The AMD 3015Ce (Codename Dali) is a mobile APU that integrates two Zen cores (with SMT, therefore 4 threads) clocked at 1.2 to 2.3 GHz. It is the Chromebook version of the AMD 3015e with identical specifications. The TDP is specified at 6 Watt and therefore the chip can be passively cooled. The integrated Radeon graphics card offers 3 CUs at up to 600 MHz (Radeon RX Vega 3). The single channel memory controller supports only DDR4-1600. The chip is manufactured in 14nm and officially counted to the 3000 series of mobile processors.
AMD compares the performance of the 3015e (and therefore also the identical 3015Ce) against the entry level Intel Celeron N4120 (Quad-Core Atom). The 3015e should be 36% faster in single thread Cinebench R20 test. This is expected as the Atom cores offer a low single thread performance. Multi-thread benchmarks were not provided, so we guess the N4120 will be faster with its 4 cores. In PCMark 10 the 3015e should be 18% faster and in the 3DMark Night Raid the integrated GPU should beat the UHD Graphics 600 in the N4120 by 24%.
More information on Raven Ridge can be found in our launch article.
The AMD 3015e is a dual-core, quad-thread processor (APU) of the Pollock product family. Its cores run at 1.2 GHz to 2.3 GHz and it has a low 6 W TDP, making it a good option for use in passively cooled laptops and ultra-small mini-PCs of the more affordable flavour. The processor first saw the light of day in 2020; it has a built-in Vega 3 graphics adapter running at up to 600 MHz.
3015e is based on the rather dated Zen architecture for comparatively poor performance-per-MHz values. It has 4 MB of L3 cache and several PCI-Express 3.0 lanes for connecting NVMe SSDs, discrete graphics cards and other devices; its RAM controller functions in single-channel mode and supports DDR4-1600 memory or slower. AMD 3015e is compatible with Windows 10, Windows 11, and many Linux distros as well. Please note this is not a user-replaceable CPU. It gets soldered permanently to the motherboard (FT5 socket interface).
The AMD processor directly competes with Intel's N-class Celeron and Pentium processors (such as the N4500), making it an undeniably low-end option suitable for basic tasks only.
The Vega 3 runs at an unusually low clock rate of 600 MHz, or less. It will let you connect several monitors in resolutions as high as UHD 2160p, and it will happily decode AVC, HEVC and VP9-encoded videos, too. The latest AV1 video codec is not supported; such a video will have to be software-decoded, with the limited CPU horsepower putting a hard limit on video resolution that can be played back without stuttering. Expect to see a lot of dropped frames when watching a 1080p30 video.
Gaming is possible to a very limited extent with this iGPU. Even if it's CS:GO or a similarly old game that you want to play, be prepared to set the settings to Low.
This little processor has a low default TDP (also known as PL1) of 6 W. The 14 nm process it is manufactured on is not really known for great energy efficiency, though.
The AMD Ryzen 3 2200G is a desktop APU that was announced in early 2018. It combines four Zen cores (4 threads as no SMT/HyperThreading support) clocked at 3.5 - 3.7 GHz with a Radeon RX Vega 8 graphics card with 8 CUs (512 of the 704 Shaders on the chip) clocked at up to 1100 MHz. The integrated dual-channel memory controller supports up to DDR-2933. The TDP is specified at 65 Watt and the CPU, GPU and memory are unlocked for overclocking. More information on Raven Ridge can be found in our launch article.
- Range of benchmark values for this graphics card - Average benchmark values for this graphics card * Smaller numbers mean a higher performance 1 This benchmark is not used for the average calculation
log 04. 22:10:15
#0 checking url part for id 14368 +0s ... 0s
#1 checking url part for id 12718 +0s ... 0s
#2 checking url part for id 9896 +0s ... 0s
#3 not redirecting to Ajax server +0s ... 0s
#4 did not recreate cache, as it is less than 5 days old! Created at Sun, 04 Dec 2022 10:20:04 +0100 +0.001s ... 0.001s
#5 composed specs +0.035s ... 0.037s
#6 did output specs +0s ... 0.037s
#7 getting avg benchmarks for device 14368 +0.002s ... 0.038s
#8 got single benchmarks 14368 +0.007s ... 0.046s
#9 getting avg benchmarks for device 12718 +0.002s ... 0.048s
#10 got single benchmarks 12718 +0.005s ... 0.053s
#11 getting avg benchmarks for device 9896 +0.013s ... 0.065s
#12 got single benchmarks 9896 +0.008s ... 0.074s
#13 got avg benchmarks for devices +0s ... 0.074s
#14 min, max, avg, median took s +0.113s ... 0.186s