The AMD Ryzen 9 7900, Ryzen 7 7700, and Ryzen 5 7600 Review: Zen 4 Efficiency at 65 Watts
by Gavin Bonshor on January 9, 2023 9:00 AM ESTGaming Performance: 1080p
Moving along, here's a look at a more balanced gaming scenario, running games at 1080p with maximum image quality.
We are using DDR5 memory on the Ryzen 7000 series 65 W SKUs, as well as the other Ryzen 7000 processors tested, at the following settings:
- DDR5-5600B CL46 - Intel 13th Gen
- DDR5-5200 CL44 - Ryzen 7000
- DDR5-4800 (B) CL40 - Intel 12th Gen
All other CPUs such as Ryzen 5000 and 3000 were tested at the relevant JEDEC settings as per the processor's individual memory support with DDR4.
Civilization VI
World of Tanks
Borderlands 3
Grand Theft Auto V
We have highlighted a few odd results in our GTA V 1080p testing, including the Ryzen 9 7950X, Ryzen 5 7600X, and the Core i5-12600K. We are planning to re-test these processors within the next couple of days, and we will add these results when we have retested them.
Red Dead Redemption 2
We have highlighted some odd results in our RDR2 1080p testing, including the Ryzen 9 7950X and the Ryzen 5 7600X. We are planning to re-test these processors within the next couple of days, and we will add these results when we have retested them.
F1 2022
Hitman 3
Total War: Warhammer 3
Cyberpunk 2077
Moving onto our testing at 1080p, and in most of the games tested, we see the Ryzen 9 7900, Ryzen 7 7700, and Ryzen 5 7600 in a better light. It's quite impressive that all three chips retain a large amount of their performance despite being limited with a 65 W TDP (90 W under load), which shows they have more than enough processing power for most titles on the market.
The only negative we saw came in Cyberpunk 2077, where all three displayed solid performance levels about average frame rates but fell behind a little in 5% low (95th percentile) frames.
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bcortens - Monday, January 9, 2023 - link
Does sustained power consumption look similar to peak power consumption?Why does your article lead with "Efficiency at 65 Watts" when the peak power is 90 Watts?
AshlayW - Monday, January 9, 2023 - link
Because the Platform Power Target (PPT) for '65W TDP' models from AMD has always been around 87W (~90 give or take). The TDP is thermal watts for cooling systems not sustained electrical watts for power usage. I assume the author is implying that the models are the AMD-rated 65W TDP and are efficient, not that they specifically use 65 watts, but I suppose it's kinda misleading.meacupla - Monday, January 9, 2023 - link
yeah, not all the electrical energy going into the chip ends up as heat energy.saratoga4 - Monday, January 9, 2023 - link
All of the electrical energy going into the chip does become heat aside from a tiny bit that leaves as bits on the various buses (which is mostly canceled out by energy coming in from other chips on the same bus). The difference between TDP and peak power is that the CPU can thermally throttle if needed.ballsystemlord - Monday, January 9, 2023 - link
A CPU is not a resistor. So not all the energy is converted into heat.For example, some of it goes down the PCIe bus, and heats up the PCB traces and PCIe card. Likewise with the RAM.
Samus - Wednesday, January 11, 2023 - link
Intel and AMD have dramatically different packaging. The TDP designation in AMD CPU's applies to the CPU portion of the package ie ZEN core chiplet(s) while the IO CCD is rolled into the PPT as it is effectively the rest of the "platform."If we were to try comparing fruits, AMD's PPT would be comparable to Intel's TDP + chipset (Z690 is 6-watts) + other external components that would otherwise be integrated in a Ryzen IO but as these architectures are vastly different a direct comparison is impossible; for example, AMD's IO is far more complex than Intel's, supporting a wider range of platform designs and IO types. While Intel and AMD both support DDR4\5 at this point within their memory controllers, PCIe 3.x\4.x\5.x is handled inside of AMD's IO while Intel offloads much of that to the chipset, only supporting some lanes inside the CPU, and many CPU's not supporting 5.x. To make matters worse, the Z690 is manufactured on a 14nm process while AMD's IO CCD is 7nm (or something like that) so while the Z690 would use much more power if it did the same thing as the AMD IO CCD, it doesn't. In fact it does very little and the package itself is tiny like 25mm2. This means the AMD IO handles a lot more while being 7nm while Intel integrates all of that into the CPU die which is a more refined 10nm process that efficiency is somewhere between TSMC 5nm and 7nm.
Basically AMD's CPU CCD (5nm?) is more efficient while their IO (7nm?) is less efficient and this doesn't entirely balance out compared to Intel's monolithic 10nm (which more efficient than TSMC's 7nm.)
This chart breaks it down better than I can - scroll down to density comparison: https://www.granitefirm.com/blog/us/2021/12/28/tsm...
ballsystemlord - Thursday, January 12, 2023 - link
It's unclear to me how this relates to my post.I was saying that not all the power is turned into heat, therefore, the 90w figure is not misleading.
ballsystemlord - Monday, January 9, 2023 - link
Also worth noting is that the power dissipated is related to the resistance of the component, not the amount of power going into the component. You should recall that from any basic series circuit you have worked with/on.escksu - Tuesday, January 10, 2023 - link
It's true that it's related to resistance but in the case of the cpu, it's mostly due to the rapid switching of transistors.escksu - Tuesday, January 10, 2023 - link
Not all but most of becomes heat. It's due to the rapid switching on/off of the transistors.