The AMD Ryzen 7 9700X and Ryzen 5 9600X Review: Zen 5 is Alive
by Gavin Bonshor on August 7, 2024 9:00 AM ESTLast month, AMD launched their first processors using the Zen 5 microarchitecture for the mobile market via their Ryzen AI 300 series. Typically, with AMD Ryzen launches, we usually see the desktop parts come first, with the flagship model and then the mobile coming after. This time around, AMD has changed the dynamic of their release schedule with Zen 5 by launching the mobile chips first, which includes the Ryen AI 9 HX 370, which we reviewed last month. Today, Zen 5 on desktop has its turn, as AMD has launched two mid-range desktop processors, the Ryzen 7 9700X and the Ryzen 5 9600X.
AMD has launched two of the four announced Ryzen 9000 series processors today. The entry-level model is the Ryzen 5 9600X, a 6C/12T part with full-sized Zen 5 cores that can boost up to 5.4 GHz out of the box. The other model launched today is the Ryzen 7 9700X, which also features 8C/16T of Zen 5 and a boost clock speed of up to 5.5 GHz.
As part of AMD's push on platform longevity, the Ryzen 9000 series shares the same AM5 socket as its predecessor, meaning users can use X670E/X670 and B650E/B650 motherboards with a firmware update. We expected to see the newer X870X motherboards come with the Ryzen 9000 release, but unfortunately, these have been delayed.
So now we have Zen 5 in the form of the Ryzen 9000 series finally hitting the desktop, sans the top two SKUs, the Ryzen 9 9950X and Ryzen 9 9900X, which are coming later, it's time to see how much of an improvement Zen 5 is over Zen 4, not just in single-threaded but also multi-threaded workloads as AMD has promised up to an uplift of 16% IPC on average. The Ryzen 7 9700X and Ryzen 5 9600X have a TDP of 65 W, which we see as more aligned with the non-X SKUs, so it will be interesting to see how Zen 5 performs in both performance and efficiency.
AMD Ryzen 7 9700X and Ryzen 5 9600X: Zen 5 For Desktop
Over the last couple of months, since AMD unveiled Zen 5 at Computex 2024, we've penned quite several column inches around the latest Zen 5 microarchitecture. AMD has made some interesting upgrades to their Ryzen processors for Zen 5 when combined with Zen 4, at least in the design of the cores. Interestingly, AMD is using the same IOD that we saw in Zen 4, with the only part of the Ryzen 9000 series getting an upgrade via the cores themselves, with up to two core complexes (Ryzen 9) featuring the new Zen 5 cores. The I/O die itself is manufactured by TSMC on their 6 nm node.
The Zen 5 microarchitecture improves upon multiple areas over Zen 4, especially in things such as caching and instruction-fetch capabilities. The Zen 5 architecture doubles the L2 cache size to 1 MB per core over Zen 4, upgrading the I-Cache to 32 KB and the D-Cache to 48 KB. Dual I-Fetch/decode pipes allow the cores to handle more instructions per cycle than the single fetch/decode pipe featured on Zen 4. The Execution Units on Zen 5 also get a bit of a buff, as Zen 5 comes with 6 Integer ALUs and 6 FP operations per cycle versus the more minor execution capabilities of Zen 4. This way, the throughput and general efficiency of the chip are improved.
Zen 5 is also optimized for stronger data flow in general and power efficiency compared to Zen 4. It gets upgraded to 4 load pipes for 512b AVX-512 workloads, as well as wider L2 cache paths that should be able to handle data better. AMD has also taken a bit of a different approach with AVX-512 instructions for Zen 4, including a single full AVX-512 data path; however, two 256-bit paths come with Zen 4 and opt to "double pump" the data, which isn't as efficient. There is also the continued inclusion of Simultaneous Multi-Threading (SMT), which means Zen 5 has two threads per core for improving multi-threaded performance.
Another thing to note is that Zen 5 processors are manufactured using TSMC's N4P node. TSMC states that this offers significant improvements over the 5nm node used in Zen 4. Although TSMC's base 4nm node (N4) is not much better than 5nm, the N4P node reportedly shows plenty of gains in comparison. TSMC states that the N4P node delivers an 11% increase in performance, a 22% gain in power efficiency, and a 6% boost in transistor density compared to the N5 (5 nm) node. Thanks to more EUV layers, the N4P process also cuts production costs by using around 6%, with fewer masks used in the production stage.
AMD's Zen 5 die can support up to 16 cores, including 1 MB L2 cache per core, with up to 8C/16T of compute cores and 32 MB L3 cache per CCD. The integrated GPU uses 1 WGP and 2 CUs based on the RDNA 2 architecture, which remains unchanged over Zen 4. It also has two 32B/cycle ports for effective data management that offer basic integrated graphics support for users without a discrete graphics card. Other implementations on the Granite Ridge SoC include specific accelerators and micro-controllers for video encoding/decoding, audio co-processors, and display controllers with support for up to 4 concurrent displays.
The IO side supports 128-bit DDR5 memory at 5600 MT/s (DDR5-5600) and 28 x PCIe Gen 5 lanes, meaning it can support one full-length PCIe 5.0 slot at x16 or two full-length slots at x8/x8. It also gives additional PCIe headroom for PCIe 5.0 x4 M.2 SSDs. The SoC also supports multiple USB ports, including up to three USB 3.3 Type-C, one USB 3.2 Gen2 Type-A, and one USB2. We are starting to see a more holistic shift from the older USB standards, such as USB 2, although these are backward compatible throughout the different standards.
AMD Ryzen 9000 Series Processors Zen 5 Microarchitecture (Granite Ridge) |
|||||||
AnandTech | Cores / Threads |
Base Freq |
Turbo Freq |
L2 Cache |
L3 Cache |
TDP | MSRP |
Ryzen 9 9950X | 16C / 32T | 4.3GHz | 5.7GHz | 16 MB | 64 MB | 170 W | $649 |
Ryzen 9 9900X | 12C / 24T | 4.4GHz | 5.6GHz | 12 MB | 64 MB | 120 W | $499 |
Ryzen 7 9700X | 8C / 16T | 3.8GHz | 5.5GHz | 8 MB | 32 MB | 65 W | $359 |
Ryzen 5 9600X | 6C / 12T | 3.9GHz | 5.4GHz | 6 MB | 32 MB | 65 W | $279 |
Looking at the Ryzen 9000 stack as it currently stands, AMD has announced four SKUs in total so far. The flagship SKU, the Ryzen 9 9950X, has 16 cores, a max boost clock of up to 5.7 GHz, and 80 MB of cache, which is split between 64 MB for the L3 and 16 MB for the L2 (1 MB per core of L2). It also has a 170 W TDP, which mirrors the previous Ryzen 9 7950X. This is where the rest of the stack differs from the Ryzen 7000 SKUs, and each of the new Zen 5 chips replaced differs.
The Ryzen 9 9900X is a 12C/24T part, which boosts up to 5.6 GHz, which coincidentally is the same boost frequency the Ryzen 9 7900X it replaces comes with, too. Aside from the change in architecture to Zen 5 from Zen 4, the biggest difference in paper specifications is that the new Ryzen 9 9900X has a TDP of just 120 W, down from the 170 W from the previous SKU.
AMD Ryzen 9000 series die shot with 2 x CCXs (Ryzen 9)
Moving down the stack and onto the two processors we're reviewing today, the Ryzen 7 9700X, which comes with 8 cores, a max boost clock of up to 5.5 GHz, 32 MB of L3 cache, and a 65W TDP. In contrast, the Ryzen 5 9600X has just 6 cores, a max boost clock of up to 5.4 GHz, and 32 MB of L3 cache. Also, it has a 65 W TDP. Still, both their predecessors, the Ryzen 7 7700X (8C/16T Zen 4) and the Ryzen 5 7600X (6C/12T Zen 4), have a higher 105 W TDP.
This is a testament to AMD's focus and commitment to delivering power efficiency. With close to the same boost clocks as their Zen 4 counterparts, Zen 5 and Ryzen 9000 do things with a lower voltage/frequency (V/F) curve. This shows that Zen 5 is seemingly more efficient than Zen 4, but AMD has also bumped memory support up to DDR5-5600, up from DDR5-5200 on Ryzen 7000.
AMD AM5 Chipset Comparison | |||||
Feature | X870E | X870 | X670E | X670 | B650E |
CPU PCIe (PCIe) | 5.0 | 5.0 | 5.0 | 4.0 | 5.0 |
CPU PCIe (M.2 Slots) | At Least 1 PCIe 5.0 Slot | ||||
Total CPU PCIe Lanes | 24 | ||||
Chipset PCIe Lanes (Max) | 4.0: 12 3.0: 8 |
4.0: 8 3.0: 4 |
4.0: 12 3.0: 8 |
4.0: 8 3.0: 4 |
|
USB4 | Mandatory (Discrete, Consumes 4 Chipset PCie 4.0 Lanes) |
Optional | |||
SATA Ports (Max) | 8 | 4 | 8 | 8 | 4 |
DDR5 Support | Quad Channel (128-bit bus) | ||||
Wi-Fi | Wi-Fi 7 (Discrete) | Wi-Fi 6E (Discrete) | |||
CPU Overclocking Support | Yes | ||||
Memory Overclocking Support | Yes | ||||
# of Chips | 2 | 1 | 2 | 2 | 1 |
Silicon | ASMedia Promontory 21 | ||||
Available | Expected Sept. 2024 | Expected Sept. 2024 | Sept. 2022 | Sept. 2022 | Oct. 2022 |
Although the Ryzen 9000 uses the same AM5 socket as the previous Ryzen 7000 series, motherboard vendors have been readying new motherboards based on the X870E and X870 chipsets. All of the AM5 socket motherboards that are either currently on the market or due to be released with the X870E/X870 chipsets use the same ASMedia Promontory 21 chipset at their heart. The only real difference is in the feature sets, and newer boards utilize new controllers that previously weren't available at the time.
Notable additions with X870E/X870 include USB 4.0 support, which will be ubiquitous on all X870(E) boards, where it was previously only optional for X670(E) series boards. X870(E) boards will also herald in Wi-Fi 7 support, although that's leaping from 6E with the 600 series with at least one PCIe 5.0 NVMe slot continuing to be a mandatory inclusion. AMD also notes that motherboards based on both platforms "feature 44 total PCIe lanes," which would break down to 24 lanes from the CPU and another 20 lanes from the chipset.
That being said, if users already have an existing AM5 motherboard, there's no need to upgrade unless the temptation of features like Wi-Fi 7 is pretty much the biggest difference on most of the newer motherboards. The other caveat with X870E and X870 is that there's no official date for these models to hit the shelves. We know these should be expected sometime in September, which we got from a reliable source from a big motherboard manufacturer.
Regarding pricing, the AMD Ryzen 7 9700X has an MSRP of $359, which is actually $40 cheaper than its predecessor, the Ryzen 7 7700X, which launched in September 2022 for $399. The same can be said about the Ryzen 5 7600X, which debuts at $279, which is $20 cheaper than the Ryzen 5 7600X did around this time 2 years ago at launch. AMD is coming in aggressive with its pricing on Zen 5. While both these chips are aimed firmly at the more affordable end of the market, it's time to see how they compete with their Ryzen 7000 (Zen 4) counterparts, as well as Intel's Raptor Lake (14th Gen) chips such as the Core i5-14600K, among others we've tested.
How does Zen 5 for desktop compare to Zen 4 and Intel's offerings? It's time to find out how Zen 5 hangs.
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schujj07 - Thursday, August 8, 2024 - link
Starting with 13th Gen Intel had a core and total thread count advantage on type vs type (Ryzen 5 vs i5 for example). However, when you compare Ryzen vs Core on thread counts the Ryzens tend to be faster for the same number of threads.Targon - Friday, August 9, 2024 - link
You are only partially correct. Intel has those "efficiency" cores, and includes those in the core count. E-cores are very low performance, so 16 Zen4 cores vs. 8 P-cores+16 E-cores is the comparison you are looking at, and at this point, a 7950X vs the 14900k makes for an interesting comparison in Cinebench with a generally stock configuration(turn on XMP/EXPO memory).meacupla - Wednesday, August 7, 2024 - link
is there an idle power draw graph?Slash3 - Wednesday, August 7, 2024 - link
4K gaming page still has a few rather unnecessary text padding entries at the bottom, FYI. :)isthisavailable - Wednesday, August 7, 2024 - link
The PS5/ Xbox series made 8c/16t the new minimum when they launched in 2020. It's 2024 and the new gen CPU is still launching with a 6c/12t part as the "baseline". No core count increase since the original Zen launch. It's high time AMD moves to 8/16 for the Ryzen 5Khanan - Wednesday, August 7, 2024 - link
Why, so 99.9% of games can ignore the 2 extra cores? Aside, the 6 core is a harvested 8 core product, it will always exist.You cry for more cores but don’t understand the way games work today and where the development goes. Game devs don’t like high core counts and rarely optimise for more than 4-6 cores.
erotomania - Thursday, August 8, 2024 - link
Actually original Zen launched (or rather, the lineup was completed shortly after launch) with 4C/4T and 4C/8T and 6C/6T. Even the original Ryzen 5 was three months after Ryzen 7 - I know because I waited for a 1600.schujj07 - Friday, August 9, 2024 - link
Zen 1 topped out at 8c/16t and you could get 16c/32t if you got a Threadripper. Since Zen 2, the top CPU is 16c/32t before going to Threadripper. Really there aren't many consumer applications that use more threads than that. Now once Zen 6 comes we might see higher core counts per CCD as that will be on a smaller process node.haukionkannel - Saturday, August 10, 2024 - link
Not really… 8 core still is not much faster than 8 core and 10 core would be same speed as 8 core in ost normal use cases…When the core count becomes the bottleneck, then i agree that more cores would be nice to have. But we are not in there…
shabby - Wednesday, August 7, 2024 - link
I think amd screwed up with the 9700x, this should have been a 105w processor, not a 65w one. The 7700 ran at 65w and had similar clocks, while the 7700x ran at 105w with much higher base clocks.