AMD Ryzen 4000 Series Laptop APUs Full Product List Revealed, They Beat Intel Mobile Processors In Everything

This content is a full summary of AMD Ryzen Renoir APUs under the 4000 series family or 4th Gen Ryzen laptop APU models based on Zen 2 microarchitecture. Here are the 100% confirmed specs from trusted sources overtime. Nonetheless, this one list of 4000 series APUs is seemingly coming from AMD’s product marketing materials. Finally, 7nm process technology will be applied to whole 4th Gen APU family and some Athlon APUs will take 3000 model names. All together upcoming 4000 and 3000 series APUs will support WiFi 6 and Bluetooth 5.0 as well as 4K HDR video playback via integrated graphics. Thanks to momomo_us twitter user for revealing these valuable data.

First of all, 8 core 16 threaded AMD Ryzen 7 4800H Mobile Processor with Radeon Graphics will take dominant position over Intel’s 6 core 12 threaded i7-9850H. Of course, the RX Vega 7 iGPU will definitely destroy Intel’s UHD 630 graphics in every way possible. Amazing value proposition awaits for AMD laptops compared to Intel and Nvidia supported ones. This octa core AMD mobility chip is marketed towards heavy gaming and content creation. Asus ROG Zephyrus G14 series laptops will run on Ryzen 7 4800H APU.

Secondly, Ryzen 5 4600H with 6 cores 12 thread configuration will take on underwhelming quad core and 8 threaded Intel Core i5-9400H. The integrated graphics RX Vega 6 is included together with Ryzen 5 4600H APU package. Again, hexa core Ryzen 5 4600H is oriented for triple A gaming and content creation. Thanks to 7nm efficient silicon chip that can reach up to 4.0 GHz frequency boost speed under 45W TDP.

Thirdly, 4.2 GHz boosted speed and low-powered octa core Ryzen 7 4800U carries a whopping 12 MB total cache just like Ryzen 7 4800H. Surprisingly, RX Vega 8 is attached to this wonderful APU which makes it a gaming specs for ultra thin laptops. Expect the latest Acer Swift 5 and Dell XPS models powered by Ryzen 7 4000 series APU under 15W as a result, they beat Intel Core i7-1065G7 supported laptops with a big performance swing.

Next one is octa core SMT disabled Ryzen 7 4700U APU that comes with similar specs to Ryzen 7 4800U but running on 4.1 GHz boost frequency and RX Vega 7 rather than Vega 8. Eventually, 4700U APU will end up getting into MSI Alpha or Asus Zenbook series laptops. By being a worthy opponent to Core i7-1060G7, the RX Vega 7 graphics will simply demolish the Iris Plus Graphics in terms of gaming and productivity.

The fastest Ryzen 5 4600U will sport with hexa core 12 threaded design enhanced by 4.0 GHz speed. Hopefully, Intel will lower it’s expensive core i5 prices after this APU release. Anyhow, Ryzen 5 4600U may obliterate Core i5-1035G1 in any benchmarks you throw at. Sequentially, hexa core Ryzen 5 4500U is very similar to 4600U brother with cut down threads down to 6 only. Both APUs with RX Vega 6 are the serious contenders to power any mainstream ultrabooks like Acer Swift 3 or Lenovo Yoga Slim laptops.

On the low tier 4000 series Renoir APUs you may find Ryzen 3 4300U with confirmed 4 core 8 thread plus 6 MB total cache running on 3.7 GHz boost frequency. Hopefully, RX Vega 5 iGPU will deliver enough visual performance for budget focused ultrabook lovers. Fortunate Acer Swift 3 and Lenovo Ideapad laptop models might support Ryzen 3 4300U to save you from mediocre dual core Intel Core i3 processors.

Lastly, Athlon 3000 series APUs are powered by 14nm Zen architecture. As a consequence, these APUs are dual core 4 threaded Athlon Gold 3150U with RX Vega 3 iGPU and Athlon Silver 3050U with RX Vega 2 iGPU. According to AMD, upcoming Athlon Gold and Silver APUs are the suitable choice for modern mainstream laptops such as Acer Aspire 3, Asus Vivobook, Dell Inspiron or Lenovo IdeaPad series entry level laptops.

For best accurate benchmark comparison, you may use Ryzen 7 4800H vs Intel Core i7-9850H format in database. Obviously, Ryzen 4000 Mobility APUs beat Intel’s current entire processor lineup according to performance, price and power efficiency.