In accordance to an enormous leak posted by Videocardz, AMD is asserting their Ryzen 5000 sequence Cezanne mobility processors in the present day. Cezzane is the successor to the award-winning Renoir household of APUs from AMD and is a sequence of processors that has been eagerly anticipated. The leaked slide deck not solely accommodates particulars of assorted microarchitectural enhancements during the last era of mobility processors but additionally confirms that Cezanne APU will characteristic a die dimension improve of 15% over Renoir, clocking in at 180mm².
AMD broadcasts Zen 3 primarily based Ryzen 5000 mobility sequence APUs codenamed ‘Cezanne’
AMD’s Zen 3 primarily based Ryzen 5000 sequence mobility processors characteristic 10.7 billion transistors and are fabricated on TSMC’s 7nmn course of. They provide a 23% uplift in single-threaded efficiency versus the older Ryzen 9 4900H and can make AMD far more aggressive with Intel’s Tiger Lake in single-threaded hundreds. It options double the cache with a unified 8 core CCX and 16 MB of L3 cache which accelerates core communication and lowers latency. AMD can also be claiming as much as 2 hours longer battery life in comparison with the final era and 19% extra single-threaded efficiency than the Intel 10980HK.
The brand new Zen 3 primarily based structure encompasses a single block of 16MB L3 cache versus two blocks of 4MB L3 cache in Zen 2. The only block of cache additionally feeds all 8 cores concurrently versus the final design the place every block might solely feed 4 cores. This improves cache accessibility and cargo distribution and reduces energy whereas growing bandwidth.
Energy administration has additionally been improved during the last era (the place all the CPU VCore had been pegged to the VGfx. With Ryzen 5000 sequence processors, the ability administration is extra fine-tuned and every core can have a separate voltage and frequency no matter GPU load – which has similarities to how desktop setups function. This additionally consists of the introduction of Deep Energy states. Due to these adjustments, standby energy has been elevated by 20 hours, Idle time has been elevated by nearly 4 hours, video playback by 1.1 hours and basic use case by 2 hours.
The Zen 3 primarily based Ryzen 5000 sequence flagship options USB 3.1 and USB C assist with 2x NVME SATA connections and one PCIe Discrete GFX connection. A 7nm Vega enhanced onboard with 8 compute models will supply the graphics horsepower and infinity material will supply seamless connectivity between the 2. The iGPU can now maintain clock frequencies as much as 2.1 GHz and attain 2.15 TFLOPs of GPU horsepower. Due to this the Ryzen 5800U can get a 171% increased graphics rating than the unique Ryzen 3700U.
AMD APU Forecasted Roadmap 2017-2022
|APU Phase||Household Codename||Household Branding||Course of Node||CPU Structure||GPU Structure||Max Cores / Threads||TDP||Launch 12 months|
|Desktop||Phoenix||Ryzen 7000G||5nm?||Zen 4||Navi (RDNA 2)||TBA||35-65W||2023|
|Desktop||Rembrandt||Ryzen 6000G||6nm||Zen 3+||Navi (RDNA 2)||8/16||35-65W||2022|
|Desktop||Cezanne||Ryzen 5000G||7nm||Zen 3||Vega (4th Gen)||8/16||35-65W||2021|
|Desktop||Renoir||Ryzen 4000G||7nm||Zen 2||(Vega third Gen)||8/16||35-65W||2020|
|Desktop||Picasso||Ryzen 3000G||12nm||Zen+||Vega (2nd Gen)||4/8||35-65W||2019|
|Desktop||Raven Ridge||Ryzen 2000G||14nm||Zen||Vega (1st Gen)||4/8||35-65W||2018|
|Excessive-Finish Pocket book||Phoenix-H||Ryzen 7000H||5nm?||Zen 4||Navi (RDNA 2)||TBA||35-45W||2023|
|Excessive-Finish Pocket book||Rembrandt-H||Ryzen 6000H||6nm||Zen 3+||Navi (RDNA 2)||8/16||35-45W||2022|
|Excessive-Finish Pocket book||Cezanne-H||Ryzen 5000H||7nm||Zen 3||Vega (4th Gen)||8/16||35-45W||2021|
|Excessive-Finish Pocket book||Renoir-H||Ryzen 4000H||7nm||Zen 2||(Vega third Gen)||8/16||35-45W||2020|
|Excessive-Finish Pocket book||Picasso-H||Ryzen 3000H||12nm||Zen+||Vega (2nd Gen)||4/8||35-45W||2019|
|Excessive-Finish Pocket book||Raven Ridge-H||Ryzen 2000H||14nm||Zen||Vega (1st Gen)||4/8||35-45W||2018|
|Extremely Low Energy Pocket book||Phoenix-U||Ryzen 7000U||5nm?||Zen 4||Navi (RDNA 2)||TBA||15-25W||2023|
|Extremely Low Energy Pocket book||Rembrandt-U||Ryzen 6000U||6nm||Zen 3+||Navi (RDNA 2)||8/16||15-25W||2022|
|Extremely Low Energy Pocket book||Barcelo-U||Ryzen 6000U||7nm||Zen 3||Vega (4th Gen)||8/16||15-25W||2022|
|Extremely Low Energy Pocket book||Cezanne-U||Ryzen 5000U||7nm||Zen 3||Vega (4th Gen)||8/16||15-25W||2021|
|Extremely Low Energy Pocket book||Lucienne-U||Ryzen 5000U||7nm||Zen 2||(Vega third Gen)||8/16||15-25W||2021|
|Extremely Low Energy Pocket book||Renoir-U||Ryzen 4000U||7nm||Zen 2||(Vega third Gen)||8/16||15-25W||2020|
|Extremely Low Energy Pocket book||Picasso-U||Ryzen 3000U||12nm||Zen+||Vega (2nd Gen)||4/8||15-25W||2019|
|Extremely Low Energy Pocket book||Raven Ridge-U||Ryzen 2000U||14nm||Zen||Vega (1st Gen)||4/8||15-25W||2017|
|Extremely Low TDP Pocket book||Dragon Crest||Ryzen 6000 (Y?)||7nm||Zen 2||Navi (RDNA 2)||TBC||9-15W||2022|
|Extremely Low TDP Pocket book||Van Gogh||Ryzen 5000 (Y?)||7nm||Zen 2||Navi (RDNA 2)||TBC||9-15W||2021|
|Extremely Low TDP Pocket book||Pollock||Ryzen 5000 (Y?)||14nm||Zen||(Vega third Gen)||TBC||4.5-9W||2021|