD Radeon R4 Graphics | |
305 | Intel Core i7-3667U | |
305 | Intel Core i7-2620M | |
304 | Intel Core M5Y10c | |
304 | Intel Core i3 M 330 | |
304 | AMD A87410 APU with AMD Radeon R5 Graphics | |
304 | Intel Core m3-6Y30 | |
303 | Intel Core i3-2330M | |
301 | Intel Core i5-4250U | |
301 | Intel Pentium 3825U | |
300 | AMD A109600P Radeon R5 10 COMPUTE CORES 4C+6G | |
299 | Intel Core i3-2328M | |
296 | AMD Phenom 9550 | |
296 | AMD A86410 APU with AMD Radeon R5 Graphics | |
295 | AMD A6-5200 APU | |
295 | AMD Phenom 9500 | |
295 | Dual-Core Intel Xeon | |
294 | AMD Athlon II X3 425 | |
293 | Intel Core2 Duo E8600 | |
293 | Intel Pentium G3260 | |
292 | Intel Core i3-2310M | |
292 | Intel Pentium G3420 | |
291 | e Intel Pentium III Xeon | |
291 | Intel Core i3-5015U | |
291 | AMD A108700P Radeon R6 10 Compute Cores 4C+6G | |
286 | Intel Celeron G3930 | |
284 | Intel Core i3-4030U | |
284 | Intel Pentium G3250 | |
284 | AMD A105750M APU with Radeon HD Graphics | |
282 | Intel Pentium G3240 | |
281 | AMD A66310 APU with AMD Radeon R4 Graphics | |
278 | Intel Core i3-3227U | |
278 | Intel Core2 Duo E8500 | |
278 | Intel Core i5-3470S | |
277 | Intel Pentium II | |
276 | Intel Pentium G3220 | |
273 | Intel Core M-5Y31 | |
272 | AMD A65200 APU with Radeon HD Graphics | |
271 | AMD Athlon Silver 3050U with Radeon Graphics | |
270 | AMD E2-7110 APU with AMD Radeon R2 Graphics | |
269 | Procesor Intel Pentium III Xeon | |
267 | Intel Pentium G2030 | |
266 | AMD A10-7300 Radeon R6 10 Compute Cores 4C+6G | |
265 | Intel Core i7-3615QM | |
265 | Intel Core i5-3330S | |
264 | Intel Core i3-3217U | |
264 | Pentium Dual-CoreCPUE5800 | |
263 | Intel Core2 Duo E8400 | |
262 | AMD Phenom II X2 560 | |
262 | Pentium DualCoreE5800 | |
261 | Intel Core i5-2400S | |
261 | Intel Core i5-3427U | |
260 | Pentium DualCoreE6600 | |
260 | Intel Pentium G860 | |
260 | AMD Phenom II X2 555 | |
260 | AMD Phenom 8650 | |
260 | Intel Celeron G1840 | |
259 | Intel Core2 Duo E7600 | |
259 | AMD A6-7400K Radeon R5 6 Compute Cores 2C+4G | |
258 | Pentium DualCoreE6700 | |
257 | Intel Pentium G2020 | |
257 | AMD A104600M APU with Radeon HD Graphics | |
256 | AMD Athlon II X2 270 | |
255 | Intel Core i3-4005U | |
255 | Intel Pentium G645 | |
255 | Intel Pentium G850 | |
253 | Intel Core2 Duo E7-500 | |
252 | AMD A83520M APU with Radeon HD Graphics | |
252 | AMD Athlon II X2 260 | |
252 | AMD A10-5745M APU | |
252 | Intel Core i3-4010U | |
252 | Pentium DualCoreE6500 | |
252 | AMD A63500 APU with Radeon HD Graphics | |
252 | Pentium DualCoreE5700 | |
252 | AMD Phenom II X2 550 | |
251 | Intel Core2 Duo E7500 | |
249 | AMD A85550M APU with Radeon HD Graphics | |
248 | Intel Core2 Duo E6850 | |
247 | Intel Pentium G840 | |
246 | AMD A63420M APU with Radeon HD Graphics | |
245 | Intel Pentium G640 | |
244 | Pentium Dual-CoreCPUE5700 | |
244 | AMD A66400K APU with Radeon HD Graphics | |
244 | AMD Athlon II X2 255 | |
242 | Intel Core2 Duo E7400 | |
242 | Intel Celeron G1610 | |
242 | Intel Core2 Duo E7-400 | |
241 | AMD A6-6400K APU | |
241 | Pentium DualCoreE6300 | |
240 | Intel Core2 Duo E8200 | |
238 | AMD Phenom 9150e | |
238 | Intel Core2 Duo E7300 | |
238 | Pentium DualCoreE5500 | |
237 | AMD Phenom 8450 | |
237 | AMD A105745M APU with Radeon HD Graphics | |
237 | AMD A8-4500M APU | |
236 | AMD A83500M APU with Radeon HD Graphics | |
235 | Intel Pentium G630 | |
235 | Intel Core2 Duo T9600 | |
234 | Pentium DualCoreE5400 | |
234 | AMD Athlon II X2 250 | |
233 | Pentium Dual-CoreCPUE5400 | |
233 | AMD Athlon II X2 245 | |
233 | AMD A4-6300 APU | |
233 | Intel Core2 Duo P8800 | |
232 | Intel Core2 Duo T7700 | |
230 | Intel Core2 Duo E7200 | |
230 | Intel Pentium G620 | |
229 | AMD FX7500 Radeon R7 10 Compute Cores 4C+6G | |
229 | AMD Athlon II X2 220 | |
229 | AMD A65400K APU with Radeon HD Graphics | |
228 | AMD A6-5400K APU | |
228 | AMD Athlon II X2 240 | |
228 | Intel Core2 Duo E6750 | |
228 | AMD Athlon 7750 DualCore | |
228 | Pentium DualCoreE5300 | |
227 | AMD Athlon 7850 DualCore | |
227 | AMD A9-9420 Radeon R5 5 COMPUTE CORES 2C+3G | |
226 | Intel Core2 Duo T9300 | |
226 | Intel Core2 6700 | |
226 | Pentium Dual-CoreCPUE5300 | |
225 | Intel Pentium 2020M | |
225 | Pentium DualCoreE5200 | |
225 | AMD A46300 APU with Radeon HD Graphics | |
224 | Intel Core2 Duo T9550 | |
224 | AMD Athlon II X2 235e | |
223 | Intel Core2 6600 | |
223 | Intel Pentium J2900 | |
223 | AMD A43400 APU with Radeon HD Graphics | |
223 | AMD A63400M APU with Radeon HD Graphics | |
223 | Intel Core2 Duo T9400 | |
222 | AMD A4-5000 APU | |
222 | AMD Phenom II N830 | |
222 | AMD Athlon 64 X2 6400+ | |
221 | AMD Athlon II X2 215 | |
221 | AMD A9-9410 Radeon R5 5 COMPUTE CORES 2C+3G | |
221 | Intel Celeron E3300 | |
221 | AMD A9-9425 Radeon R5 5 COMPUTE CORES 2C+3G | |
220 | AMD Athlon 64 X2 6000+ | |
220 | Pentium Dual-CoreCPUE5200 | |
218 | Intel Core2 Duo P8700 | |
217 | Intel Pentium N3540 | |
217 | AMD A84500M APU with Radeon HD Graphics | |
216 | Intel Celeron N4020 | |
215 | Intel Celeron E3400 | |
213 | Intel Pentium N3530 | |
213 | Intel Pentium DualE2220 | |
213 | AMD A4-5300 APU | |
212 | Intel Celeron G530 | |
212 | Intel Core2 Duo P8600 | |
209 | AMD A45300 APU with Radeon HD Graphics | |
209 | Intel Pentium N3710 | |
209 | AMD A107300 Radeon R6 10 Compute Cores 4C+6G | |
209 | AMD Athlon 64 X2 5600+ | |
208 | Intel Core2 Duo P8400 | |
208 | Intel Core2 Duo E4600 | |
207 | Intel Pentium B980 | |
207 | AMD A45000 APU with Radeon HD Graphics | |
207 | Intel Celeron N4000 | |
205 | Intel Core2 6420 | |
205 | Intel Core2 Duo T8300 | |
205 | Intel Core2 Duo E6550 | |
205 | Intel Atom Z3740 | |
204 | Intel Core i5-2467M | |
203 | Intel Pentium N3520 | |
203 | Intel Core2 6400 | |
203 | AMD Athlon 64 X2 5400+ | |
203 | Pentium DualCore T4500 | |
202 | AMD Athlon 64 X2 5200+ | |
201 | Intel Pentium DualE2200 | |
201 | Intel Core2 Duo T6670 | |
200 | Intel Celeron J1900 | |
199 | Intel Core i3-2367M | |
199 | Intel Core2 Duo P7450 | |
197 | Pentium DualCore T4400 | |
196 | Intel Core2 Duo E4500 | |
196 | Intel Core2 Duo T6600 | |
195 | Intel Pentium B970 | |
195 | Intel Pentium N3700 | |
195 | Intel Core2 Duo T8100 | |
194 | AMD Athlon 64 X2 5000+ | |
193 | Intel Core2 4400 | |
192 | Intel Pentium DualE2180 | |
192 | Intel Core2 Duo T6570 | |
190 | Pentium DualCore T4300 | |
189 | Intel Celeron N3350 | |
189 | Intel Core i3-2365M | |
189 | Intel Pentium B960 | |
188 | Intel Pentium DualT3400 | |
188 | Intel Core2 Duo T6400 | |
188 | Intel Core2 Duo T6500 | |
187 | AMD A6-9225 Radeon R4 5 COMPUTE CORES 2C+3G | |
186 | AMD A6-9220 Radeon R4 5 COMPUTE CORES 2C+3G | |
186 | Intel Pentium P6200 | |
185 | Intel Core2 Duo P7350 | |
185 | Intel Atom x5Z8300 | |
185 | AMD Athlon 64 X2 4800+ | |
183 | Intel Pentium B950 | |
183 | Intel Core2 6320 | |
183 | Intel Core2 6300 | |
181 | Pentium DualCore T4200 | |
181 | Intel Core2 4300 | |
181 | Genuine Intel 2160 | |
181 | Intel Core 2 Duo | |
180 | AMD Athlon 64 X2 4600+ | |
180 | Intel Celeron N2940 | |
180 | Intel Celeron 1005M | |
180 | Intel Core2 Duo T7500 | |
179 | AMD Athlon II P360 DualCore | |
179 | Intel Atom Z3735F | |
178 | Intel Pentium DualE2160 | |
178 | Intel Pentium B940 | |
177 | Intel Pentium P6100 | |
177 | Intel Pentium DualT3200 | |
176 | Intel Core2 T5600 | |
176 | Intel Core2 Duo T5870 | |
175 | AMD A6-4400M APU | |
174 | AMD Athlon II P340 DualCore | |
174 | Intel Celeron 1000M | |
173 | Intel Core i5-2500S | |
173 | Intel Core2 Duo E4400 | |
172 | AMD Athlon 64 X2 4400+ | |
171 | Intel Celeron N3150 | |
171 | Intel Core2 Duo T7300 | |
170 | Intel Pentium DualT2390 | |
169 | Intel Core2 Duo T5800 | |
169 | Intel Core2 Duo T5750 | |
168 | Intel Core i7-2677M | |
168 | AMD Athlon II P320 DualCore | |
167 | Intel Core2 Duo T7250 | |
167 | Intel Core i7-2675QM | |
167 | Intel Core2 T7200 | |
165 | Genuine Intel T2500 | |
165 | AMD Athlon 64 X2 4200+ | |
163 | Intel Pentium 2117U | |
163 | Genuine Intel 2140 | |
160 | Intel Pentium DualE2140 | |
160 | AMD A64400M APU with Radeon HD Graphics | |
160 | Intel Core2 Duo T5550 | |
159 | AMD Athlon II DualCore M300 | |
159 | AMD A4-9125 Radeon R3 4 COMPUTE CORES 2C+2G | |
157 | Intel Celeron B830 | |
156 | AMD Turion X2 DualCore Mobile RM72 | |
156 | AMD Athlon 64 X2 3600+ | |
155 | Intel Pentium DualT2370 | |
155 | AMD Athlon 64 X2 4000+ | |
152 | Genuine Intel T2400 | |
152 | AMD Turion 64 X2 Mobile Technology TL60 | |
150 | Intel Celeron B820 | |
150 | AMD Athlon 64 X2 3800+ | |
148 | Intel Pentium D | |
147 | Intel Pentium DualT2330 | |
147 | Intel Core2 Duo T7100 | |
145 | AMD Turion 64 X2 Mobile Technology TL58 | |
143 | Intel Celeron B815 | |
142 | Genuine Intel T2300 | |
142 | Genuine Intel T2080 | |
140 | Intel Core2 T5500 | |
138 | Intel Core2 Duo P8600 | |
138 | Intel Celeron 1007U | |
138 | Genuine Intel T2050 | |
137 | Intel Core2 Duo T5450 | |
136 | Intel Atom x5-Z8350 | |
134 | Intel Celeron B800 | |
134 | Intel Pentium III | |
132 | Intel Pentium DualT2310 | |
132 | Intel Core i5-2415M | |
128 | AMD Turion 64 X2 Mobile Technology TL50 | |
127 | Intel Core i5-2435M | |
125 | AMD Sempron 145 | |
125 | Genuine Intel U7300 | |
121 | Intel Core2 Duo T5250 | |
121 | Intel Pentium 4 | |
119 | Intel Celeron N2840 | |
119 | AMD Sempron 140 | |
118 | Intel Core i7-2635QM | |
117 | Genuine Intel U4100 | |
117 | Intel Celeron J1800 | |
117 | Intel Atom 330 | |
110 | Intel Celeron N2830 | |
108 | Intel Core Duo | |
107 | Intel Celeron N3060 | |
106 | AMD Athlon XP 3000+ | |
104 | AMD E21800 APU with Radeon HD Graphics | |
104 | AMD E16010 APU with AMD Radeon R2 Graphics | |
102 | AMD E350 | |
101 | AMD E1-6010 APU with AMD Radeon R2 Graphics | |
99 | AMD Athlon 64 3800+ | |
98 | AMD E450 APU with Radeon HD Graphics | |
98 | Intel Celeron 900 | |
97 | AMD Athlon XP 2600+ | |
92 | Intel Pentium M | |
92 | Intel Atom D525 | |
92 | Intel Celeron 847 | |
92 | AMD E-350 | |
92 | Intel Celeron N3050 | |
91 | AMD E-450 APU | |
86 | AMD Athlon 64 3200+ | |
86 | Intel Atom N570 | |
85 | Intel Atom N2600 | |
84 | AMD E11200 APU with Radeon HD Graphics | |
82 | AMD Athlon 64 3500+ | |
80 | Intel Celeron M | |
80 | AMD E300 APU with Radeon HD Graphics | |
78 | AMD E1-1200 APU | |
77 | AMD E12100 APU with Radeon HD Graphics | |
71 | AMD E-300 APU | |
71 | AMD C60 APU with Radeon HD Graphics | |
70 | AMD Sempron 3000+ | |
69 | Intel Celeron | |
64 | AMD C50 | |
64 | AMD Athlon 64 3000+ | |
62 | Intel Atom N280 | |
61 | Intel Atom N270 | |
51 | AMD Sempron 2800+ | |
50 | Intel Celeron D | |
39 | Intel Atom N455 | |
31 | Intel Atom N450 |
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Novabench
AMD vs Intel — a comparison between Celeron, Pentium and Athlon Processors
Update 20181211: Notice to readers: this article is quite old
(originally posted 2002), but still provides an excellent overview of computer
processor history from the early 1990s to 2002. If you want to read a much more
recent and up-to-date article about processors, we suggest reading «Which
Processor is Better: Intel or AMD? — Explained». Otherwise, please continue
reading!
—
Almost exactly a year ago this day I wrote an article which compared differences between AMD and Intel Processors. Oddly enough, today I received a question from Ali N. which asked, «What is the difference between the Pentium 2, Pentium 3 and Pentium 4?»
To shed some light on Ali’s question, I’ve decided to re-print and rewrite portions of last year’s article to give it a more modern taste. The article begins with a
brief processor history, starting with Intel’s Pentium 1 processor. The end of the article is followed by a comparison-overview chart to better explain the differences in Front Side Bus (FSB) speed which can have a dramatic effect on the overall performance of a computer system.
Without further adieu, here it is …
Intel Processor History: starting with the Pentium 1
In 1993, Intel brought the PC to a new level with the Pentium processor. The first Pentium processor ran at an astounding 60 Mhz, had 3.3 million transistors, and performed 100 Million Instructions Per Second (MIPS). Although no one today refers to the first Pentium processor as a Pentium 1, it is the original of 4 types of Pentium processors developed by Intel
The Pentium 2 and the Celeron
Once the first Pentium processor technology became obsolete, the Pentium 2 was introduced. Starting at 233 MHz, the Pentium 2 took over its sibling’s footsteps and was designed to run from 233 MHz to 450 Mhz. At about the same time, the Intel Celeron processor was presented; it was identical to the Pentium 2 except it was considered a «lower end» processor because of two main differences: a smaller cache and a slower bus speed, also known as the Front Side Bus or FSB speed rating*.
* Cache memory is a special part of the processor which helps to process frequently used information faster. FSB is the speed that the processor communicates with all other peripherals inside the computer. FSB speed can have a profound influence on the overall speed of a computer. For example: Pentium 2 processors ran a 100 MHz Front Side Bus, compared to lower-end Celerons which operated at 66 MHz.
The Pentium 3
Not too long after the introduction of the Celeron, the first Pentium 3 processor replaced the Pentium 2 and ran at 450 MHz. The Pentium 3 bus was first rated at 100 MHz but then increased to 133 MHz beginning with the 500 MHz model processor — also known as the «500EB» model.
The AMD Athlon Processor
Even though AMD has been around for quite some time, AMD’s popularity did not come into the spotlight until the introduction of the Athlon processor. At around the same time that Intel introduced their 600 MHz Pentium 3 processors, AMD wowed the world with the Athlon processor.
The Athlon processor not only ran programs just as well as the Intel Pentium 3 and its predecessors, but its bus speed also ran twice as fast as the Pentium 3. AMD’s groundbreaking technology utilized a dual front side bus, even though the raw processing speed (or MHz rating) was the same as Intel’s Pentium 3 or Celeron processors.
The AMD Duron
AMD became a success story with the Athlon processor and, like Intel, began producing a lower cost processor — the AMD Duron — which also had less cache.
At this time, the Celeron’s FSB ran at a mere 66 MHz while the Duron boasted a 200 MHz bus. This gave consumers an excellent value for their money, considering that the Duron was much cheaper than a Celeron.
The Duron processor is set to cease production in 2003, when it will be replaced by a newer model, called the Opteron.
The Pentium 4
The Pentium 3 ended its reign at 1400 MHz (or 1.4 GHz) and has been replaced by its bigger brother, the Pentium 4. The Intel Celeron processors are still in production today, reaching speeds up to 2200 MHz and beyond (December, 2002), with an amazing 400 MHz Front Side Bus. The current Pentium 4 processor breaks the 3000 MHz (or 3 GHz) barrier and has an impressive Front Side Bus of 533 MHz.
Today’s Processors: the AMD Athlon XP vs the Intel Pentium 4
Not too long ago, AMD introduced their new line of Athlon processor: the Athlon XP. While still an Athlon processor, the Athlon XP does not use the conventional MHz rating to depict its speed.
AMD believes that a MHz rating would undermine its true performance and therefore wishes to change public perception. For those who insist of raw MHz numbers, AMD claims a 25% performance increase of their XP 1900+ compared to a Pentium 4 running at 1900 Mhz.
The AMD Athlon XP speed rating calculation
Information about how to calculate the raw MHz speed rating of an AMD Athlon XP processor was discussed in a previous newsletter, dated August 22, 2002. In brief:
If you remember how to «solve for x» using High School math, AMD’s speed rating can be calculated. The variable X can represent the MHz rating using the below generic formula:
MHz = (XP rating/1.5) + (500/1.5)
For example, using the 1800+ processor QuantiSpeed rating:
MHz = (1800+/1.5) + (500/1.5)
MHz = 1200 + ~333.33333333…
MHz = ~1533.33
The squiggly ~ means «approximately.» Since .333 is infinitely repeated, it’s just nice way to represent «short form.»
More bang for the buck?
Quite simply said: the AMD Athlon XP processor runs very close to an Intel Pentium 4 processor and is about half the price. RDR RAM, which is used in a Pentium 4 machine, is roughly double the price of DDR RAM used in a AMD Athlon XP machine. Comparably so, RDR RAM runs faster than does DDR RAM: 533 MHz compared to 333 MHz FSB (December, 2002).
Intel has a much larger market share than AMD and has had plenty of time to build a solid public image. Intel also aggressively advertises their processors, which might explain why they are about double the price of their major competitor, AMD.
Which Processor is Better: Intel or AMD?
Update 20181211: The above article was written in 2002, yet it still gets
quite a lot of traffic from Google to date. Since this article was published, I
have received many questions from folks asking «Which
processor is better: Intel or AMD?» Unfortunately, the answer to that
question found online is often skewed and subjective. As such, I have written
what I believe to be a very well rounded objective answer, and you can
read it here.
ASUS 500 and 400 series motherboards
ASUS X570 and B550 series motherboards based on the AMD AM4 platform are compatible with the latest AMD Ryzen 5000 series processors and feature advanced interfaces, including PCI Express 4.0 for graphics cards and high-speed storage. To assemble a budget system, the B450 series models will be an ideal solution.
AMD Zen 3 microarchitecture
AMD Ryzen 5000-series processors are great for the most demanding games, as well as excel in multi-threaded tasks, such as rendering 3D models or compiling code. Availability of up to 16 cores, execution of up to 32 computational threads simultaneously, frequency up to 4.9GHz and up to 72 MB of cache — with such fantastic performance, AMD Ryzen 5000 processors are game changing!
Processor and Chipset Compatibility Chart
AMD Athlon processors with Radeon |
AMD Ryzen 1000-series | AMD Ryzen 2000 Series 9 Processors0014 | AMD Ryzen 3000 Series | AMD Ryzen 3000 Series | AMD Ryzen 3000 Series | AMD Ryzen 5000-series | |
---|---|---|---|---|---|---|---|
X570 | x | x | x | ✓ | ✓ | ✓ | ✓ |
B550 | x | x | x | x | x | ✓ | ✓ |
B450 and X470 |
✓ | ✓ | ✓ | ✓ | ✓ | ✓ | * Some models require BIOS update |
Motherboards for AMD
Processors
The right motherboard is probably the most important choice you make when building a new computer. It’s not just choosing a component into which all the others will be inserted. The hardware and software aspects of the motherboard will determine the quality of the user experience with the computer throughout its life.
Download comparison chart
X570
B550
B450
Download
comparison chart
ASUS X570 series motherboards are ideal for overclockers and enthusiasts who want the best version of the AMD AM4 platform. Supporting the latest AMD Zen 3 processors and PCIe 4.0 bus, these models allow you to build feature-rich PC configurations with a clear upgrade path in the future.
ROG CROSSHAIR VIII DARK HERO
ASUS X570 series motherboards are preferred by the most demanding users and PC enthusiasts. ROG Crosshair VIII Formula, Hero and Impact models fully utilize the capabilities of the AMD X570 chipset in terms of available interfaces, while ROG Crosshair VIII Dark Hero boasts support for the latest processors based on Zen 3 microarchitecture, a completely passive cooling system and a powerful power system with TI power modules , designed for 90 A.
Learn more about ASUS X570 series motherboards
ASUS B550 series motherboards have everything you need to support the latest AMD processors based on the Zen 3 microarchitecture, including overclocking. They have almost the same powerful power subsystem as in models with the X570 chipset. Despite having fewer I/O ports than the X570 Series, PCIe 4.0 support makes them a great choice for PC configurations with the latest graphics cards and high-speed SSDs.
ROG Strix B550-F Gaming & TUF Gaming B550M-Plus
The ROG Strix B550-F Gaming motherboard has everything you need to build a powerful gaming system: a stable power system with efficient cooling, advanced audio technologies, Intel network controllers (Ethernet and Wi-Fi 6). In turn, the TUF Gaming B550M-Plus model offers numerous gaming features combined with impeccable reliability and durability. Both boards feature Intelligent Microphone Noise Canceling technology that filters out extraneous sounds such as key clatter, mouse clicks, and other ambient noise, leaving only crystal-clear voice sound—ideal for communicating with game partners.
Learn more about ASUS B550 series motherboards
ASUS B450 II series motherboards are an excellent choice for those who are looking for a quality and affordable solution. They offer an optimized power system and comprehensive cooling to ensure stable operation of various processors for the AM4 platform. These boards are compatible with the popular 3rd generation AMD Ryzen chips as well as the latest solutions based on the Zen 3* microarchitecture.
*Support for AMD Ryzen 5000 series processors will be added in January 2021.
ROG STRIX B450-F GAMING II
& TUF GAMING B450-PLUS II
The ROG Strix B450-F Gaming II and TUF B450-Plus II motherboards have everything you need to build a balanced PC system, including AMD Ryzen 3rd Gen series compatibility, powerful power, optimized cooling, and dual M.2 slots. To support a wide range of different Ryzen processors, these models use high-capacity BIOS chips, and the BIOS FlashBack feature facilitates firmware updates.
Learn more about ASUS B450 series motherboards
Overclocking records
ROG CROSSHAIR VIII DARK HERO
-
11002 MHz
Geekbench5 Single Core
World Record
with Ryzen 5 5950X
-
118010 MHz
Geekbench4 Multi Core
World Record
with Ryzen 5 5950X
-
6809cb
Cinebench R15
with Ryzen 5 5950X
-
207.548 fps
HWBOT x265 1080p
with Ryzen 5 5950X
ROG CROSSHAIR VIII IMPACT
-
6036 MHz
DDR4 memory clock speed
World record
with Ryzen 5 3600X
-
6437 MHz
CPU clock speed
with Ryzen 5 3600
-
34.
331 with
wPrime result- 1024
with Ryzen 7 3900XT
-
58439 points
Geekbench 3
Multi core
with Ryzen 7 3800XT
processor
ROG CROSSHAIR VIII FORMULA
ROG STRIX B550-I Gaming
For AMD Ryzen processors with Zen 3 microarchitecture
For all previously released ASUS 500 series motherboards (with X570, B550 and A520 chipsets), a firmware update is now available to make them compatible with AMD Ryzen processors based on the Zen 3 microarchitecture. You can download it from the pages of the corresponding models or from the ASUS technical support site https://www.asus.com/en/support.
The latest AMD Ryzen processors offer incredible processing power and are compatible with AMD 400 and 500 series chipsets, so now is the time to build a PC based on the AMD platform. Overclockers, enthusiasts, gamers, professional content creators — any user can choose the right motherboard for himself among the many ASUS models with X570 and B550 chipsets.
ASUS is proud to showcase great PC builds in a variety of form factors and themes to inspire you to build your own. If you need help, check out our handpicked guides and tips. To learn more about AMD’s AM4 platform and the compatibility of Ryzen processors with different chipsets, visit the information page.
Inspirations
All-ROG X570 Gaming and Editing Hybrid PC Build Guide
How to Build a X570 Ryzen RGB PC ft. ROG Strix X570-E Gaming — Step by step
PCDIY
Guides
B550 motherboard guide: ASUS and AMD bring PCI Express 4.0 to everyone with ROG Strix, TUF Gaming, and Prime
PCDIY
Guides
Guide: Update your ASUS motherboard’s BIOS for AMD Ryzen 5000-series processors
PCDIY
Guides
Refreshed ASUS B450 motherboards boost your build’s bang for the buck with ROG Strix, TUF Gaming, and Prime
PCDIY
Guides
Guide: pick your PC parts like a pro with ASUS
PCDIY
Guides
Guide: Build your next AMD PC with ASUS B550, X570, and TRX40 motherboards
PCDIY
Guides
How to get the most out of third-gen Ryzen CPUs and the X570 platform
PCDIY
Guides
The X570 motherboard guide: Ryzen™ to victory with PCI Express® 4.
0
Starting assembly
The new Crosshair VIII Impact + Lian Li TU150 + Strix 5700XT
Asus ROG Strix B550 A Gaming White
ROG Strix B550-I Gaming Mini ITX
Mods by Ben Q x ROG X570-E gaming Collab
JJ- TUF Gaming B450-Plus
Xtian C- ROG Strix X570-E Gaming
Snef Computer Design- ROG Crosshair VIII Impact
Mods by BenQ- ROG Strix B550-A Gaming
Starting assembly
AMD MY HERO BUILD
Other assemblies
Choosing components
-
Series Model Where to buy X570 ROG CROSSHAIR VIII FORMULA Buy ROG CROSSHAIR VIII HERO (WI-FI) Buy ROG CROSSHAIR VIII DARK HERO Buy ROG CROSSHAIR VIII HERO Buy ROG CROSSHAIR VIII IMPACT Buy ROG STRIX X570-E GAMING Buy ROG STRIX X570-F GAMING Buy ROG STRIX X570-I GAMING Buy TUF GAMING X570-PRO (WI-FI) Buy TUF GAMING X570-PLUS (WI-FI) Buy TUF GAMING X570-PLUS Buy PRIME X570-PRO Buy PRIME X570-P Buy Pro WS X570-ACE Buy B550 ROG STRIX B550-XE GAMING WIFI Buy ROG STRIX B550-E GAMING Buy ROG STRIX B550-I GAMING Buy ROG STRIX B550-F GAMING (WI-FI) Buy ROG STRIX B550-A GAMING Buy ROG STRIX B450-F GAMING II Buy TUF GAMING B550-PLUS (WI-FI) Buy TUF GAMING B550-PLUS Buy TUF GAMING B550M-PLUS (WI-FI) Buy TUF GAMING B550M-PLUS Buy PRIME B550-PLUS Buy PRIME B550M-A (WI-FI) Buy PRIME B550M-A AC Buy PRIME B550M-A Buy PRIME B550M-K Buy B450 ROG STRIX B450-F GAMING II Buy ROG STRIX B450-I GAMING Buy TUF GAMING B450-PLUS II Buy TUF GAMING B450M-PLUS II Buy TUF Gaming B450M Pro-S Buy PRIME B450M-A II Buy PRIME B450M-K II Buy ASUS X570 B550 B450 Motherboards
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Series Model Where to buy ROG Strix ROG-STRIX-LC-RX6800XT-O16G-GAMING Coming soon ROG-STRIX-RX6800-O16G-GAMING Coming soon TUF Gaming TUF-RX6800XT-O16G-GAMING Coming soon TUF-RX6800-O16G-GAMING Coming soon Reference RX6800XT-16G Coming soon RX6800-16G Coming soon RX6900XT-16G Coming soon ASUS Radeon RX-6800 Series
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Series Model Where to buy ROG ROG RYUJIN 360 Buy ROG RYUJIN 240 Buy ROG RYUO 240 Buy ROG RYUO 120 Buy ROG Strix ROG STRIX LC 360 RGB WHITE EDITION Buy ROG STRIX LC 360 RGB Buy ROG STRIX LC 240 RGB WHITE EDITION Buy ROG STRIX LC 240 RGB Buy ROG STRIX LC 120 RGB Buy TUF TUF Gaming LC 120 RGB Buy TUG Gaming LC 240 RGB Buy ASUS All-in-one Liquid Cooler
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Series Model Where to buy ROG ROG-THOR-1200P Buy ROG-THOR-850P Buy ROG-STRIX-850G-WHITE Buy ROG Strix ROG-STRIX-1000G Buy ROG-STRIX-850G Buy ROG-STRIX-550G Buy ROG-STRIX-750G Buy ROG-STRIX-650G Buy TUF Gaming TUF-GAMING-550B Buy TUF-GAMING-750B Buy TUF-GAMING-650B Buy TUF-GAMING-450B Buy ASUS Power Supply Units
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Series Model Where to buy WiFi 6 Ready DSL-AX82U Buy TUF Gaming AX5300 Buy RT-AX88U Buy RT-AX89X Buy RT-AX92U Buy RT-AX3000 Buy RT-AX55 Buy RT-AX56U Buy RT-AX58U Buy RT-AX82U Buy RT-AX86U Buy ASUS WiFi 6 Solution
Pre-assembled
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ASUS ROG Crosshair VIII Hero
Buy
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Velocity Micro
ASUS ROG Crosshair VIII Hero
Buy
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Falcon Northwest
ASUS ROG Crosshair VIII Hero WiFi
Buy
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Falcon Northwest
ROG Strix X570-I Gaming
Buy
Firmware update procedure
- BIOS FLASHBACK ®
- EZ FLASH 3
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BIOS Flashback
®
Required:
- Computer Power Supply
- USB stick
- ASUS board with BIOS Flashback ®
Download the correct version of UEFI BIOS
Download and extract the BIOS code archive from www. asus.com or by clicking the appropriate link in the compatible models table below.
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Rename the BIOS code file
Name the BIOS file as specified in the readme.txt file in the zip file and save it to the root directory of the USB drive.
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Turn off the computer , but do not turn off the power
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Plug in the USB stick and press the BIOS FlashBack button
Plug the USB stick into the dedicated USB port with USB BIOS Flashback function. Then press and hold the USB BIOS Flashback button for 3 seconds until the corresponding LED starts flashing. Release the button.
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EZ FLASH 3
System requirements:
- The EZ Flash 3 utility allows you to update the motherboard firmware using a USB flash drive or via the Internet. Look for detailed information on the page of the official ASUS website dedicated to a specific model of the motherboard.
Connect Ethernet cable
Connect a wired network cable to your computer. An active internet connection is required to update the firmware.
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Launch the EZ Flash 3 Utility
Enter the BIOS interface by pressing the Delete or F2 key while the computer boots. Then press the F7 key to switch to advanced configuration mode. After that, select the menu item Tool («Service») and run the utility EZ Flash 3.
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Update BIOS firmware online
To download and update the firmware, select Via Internet, then select an active Internet connection and follow the instructions on the screen.
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Complete update
Please wait while the EZ Flash 3 utility updates the firmware. After this process is completed, the computer will automatically restart.
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List of compatible models
- 500 series
- 400 series
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The following is a list of ASUS 500 series motherboards that are compatible with AMD Ryzen 5000 processors using the specified firmware version (or later).
*Availability of ASUS motherboards varies by region.
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The following is a list of ASUS 500 series motherboards that are compatible with AMD Ryzen 5000 processors using the specified firmware version (or later).
*Availability of ASUS motherboards varies by region.
amd mobile processor list
What generation of CPU should I buy?
New processors come out every year, and it’s often tempting to buy a new component to simply buy «the latest and greatest.» But is it really worth chasing the latest technology, or is it better to save money by choosing an older model?
In general, using the latest processors is the best option, as the prices of older CPUs rarely drop low enough to actually save a lot.
Of course, you can still get the latest generation CPU at a bargain price, but if you really want to save money, your best bet is to buy a used CPU rather than a new one. Of course, such a deal is always risky, but processors are considered «safer» components in this respect.
If you are aware of the usual factors to look out for when buying used equipment — good seller reviews, box and documentation, etc. — then everything should be fine
If we are talking specifically about the Ryzen line, then at the moment there have been three generations, but the release of the fourth is just around the corner. This includes the original Ryzen 1000 (Zen), Ryzen 2000 (Zen+), and Ryzen 3000 (Zen 2), while the Ryzen 4000 (Zen 3) series is scheduled to release towards the end of 2020.
Overall, the 3rd Gen Ryzen models offer a more noticeable performance boost over the 2nd Gen, which is only marginally better than the previous generation when it comes to gaming.
Still, Ryzen 3rd Gen is the best option, but it would also be wise to wait a few more weeks and see how much of a performance boost the new 4th Gen models offer.
Features
Architecture name | Stoney Ridge |
Family | AMD A-Series Processors |
Production date | June 1, 2016 |
OPN Tray | AM9220AYN23AC |
OS Support | Windows 10 — 64-Bit Edition, RHEL x86 64-Bit, Ubuntu x86 64-Bit |
Place in the ranking | 1360 |
Series | AMD A6-Series APU for Laptops |
Applicability | Laptop |
Support 64 bit | |
Base frequency | 2. 5 GHz |
Compute Cores | 5 |
Crystal area | 124.5mm |
Level 1 cache | 160KB |
Level 2 cache | 1MB |
Process | 28nm |
Maximum core temperature | 90°C |
Maximum frequency | 2.9 GHz |
Number of cores | 2 |
Number of GPU cores | 3 |
Number of threads | 2 |
Number of transistors | 1200 Million |
Unlocked | |
Maximum number of memory channels | 1 |
Maximum memory bandwidth | 17.1 GB/s |
Supported memory frequency | 2133MHz |
Supported memory types | DDR4 |
Maximum GPU clock | 655MHz |
Number of iGPU cores | 3 |
Integrated graphics | AMD Radeon R5 Graphics |
DisplayPort | |
HDMI | |
Configurable TDP | 10-15 Watt |
Supported sockets | FP4 BGA |
Power consumption (TDP) | 15 Watt |
PCI Express revision | 3. 0 |
AMD Virtualization (AMD-V) |
#3 — A10-7890K
A10-7890K is an AMD hybrid CPU. Despite the announcement of the development of a fundamentally new technology and generation of processors, AMD decided to release another model of the A10 line. The company positions this series of devices as an excellent choice for desktop PCs.
Model A10-7890K is the best in class solution for playing games online. Of course, the graphics settings will have to be lowered, but as a result, you will get good performance without severe overheating of the PC hardware.
Fig.6 — A10-7890K model packaging
This processor has an integrated Radeon graphics unit that allows:
The processor comes with a Wraith cooler, which features a very quiet operation. Also, the cooler supports backlight mode. Specifications A10-7890K:
- CPU family — A-Series;
- Clock frequency: 4.1 MHz;
- Connector type: Socket FM2+;
- Number of cores: 4 cores;
- There is an unlocked multiplier;
- Number of contacts: 906;
- Estimated cost — $ 130.
The main advantage of the A10-7890K is improved interaction with Windows 10.
The detailed characteristics of the processor are shown in the figure below:
8 – Cinebench R15 test result
As you can see, the tested component surpassed some AMD models in the A-10 and Athlon line in terms of its parameters. At the same time, the results obtained were not enough to outperform analogs from Intel in terms of performance.
Letter designations
As with many Intel Core models, some AMD Ryzen processors have specific letter designations at the end of the model number. So, what are AMD’s designations and what do they mean?
You will probably find the two most common letter designations:
- X — Indicates that the processor has a higher overclock speed and provides better overclocking performance, although as mentioned earlier, the multiplier of all Ryzen processors is unlocked.
- G — Indicates that the processor is an APU.
However, there are several less popular designations:
- AF – Only used in two processors so far, the Ryzen 5 1600 AF and Ryzen 3 1200 AF, which are based on the Zen+ architecture and were released as low cost 12nm variants.
- E/GE — Used to indicate that the CPU/APU is more energy efficient.
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XT — currently only used for three updated processors (Ryzen 5 3600XT, Ryzen 7 3800XT and Ryzen
XT) to point to a slight increase in overclocking clock speed and overclocking performance that sets them apart from their predecessors. Which APU to choose
Now it’s time to help you make your choice:
- The Ryzen 5 3400G is a fantastic all-round processor capable of handling some demanding AAA games right out of the box, without any graphical accompaniment.
- Ryzen 5 2400G — If you’re looking for a decent starter processor that will play some AAA games, then this is the processor for you. A great start if you’re thinking about future updates.
- Ryzen 3 3200G — If you’re a big fan of the 2200G but want a little extra power, this processor might suit your needs.
- Ryzen 3 2200G — if you want great value for money!
We personally recommend the Ryzen 5 3400G. In terms of value, this is one of the best processors in terms of price/performance ratio, and it is an ideal starting point for the AM4 platform in general, especially if you are not going to use the RTX 2080 later.
Zhaoxin: Chinese alternative to AMD and Intel for the lower price segment
So, ARM is beginning to more confidently master the space of PCs and data centers. But what about x86 manufacturers — who, if not AMD or Intel?
Only a few companies have x86 licenses: Intel, AMD, VIA, and DMP Electronics. DMP is a Taiwanese company responsible for the Vortex86 line of embedded chips used in set-top boxes and the industrial sector. But there is also the Chinese market, which, moreover, seeks to obtain maximum autonomy from the American one — and VIA is just one of them.
Once upon a time in the 2000s, VIA produced not only processors, but also video cards, and did it very successfully. But over time, it was strongly pushed by Intel and AMD, so in 2013, together with the Shanghai municipal government, it organized the Zhaoxin company. Zhaoxin is owned by the Chinese government, so it has full control over the development and production of chips — which, by the way, are manufactured at TSMC factories
VIA continues to own a minority stake in Zhaoxin and, most importantly, grants an x86 license allowing Zhaoxin to build its own desktop processors
Zhaoxin’s first solutions were not particularly popular, but starting with the KX-U6780A, the situation has changed.
Zhaoxin Kaixian processors are based on 16nm process technology. The company’s flagship, KX-U6880A, is an 8-core chip based on Lujiazui’s own architecture, equipped with 8 MB of L3 cache and clocked at 3.0 GHz. The chip also contains controllers for 16 PCI Express 3. 0 lanes, USB and SATA, which allows you to connect, say, an Nvidia RTX 2080 Ti to it.
Sounds pretty good, but when it comes to benchmarks, the results are not exactly bad, but not the best either: the U6880A has a performance level similar to AMD’s A10-9 quad-core processor700 APUs. However, this power is enough to provide frame rates above 30 FPS in titles such as Hitman 3 and Far Cry 5.
new architecture and use DDR5 and PCI Express 4.0 interface. All of this opens the door to higher clock speeds and greater efficiency. It is not known how much this will help improve performance compared to Alder Lake and Zen 4
However, Zhaoxin chips are a good and — importantly — commercially available Chinese x86 alternative that will easily handle most common workloads.
FAQ
The fears are unfounded: the current CPUs from this company are all right with heat — even boxed coolers can handle it. However, it is better to take the OEM version and purchase a cooling system separately, choosing a more efficient and quiet one.
The number of cores and frequency are not the only characteristics that are important when choosing a processor, and one octa-core processor can outperform another (obsolete or not very successful) many times over in performance
Architecture is also important, so you should always look at test results in games and programs from independent experts and reputable computer resources.
This requires a power supply with overcapacity, a good cooling system, a ventilated case and a motherboard with overclocking support. An easy way is to download the AMD OverDrive program and experiment with the sliders. Before that, it is advisable to familiarize yourself with the overclocking results of other users: this will allow you to quickly «feel» the optimal parameters at which the CPU reaches maximum performance without losing system stability
A difficult option is overclocking through the BIOS: it requires more in-depth knowledge and is not suitable for beginners, because if careless regulation, for example, voltage, the processor can fail. Those who want to try this type of overclocking can find a detailed guide on their own — there are many of them, including for specific models of processors and motherboard chipsets
Ryzen 3 2300X and Ryzen 5 2500X. On a budget, the Ryzen 1300X is overclocked, but with caveats.
If you install Windows 7, there may be problems with the video core drivers of Zen hybrid APUs such as the Ryzen 3 2200G. But Ryzen of the first and second generation without integrated graphics work fine with the «seven».
Benchmarks AMD A6-3620 APU
Gaming speed
44.7
Performance in games and similar applications, according to our tests.
The performance of 4 cores, if any, and performance per core has the greatest impact on the result, since most games do not fully use more than 4 cores.
The speed of caches and working with RAM is also important.
Speed in office use
46.6
Performance in everyday work such as browsers and office applications.
The performance of 1 core has the greatest impact on the result, since most of these applications use only one, ignoring the rest.
Similarly, many professional applications such as various CADs ignore multi-threaded performance.
Speed in heavy applications
21.4
Performance in resource-intensive tasks loading a maximum of 8 cores.
The performance of all cores and their number have the greatest impact on the result, since most of these applications willingly use all the cores and increase the speed accordingly.
At the same time, certain periods of work can be demanding on the performance of one or two cores, for example, applying filters in the editor.
Data obtained from tests by users who tested their systems with and without overclocking. Thus, you see the average values corresponding to the processor.
CPU versus hybrid
The Ryzen line includes both central processing units (CPU) and hybrid (APU — accelerated processor unit). How are they different?
Basically, an APU is just a marketing term coined by AMD to describe processors that are combined on a single die, eliminating the need for a discrete graphics card on some PCs.
APUs are great for PCs that aren’t meant to be used for any overly complex tasks, but are they good for gaming?
Actually, yes. Some of them are really good in games. Vega-equipped Ryzen APUs such as the Ryzen 3 3200G and Ryzen 5 3400G are going to be pretty good options, as demonstrated in the following video: they still cannot match what even the weakest modern discrete video cards are capable of. On top of that, hybrid models also offer significantly less processing power and are a bottleneck for most GPUs. Considering all these factors, it is worth saying that the APU is not the best choice if you are going to use a discrete graphics card.
Benchmarks AMD A6-3650 APU
Gaming speed
49.5
Performance in games and similar applications, according to our tests.
The performance of 4 cores, if any, and performance per core has the greatest impact on the result, since most games do not fully use more than 4 cores.
The speed of caches and working with RAM is also important.
Speed in office use
51.5
Performance in daily activities such as browsers and office programs.
The performance of 1 core has the greatest impact on the result, since most of these applications use only one, ignoring the rest.
Similarly, many professional applications such as various CADs ignore multi-threaded performance.
Heavy duty speed
23.4
Performance in resource-intensive tasks that load a maximum of 8 cores.
The performance of all cores and their number have the greatest impact on the result, since most of these applications willingly use all the cores and increase the speed accordingly.
At the same time, certain periods of work can be demanding on the performance of one or two cores, for example, applying filters in the editor.
Data obtained from tests by users who tested their systems with and without overclocking. Thus, you see the average values corresponding to the processor.
AMD Ryzen 5 2400G
Specifications
- Socket: AM4
- Number of Cores/Threads: 4/8
- Number of graphics cores: 11
- Base frequency: 3.6 GHz
- Graphics: Vega 11
- Graphics frequency: 1.2GHz
- Overclocking: yes
- Power TDP: 65W
Finally, if the Ryzen 3 2200G isn’t good enough for you and you want the best integrated graphics processor available, the Ryzen 5 2400 G is superior in every way to the aforementioned model, but slightly more expensive.
The main advantages of the Ryzen 5 compared to the Ryzen 3 2200G are multi-threading (the number of threads has increased to three additional Vega graphics cores. All this contributes to the overall performance of this processor. In terms of graphics, you have seen what 8 Vega cores can do , so you have a rough idea of what 11 will allow to achieve. Needless to say, this most powerful APU at the moment outperforms even some budget discrete graphics cards.Of course, it falls short of the RX 560 or GTX 1050, but it allows you to play even at 1080p .
In addition, with 8 threads, it multitasks better than the previous Ryzen 3 model, although it is inferior to Intel in tasks where only one thread is involved. As before, Intel provides more processing power, but it’s the graphics that give Ryzen 5 the edge.
In general, the Ryzen 5 2400G is questionable in terms of value for money. It’s definitely a step up in terms of graphics and multitasking, but whether that upgrade is worth the extra $50 is an open question.
Pluses
- The most powerful APU so far
- Best Integrated Graphics
Cons
- Limited performance in single-threaded tasks
- Questionable value for money
Game benchmarks
FPS measured by us in popular games on AMD A6-3670 APU and system requirements
Please note that the official requirements of developers in games do not always match the data of real tests. Also, the result is strongly influenced by system overclocking and graphic settings in the game.
Compare
Hygon Dhyana — the same AMD, only from China
China actively encourages the development of its own production and is not very friendly to imported ones. That is why many companies have to spin to cover this part of the market. So, in 2016, AMD signed an agreement with Hygon to provide access to the documentation of its Zen architecture in order to establish local production of CPUs based on it.
Hygor Dhyana processors are the result of this collaboration. These are almost complete copies of AMD Ryzen and first-generation EPICs based on the Zen 1 architecture, although not quite: for example, a Chinese-made cryptographic engine is used inside these chips, many instructions are cut off and there is no multithreading. Judging purely by the characteristics, we can say that the 8-core Hygon Dhyana is located somewhere between the 6-core Ryzen 5 1600X and the 8-core Ryzen 7 1800X.
When it comes to performance, things are much more complicated. In some applications — for example, in rendering tasks — Hygon processors perform quite well, but in others they are very deplorable. This is especially true for floating point calculations. Obviously, AMD did not begin to give complete documentation on the architecture.
At the same time, according to Zen 2 and Zen 3, the Chinese have nothing at all. It would seem that this should have meant a dead end branch in development, but no: the release of the next generation of Hygon processors is still expected. Samsung and TSMC plan to manufacture them using the 7nm process technology — about 500 engineers were hired specifically for this.
AMD FX processors.
AMD FX processors are a high performance line of processors from the AMD family with the multiplier unlocked. The maximum performance of AMD FX processors is achieved through manual overclocking (AMD Overdrive + AMD Catalyst Control Center package) or automatic overclocking using AMD Turbo Core technology (dynamic frequency change). AMD FX processors handle multitasking and computing with ease, regardless of configuration. The AMD FX line contains 4, 6 and 8 core processors.
AMD FX Processors
Model number Frequency Total L2 cache L3 cache Socket Estimated heat output CMOS technology FX 9590* 4.7/5.0 GHz 8 MB 8 MB AM3+ connector 220 W 32 nm SOI FX 9370* 4.4/4.7 GHz 8 MB 8 MB AM3+ connector 220 W 32 nm SOI FX 8370 4.0/4.3 GHz 8 MB 8 MB AM3++ connector 125W 32 nm SOI FX 8370E 3.3/4.3 GHz 8 MB 8 MB AM3+ connector 95W 32 nm SOI FX 8350 4. 0/4.2 GHz 8 MB 8 MB AM3+ connector 125 W 32 nm SOI FX 8320 3.5/4.0 GHz 8 MB 8 MB AM3+ connector 125 W 32 nm SOI FX 8320E 3.2/4.0 GHz 8 MB 8 MB AM3+ connector 95W 32 nm SOI FX 6350 3.9/4.2 GHz 6 MB 8 MB AM3+ connector 125 W 32 nm SOI FX 6300 3.5/4.1 GHz 6 MB 8 MB AM3+ connector 95W 32 nm SOI FX 6200 3.8/4.1 GHz 6 MB 8 MB AM3+ connector 125 W 32 nm SOI FX 6100 3.3/3.9GHz 6 MB 8 MB AM3+ connector 95W 32 nm SOI FX 4350 4. 2/4.3 GHz 4 MB 8 MB AM3+ connector 125 W 32 nm SOI FX 4300 3.8/4.0 GHz 4 MB 4 MB AM3+ connector 95W 32 nm SOI FX 4130 3.8/3.9GHz 4 MB 4 MB AM3+ connector 125 W 32 nm SOI FX 4100 3.6/3.8 GHz 4 MB 8 MB AM3+ connector 95W 32 nm SOI Features
Reviews
Sales
Choice of AMD Ryzen processors. TOP 5 Ryzen Processors (Winter 2020)
*Video may differ from article
What is APU Processor
Although accelerated processor is a very attractive name, make no mistake: APU is just a combination of CPU and GPU. For example, many Intel processors that use integrated graphics are essentially the same as APUs. However, their graphics chips are far less powerful than those found in these Ryzen APUs.
Note: You can also use them strictly as a CPU by adding a dedicated GPU (video card) to your build.
A similar concept can be found in other industries under the name «SoC». SoC stands for «System on Chip» and they tend to combine all the components of a system into a single «chip». This is common in gaming consoles (eg PS4 and Xbox One use AMD SoCs), smartphones and occasionally laptops.
What about Ryzen mobile APUs?
If you follow tech news, you may know that AMD recently announced a Ryzen APU for gaming laptops. At the time of writing, they have not yet been released, but in all likelihood they are unlikely to outperform Ryzen desktop APUs.
Is buying a new Ryzen processor a good idea?
Finally, there is one more question to answer: is it worth switching to Ryzen right now?
Well, not really, and not just because Ryzen 4000 is on the horizon. The fact is that AMD will introduce the new AM5 socket in 2021, along with the Ryzen 5000 series processors, so the upcoming Ryzen 4000 models will be the last generation of Ryzen to use the AM4 socket.
So, if you want your PC to be future-proof, it might be worth waiting for the Ryzen 5000 lineup with an AM5 type API.
Of course, if you want to build a new PC right now and don’t worry too much about the distant future, now is the perfect time to upgrade.
AMD Sempron, AMD Athlon APUs.
AMD Sempron and AMD Athlon hybrid processors are an update of the previous lines of the same name, have high performance and multitasking due to:
- integrated AMD Radeon R3 graphics card with DirectX 11.2 support,
- integrated memory controller supporting DDR3.
- built-in USB 3.0 controller,
- integrated controller SATA 3 — 6 Gb / s.
Processors are available in dual-core (AMD Sempron X2) or quad-core (AMD Sempron X4, AMD Athlon X4) solutions for socket AM1 with a power dissipation of 25W.
AMD Sempron APU Model Numbers and Comparison Model number 3850 2650 AMD Radeon 9 Graphics0033 Radeon R3 Graphics Radeon R3 Graphics Number of CPU cores 4 2 CPU clock speed 1.3 GHz 1.45 GHz Estimated heat output 25W 25W Shared dedicated L2 cache 2MB 1 MB Number of Radeon Cores 128 128 GPU clock speed 450 MHz 400 MHz GCN Technology Yes Yes Platform AM1 AM1 DDR3 speed 1600 1333 AMD Athlon APU Model Numbers and Comparison Model number 5350 5150 AMD Radeon Graphics
Radeon R3 Graphics Radeon R3 Graphics Number of CPU cores 4 4 CPU clock speed 2. 0 GHz 1.6 GHz Estimated heat output 25W 25W Shared dedicated L2 cache 2MB 2 MB Number of Radeon Cores 128 128 GPU clock speed 600 MHz 600 MHz GCN Technology Yes Yes Platform AM1 AM1 DDR3 speed 1600 1600 Comparison of A6 6310 with similar processors
Performance
Performance using all cores.
Tested with: PCMark 8 Home 3.0 Accelerated, PassMark, Geekbench 3 Multi-Core.
A6 6310
7.2 out of 10Core i3 4010U
7.1 out of 10Core i7 4550U
9.0 out of 10Performance per core
Base performance per processor core.
Tested on: PassMark (Single Core), Geekbench 3 Single Core, Geekbench 3 AES Single Core.
A6 6310
6.3 out of 10Core i3 4010U
7.2 out of 10Core i7 4550U
8.9 out of 10Integrated graphics
Integrated GPU performance for graphics tasks.
A6 6310 n/a Core i3 4010U 8.0 out of 10 Core i7 4550U n/a Integrated Graphics (OpenCL)
Embedded GPU performance for parallel computing.
Tested on: CompuBench 1.5 Bitcoin mining, CompuBench 1.5 Face detection, CompuBench 1.5 Ocean Surface Simulation, CompuBench 1.5 T-Rex, CompuBench 1.5 Video composition.
A6 6310
6.9 out of 10Core i3 4010U
7.5 out of 10Core i7 4550U
8.0 out of 10Performance per Watt
How efficiently the processor uses electricity.
Tests used: Sky Diver, Cloud Gate, CompuBench 1.5 Bitcoin mining, CompuBench 1.5 Face detection, CompuBench 1.5 Ocean Surface Simulation, CompuBench 1. 5 T-Rex, CompuBench 1.5 Video composition, PCMark 8 Home 3.0 Accelerated, PassMark, Geekbench 3 Multi -Core, PassMark (Single Core), Geekbench 3 Single Core, Geekbench 3 AES Single Core, TDP.
A6 6310
5.1 out of 10Core i3 4010U
5.2 out of 10Core i7 4550U
5.4 out of 10Price-performance ratio
How much you overpay for performance.
CPU tests performed on: Sky Diver, Cloud Gate, CompuBench 1.5 Bitcoin mining, CompuBench 1.5 Face detection, CompuBench 1.5 Ocean Surface Simulation, CompuBench 1.5 T-Rex, CompuBench 1.5 Video composition, PCMark 8 Home 3.0 Accelerated, PassMark, Geekbench 3 Multi-Core, PassMark (Single Core), Geekbench 3 Single Core, Geekbench 3 AES Single Core, System Price (adjusted).
A6 6310
6.2 out of 10Core i3 4010U
5.5 out of 10Core i7 4550U
5.0 out of 10A little bit of history
Before answering the main question, we should understand how the CPU market looked relatively recently. Basically, Intel was the undisputed leader, as the company offered more advanced technologies and better overall performance, especially in the «high-end» segment. AMD, on the other hand, provided more affordable solutions that relied on raw power to compete with what Intel offered.
While AMD has kept up with the times, for the most part things have gotten worse since 2013. The company released the FX series of processors, which not only had a large number of cores (for that time), but also excellent performance, high overclocking potential and excellent base clock speeds. Of course, when they first appeared, they were very appropriate. However, years passed, and AMD was no longer able to offer something worthwhile. The technology stalled and quickly gave way to Intel, whose processors improved year after year.
Of course, the FX series soon fell into the lower segment with rare appearances in the middle. AMD A-series APUs were only found in basic non-gaming computers. The only glimmer of hope for AMD was the upcoming Zen architecture, which has been in development for years. In 2017, this finally happened, and now we have what we have.
How many processor models are there?
Like the Intel Core series, the Ryzen line is divided into several models:
- Ryzen 3 — affordable budget processors;
- Ryzen 5 — mid-range processors with a good price;
- Ryzen 7 — more expensive models focused on demanding tasks;
- Ryzen 9 is a top-of-the-line enthusiast model.
Apart from these four, there are Ryzen Threadripper, which are extremely expensive and mainly aimed at professional users, making them a poor choice for a gaming PC.
However, many are wondering how the above Ryzen processors differ and how do they perform when compared to each other? And more importantly, what should you choose when building a gaming PC?
AMD Elite Mobility APU
The new Temash APU platform will become the main platform for tablets of various form factors, transformers and compact mobile solutions.
The
APUs are manufactured using a fairly advanced 28nm process technology and are based on the new Jaguar cores. The processors are equipped with GPUs with 128 compute units, while the Graphics Cone Next (GCN) architecture provides support for the DirectX 11.1 API.
Temash have a single-channel DDR3-1066 memory controller. From the peripheral strapping, we note support for 6 USB 2.0 ports, one SATA 3Gb / s channel, flash cards and the ability to connect two independent screens with a resolution of up to 2560 × 1600.
The performance of the new APUs is noticeably faster than previous solutions from the company
At the same time, AMD focuses on a fundamental improvement in the ratio of performance per watt
Solutions support AMD Turbo Dock technology, which allows you to increase the performance of your tablet after you connect it to the docking station.
Currently, the line is represented by three models. Dual-core A4-1200 and A4-1250, as well as the world’s first quad-core SoC (System-on-Chip) — A6-1450. The clock frequencies of the computing units are 1–1.4 GHz, the GPU unit, depending on the model, operates at 225–400 MHz. In terms of power consumption, the quad-core model claims a TDP of 8W. The younger dual-core consumes no more than 3.9 watts, while the A4-1250 consumes 9 watts.
The area of responsibility of Temash processors is tablets, economical hybrid devices, as well as laptops with a diagonal of 10-11.6” and a touch screen.
If we talk about competition, then in the segment of tablets and hybrid systems Temash APUs should occupy an empty niche between solutions based on Intel Atom and Core i3. Whereas in the segment of compact notebooks the quad-core model A6-1450 will try to impose a struggle on systems with Pentium chips, and devices based on dual-core APUs will be opposed to products based on Intel Celeron.
Another interesting Temash-based device is the compact notebook Acer Aspire V5-122P. The model has a touch screen with a diagonal of 11.6” and a resolution of 1366×768. This ultraport uses a quad-core A6-1450, 4 GB of memory and a 500 GB hard drive. Of the nice additions is the backlighting of the keyboard, which is not often found on devices of this level. It is curious that the cost of such a model is expected at $450, and a similar modification with a dual-core APU will cost about $400.
We hope that with the announcement of the platform with Temash chips, AMD will be able to attract the attention of partners, and, of course, potential buyers of APU-based devices. After all, if solutions based on Brazos were quite popular, then the range of mobile devices based on the Hondo platform is quite limited.
It is in the context of tablets and hybrid devices that Temash’s capabilities look very promising. Sufficiently high performance of the computing part and especially integrated graphics allow diversifying the models of their use.
List-table of AMD Socket AM3 processors
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The AM3 platform replaced AM2+ in 2009 and was replaced by AM3+ in 2011.
Complete list of AMD processors for Socket AM3:
Model Process family Cores/Threads Frequency Turbo Cache_L2/3 CPUMark Memory Video core TDW Price Phenom_II X6_1100T Thuban (45nm) 6/6 3.3/3.7Ghz 3/6Mb 3692 DDR2/3 1066/1333 —- 125W Phenom_II X6_1090T Thuban (45nm) 6/6 3.2/3.6Ghz 3/6Mb 3603 DDR2/3 1066/1333 —- 125W Phenom_II X6_1075T Thuban (45nm) 6/6 3.0/3.5Ghz 3/6Mb 3231 DDR2/3 1066/1333 —- 125W Phenom_II X6_1065T Thuban (45nm) 6/6 2. 9/3.4Ghz 3/6Mb 3244 DDR2/3 1066/1333 —- 95W Phenom_II X6_1055T Thuban (45nm) 6/6 2.8/3.3Ghz 3/6Mb 3152 DDR2/3 1066/1333 —- 95W Phenom_II X6_1045T Thuban (45nm) 6/6 2.7/3.2Ghz 3/6Mb 2999 DDR2/3 1066/1333 —- 95W Phenom_II X6_1035T Thuban (45nm) 6/6 2.6/3.1Ghz 3/6Mb 2932 DDR2/3 1066/1333 —- 95W Phenom_II X4_980 Deneb (45nm) 4/4 3.7Ghz 2/6Mb 2829 DDR2/3 1066/1333 — 125W Phenom_II X4_975 Deneb (45nm) 4/4 3.6Ghz 2/6Mb 2479 DDR2/3 1066/1333 —- 125W Phenom_II X4_970 Deneb (45nm) 4/4 3. 5Ghz 2/6Mb 2643 DDR2/3 1066/1333 —- 125W Phenom_II X4_965 Deneb (45nm) 4/4 3.4Ghz 2/6Mb 2517 DDR2/3 1066/1333 —- 125W Phenom_II X4_960T Deneb (45nm) 4/4 3.0Ghz 2/6Mb 2183 DDR2/3 1066/1333 —- 95W Phenom_II X4_955 Deneb (45nm) 4/4 3.2Ghz 2/6Mb 2426 DDR2/3 1066/1333 —- 95W Phenom_II X4_945 Deneb (45nm) 4/4 3.0Ghz 2/6Mb 2233 DDR2/3 1066/1333 —- 95W Phenom_II X4_925 Deneb (45nm) 4/4 2.8Ghz 2/6Mb 2161 DDR2/3 1066/1333 —- 95W Phenom_II X4_910 Deneb (45nm) 4/4 2. 6Ghz 2/6Mb 1699 DDR2/3 1066/1333 —- 95W Phenom_II X4_910E Deneb (45nm) 4/4 2.6Ghz 2/6Mb 2016 DDR2/3 1066/1333 — 65W Phenom_II X4_905E Deneb (45nm) 4/4 2.5Ghz 2/6Mb 1919 DDR2/3 1066/1333 —- 65W Phenom_II X4_900E Deneb (45nm) 4/4 2.4Ghz 2/6Mb 1505 DDR2/3 1066/1333 —- 65W Phenom_II X4_B99 Deneb (45nm) 4/4 3.3Ghz 2/6Mb 2520 DDR2/3 1066/1333 —- 95W Phenom_II X4_B97 Deneb (45nm) 4/4 3.2Ghz 2/6Mb 2467 DDR2/3 1066/1333 —- 95W Phenom_II X4_B95 Deneb (45nm) 4/4 3Ghz 2/6Mb 2254 DDR2/3 1066/1333 —- 95W Phenom_II X4_B93 Deneb (45nm) 4/4 2. 8Ghz 2/6Mb 2104 DDR2/3 1066/1333 —- 95W Phenom_II X4_850 Propus (45nm) 4/4 3.3Ghz 2Mb/— 2397 DDR2/3 1066/1333 —- 95W Phenom_II X4_840 Propus (45nm) 4/4 3.2Ghz 2Mb/— 2353 DDR2/3 1066/1333 —- 95W Phenom_II X4_840T Zosma (45nm) 4/4 2.9/3.2Ghz 2/6Mb 2245 DDR2/3 1066/1333 — 95W Phenom_II X4_830 Deneb (45nm) 4/4 2.8Ghz 2/6Mb 1903 DDR2/3 1066/1333 —- 95W Phenom_II X4_820 Deneb (45nm) 4/4 2.8Ghz 2/4Mb 2108 DDR2/3 1066/1333 —- 95W Phenom_II X4_810 Deneb (45nm) 4/4 2. 6Ghz 2/4Mb 1688 DDR2/3 1066/1333 —- 95W Phenom_II X4_805 Deneb (45nm) 4/4 2.5Ghz 2/4Mb 1844 DDR2/3 1066/1333 —- 95W Athlon II X4_650 Propus (45nm) 4/4 3.2Ghz 2Mb/— 2390 DDR2/3 1066/1333 —- 95W Athlon II X4_645 Propus (45nm) 4/4 3.1Ghz 2Mb/— 2232 DDR2/3 1066/1333 —- 95W Athlon II X4_640 Propus (45nm) 4/4 3.0Ghz 2Mb/— 2137 DDR2/3 1066/1333 —- 95W Athlon II X4_635 Propus (45nm) 4/4 2.9Ghz 2Mb/— 2010 DDR2/3 1066/1333 —- 95W Athlon II X4_630 Propus (45nm) 4/4 2. 8Ghz 2Mb/— 2069 DDR2/3 1066/1333 — 95W Athlon II X4_620 Propus (45nm) 4/4 2.6Ghz 2Mb/— 1888 DDR2/3 1066/1333 —- 95W Athlon II X4_620E Propus (45nm) 4/4 2.6Ghz 2Mb/— —- DDR2/3 1066/1333 —- 45W Athlon_II X4_615E Propus (45nm) 4/4 2.5Ghz 2Mb/— 1900 DDR2/3 1066/1333 —- 45W Athlon II X4_610E Propus (45nm) 4/4 2.4Ghz 2Mb/— 1864 DDR2/3 1066/1333 —- 45W Athlon II X4_605E Propus (45nm) 4/4 2.3Ghz 2Mb/— 1959 DDR2/3 1066/1333 —- 45W Athlon II X4_600E Propus (45nm) 4/4 2. 2Ghz 2Mb/— —- DDR2/3 1066/1333 —- 45W Phenom_II X3_B77 Heka (45nm) 3/3 3.2Ghz 1.5/6Mb 1844 DDR2/3 1066/1333 —- 95W Phenom_II X3_B75 Heka (45nm) 3/3 3Ghz 1.5/6Mb 1485 DDR2/3 1066/1333 —- 95W Phenom_II X3_B73 Heka (45nm) 3/3 2.8Ghz 1.5/6Mb 1538 DDR2/3 1066/1333 — 95W Phenom_II X3_740 Heka (45nm) 3/3 3.0Ghz 1.5/6Mb 1424 DDR2/3 1066/1333 —- 95W Phenom_II X3_720 Heka (45nm) 3/3 2.8Ghz 1.5/6Mb 1573 DDR2/3 1066/1333 —- 95W Phenom_II X3_710 Heka (45nm) 3/3 2. 6Ghz 1.5/6Mb 1499 DDR2/3 1066/1333 —- 95W Phenom_II X3_705E Heka (45nm) 3/3 2.5Ghz 1.5/6Mb 1222 DDR2/3 1066/1333 —- 65W Phenom_II X3_700E Heka (45nm) 3/3 2.4Ghz 1.5/6Mb 1430 DDR2/3 1066/1333 —- 65W Athlon II X3_460 Rana (45nm) 3/3 3.4Ghz 1.5Mb/— 1890 DDR2/3 1066/1333 —- 95W Athlon II X3_455 Rana (45nm) 3/3 3.3Ghz 1.5Mb/— 1833 DDR2/3 1066/1333 —- 95W Athlon II X3_450 Rana (45nm) 3/3 3.2Ghz 1.5Mb/— 1756 DDR2/3 1066/1333 —- 95W Athlon II X3_445 Rana (45nm) 3/3 3. 1Ghz 1.5Mb/— 1768 DDR2/3 1066/1333 — 95W Athlon II X3_440 Rana (45nm) 3/3 3.0Ghz 1.5Mb/— 1690 DDR2/3 1066/1333 —- 95W Athlon II X3_435 Rana (45nm) 3/3 2.9Ghz 1.5Mb/— 1649 DDR2/3 1066/1333 —- 95W Athlon II X3_425 Rana (45nm) 3/3 2.7Ghz 1.5Mb/— 1547 DDR2/3 1066/1333 —- 95W Athlon II X3_425E Rana (45nm) 3/3 2.7Ghz 1.5Mb/— —- DDR2/3 1066/1333 —- 45W Athlon II X3_420E Rana (45nm) 3/3 2.6Ghz 1.5Mb/— 1495 DDR2/3 1066/1333 —- 45W Athlon II X3_415E Rana (45nm) 3/3 2. 5Ghz 1.5Mb/— 1441 DDR2/3 1066/1333 —- 45W Athlon II X3_405E Rana (45nm) 3/3 2.3Ghz 1.5Mb/— 1331 DDR2/3 1066/1333 —- 45W Athlon II X3_400E Rana (45nm) 3/3 2.2Ghz 1.5Mb/— 1320 DDR2/3 1066/1333 —- 45W Phenom_II X2_B59 Callisto (45nm) 2/2 3.4Ghz 1/6Mb 1337 DDR2/3 1066/1333 — 80W Phenom_II X2_B57 Callisto (45nm) 2/2 3.2Ghz 1/6Mb 1059 DDR2/3 1066/1333 —- 80W Phenom_II X2_B55 Callisto (45nm) 2/2 3.0Ghz 1/6Mb 1151 DDR2/3 1066/1333 —- 80W Phenom_II X2_B53 Callisto (45nm) 2/2 2. 8Ghz 1/6Mb —- DDR2/3 1066/1333 —- 80W Phenom_II X2_570 Callisto (45nm) 2/2 3.5Ghz 1/6Mb 1360 DDR2/3 1066/1333 —- 80W Phenom_II X2_565 Callisto (45nm) 2/2 3.4Ghz 1/6Mb 1389 DDR2/3 1066/1333 —- 80W Phenom_II X2_560 Callisto (45nm) 2/2 3.3Ghz 1/6Mb 1426 DDR2/3 1066/1333 —- 80W Phenom_II X2_555 Callisto (45nm) 2/2 3.2Ghz 1/6Mb 1294 DDR2/3 1066/1333 —- 80W Phenom_II X2_550 Callisto (45nm) 2/2 3.1Ghz 1/6Mb 1156 DDR2/3 1066/1333 —- 80W Phenom_II X2_545 Callisto (45nm) 2/2 3. 0Ghz 1/6Mb 1204 DDR2/3 1066/1333 —- 80W Phenom_II X2_521 Regor (45nm) 2/2 3.5Ghz 2Mb/— 1279 DDR2/3 1066/1333 —- 80W Phenom_II X2_511 Regor (45nm) 2/2 3.4Ghz 2Mb/— 1163 DDR2/3 1066/1333 —- 80W Athlon II X2_B30 Regor (45nm) 2/2 3.6Ghz 2Mb/— —- DDR2/3 1066/1333 —- 65W Athlon II X2_B28 Regor (45nm) 2/2 3.4Ghz 2Mb/— —- DDR2/3 1066/1333 —- 65W Athlon II X2_B26 Regor (45nm) 2/2 3.2Ghz 2Mb/— —- DDR2/3 1066/1333 —- 65W Athlon II X2_B24 Regor (45nm) 2/2 3. 0Ghz 2Mb/— 1052 DDR2/3 1066/1333 —- 65W Athlon II X2_B22 Regor (45nm) 2/2 2.8Ghz 2Mb/— 1000 DDR2/3 1066/1333 —- 65W Athlon II X2_280 Regor (45nm) 2/2 3.6Ghz 2Mb/— 1355 DDR2/3 1066/1333 —- 65W Athlon II X2_270 Regor (45nm) 2/2 3.4Ghz 2Mb/— 1231 DDR2/3 1066/1333 — 65W Athlon II X2_265 Regor (45nm) 2/2 3.3Ghz 2Mb/— 1233 DDR2/3 1066/1333 —- 65W Athlon II X2_260 Regor (45nm) 2/2 3.2Ghz 2Mb/— —- DDR2/3 1066/1333 —- 65W Athlon II X2_255 Regor (45nm) 2/2 3. 1Ghz 2Mb/— 1148 DDR2/3 1066/1333 —- 65W Athlon II X2_250 Regor (45nm) 2/2 3.0Ghz 2Mb/— 1062 DDR2/3 1066/1333 —- 65W Athlon II X2_250E Regor (45nm) 2/2 3.0Ghz 2Mb/— —- DDR2/3 1066/1333 —- 45W Athlon II X2_245 Regor (45nm) 2/2 2.9Ghz 2Mb/— 1049 DDR2/3 1066/1333 —- 65W Athlon II X2_245E Regor (45nm) 2/2 2.9Ghz 2Mb/— 1075 DDR2/3 1066/1333 —- 45W Athlon II X2_240 Regor (45nm) 2/2 2.8Ghz 2Mb/— 898 DDR2/3 1066/1333 —- 65W Athlon II X2_240E Regor (45nm) 2/2 2. 8Ghz 2Mb/— 962 DDR2/3 1066/1333 —- 45W Athlon II X2_235E Regor (45nm) 2/2 2.7Ghz 2Mb/— 1049 DDR2/3 1066/1333 —- 45W Athlon II X2_225 Regor (45nm) 2/2 2.9Ghz 1Mb/— —- DDR2/3 800/1066 —- 65W Athlon_II X2_220 Regor (45nm) 2/2 2.8Ghz 1Mb/— 995 DDR2/3 800/1066 —- 65W Athlon II X2_215 Regor (45nm) 2/2 2.7Ghz 1Mb/— 935 DDR2/3 800/1066 —- 65W Athlon II X2_210E Regor (45nm) 2/2 2.6Ghz 1Mb/— 1105 DDR2/3 800/1066 —- 45W Athlon II X2_270U Regor (45nm) 2/2 2. 0Ghz 1Mb/— 675 DDR2/3 800/1066 —- 25W Athlon_II X2_260U Regor (45nm) 2/2 1.8Ghz 1Mb/— —- DDR2/3 800/1066 —- 25W Athlon II X2_250U Regor (45nm) 2/2 1.6Ghz 1Mb/— —- DDR2/3 800/1066 —- 25W Sempron X2_190 Regor (45nm) 2/2 2.5Ghz 1Mb/— 879 DDR2/3 800/1066 —- 45W Sempron X2_180 Regor (45nm) 2/2 2.4Ghz 1Mb/— 826 DDR2/3 800/1066 —- 45W Sempron 150 Sargas (45nm) 1/1 2.9Ghz 1Mb/— 498 DDR2/3 800/1066 —- 45W Sempron 145 Sargas (45nm) 1/1 2. 8Ghz 1Mb/— 480 DDR2/3 800/1066 —- 45W Sempron 140 Sargas (45nm) 1/1 2.7Ghz 1Mb/— 473 DDR2/3 800/1066 —- 45W Sempron 130 Sargas (45nm) 1/1 2.6Ghz 0.5Mb/— 526 DDR2/3 800/1066 —- 45W Athlon II_170U Regor (45nm) 1/1 2Ghz 1Mb/— 357 DDR2/3 800/1066 —- 20W Athlon II_160U Regor (45nm) 1/1 1.8Ghz 1Mb/— 358 DDR2/3 800/1066 —- 20W Which motherboards are compatible with:
AM3 series processors are compatible with motherboards equipped with Socket AM3(941 pin) based on AMD 870, 880G, 890GX, 880FX and 890FX chipsets.
Socket AM3 appearance.
In addition, AM3 series processors can be installed in motherboards equipped with a more modern Socket AM3 + (942 pin), built on AMD 9 chipsets (logic sets)70, AMD 990X, AMD 990FX.
Socket AM3+ appearance.
Socket AM3 platform history
Socket AM3 was introduced by Advanced Micro Devices in 2009. The platform carried a number of fundamental innovations, such as support for DDR3 RAM (although it could also work with DDR2) and the high-speed HyperTransport 3.x data bus, which provided a general increase in the speed of computing systems. For this socket, AMD has released a whole list of architectures — Thuban, Deneb, Propus, Zosma, Heka, Rana, Callisto, Regor and Sargas, which differ in the number of cores, cache layout, but carry a common 45nm core in their structure.
As in the case of the previous multi-core platform AM2+, AMD found an excellent way to almost waste-free culling of processors with broken or incorrectly functioning cores: when all the blocks were fully operational, the most powerful CPUs appeared — Phenom II X4-X6. If some core was unstable, but it could be stabilized by disabling the Level 3 cache (L3), then such chips were marked as Athlon (they did not have L3). If some of the cores were completely inoperative, then it was physically disabled, and the processor became a three-core or two-core Phenom or Athlon.
The introduction of the six-core Phenom II X6 on the AM3 platform became the most important historical moment. By that time, Intel had already begun to fully use logical division (Hyper Threading) in multi-core processors, thus achieving an additional number of computational threads. AMD did not have a similar technology at that time, and the company decided to compete with its rival in this way. Phenom II X6 processors were very warmly received by the public and have long been an excellent choice for fans of computer games or those who want to upgrade an old AM3 platform with powerful hardware.Specifications and performance table for all AMD processors (2006-2021)
Processor specifications table in chronological order.
Socket sTRX4 (or Socket SP3r3, released November 2019)
Uses AMD TRX40 chipset.
Socket TR4 (released 2017)
Motherboards with Socket TR4 use the AMD X399 chipset as the system logic.
Socket AM4 (released 2016)
The AM4 processor line is represented by models built according to the 28, 14, 12, 7 nm process technology and having from 2 to 16 cores. Socket AM4 is equipped with AMD processors of Excavator architectures (Carrizo and Bristol Ridge cores), as well as Zen, Zen+, Zen2 (Ryzen brand, Summit Ridge, Raven Ridge, Pinnacle Ridge, Picasso, Matisse cores), which differ significantly in both main characteristics and performance.
Socket AM1 (Socket FS1b, released in 2014)
Designed for SoC processors manufactured using the 28 nm process technology.
Socket FM2+ (FM2 replacement, released 2014)
Athlon, A10, A8, A6, A4 processors introduced.
Socket FM2 (FM1 replacement, introduced 2012)
Athlon, A10, A8, A6, A4, Sempron processors introduced.
Socket AM3+ (Socket 942, AM3 replacement, released in 2011)
The range includes FX and Opteron processors based on the Bulldozer microarchitecture with 4 to 8 cores. Chipsets AMD 970 , AMD 990X or AMD 990FX.
Socket AM3 (Socket 941, replacement for AM2+, released 2009)
Processor line includes Phenom II, Athlon II, Sempron, Opteron with support for DDR3 memory controllers. The AMD 890GX, 880G, 870 and 890FX chipsets are used, as well as the outdated AMD 770, 790GX, 790FX, 790X, 740G, 785G, 760G and NVIDIA nForce 520LE, NVIDIA GeForce 7025/nForce 630a.
Socket FM1 (in use since 2011)
The FM1 range is represented by A8/A6/A4/Athlon/Sempron processors based on the Fusion microarchitecture, built according to the 32 nm process technology and having from 2 to 4 cores. The following AMD chipsets have been released for Socket FM1: A45, A50, A55, A60, A68, A70, A75, A85.
Socket AM2+ (AM2 upgrade, released 2007)
For K10 architecture processors.
Socket AM2 (replacing Socket 939, released in 2006)
For processors with an integrated dual-channel DDR2 memory controller.
More detailed specifications for all processors of all generations can be found on the PC4XP website.
Hierarchy of processors by multi-threaded performance
In the table, the processors are arranged in descending order of performance.
CPU Model Architecture cores/threads Frequency, GHz TDP, W AMD Threadripper 3990X Zen 2 64/128 2. 9 / 4.3 280 AMD Threadripper 3970X Zen 2 32/64 3.7 / 4.5 280 AMD Threadripper 3960X Zen 2 24/48 3.8 / 4.5 280 AMD Ryzen 9 5950X Zen 3 16/32 3. 4 / 4.9 105 Intel Xeon W-3175X Skylake 28/56 3.1 / 4.3 225 AMD Ryzen 9 3950X Zen 2 16/32 3.5 / 4.7 105 AMD Ryzen 9 5900X Zen 3 12/24 3. 7 / 4.8 105 Intel Core i9-10980XE Cascade Lake-X 18/36 3.0 / 4.8 165 Intel Core i9-9980XE Skylake 18/36 4.4 / 4.5 165 AMD Threadripper 2990WX Zen+ 32/64 3. 0 / 4.2 250 AMD Ryzen 9 3900X Zen 2 12/24 3.8 / 4.6 105 AMD Ryzen 9 3900XT Zen 2 12/24 3.8 / 4.7 105 AMD Threadripper 2970WX Zen + 24/48 3. 0 / 4.2 250 Intel Core i9-10900K Comet Lake 10/20 3.7 / 5.3 125 Intel Core i9-10850K Comet Lake 10/20 3.6 / 5.2 95 AMD Ryzen 7 5800X Zen 3 8/16 3. 8 / 4.7 105 AMD Threadripper 2950X Zen + 16/32 3.5 / 4.4 180 AMD Ryzen 9 3900 Zen 2 12/24 3.1 / 4.3 65 AMD Ryzen 7 3800XT Zen 2 8/16 3. 9 / 4.7 105 Intel Core i9-9900KS Coffee Lake-R 8/16 4.0 / 5.0 127 AMD Ryzen 7 3800X Zen 2 8/16 3.9 / 4.5 105 Intel Core i7-10700K Comet Lake 8/16 3. 8 / 5.1 125 Intel Core i9-9900K Coffee Lake-R 8/16 3.6 / 5.0 95 AMD Ryzen 5 5600X Zen 3 6/12 3.7 / 4.6 65 AMD Ryzen 7 3700X Zen 2 8/16 3. 6 / 4.4 65 Intel Core i7-10700/F Comet Lake 8/16 2.9 / 4.8 65 AMD Ryzen 7 Pro 4750G Zen 2, Vega 8/16 3.6 / 4.4 65 Intel Core i7-9700K Coffee Lake-R 8/8 3. 6 / 4.9 95 AMD Ryzen 5 3600XT Zen 2 6/12 3.8 / 4.5 95 AMD Ryzen 5 3600X Zen 2 6/12 3.8 / 4.4 95 AMD Ryzen 5 3600 Zen 2 6/12 3.6 / 4. 2 65 Intel Core i5-10600K Comet Lake 6/12 4.1 / 4.8 125 AMD Ryzen 5 2600X Zen+ 6/12 3.6 / 4.2 95 Intel Core i5-9600K Coffee Lake-R 6/6 3. 7 / 4.6 95 AMD Ryzen 3 3300X Zen 2 4/8 3.8 / 4.3 65 AMD Ryzen 5 3500X Zen 2 6/6 3.6 / 4.1 65 Intel Core i5-9400 / -9400F Coffee Lake 6/6 2. 9 / 4.1 65 Intel Core i7-7700K Kaby Lake 4/8 4.2 / 4.5 91 AMD Ryzen 5 1600AF Zen 6/12 3.2 / 3.6 65 AMD Ryzen 3 3100 Zen 2 4/8 3. 8 / 3.9 65 AMD Ryzen 5 1600X Zen 6/12 3.6 / 4.0 95 Intel Core i3-9350KF Coffee Lake 4/4 4.0/4.6 91 AMD Ryzen 5 3400G Zen + 4/8 3. 7 / 4.2 65 Intel Core i3-9100 Coffee Lake-R 4/4 3.6 / 4.2 65 AMD Ryzen 5 2400G Zen+ 4/8 3.6 / 3.9 65 Intel Core i3-8350K Coffee Lake 4/4 4. 0 / — 91 Intel Core i3-8100 Coffee Lake 4/4 3.6 / — 65 Intel Core i5-7400 Kaby Lake 4/4 3.0 / 3.5 65 AMD Ryzen 3 3200G Zen + 4/4 3. 6 / 4.0 65 AMD Ryzen 3 1300X Zen 4/4 3.5 / 3.7 65 Intel Core i3-7100 Kaby Lake 2/4 3.9 / — 51 Intel Pentium G5600 Coffee Lake 2/4 3. 9 / — 54 AMD Athlon 3000G Zen+ 2/4 3.5 / — 35 AMD Athlon 220GE Zen 2/4 3.4 / — 35 Intel Pentium G5400 Coffee Lake 2/4 3.7 / — 54 AMD Athlon 200GE Zen 2/4 3. 2 / — 35 Intel Pentium G4560 Kaby Lake 2/4 3.5 / — 54 AMD A10-9700 Bristol Ridge 4/4 3.5 / 3.8 65 Zhaoxin KaiXian KX-U6780A LuJiaZui 8/8 2. 7 / — 70 [Visits: 16,454, today: 3]
Socket AM3 and AM3+: which processors are suitable
08/12/2019
Computer759 Views
The constant development of computer technology leads to the fact that computers become obsolete after a few years.
But, you can extend the life of your PC by upgrading some of its components. Usually upgrade the processor, video card and RAM. In this article, we will talk about upgrading the processor. In particular, we will talk about processors that are suitable for Socket AM3 and Socket AM3+.
Contents
- Overview of sockets AM3 and AM3+
- Sempron processors for Socket AM3
- Opteron Processors for Socket AM3
- Phenom II Processors for Socket AM3
- Athlon II processors for Socket AM3
- FX Processors for AM3+
- Opteron Processors for Socket AM3+
Socket AM3 and AM3+ Overview
Socket AM3 (also known as Socket 941) is a socket for AMD processors. The AM3 socket was introduced in February 2009 and replaced the previous generation socket AM2+. The main changes in the architecture of this connector was support for DDR3 SDRAM memory and a faster HyperTransport bus.
Socket AM2 and AM2+ processors cannot be used on socket AM3 boards because these processors do not have a DDR3 memory controller. But, there is backward compatibility. AM3 processors support both DDR2 and DDR3, so after updating the BIOS, they can be used on AM2 and AM2+ boards
Later, AMD released the AM3+ socket (Socket 942), which is a modification of AM3. Socket AM3+ was created to support Zambezi (Bulldozer) processors. But, it is also backwards compatible. So, processors released for AM3 can be used on motherboards with AM3 +. In some cases, processors for AM3+ can be used on boards with an AM3 socket, but in this case, a Bios update is required. Also in this case, the temperature sensor on the processor and some other functions may not work. Processors for AM3+ only support DDR3, so they cannot be used in AM2 and AM2+ boards.
Despite the similar design, the AM3 socket can be easily distinguished from the AM3+ by its color. The AM3 socket is always white and the AM3+ is always black. In addition, there are differences in the marking on the socket itself, AM3 + are always marked as AM3b.
In order not to get confused with the processor support of different boards, it is always important to check the list of supported processors on the official website of the motherboard manufacturer. In order to find such a list, you need to know the exact name of the board. You can use the CPU-Z program to get this information. Launch CPU-Z on your computer and go to the «Mainboard» section. Here you will find the name of the motherboard manufacturer and the exact model name.
Next, the name of the motherboard must be entered into the search engine and go to the official website of the board manufacturer.
On the manufacturer’s website, go to the «Support» or «Support» page. There should be a table listing all supported processors.
In addition, this table will indicate which version of Bios is needed for the operation of a particular processor. Using this information, you will be able to choose a chip that will absolutely work with your board.
Below is a general list of all processors that have been released for sockets AM3 and AM3+. This list can be used to navigate processors for these platforms.
Sempron processors for Socket AM3
Processor name Clock frequency L2 cache size TDP AMD Sempron 130 (C2) 2.6GHz 512KB 45W AMD Sempron 140 (C2) 2.7GHz 1MB 45W AMD Sempron 145 (C3) 2.8GHz 1MB 45W AMD Sempron 150 (C3) 2.9GHz 1MB 45W AMD Sempron 180 2. 4GHz 2x 512 KB 45W AMD Sempron 190 2.5GHz 2x 512KB 45W Opteron processors for Socket AM3
Processor name Clock frequency L2 cache size L3 cache size TDP AMD Opteron 1381 2.5GHz 4? 512KB 6MB 115W AMD Opteron 1385 2.7GHz 4? 512KB 6MB 115W AMD Opteron 1389 2.9GHz 4? 512KB 6MB 115W Phenom II processors for Socket AM3
Processor name Clock frequency Turbo frequency L2 cache size L3 cache size TDP AMD Phenom II X6 1035T 2. 6GHz 3.1GHz 6x 512 KB 6MB 95W AMD Phenom II X6 1045T 2.7GHz 3.2GHz 6x 512 KB 6MB 95W AMD Phenom II X6 1055T 2.8GHz 3.3GHz 6x 512 KB 6MB 125W 2.8GHz 3.3GHz 6x 512 KB 6MB 95W AMD Phenom II X6 1065T 2.9GHz 3.4GHz 6x 512 KB 6MB 95W AMD Phenom II X6 1075T 3.0 GHz 3.5 GHz 6x 512 KB 6MB 125W AMD Phenom II X6 1075T Black Edition 3.0 GHz 3.5 GHz 6x 512 KB 6MB 125W AMD Phenom II X6 1090T Black Edition 3.2GHz 3.6GHz 6x 512 KB 6MB 125W AMD Phenom II X6 1100T Black Edition 3. 3GHz 3.7GHz 6x 512 KB 6MB 125W Processor name Clock frequency Turbo frequency L2 cache size L3 cache size TDP AMD Phenom II X4 650T 2.7GHz 3.2GHz 4x 512 KB 4MB 95W AMD Phenom II X4 840T 2.9GHz 3.2GHz 4x 512 KB 6MB 95W AMD Phenom II X4 960T
Black Edition3.0 GHz 3.4GHz 4x 512 KB 6MB 95W AMD Phenom II X4 960T 3.0 GHz 3.4GHz 4x 512 KB 6MB 125W AMD Phenom II X4 970
Black Edition3.5 GHz — 4x 512 KB 6MB 125W Processor name Clock frequency L2 cache size L3 cache size TDP AMD Phenom II X4 805 2. 5GHz 4x 512 KB 4MB 95W AMD Phenom II X4 810 2.6GHz 4x 512 KB 4MB 95W AMD Phenom II X4 820 2.8GHz 4x 512 KB 4MB 95W AMD Phenom II X4 830 2.8GHz 4x 512 KB 6MB 95W AMD Phenom II X4 900e 2.4GHz 4x 512 KB 6MB 65W AMD Phenom II X4 905e 2.5GHz 4x 512 KB 6MB 65W AMD Phenom II X4 910 2.6GHz 4x 512 KB 6MB 95W AMD Phenom II X4 910e 2.6GHz 4x 512 KB 6MB 65W AMD Phenom II X4 925 2.8GHz 4x 512 KB 6MB 95W 2. 8GHz 4x 512 KB 6MB 95W AMD Phenom II X4 945 3.0 GHz 4x 512 KB 6MB 125W 3.0GHz 4x 512 KB 6MB 95W 3.0GHz 4x 512 KB 6MB 95W AMD Phenom II X4 955 3.2GHz 4x 512 KB 6MB 125W 3.2GHz 4x 512 KB 6MB 125W 3.2GHz 4x 512 KB 6MB 95W AMD Phenom II X4 955 Black Edition 3.2GHz 4x 512 KB 6MB 125W 3.2GHz 4x 512 KB 6MB 125W AMD Phenom II X4 965 Black Edition 3.4GHz 4x 512 KB 6MB 140W 3. 4GHz 4x 512 KB 6MB 125W AMD Phenom II X4 970 Black Edition 3.5 GHz 4x 512 KB 6MB 125W AMD Phenom II X4 975 Black Edition 3.6GHz 4x 512 KB 6MB 125W AMD Phenom II X4 980 Black Edition 3.7GHz 4x 512 KB 6MB 125W AMD Phenom II X4 B93 2.8GHz 4x 512 KB 6MB 95W AMD Phenom II X4 B95 3.0 GHz 4x 512 KB 6MB 95W AMD Phenom II X4 B97 3.2GHz 4x 512 KB 6MB 95W AMD Phenom II X4 B99 3.3GHz 4x 512 KB 6MB 95W Processor name Clock frequency L2 cache size TDP AMD Phenom II X4 840 3. 2GHz 4x 512 KB 95W AMD Phenom II X4 850 3.3GHz 4x 512 KB 95W Processor name Clock frequency L2 cache size L3 cache size TDP AMD Phenom II X3 700e 2.4GHz 3x 512 KB 6MB 65W AMD Phenom II X3 705e 2.5GHz 3x 512 KB 6MB 65W AMD Phenom II X3 710 2.6GHz 3x 512 KB 6MB 95W AMD Phenom II X3 720 2.8GHz 3x 512 KB 6MB 95W AMD Phenom II X3 720 Black Edition 2.8GHz 3x 512 KB 6MB 95W AMD Phenom II X3 740 Black Edition 3.0 GHz 3x 512 KB 6MB 95W AMD Phenom II X3 B73 2. 8GHz 3x 512 KB 6MB 95W AMD Phenom II X3 B75 3.0 GHz 3x 512 KB 6MB 95W AMD Phenom II X3 B77 3.2GHz 3x 512 KB 6MB 95W Processor name Clock frequency L2 cache size L3 cache size TDP AMD Phenom II X2 545 3.0 GHz 2x 512 KB 6MB 80W AMD Phenom II X2 550 Black Edition 3.1GHz 2x 512 KB 6MB 80W AMD Phenom II X2 550 3.1GHz 2x 512 KB 6MB 80W AMD Phenom II X2 555 Black Edition 3.2GHz 2x 512 KB 6MB 80W AMD Phenom II X2 560 Black Edition 3. 3GHz 2x 512KB 6MB 80W AMD Phenom II X2 565 Black Edition 3.4GHz 2x 512 KB 6MB 80W AMD Phenom II X2 570 Black Edition 3.5 GHz 2x 512 KB 6MB 80W AMD Phenom II X2 B53 2.8GHz 2x 512 KB 6MB 80W AMD Phenom II X2 B55 3.0 GHz 2x 512 KB 6MB 80W AMD Phenom II X2 B57 3.2GHz 2x 512 KB 6MB 80W AMD Phenom II X2 B59 3.4GHz 2x 512 KB 6MB 80W AMD Phenom II X2 B60 3.5 GHz 2x 512 KB 6MB 80W Processor name Clock frequency L2 cache size TDP AMD Phenom II X2 511 3. 4GHz 2x 1MB 65W AMD Phenom II X2 521 3.5 GHz 2x 1MB 65W Processor name Clock frequency L2 cache size L3 cache size AMD Phenom II 42 TWKR Black Edition 2.0+ GHz 4x 512 KB 6MB Athlon II processors for Socket AM3
Processor name Clock frequency L2 cache size TDP AMD Athlon II X4 600e 2.2GHz 4x 512 KB 45W AMD Athlon II X4 605e 2.3GHz 4x 512 KB 45W AMD Athlon II X4 610e 2.4GHz 4x 512 KB 45W AMD Athlon II X4 615e 2.5GHz 4x 512 KB 45W AMD Athlon II X4 620e 2. 6GHz 4x 512 KB 45W AMD Athlon II X4 620 2.6GHz 4x 512 KB 95W AMD Athlon II X4 630 2.8GHz 4x 512 KB 95W AMD Athlon II X4 635 2.9GHz 4x 512 KB 95W AMD Athlon II X4 640 3.0 GHz 4x 512 KB 95W AMD Athlon II X4 645 3.1GHz 4x 512 KB 95W AMD Athlon II X4 650 3.2GHz 4x 512 KB 95W Processor name Clock frequency L2 cache size TDP AMD Athlon II X3 400e 2.2GHz 3x 512 KB 45W AMD Athlon II X3 405e 2.3GHz 3x 512 KB 45W AMD Athlon II X3 415e 2. 5GHz 3x 512 KB 45W Athlon II X3 420e 2.6GHz 3x 512 KB 45W AMD Athlon II X3 425e 2.7GHz 3x 512 KB 45W AMD Athlon II X3 425 2.7GHz 3x 512 KB 95W AMD Athlon II X3 435 2.9GHz 3x 512 KB 95W AMD Athlon II X3 440 3.0 GHz 3x 512 KB 95W AMD Athlon II X3 445 3.1GHz 3x 512 KB 95W AMD Athlon II X3 450 3.2GHz 3x 512 KB 95W AMD Athlon II X3 455 3.3GHz 3x 512 KB 95W AMD Athlon II X3 460 3.4GHz 3x 512 KB 95W Processor name Clock frequency L2 cache size TDP AMD Athlon II X2 250u 1. 6 GHz 2x 1MB 25W AMD Athlon II X2 260u 1.8GHz 2x 1MB 25W AMD Athlon II X2 270u 2.0 GHz 2x 1MB 25W AMD Athlon II X2 210e 2.6GHz 2x 512 KB 45W AMD Athlon II X2 215 2.7GHz 2x 512 KB 65W AMD Athlon II X2 220 2.8GHz 2x 512 KB 65W AMD Athlon II X2 235e 2.7GHz 2x 1MB 45W AMD Athlon II X2 240 2.8GHz 2x 1MB 65W AMD Athlon II X2 240e 2.8GHz 2x 1MB 45W AMD Athlon II X2 245 2.9GHz 2x 1MB 65W AMD Athlon II X2 245e 2.9GHz 2x 1MB 45W AMD Athlon II X2 250e 3. 0 GHz 2x 1MB 45W AMD Athlon II X2 250 3.0 GHz 2x 1MB 65W AMD Athlon II X2 255 3.1GHz 2x 1MB 65W AMD Athlon II X2 260 3.2GHz 2x 1MB 65W AMD Athlon II X2 265 3.3GHz 2x 1MB 65W AMD Athlon II X2 270 3.4GHz 2x 1MB 65W AMD Athlon II X2 280 3.6GHz 2x 1MB 65W AMD Athlon II X2 B22 2.8GHz 2x 1MB 65W AMD Athlon II X2 B24 3.0 GHz 2x 1MB 65W AMD Athlon II X2 B26 3.2GHz 2x 1MB 65W AMD Athlon II X2 B28 3.4GHz 2x 1MB 65W AMD Athlon II X2 B30 3. 6GHz 2x 1MB 65W Processor name Clock frequency L2 cache size TDP AMD Athlon II 160u 1.8GHz 1MB 20W AMD Athlon II 170u 2.0 GHz 1MB 20W FX processors for AM3+
Processor name Number of cores/modules Clock frequency Cache size TDP Base frequency Full-load frequency Half load frequency L2 L3 AMD FX-4100 4/2 3.6GHz 3.7GHz 3.8GHz 2x2MB 8MB 95W AMD FX-4120 3. 9GHz 4.0 GHz 4.1GHz AMD FX-4130 3.8GHz 3.9GHz 4.0 GHz 4MB 125W AMD FX-4150 3.8GHz 3.9GHz 4.0 GHz 8MB 95W
125WAMD FX-4170 4.2 GHz 4.3GHz 4.3GHz 125W AMD FX-6100 6/3 3.3GHz 3.6GHz 3.9GHz 3 ? 2MB 8MB 95 W AMD FX-6120 3.6GHz 3.9GHz 4.2 GHz AMD FX-6130 3.6GHz 3.8GHz 3.9GHz AMD FX-6200 3.8GHz 4.0 GHz 4.1GHz 125W AMD FX-8100 8/4 2. 8GHz 3.1GHz 3.7GHz 4x2MB 8MB 95W AMD FX-8120 3.1GHz 3.4GHz 4.0 GHz 125W AMD FX-8140 3.2GHz 3.6GHz 4.1GHz 95W AMD FX-8150 3.6GHz 3.9GHz 4.2 GHz 125W AMD FX-8170 3.9GHz 4.2 GHz 4.5GHz Processor name Number of cores/modules Clock frequency Cache size TDP Base frequency Full load frequency Half load frequency L1 L2 L3 AMD FX-4300 4/2 3. 8GHz 3.9GHz 4.0 GHz 4 x 16 KB + 2 x 64 KB 2 x 2MB 4MB 95W AMD FX-4320 4.0 GHz 4.2 GHz AMD FX-4350 4.2 GHz 4.3GHz 8MB 125W AMD FX-6300 6/3 3.5 GHz 3.8GHz 4.1GHz 6 x 16 KB + 3 x 64 KB 3 ? 2MB 8MB 95W AMD FX-6350 3.9GHz 4.2 GHz 125W AMD FX-8300 8/4 3.3GHz 3.6GHz 4.2 GHz 8 x 16 KB + 4 x 64 KB 4x2MB 8MB 95W AMD FX-8310 3. 4GHz 3.7GHz 4.3GHz AMD FX-8320 3.5 GHz 3.7GHz 4.0 GHz 125W AMD FX-8350 4.0 GHz 4.1GHz 4.2 GHz AMD FX-8370 4.1GHz 4.3GHz AMD FX-9370 4.4GHz 4.7GHz 220W AMD FX-9590 4.7GHz 5.0 GHz AMD FX-8320E 8/4 3.2GHz 3.5 GHz 4.0 GHz 8 x 16 KB + 4 x 64 KB 4x2MB 8MB 95W AMD FX-8370E 3.3GHz 3.6GHz 4.3GHz Opteron processors for Socket AM3+
Processor name Number of cores Base clock Full Load Turbo Half Load Turbo L2 cache size L3 cache size TDP AMD Opteron 3250 HE 4 2. 5 GHz 2.8GHz 3.5 GHz 2 x 2MB 4MB 45W AMD Opteron 3260 HE 4 2.7GHz 3.0 GHz 3.7GHz 2 x 2MB 4MB 45W AMD Opteron 3280 8 2.4GHz 2.7GHz 3.5 GHz 4 x 2MB 8MB 65W AMD Opteron 3320 EE 4 1.9 GHz 2.1 GHz 2.5 GHz 2 x 2MB 8MB 25W AMD Opteron 3350 HE 4 2.