Earlier this year, AMD launched its Zen 3 based desktop processor solutions with integrated graphics. Marketed as the Ryzen 5000G family, these processors are the latest offering to combine AMD’s high-performing Zen 3 cores with tried-and-tested Vega 8 graphics, all built on TSMC’s 7nm process. As desktop processors, AMD made them available to system builders for a few months, allowing the company to keep track of stock levels and have a consistent demand during a high-demand phase for silicon. But on August 5th, they will be made available to buy at retail, and we’ve got the most important models to test.

The AMD Ryzen 5000G APUs: Cezanne Silicon

AMD actually came to market with its Zen 3-based integrated graphics silicon back in December 2020. The Cezanne silicon, with eight Zen 3 cores and up to Vega 8 graphics, was first earmarked for laptop use. We saw it come to market in that fashion for the 15 W and 45 W segments, and tested it in the ASUS ROG Flow X13 laptop in a 35 W variation, paired with a discrete graphics card.

AMD Ryzen 9 5980HS Cezanne Review: Ryzen 5000 Mobile Tested

As a mobile chip in both low power and high power segments, it had to do duty as both a processor and graphics at 15 W, but mainly as a processor at 45 W powering a discrete graphics card. For the desktop processors, AMD cranks up the power even more to 65 W, where it is expected to perform either as a good CPU powering a GPU, or as an integrated graphics solution and do everything.

The Ryzen 5000G processor series is an upgrade over last year’s Ryzen 4000G processor series. AMD co-designed both of these processor families to re-use key parts of the chip design, enabling a fast time-to-market and quicker upgrade cycle for AMD’s partners (OEMs), like Dell, HP, Lenovo, and others. The biggest re-use between the two families is the graphics, which has Vega 8 graphics on both, and although there’s a hefty frequency bump for 5000G in mobile, the desktop parts actually see a decline. We expect AMD to have its latest RDNA 2 graphics in its G processors next time around, but for now it stays the same because that helps expedite the design for these processors.

AMD CEO, Dr. Lisa Su, with Cezanne silicon

The major difference between the 4000G and 5000G processors is that the new hardware uses eight of AMD’s latest Zen 3 CPU cores, which is an upgrade over the eight Zen 2 cores from last year. The highlight is the +19% raw performance uplift when comparing the two at the same frequency. The second major difference is that the 4000G processors never technically came to retail (but we reviewed them anyway), while AMD is making the Ryzen 7 5700G and Ryzen 5 5600G as individual products that customers can buy.

Under the hood, there are a few more key changes that enthusiasts will be interested in. The 8-core Zen 3 design doubles the L3 cache per core, but also combines it into a single 16 MB L3 cache structure. This enables any of the eight cores to access the full cache, reducing latency to main memory (from 4 MB to 16 MB). The previous design had two clusters of four Zen 2 cores, so while it still had 8 cores, each cluster only had access to 4 MB of L3 cache. This is of sizable importance when it comes to workloads that sit in the 4 MB to 16 MB memory space, such as integrated graphics gaming and discrete graphics.

The new processor is 180 mm2 in size, compared to 156 mm2 of the last generation, but still fits into the same socket. It contains 10.7 billion transistors, which is up from 9.8 billion. This means an effective decrease in transistor density, although we know that Zen 3 cores are slightly larger than Zen 2 cores, and some additional security measures have been added.

There are six desktop processors in this family, and two of them are coming to store shelves.

AMD Ryzen 5000G Series APUs
AnandTech Core /
Thread
Base
Freq
Turbo
Freq
GPU
CUs
GPU
Freq
PCIe
*
TDP
Ryzen 5000G
Ryzen 7 5700G 8 / 16 3800 4600 8 2000 16+4+4 65 W
Ryzen 7 5700GE 8 / 16 3200 4600 8 2000 16+4+4 35 W
Ryzen 5 5600G 6 / 12 3900 4400 7 1900 16+4+4 65 W
Ryzen 5 5600GE 6 / 12 3400 4400 7 1900 16+4+4 35 W
Ryzen 3 5300G 4 / 8 4000 4200 6 1700 16+4+4 65 W
Ryzen 3 5300GE 4 / 8 3600 4200 6 1700 16+4+4 35 W
*PCIe lanes on the SoC are listed in 16xGFX + 4xChipset + 4 for NVMe

The top part is a Ryzen 7 5700G, featuring eight cores and sixteen threads, with a base frequency of 3.8 GHz and a turbo frequency of 4.6 GHz. The Vega 8 graphics runs at 2000 MHz, and we get sixteen lanes of PCIe 3.0 for graphics, plus another four for storage and four for the chipset.. TDP of the chip is rated at 65 W, although in most motherboards the Package Power Tracking will bump power up to 88 W. The Ryzen 7 5700G will have an MSRP of $359.

The second part is a Ryzen 5 5600G, featuring six cores and twelve threads, with a base frequency of 3.9 GHz and a turbo frequency of 4.6 GHz. It drops down in graphics to Vega 7, running at 1900 MHz, but has the same PCIe 3.0 and TDP settings as the Ryzen 7. AMD has indicated that the 5600G should retail for $259.

 

We’re also testing a third part in this review, the Ryzen 3 5300G, which sits near the bottom of the stack. With only four cores and eight threads, up to 4.2 GHz turbo and Vega 6 graphics running at 1700 MHz, this processor contains only half the L3 cache (8 MB total) of the other two. It sounds like it would make a nice $150 processor if it came to retail, and users can pick this processor up on eBay, but it currently it sits at $272 plus shipping, making it more expensive than the 5600G. Nonetheless, as we had tested Ryzen 7/5/3 from the 4000G series, we wanted to compare up against the 5000G to see if this is a line AMD might consider going beyond OEM deployment.

This is ultimately why a staggered launch from laptop to desktop over the course of eight months allows AMD to pitch where its desktop integrated graphics processors should sit in the marketplace. These Cezanne processors use Zen 3 CPU cores, for example, whereas the older ones had Zen 2, Zen+, and Zen before it. What makes these ones different this time around is that AMD is cutting the Ryzen 3 from retail, but the Ryzen 7 at the high-end is now available at retail. The only one that has been consistent is Ryzen 5, and we can compare the Ryzen 5 processors over the years:

Ryzen 5 APUs (65W)
AnandTech Cores Base
Freq
Turbo
Freq
L3
MB
PCIe GPU DDR4 Price
Zen3
7nm
Ryzen 5 5600G 6 / 12 3900 4400 16 3.0 x24 Vega8 3200 $259
Zen2
7nm
Ryzen 5 4650G 6 / 12 3700 4200 4+4 3.0 x24 Vega8 3200 OEM
Zen+
12nm
Ryzen 5 3400G 4 / 8 3700 4200 4 3.0 x8 Vega11 2933 $149
Zen
14nm
Ryzen 5 2400G 4 / 8 3600 3900 4 3.0 x8 Vega11 2933 $169

AMD has kept the Vega graphics through all four generations, but moved down from the silicon having Vega 11 on 12nm to Vega 8 on 7nm – AMD said that this was because of density increases and finding the right balance, but also the uplift in frequency and power efficiencies the new process node provided.

As it stands, these two new processors at retail fill out AMD's retail offerings, at least down to $259. One of the key benefits is that these two new processors are cheaper than the existing CPU-only offerings, but also both come with appropriate coolers when they are run at their default power modes. Otherwise, the most notable differences between AMD's Ryzen 5000 CPUs and 5000G APUs comes down to the APUs only have half as much L3 cache, and of course, the APUs also come with integrated graphics. Given that modern graphics cards don’t even need PCIe 4.0 levels of bandwidth, we have to see if the cache difference and any CPU frequency differences are worth the price difference.

AMD Ryzen 5000 CPU vs APU Comparisons
AnandTech Core /
Thread
Base
Freq
Turbo
Freq
GPU
CUs
GPU
Freq
PCIe
 
L3
MB
TDP SEP
Ryzen 7
Ryzen 7 5800X 8 / 16 3800 4700 - - 4.0 x24 32 105 W $449
Ryzen 7 5700G 8 / 16 3800 4600 8 2000 3.0 x24 16 65 W $359
Ryzen 5
Ryzen 5 5600X 6 / 12 3700 4600 - - 4.0 x24 32 65 W $299
Ryzen 5 5600G 6 / 12 3900 4400 7 1900 3.0 x24 16 65 W $259

The key thing with the Ryzen 7 comparison is the TDP difference – why the frequency might only be 100 MHz change, at 105 W TDP (or 120W PPT), it will keep its turbo better.

Chipset Support

AMD has confirmed that X570, B550, and A520 motherboards will support the new 5000G processors. X470 and B450 motherboards might also be supported, but that depends on the motherboard manufacturer. AMD recommends a BIOS with AGESA version 1203b for full performance.

This Review

In this article, we will be testing the Ryzen 7 5700G, Ryzen 5 5600G, and Ryzen 3 5300G on our test suite, covering raw CPU performance, integrated graphics performance, but also performance when paired with a discrete GPU.

AnandTech Example
Processors
Motherboard DRAM PSU SSD
AMD
Zen3 APU Ryzen 7 5700G GIGABYTE
X570 Aorus I
Pro (F34)
ADATA
32 GB
DDR4-3200
Corsair
AX860i
Crucial
MX500
2 TB
Ryzen 5 5600G
Ryzen 3 5300G
Zen2 APU Ryzen 7 4750G GIGABYTE
X570 Aorus I
Pro (F30a)
ADATA
64 GB
DDR4-3200
Corsair
AX860i
Crucial
MX500
2 TB
Ryzen 5 4650G
Ryzen 3 4350G
Zen+ APU Ryzen 5 3400G GIGABYTE
X570 Aorus I
Pro (F30a)
ADATA
64 GB
DDR4-2933
Corsair
AX860i
Crucial
MX500
2 TB
Zen APU Ryzen 5 2400G GIGABYTE
X570 Aorus I
Pro (F30a)
ADATA
64 GB
DDR4-2933
Corsair
AX860i
Crucial
MX500
2 TB
Intel
Rocket Lake Core i7-11700K ASUS Maximus
XIII Hero
BIOS
0610
Corsair
AX1600i
Crucial
MX500
2TB
Broadwell Core i7-5775C GIGABYTE
Z97X-UD5H
(F10)
Geil Veloce
16 GB
DDR3-1600
Antec HCP
1250W
Crucial
MX500
2 TB
Core i5-5675C
Tiger Lake Core i7-1185G7 Intel
Reference
32 GB
LPDDR4X
Integrated Samsung
PCIe 3.0

Many thanks to...

We must thank the following companies for kindly providing hardware for our multiple testbeds. Some of this hardware is not in this testbed specifically, but is used in other testing.

Hardware Providers for CPU and Motherboard Reviews
Sapphire
RX 460 Nitro
NVIDIA
RTX 2080 Ti
Crucial SSDs Corsair PSUs

G.Skill DDR4 ADATA DDR4 Silverstone
Coolers
Noctua
Coolers

A big thanks to ADATA for the ​AD4U3200716G22-SGN modules for this review. They're currently the backbone of our AMD testing.

Read on for the full review.

Power Consumption
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  • mode_13h - Tuesday, August 10, 2021 - link

    > that hot, expensive Gen 4 M.2 NVMe SSD you want to use on your new
    > motherboard will not achieve the speed you paid dearly for.

    None of the 1st gen PCIe 4.0 M.2 NVMe SSDs did, in fact. A lot of them still don't. And if you're not running it at PCIe 4.0, then it's probably also running a bit cooler.
  • alfatekpt - Monday, August 9, 2021 - link

    Currently 5600G and 5600X are at the same price in my country. Should I get the 5600G? I already have a GPU so having an integrated one is only useful in case the GPU breaks or needs to go under warranty and I still can use the PC...
  • mode_13h - Tuesday, August 10, 2021 - link

    I wouldn't get the G. The X is faster in every single benchmark, and sometimes substantially! Plus, you get PCIe 4.0, in case that's ever of interest.

    If you just want a backup GPU, so you're not completely dead in the water, then maybe pick up a used low-end model (especially when GPU prices cool off, a bit). I'm seeing used RX 550's for < $100, which is roughly performance-equivalent.

    If you don't care about performance, then you can go even older. I have a HD 5450 as a sort of last-resort fallback, and those are CHEAP! That's pre-GCN, but I know it still works on Linux. I think it shouldn't be too hard to find something a bit newer that's also cheap, though. Or, if you have some friends who would loan you an obsolete GPU in a pinch, that's also an option worth considering.
  • phoenix_rizzen - Monday, August 9, 2021 - link

    The "Ryzen 5 APUs (65W)" table on page 1 lists the Ryzen 5 CPUs with 8 cores / 16 threads. Should be 6/12 instead.
  • plonk420 - Tuesday, August 10, 2021 - link

    thanks for the core to core latency tests! looks like RPCS3 will definitely benefit from it \o/
  • Oxford Guy - Wednesday, August 11, 2021 - link

    ‘In our largest sub-test, the Intel processors crack on ahead,’

    Did I miss the stuff about performance-per-watt?

    If an Intel chip needs a boatload more power to do the barely faster work, how is that a victory for Intel’s chip?

    Performance-per-watt is important when we’re dealing with today’s 14nm vs. ‘7nm’ situation.

    There should be an entire page devoted to performance-per-watt.
  • mode_13h - Thursday, August 12, 2021 - link

    There is indeed a page on power consumption, but the most revealing charts only compared the three AMD 5000G-series processors to each other. That was a painful omission.

    Intel got included in the peak power chart, but we all know that peak power is hardly the whole story.
  • Oxford Guy - Thursday, August 12, 2021 - link

    ‘There is indeed a page on power consumption’

    Indeed, there is no page on performance-per-watt — and the article continues this site’s erroneous tradition of claiming that getting a slightly higher score in a benchmark whilst using a ton more power constitutes a victory.

    Context is key. These articles should pay more mind to practical context, rather than things like pumping 1.45 volts into Rocket Lake and ignoring power consumption failure (vis-a-vis the competition) when examining a benchmark.
  • mode_13h - Friday, August 13, 2021 - link

    FWIW, I was trying to agree with you. Their "Power Consumption" page had several key omissions.
  • Oxford Guy - Sunday, August 15, 2021 - link

    Regardless... peak power isn’t enough to constitute a page on performance per watt.

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