AM4 CPU List | AM4 socket (Specifications, Prices) | AMD all Processors Comprehensive Guide (Ryzen 9, Ryzen 7, Ryzen 5, Ryzen 3, Athlon, A12, A10, A8, A6)

AM4 CPU List | AM4 socket (Specifications, Prices) | AMD all Processors (Ryzen 9, Ryzen 7, Ryzen 5, Ryzen 3, Athlon, A12, A10, A8, A6)

By FurqanCPUsMar 31, 2023

Minute Read

AMD’s AM4 socket is the company’s flagship platform for desktop processors. It supports a wide range of processors, from the high-end Ryzen 9 to the budget-friendly Athlon.

AM4 CPUs are compatible with a range of motherboards, making them a versatile choice for any computing needs.

In this article, we will take a closer look at each of the processors in the AM4 CPU list. List of all processors on the AM4 socket . The list includes processors: Ryzen 9, Ryzen 7, Ryzen 5, Ryzen 3, Athlon, A12, A10, A8, A6.

Be sure to check out our many other buying guides, including the Best CPU for RTX 2080, Best CPUs for Gaming, Best AM4 CPU, Ryzen CPU with integrated graphics, Best CPU with Integrated Graphics, Best CPU Under $100, best CPU under 200, Best CPU under $300 and Best CPUs Under $400.

Ryzen 9 Processors

The Ryzen 9 series is AMD’s top-of-the-line desktop processor series. It is designed for power users, gamers, and content creators who demand the best performance. The Ryzen 9 series offers up to 16 cores and 32 threads, making it ideal for intensive tasks such as video editing, 3D rendering, and gaming. The Ryzen 9 5950X is the flagship processor in this series, offering 16 cores and 32 threads, a base clock speed of 3.4 GHz, and a boost clock speed of 4.9 GHz.

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Ryzen 7 Processors

The Ryzen 7 series is a step down from the Ryzen 9 series, but still offers powerful performance for gaming, content creation, and other intensive tasks. The Ryzen 7 series offers up to 8 cores and 16 threads, making it a solid choice for multitasking and heavy workloads. The Ryzen 7 5800X is the flagship processor in this series, offering 8 cores and 16 threads, a base clock speed of 3.8 GHz, and a boost clock speed of 4.7 GHz.

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Ryzen 5 Processors

The Ryzen 5 series is designed for gamers and mainstream users who need a balance of performance and value. The Ryzen 5 series offers up to 6 cores and 12 threads, making it a great choice for gaming, streaming, and light content creation. The Ryzen 5 5600X is the flagship processor in this series, offering 6 cores and 12 threads, a base clock speed of 3.7 GHz, and a boost clock speed of 4.6 GHz.

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Ryzen 3 Processors

The Ryzen 3 series is AMD’s entry-level processor series. It is designed for budget-conscious users who still want solid performance for everyday tasks. The Ryzen 3 series offers up to 4 cores and 8 threads, making it a great choice for basic tasks such as web browsing, office work, and light gaming. The Ryzen 3 3300X is the flagship processor in this series, offering 4 cores and 8 threads, a base clock speed of 3.8 GHz, and a boost clock speed of 4.3 GHz.

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Athlon Processors

The Athlon series is AMD’s budget processor series, designed for basic computing needs such as web browsing, email, and office work. The Athlon series offers up to 4 cores and 4 threads, making it a cost-effective choice for entry-level users. The Athlon 3000G is the flagship processor in this series, offering 2 cores and 4 threads, a base clock speed of 3.5 GHz, and a boost clock speed of 3.9 GHz.

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A12 Processors

The A12 series is AMD’s APU (Accelerated Processing Unit) series, which combines a processor and a graphics card in one unit. The A12 series offers up to 4 cores and 8 threads, as well as integrated Radeon graphics for gaming and other graphics-intensive tasks. The A12-9800 is the flagship processor in this series, offering 4 cores and 8 threads, a base clock speed of 3.8 GHz, and integrated Radeon R7 graphics.

Check out our separate post on Base Clock vs Boost Clock

A10 Processors

The A10 series is another APU series from AMD, offering solid performance and integrated Radeon graphics for gaming and other graphics-intensive tasks. The A10 series offers up to 4 cores and 8 threads, and is a great choice for budget-conscious users who still want solid performance. The A10-9700 is the flagship processor in this series, offering 4 cores and 8 threads, a base clock speed of 3.5 GHz, and integrated Radeon R7 graphics.

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A8 Processors

The A8 series is similar to the A10 series, offering solid performance and integrated Radeon graphics. The A8 series offers up to 4 cores and 8 threads, and is a great choice for basic gaming and graphics-intensive tasks. The A8-9600 is the flagship processor in this series, offering 4 cores and 8 threads, a base clock speed of 3.1 GHz, and integrated Radeon R7 graphics.

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A6 Processors

The A6 series is the most budget-friendly APU series from AMD, offering basic performance and integrated Radeon graphics for basic gaming and graphics-intensive tasks. The A6 series offers up to 2 cores and 4 threads, and is a great choice for entry-level users who want a cost-effective solution. The A6-9500 is the flagship processor in this series, offering 2 cores and 4 threads, a base clock speed of 3.5 GHz, and integrated Radeon R5 graphics.

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AM4 Socket Compatibility

All AMD AM4 CPUs are compatible with a range of motherboards, making them a versatile choice for any computing needs. However, it is important to check the compatibility of your chosen processor with your chosen motherboard to ensure a proper fit.

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Price range of AM4 CPUs List

The price range of AMD AM4 CPUs varies depending on the series and the specific processor. The Ryzen 9 series is the most expensive, with the flagship Ryzen 9 5950X priced at around $799. The Athlon series is the most budget-friendly, with the flagship Athlon 3000G priced at around $50. The price range for the other series falls somewhere in between.

Also, check out our separate post on CPU Overheating

How to choose the right AM4 CPU for your needs

Choosing the right AM4 CPU for your needs depends on several factors, including your budget, your computing needs, and your motherboard compatibility. Consider the tasks you will be performing on your computer, and choose a processor that can handle those tasks without breaking the bank. Also, consider the compatibility of your chosen processor with

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The Features of The Ryzen 7 Processors:

8 “Zen” cores with very low Thermal Design Power (TDP)
16 Threads thanks to Simultaneous Multithreading (SMT)
Very high single- and multi-thread performance
High base clock with Precision Boost turbo function
Automatic overclocking function (XFR)
Unlocked multiplier for manual overclocking (unlocked CPU)
Large unified memory cache: 4 MB L2 & 16 MB L3
Highly-efficient 14 Nanometer-FinFET manufacturing process
AVX2 Instruction Set Extension for complex vector calculations
Multiple AES units for fast, reliable data encryption
Modern AM4 platform with extensive range of features
Unterst&Supports energy-efficient DDR4-RAM (Dual-Channel)

AM4 Processors have from 2 to 16 cores:

Ryzen 9 (12-16 cores, 24-32 threads)
Ryzen 7 (8 cores, 16threads)
Ryzen 5 (4-6 cores, 8-12 threads)
Ryzen 3 (4 cores, 4-8 threads)
A12 (4 cores)
A10 (4 cores)
A8 (4 cores)
A6 (2 cores)
Athlon (2-4 cores)

Processor Name	Cores	Threads	Frequency (turbo)	Cache Memory	TDP	Graphics	Technology	Memory Support	Code Name
Ryzen 9 3950X	16	32	3,5(4,7) GHz	8+64 MB	105 W	–	7 nm	DDR4-3200	Matisse
Ryzen 9 5950X	16	32	3,4(4,9) GHz	8+64 MB	105 W	–	7 nm	DDR4-3200	Vermeer
Ryzen 9 3900XT	12	24	3,8(4,7) GHz	6+64 MB	105 W	–	7 nm	DDR4-3200	Matisse
Ryzen 9 3900X	12	24	3,8(4,6) GHz	6+64 MB	105 W	–	7 nm	DDR4-3200	Matisse
Ryzen 9 5900X	12	24	3,7(4,8) GHz	6+64 MB	105 W	–	7 nm	DDR4-3200	Vermeer
Ryzen 9 3900	12	24	3,1(4,3) GHz	6+64 MB	65 W	–	7 nm	DDR4-3200	Matisse
Ryzen 9 PRO 3900	12	24	3,1(4,3) GHz	6+64 MB	65 W	–	7 nm	DDR4-3200	Matisse
Ryzen 9 5900	12	24	3(4,7) GHz	6+64 MB	65 W	–	7 nm	DDR4-3200	Vermeer
Ryzen 9 PRO 5945	12	24	3(4,7) GHz	6+64 MB	65 W	–	7 nm	DDR4-3200	Vermeer
Ryzen 7 3800XT	8	16	3,9(4,7) GHz	4+32 MB	105 W	–	7 nm	DDR4-3200	Matisse
Ryzen 7 3800X	8	16	3,9(4,5) GHz	4+32 MB	105 W	–	7 nm	DDR4-3200	Matisse
Ryzen 7 5800X	8	16	3,8(4,7) GHz	4+32 MB	105 W	–	7 nm	DDR4-3200	Vermeer
Ryzen 7 PRO 5750G	8	16	3,8(4,6) GHz	4+16 MB	65 W	Vega 8 2 GHz	7 nm	DDR4-3200	Cezanne
Ryzen 7 5700G	8	16	3,8(4,6) GHz	4+16 MB	65 W	Vega 8 2 GHz	7 nm	DDR4-3200	Cezanne
Ryzen 7 2700X	8	16	3,7(4,3) GHz	4+16 MB	105 W	–	12 nm	DDR4-2933	Pinnacle Ridge
Ryzen 7 4700G	8	16	3,6(4,4) GHz	4+8 MB	65 W	Vega 8 2,1 GHz	7 nm	DDR4-3200	Renoir
Ryzen 7 PRO 4750G	8	16	3,6(4,4) GHz	4+8 MB	65 W	Vega 8 2,1 GHz	7 nm	DDR4-3200	Renoir
Ryzen 7 3700X	8	16	3,6(4,4) GHz	4+32 MB	65 W	–	7 nm	DDR4-3200	Matisse
Ryzen 7 PRO 3700	8	16	3,6(4,4) GHz	4+32 MB	65 W	–	7 nm	DDR4-3200	Matisse
Ryzen 7 PRO 2700X	8	16	3,6(4,1) GHz	4+16 MB	95 W	–	12 nm	DDR4-2933	Pinnacle Ridge
Ryzen 7 1800X	8	16	3,6(4) GHz	4+16 MB	95 W	–	14 nm	DDR4-2400	Summit Ridge
Ryzen 7 PRO 5845	8	16	3,4(4,6) GHz	4+32 MB	65 W	–	7 nm	DDR4-3200	Vermeer
Ryzen 7 5800	8	16	3,4(4,6) GHz	4+32 MB	65 W	–	7 nm	DDR4-3200	Vermeer
Ryzen 7 5700X	8	16	3,4(4,6) GHz	4+32 MB	65 W	–	7 nm	DDR4-3200	Vermeer
Ryzen 7 5800X3D	8	16	3,4(4,5) GHz	4+96 MB	105 W	–	7 nm	DDR4-3200	Vermeer
Ryzen 7 PRO 1700X	8	16	3,4(3,8) GHz	4+16 MB	95 W	–	14 nm	DDR4-2667	Summit Ridge
Ryzen 7 1700X	8	16	3,4(3,8) GHz	4+16 MB	95 W	–	14 nm	DDR4-2400	Summit Ridge
Ryzen 7 PRO 5750GE	8	16	3,2(4,6) GHz	4+16 MB	35 W	Vega 8 2 GHz	7 nm	DDR4-3200	Cezanne
Ryzen 7 PRO 5700GE	8	16	3,2(4,6) GHz	4+16 MB	35 W	Vega 8 2 GHz	7 nm	DDR4-3200	Cezanne
Ryzen 7 2700	8	16	3,2(4,1) GHz	4+16 MB	65 W	–	12 nm	DDR4-2933	Pinnacle Ridge
Ryzen 7 PRO 2700	8	16	3,2(4,1) GHz	4+16 MB	65 W	–	12 nm	DDR4	Pinnacle Ridge
Ryzen 7 4700GE	8	16	3,1(4,3) GHz	4+8 MB	35 W	Vega 8 2 GHz	7 nm	DDR4-3200	Renoir
Ryzen 7 PRO 4750GE	8	16	3,1(4,3) GHz	4+8 MB	35 W	Vega 8 2,1 GHz	7 nm	DDR4-3200	Renoir
Ryzen 7 PRO 1700	8	16	3(3,7) GHz	4+16 MB	65 W	–	14 nm	DDR4-2667	Summit Ridge
Ryzen 7 1700	8	16	3(3,7) GHz	4+16 MB	65 W	–	14 nm	DDR4-2400	Summit Ridge
Ryzen 7 2700E	8	16	2,8(4) GHz	4+16 MB	45 W	–	12 nm	DDR4-2667	Summit Ridge
Ryzen 5 PRO 5650G	6	12	3,9(4,4) GHz	3+16 MB	65 W	Vega 8 1,9 GHz	7 nm	DDR4-3200	Cezanne
Ryzen 5 5600G	6	12	3,9(4,4) GHz	3+16 MB	65 W	Vega 8 1,9 GHz	7 nm	DDR4-3200	Cezanne
Ryzen 5 3600XT	6	12	3,8(4,5) GHz	3+32 MB	95 W	–	7 nm	DDR4-3200	Matisse
Ryzen 5 3600X	6	12	3,8(4,4) GHz	3+32 MB	95 W	–	7 nm	DDR4-3200	Matisse
Ryzen 5 5600X	6	12	3,7(4,6) GHz	3+32 MB	65 W	–	7 nm	DDR4-3200	Vermeer
Ryzen 5 PRO 5645	6	12	3,7(4,6) GHz	3+32 MB	65 W	–	7 nm	DDR4-3200	Vermeer
Ryzen 5 PRO 4655G	6	12	3,7(4,2) GHz	3+8 MB	65 W	Vega 7 1,9 GHz	7 nm	DDR4-3200	Renoir
Ryzen 5 4600G	6	12	3,7(4,2) GHz	3+8 MB	65 W	Vega 7 1,9 GHz	7 nm	DDR4-3200	Renoir
Ryzen 5 PRO 4650G	6	12	3,7(4,2) GHz	3+8 MB	65 W	Vega 7 1,9 GHz	7 nm	DDR4-3200	Renoir
Ryzen 5 5500	6	12	3,6(4,2) GHz	3+16 MB	65 W	–	7 nm	DDR4-3200	Vermeer
Ryzen 5 3600	6	12	3,6(4,2) GHz	3+32 MB	65 W	–	7 nm	DDR4-3200	Matisse
Ryzen 5 PRO 3600	6	12	3,6(4,2) GHz	3+32 MB	65 W	–	7 nm	DDR4-3200	Matisse
Ryzen 5 2600X	6	12	3,6(4,2) GHz	3+16 MB	95 W	–	12 nm	DDR4-2933	Pinnacle Ridge
Ryzen 5 4500	6	12	3,6(4,1) GHz	3+8 MB	65 W	Vega 7 1,9 GHz	7 nm	DDR4-3200	Renoir
Ryzen 5 1600X	6	12	3,6(4) GHz	3+16 MB	95 W	–	14 nm	DDR4-2667	Summit Ridge
Ryzen 5 5600	6	12	3,5(4,4) GHz	3+32 MB	65 W	–	7 nm	DDR4-3200	Vermeer
Ryzen 5 PRO 5650GE	6	12	3,4(4,4) GHz	3+16 MB	35 W	Vega 7 1,9 GHz	7 nm	DDR4-3200	Cezanne
Ryzen 5 5600GE	6	12	3,4(4,4) GHz	3+16 MB	35 W	Vega 7 1,9 GHz	7 nm	DDR4-3200	Cezanne
Ryzen 5 2600	6	12	3,4(3,9) GHz	3+16 MB	65 W	–	12 nm	DDR4-2933	Pinnacle Ridge
Ryzen 5 PRO 2600	6	12	3,4(3,9) GHz	3+16 MB	65 W	–	12 nm	DDR4-2933	Pinnacle Ridge
Ryzen 5 PRO 4655GE	6	12	3,3(4,2) GHz	3+8 MB	35 W	Vega 7 1,9 GHz	7 nm	DDR4-3200	Renoir
Ryzen 5 4600GE	6	12	3,3(4,2) GHz	3+8 MB	35 W	Vega 7 1,9 GHz	7 nm	DDR4-3200	Renoir
Ryzen 5 PRO 4650GE	6	12	3,3(4,2) GHz	3+8 MB	35 W	Vega 7 1,9 GHz	7 nm	DDR4-3200	Renoir
Ryzen 5 PRO 1600	6	12	3,2(3,6) GHz	3+16 MB	65 W	–	14 nm	DDR4-2667	Summit Ridge
Ryzen 5 1600	6	12	3,2(3,6) GHz	3+16 MB	65 W	–	14 nm	DDR4-2667	Summit Ridge
Ryzen 5 2600E	6	12	3,1(4) GHz	3+16 MB	45 W	–	12 nm	DDR4-2667	Pinnacle Ridge
Ryzen 5 3500	6	6	3,6(4,1) GHz	4+32 MB	65 W	–	7 nm	DDR4-3200	Matisse
Ryzen 5 3500X	6	6	3,6(4,1) GHz	4+32 MB	65 W	–	7 nm	DDR4-3200	Matisse
Ryzen 3 PRO 5350G	4	8	4(4,3) GHz	2+8 MB	65 W	Vega 6 1,7 GHz	7 nm	DDR4-3200	Cezanne
Ryzen 3 5300G	4	8	4(4,2) GHz	2+8 MB	65 W	Vega 6 1,7 GHz	7 nm	DDR4-3200	Cezanne
Ryzen 3 3300X	4	8	3,8(4,3) GHz	2+16 MB	65 W	–	7 nm	DDR4-3200	Matisse
Ryzen 3 PRO 4355G	4	8	3,8(4) GHz	2+4 MB	65 W	Vega 6 1,7 GHz	7 nm	DDR4-3200	Renoir
Ryzen 3 4300G	4	8	3,8(4) GHz	2+4 MB	65 W	Vega 6 1,7 GHz	7 nm	DDR4-3200	Renoir
Ryzen 3 PRO 4350G	4	8	3,8(4) GHz	2+4 MB	65 W	Vega 6 1,7 GHz	7 nm	DDR4-3200	Renoir
Ryzen 3 4100	4	8	3,8(4) GHz	2+4 MB	65 W	–	7 nm	DDR4-3200	Renoir
Ryzen 5 3400G	4	8	3,7(4,2) GHz	2+4 MB	65 W	Vega 11 1,4 GHz	12 nm	DDR4-2933	Picasso
Ryzen 5 PRO 3400G	4	8	3,7(4,2) GHz	2+4 MB	65 W	Vega 11 1,4 GHz	12 nm	DDR4-2933	Picasso
Ryzen 3 PRO 5350GE	4	8	3,6(4,2) GHz	2+8 MB	35 W	Vega 6 1,7 GHz	7 nm	DDR4-3200	Cezanne
Ryzen 3 5300GE	4	8	3,6(4,2) GHz	2+8 MB	35 W	Vega 6 1,7 GHz	7 nm	DDR4-3200	Cezanne
Ryzen 5 3350G	4	8	3,6(4) GHz	2+4 MB	65 W	Vega 11 1,3 GHz	12 nm	DDR4-2933	Picasso
Ryzen 5 PRO 3350G	4	8	3,6(4) GHz	2+4 MB	65 W	Vega 11 1,3 GHz	12 nm	DDR4-2933	Picasso
Ryzen 5 2500X	4	8	3,6(4) GHz	2+8 MB	65 W	–	12 nm	DDR4-2933	Pinnacle Ridge
Ryzen 3 3100	4	8	3,6(3,9) GHz	2+16 MB	65 W	–	7 nm	DDR4-3200	Matisse
Ryzen 5 2400G	4	8	3,6(3,9) GHz	2+4 MB	65 W	Vega 11 1,25 GHz	14 nm	DDR4-2933	Raven Ridge
Ryzen 5 PRO 2400G	4	8	3,6(3,9) GHz	2+4 MB	65 W	Vega 11 1,25 GHz	14 nm	DDR4-2933	Raven Ridge
Ryzen 3 PRO 4355GE	4	8	3,5(4) GHz	2+4 MB	35 W	Vega 6 1,7 GHz	7 nm	DDR4-3200	Renoir
Ryzen 3 4300GE	4	8	3,5(4) GHz	2+4 MB	35 W	Vega 6 1,7 GHz	7 nm	DDR4-3200	Renoir
Ryzen 3 PRO 4350GE	4	8	3,5(4) GHz	2+4 MB	35 W	Vega 6 1,7 GHz	7 nm	DDR4-3200	Renoir
Ryzen 5 1500X	4	8	3,5(3,7) GHz	2+16 MB	65 W	–	14 nm	DDR4-2667	Pinnacle Ridge
Ryzen 5 PRO 1500	4	8	3,5(3,7) GHz	2+16 MB	65 W	–	14 nm	DDR4-2667	Summit Ridge
Ryzen 5 3400GE	4	8	3,3(4) GHz	2+4 MB	35 W	Vega 11 1,3 GHz	12 nm	DDR4-2933	Picasso
Ryzen 5 PRO 3400GE	4	8	3,3(4) GHz	2+4 MB	35 W	Vega 11 1,3 GHz	12 nm	DDR4-2933	Picasso
Ryzen 5 2400GE	4	8	3,2(3,8) GHz	2+4 MB	35 W	Vega 11 1,25 GHz	14 nm	DDR4-2933	Raven Ridge
Ryzen 5 PRO 2400GE	4	8	3,2(3,8) GHz	2+4 MB	35 W	Vega 11 1,25 GHz	14 nm	DDR4-2933	Raven Ridge
Ryzen 5 1400	4	8	3,2(3,4) GHz	2+8 MB	65 W	–	14 nm	DDR4-2667	Summit Ridge
A12-9800	4	4	3,8(4,2) GHz	2 MB	65 W	R7 1,1 GHz	28 nm	DDR4-2400	Bristol Ridge
PRO A12-9800	4	4	3,8(4,2) GHz	2 MB	65 W	R7 1,1 GHz	28 nm	DDR4-2400	Bristol Ridge
Athlon X4 970	4	4	3,8(4) GHz	2 MB	65 W	–	28 nm	DDR4-2400	Bristol Ridge
PRO A12-8870	4	4	3,7(4,2) GHz	2 MB	65 W	R7 1,1 GHz	28 nm	DDR4-2400	Carrizo
Ryzen 3 3200G	4	4	3,6(4) GHz	2+4 MB	65 W	Vega 8 1,25 GHz	12 nm	DDR4-2933	Picasso
Ryzen 3 PRO 3200G	4	4	3,6(4) GHz	2+4 MB	65 W	Vega 8 1,25 GHz	12 nm	DDR4-2933	Picasso
Ryzen 3 2300X	4	4	3,5(4) GHz	2+8 MB	65 W	–	12 nm	DDR4-2933	Pinnacle Ridge
Athlon Gold 3150G	4	4	3,5(3,9) GHz	2+4 MB	65 W	Vega 3 1,1 GHz	12 nm	DDR4-2933	Picasso
Athlon Gold PRO 3150G	4	4	3,5(3,9) GHz	2+4 MB	65 W	Vega 3 1,1 GHz	12 nm	DDR4-2933	Picasso
PRO A10-8770	4	4	3,5(3,8) GHz	2 MB	65 W	R7 1029 MHz	28 nm	DDR4-2400	Carrizo
PRO A10-9700	4	4	3,5(3,8) GHz	2 MB	65 W	R7 1029 MHz	28 nm	DDR4-2400	Bristol Ridge
Ryzen 3 PRO 1300	4	4	3,5(3,7) GHz	2+8 MB	65 W	–	14 nm	DDR4-2667	Summit Ridge
Ryzen 3 1300X	4	4	3,5(3,7) GHz	2+8 MB	65 W	–	14 nm	DDR4-2667	Summit Ridge
Ryzen 3 2200G	4	4	3,5(3,7) GHz	2+4 MB	65 W	Vega 8 1,1 GHz	14 nm	DDR4-2933	Raven Ridge
Ryzen 3 PRO 2200G	4	4	3,5(3,7) GHz	2+4 MB	65 W	Vega 8 1,1 GHz	14 nm	DDR4-2933	Raven Ridge
Athlon X4 950	4	4	3,5(3,8) GHz	2 MB	65 W	–	28 nm	DDR4-2400	Bristol Ridge
A10-9700	4	4	3,5(3,8) GHz	2 MB	65 W	R7 1029 MHz	28 nm	DDR4-2400	Bristol Ridge
Ryzen 3 3200GE	4	4	3,3(3,8) GHz	2+4 MB	35 W	Vega 8 1,2 GHz	12 nm	DDR4-2933	Picasso
Ryzen 3 PRO 3200GE	4	4	3,3(3,8) GHz	2+4 MB	35 W	Vega 8 1,2 GHz	12 nm	DDR4-2933	Picasso
Athlon Gold 3150GE	4	4	3,3(3,8) GHz	2+4 MB	35 W	Vega 3 1,1 GHz	12 nm	DDR4-2933	Picasso
Athlon Gold PRO 3150GE	4	4	3,3(3,8) GHz	2+4 MB	35 W	Vega 3 1,1 GHz	12 nm	DDR4-2933	Picasso
Ryzen 3 PRO 2200GE	4	4	3,2(3,6) GHz	2+4 MB	35 W	Vega 8 1,1 GHz	14 nm	DDR4-2933	Raven Ridge
Ryzen 3 2200GE	4	4	3,2(3,6) GHz	2+4 MB	35 W	Vega 8 1,1 GHz	14 nm	DDR4-2933	Raven Ridge
Athlon X4 940	4	4	3,2(3,6) GHz	2 MB	65 W	–	28 nm	DDR4-2400	Bristol Ridge
PRO A12-9800E	4	4	3,1(3,8) GHz	2 MB	35 W	R7 900 MHz	28 nm	DDR4-2400	Bristol Ridge
A12-9800E	4	4	3,1(3,8) GHz	2 MB	35 W	R7 900 MHz	28 nm	DDR4-2400	Bristol Ridge
Ryzen 3 1200	4	4	3,1(3,4) GHz	2+8 MB	65 W	–	14 nm	DDR4-2667	Summit Ridge
Ryzen 3 PRO 1200	4	4	3,1(3,4) GHz	2+8 MB	65 W	–	14 nm	DDR4-2667	Summit Ridge
A8-9600	4	4	3,1(3,4) GHz	2 MB	65 W	R7 900 MHz	28 nm	DDR4-2400	Bristol Ridge
PRO A8-9600	4	4	3,1(3,4) GHz	2 MB	65 W	R7 900 MHz	28 nm	DDR4-2400	Bristol Ridge
A10-9700E	4	4	3(3,5) GHz	2 MB	35 W	R7 847 MHz	28 nm	DDR4-2400	Bristol Ridge
PRO A10-9700E	4	4	3(3,5) GHz	2 MB	35 W	R7 847 MHz	28 nm	DDR4-2400	Bristol Ridge
PRO A12-8870E	4	4	2,9(3,8) GHz	2 MB	35 W	R7 900 MHz	28 nm	DDR4-2400	Carrizo
PRO A10-8770E	4	4	2,8(3,5) GHz	2 MB	35 W	R7 847 MHz	28 nm	DDR4-2400	Carrizo
Athlon 3000G	2	4	3,5 GHz	1+4 MB	35 W	Vega 3 1,1 GHz	14 nm	DDR4-2667	Picasso
Athlon 320GE	2	4	3,5 GHz	1+4 MB	35 W	Vega 3 1,1 GHz	14 nm	DDR4-2667	Raven Ridge
Athlon 240GE	2	4	3,5 GHz	1+4 MB	35 W	Vega 3 1 GHz	14 nm	DDR4-2667	Raven Ridge
Athlon Silver 3050GE	2	4	3,4 GHz	1+4 MB	35 W	Vega 3 1,1 GHz	14 nm	DDR4-2667	Picasso
Athlon Silver PRO 3125GE	2	4	3,4 GHz	1+4 MB	35 W	Vega 3 1,1 GHz	14 nm	DDR4-2667	Picasso
Athlon 300GE	2	4	3,4 GHz	1+4 MB	35 W	Vega 3 1,1 GHz	14 nm	DDR4-2667	Raven Ridge
Athlon PRO 300GE	2	4	3,4 GHz	1+4 MB	35 W	Vega 3 1,1 GHz	12 nm	DDR4-2667	Raven Ridge
Athlon 220GE	2	4	3,4 GHz	1+4 MB	35 W	Vega 3 1 GHz	14 nm	DDR4-2667	Picasso
Athlon 200GE	2	4	3,2 GHz	1+4 MB	35 W	Vega 3 1 GHz	14 nm	DDR4-2667	Raven Ridge
Athlon PRO 200GE	2	4	3,2 GHz	1+4 MB	35 W	Vega 3 1 GHz	14 nm	DDR4-2667	Raven Ridge
A6-9550	2	2	3,8(4) GHz	1 MB	65 W	R5 1029 MHz	28 nm	DDR4-2400	Bristol Ridge
PRO A6-8580	2	2	3,8(4) GHz	1 MB	65 W	R5 1029 MHz	28 nm	DDR4-2400	Bristol Ridge
A6-9500	2	2	3,5(3,8) GHz	1 MB	65 W	R5 1029 MHz	28 nm	DDR4-2400	Bristol Ridge
PRO A6-9500	2	2	3,5(3,8) GHz	1 MB	65 W	R5 1029 MHz	28 nm	DDR4-2400	Bristol Ridge
PRO A6-8570	2	2	3,5(3,8) GHz	1 MB	65 W	R5 1029 MHz	28 nm	DDR4-2400	Carrizo
A6-9400	2	2	3,4 (3,7) GHz	1 MB	65 W	R5 1029 MHz	28 nm	DDR4	Bristol Ridge
A6-9500E	2	2	3(3,4) GHz	1 MB	35 W	R5 1029 MHz	28 nm	DDR4_2400	Bristol Ridge
PRO A6-8570E	2	2	3(3,4) GHz	1 MB	35 W	R5 1029 MHz	28 nm	DDR4-2400	Carrizo
PRO A4-4350B	2	2	2,5(2,9) GHz	1 MB	15 W	R4 655 MHz	28 nm	DDR4-2133	Stoney Ridge

Conclusion:

AMD’s AM4 CPU lineup offers a wide range of choices for users with different computing needs and budgets. Whether you are a gamer or a basic user, there is an AM4 CPU that will suit your needs.

When choosing an AM4 CPU, it is important to consider your budget, your computing needs, and your motherboard compatibility. With proper research and consideration, you can find the right AMD AM4 CPU for your needs and enjoy high-performance computing.

FAQs about AMD AM4 CPUs

What is the AM4 socket?

The AM4 socket is AMD’s flagship platform for desktop CPUs. It is compatible with a range of AMD processors, including the Ryzen, Athlon, and A-series processors.

Which AMD AM4 CPU is the best for gaming?

The Ryzen series is the best choice for gaming, with the flagship Ryzen 9 5950X offering the best performance.

Can I overclock an AMD AM4 CPU?

Yes, most AMD AM4 CPUs can be overclocked, but it is important to ensure that your motherboard and cooling system can handle the increased heat and power consumption.

What is the difference between Ryzen and Athlon processors?

Ryzen processors are designed for high-performance computing, including gaming and content creation, while Athlon processors are designed for basic computing needs such as web browsing and office work.

How do I know if an AMD AM4 CPU is compatible with my motherboard?

You can check the compatibility of your chosen AMD AM4 CPU with your motherboard by consulting the manufacturer’s website or product documentation. It is important to ensure that the CPU and motherboard are compatible before making a purchase.

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Furqan

I'm an experienced blogger and article writer who loves technology and gaming. I've been writing for years and have lots of experience. My expertise is in gaming and technology. I will provide detailed guides with images and explain step by step so you can understand the process. I write for this website to help you with IT advice about PC, RAM, CPU, Motherboard, PSU, and other PC components.