The AMD Zen and Ryzen 7 Review: A Deep Dive on 1800X, 1700X and 1700
by Ian Cutress on March 2, 2017 9:00 AM ESTAMD Ryzen 7 Launch Details
The Ryzen family of CPUs is designed to compete, initially, in the performance-mainstream and high-end desktop market. At first will be the launch of Ryzen 7 CPUs, a trio of eight-core, sixteen-thread designs, with Ryzen 5 and Ryzen 3 coming in Q2 and 2H17 respectively. Out of the CPUs we know about, the Ryzen 7 parts, the processors have a TDP of either 65W or 95W, and prices will range from $330 to $500.
AMD Ryzen 7 SKUs | ||||||
Cores/ Threads |
Base/ Turbo |
L3 | TDP | Cost | Launch Date | |
Ryzen 7 1800X | 8/16 | 3.6/4.0 | 16 MB | 95 W | $499 | 3/2/2017 |
Ryzen 7 1700X | 8/16 | 3.4/3.8 | 16 MB | 95 W | $399 | 3/2/2017 |
Ryzen 7 1700 | 8/16 | 3.0/3.7 | 16 MB | 65 W | $329 | 3/2/2017 |
All the processors will be using the AM4 socket, with bases frequencies from 3.2 GHz to 3.6 GHz, and turbo frequencies up to 4.0 GHz for the high-end parts. The base design supports 512KB of private L2 cache per core and 2MB of a shared exclusive L3 victim cache.
The CPUs follow a naming scheme which most CPU enthusiasts will be familiar with:
- The high-end parts are ‘Ryzen 7’, which all happen to be eight-core parts and start around $300-$320. With a fully enabled chip, 16MB of L3 cache is available.
- In the mid-range are ‘Ryzen 5’ processors, set to be launched in Q2, which are all eight-core parts under the hood but are either 6-core parts or 4-core parts depending on the model. Leaks would tend to suggest that despite having two cores disabled, the 6-core parts still have access to all the L3 cache.
- At the bottom are ‘Ryzen 3’, due 2H17, all of which are quad core parts but do not have hyperthreading.
- All parts support overclocking.
- Technically all parts support XFR, although only X can overclock with XFR (more on this later)
- It’s worth noting that ‘Ryzen 7 1900X’ is a gap waiting to be filled.
The formal name for these CPUs is ‘Ryzen 7’ followed by the SKU number. Having conversations with AMD, and noting that I suspect these names will colloquially be shortened to R7, R5 and R3 very quickly, we will be following convention and using the formal CPU names.
All these parts come from a single silicon design, with binning to ensure that the quality of each silicon die gets placed in the right bin. It is worth noting AMD’s tactics to launch a handful of SKUs at once follows on from its previous strategy. Part of it is a function of size (AMD by contrast to other players is actually small), and it allows AMD to react to how the market changes, as well as adjust product lines due to factors in the production (such as better semi-con characteristics).
All the CPUs are multiplier unlocked, allowing users to go overclocking when paired with the X370 or B350 chipset. At this point we’re unsure what the upper limit is for the multiplier. We have been told that all CPUs will also support XFR, whereby the CPU automatically adjusts the frequency rather than the OS based on P-states, but the CPUs with ‘X’ in the name allow the CPU to essentially overclock over the turbo frequency. XFR stands for ‘eXtended Frequency Range’, and indicates that the CPU will automatically overclock itself if it has sufficient thermal and power headroom. We’ll mention it later, but XFR works in jumps of 25 MHz by adjusting the multiplier, which also means that the multiplier is adjustable in 0.25x jumps (as they have 100 MHz base frequency). XFR does have an upper limit, which is processor dependent. All CPUs will support 25 MHz jumps though XFR above the P0 state, but only X CPUs will go beyond the turbo frequency.
A side note: As to be expected, XFR only works correctly if the correct setting in the BIOS is enabled. At this point the option seems to be hidden, but if exposed it means it is up to the motherboard manufacturers to enable it by default – so despite it being an AMD feature, it could end up at the whim of the motherboard manufacturers. I suspect we will see some boards with XFR enabled automatically, and some without. We had the same issue on X99 with Turbo Boost 3, and Multi-Core Turbo.
So Why No Ryzen 5 or Ryzen 3?
AMD is remaining relatively quiet on the other Ryzen CPUs. At the Tech Day, we were told about one other CPU: the Ryzen 5 1600X.
AMD Ryzen SKUs | ||||||
Cores/ Threads |
Base/ Turbo |
L3 | TDP | Cost | Launch Date | |
Ryzen 7 1800X | 8/16 | 3.6/4.0 | 16 MB | 95 W | $499 | 3/2/2017 |
Ryzen 7 1700X | 8/16 | 3.4/3.8 | 16 MB | 95 W | $399 | 3/2/2017 |
Ryzen 7 1700 | 8/16 | 3.0/3.7 | 16 MB | 65 W | $329 | 3/2/2017 |
Ryzen 5 1600X | 6/12? | 3.6/4.0 | 16 MB? | ? W | N/A | Q2 2017 |
Ryzen 3 ? | 4/4? | ? | 8 MB? | ? W | N/A | H2 2017 |
This six-core part will have two CPU cores disabled, though it is unclear if AMD will disable one core per cluster of four (giving a 3+3 arrangement) or if they could disable two from one cluster (giving 2+4). Nonetheless, it maintains the 3.6 GHz base frequency and 4.0 GHz turbo frequency similar to the Ryzen 7 1800X. This puts it square in the firing line of the Core i7-6850K (six core, Broadwell-E) and Core i7-5930K (six core, Haswell-E).
Ryzen 5 is scheduled for ‘Q2’, meaning the second quarter of 2017, or April-to-June inclusive. The big event in that time frame in the PC world is Computex at the beginning of June, which might be an apt time to launch some other products as well. The scale of the Ryzen 5 launch is unknown, and I suspect that if the demand for Ryzen 7 is high then AMD might not have enough CPUs to go around. If enough parts come out of the Fab working well, and Ryzen 7 is still selling strong, then we might have to wait for Ryzen 5. This aids part of AMD’s trickle-out strategy, though based on some of the comments we’re seeing online, Ryzen 5 is also highly anticipated.
The Ryzen 3 family is even more unknown. At this point the leaks suggest that these will be quad core parts without simultaneous multi-threading, however AMD has not released any information as to how they will work. The only thing we know is that AMD is planning a H2'17 launch, meaning the second half of 2017. That’s a very, very wide window, encompassing things like the Server chips launch but also the notebook SoCs. I suspect AMD will be constantly looking at their product lines and sales, determining what opportunities there are for Ryzen 3 CPUs – if they get a full launch or end up a footnote if the rest of the stack performs above expectations. Or Ryzen 3 could end up mobile only, but that’s just a low-chance hypothesis.
I saw Ryzen Pro being in the leaks?
At this time AMD is not announcing any Pro parts, although it was confirmed to be that there are plans to continue the Pro line of CPUs with Ryzen to be launched at a later time. These parts will be similar in practice to previous ‘Pro’ models we saw with Kaveri and Carrizo: designed for the big OEMs as an indication of large-contract support. AMD’s prominent partners for this are HP, Lenovo and Dell. These processors will most likely not be sold to the public, although OEM resellers typically get hold of a few. That means availability at this point is unknown. AMD states that multiplier overclocking is supported on all processors, however at the time of writing we’re unsure if that would naturally include the ‘Pro’ line. My gut instinct says ‘probably’, although the systems these CPUs will go into will likely have overclocking disabled, so it would have to be placed into a consumer motherboard.
A side note on ECC: given the design of Naples and the fact that it should be supporting ECC, this means that the base memory controller in the silicon should be able to support ECC. We know that it is disabled for the consumer parts, but nothing has been said regarding the Pro parts. We can confirm that ECC is enabled on the consumer Ryzen parts.
The Competition
Just after Tech Day, I ran a twitter poll regarding comparisons that my followers were interested in. The poll results were as follows:
So what CPU comparison is more vital for you? (for other suggestions, simply reply)
— Ian Cutress (@IanCutress) February 24, 2017
That’s
- 32% for the Ryzen 7 1800X vs Core i7-7700K,
- 31% for the Ryzen 7 1700 vs Core i7-7700K
- 25% for the Ryzen 7 1800X vs Core i7-6900K
- 11% for the Ryzen 7 1700 vs Core i7-2600K
- Mentions for
- Core i3-7350K numbers,
- Core i5-7600K numbers,
- Ryzen 5 1600X numbers (no can do before R5 launch)
- 1800X vs i7-5960X,
- 1700X vs 7700K,
- 1700X vs 6900K,
- DRAM testing,
- single thread testing,
- Maximum OC on each Ryzen part
- SPEC06 vs A10
- Dual Core Ryzen at 800 MHz vs Core m3 to simulate passive tablets
Naturally AMD has suggested processors which it feels offer direct competition against the various Ryzen CPUs. These are as follows:
Comparison: Ryzen 7 1800X vs Core i7-6900K | ||
AMD Ryzen 7 1800X |
Features | Intel Core i7-6900K |
8 / 16 | Cores/Threads | 8 / 16 |
3.6 / 4.0 GHz | Base/Turbo | 3.2 / 3.7GHz |
16 | PCIe 3.0 Lanes | 40 |
16 MB | L3 Cache | 20 MB |
95 W | TDP | 140 W |
$499 | Price (MSRP) | $1049 |
At the top end we see the eight-core R7 1800X put directly against a Broadwell-E based eight-core Core i7-6900K. The Ryzen 7 1800X sits at 3.6 GHz base and 4.0 GHz turbo for 95W, while the Core i7-6900X is 3.2G/3.7G for 140W. The i7-6900K has the bigger L3 cache and more PCIe lanes, but costs twice as much ($1049 vs. $499).
Comparison: Ryzen 7 1700 vs Core i7-7700K | ||
AMD Ryzen 7 1700 |
Features | Intel Core i7-7700K |
8 / 16 | Cores/Threads | 4 / 8 |
3.0 / 3.7 GHz | Base/Turbo | 4.2 / 4.5 GHz |
16 | PCIe 3.0 Lanes | 16 |
16 MB | L3 Cache | 8MB |
65 W | TDP | 91 W |
$329 | Price (MSRP) | $350 |
In the mid-range, the Ryzen 7 1700 is so near in price to the Core i7-7700K that it is hard to miss. The i7-7700K is based on Intel’s latest Kaby Lake microarchitecture, which AMD has already shown is ahead of the game compared to Zen. So while Intel gets a frequency advantage (4.2G/4.5G vs 3.0G/3.7G) and is likely to have a fundamental IPC advantage, the AMD Ryzen 7 1700 comes with eight cores over four, and has 16MB of L3 cache compared to 8MB on Intel. The 1700 and 7700K are similar in price ($330 vs $350) but the 1700 also comes with a new variant of AMD’s high performing Wraith cooler.
Comparison: Ryzen 5 1600X vs Core i5-7600K | ||
AMD Ryzen 5 1600X |
Features | Intel Core i5-7600K |
6 / 12 | Cores/Threads | 4 / 4 |
3.6 / 4.0 GHz | Base/Turbo | 3.8 / 4.2GHz |
16 | PCIe 3.0 Lanes | 16 |
16 MB? | L3 Cache | 6 MB |
? | TDP | 91W |
? | Price (MSRP) | $239 |
Because we know some specs already, it’s worth pointing out about the Ryzen 5 1600X. Expected pricing should put it close to the price of the Core i5-7600K, but offering three times as many threads. The Ryzen 5 will be down on frequency, but cache and cores is hard to miss. When we get in the Ryzen 5 samples it is sure to be a major test.
The validity of these comparisons will come down to how well AMD has executed in single core performance, and if having the L3 as an exclusive victim cache actually hampers performance, especially in memory heavy workloads such as compression.
Typically we would expect fewer cores at the same power to be clocked higher as there is TDP to spare. However, these four core designs can differ between two successive chips. The base design of all of these CPUs is a set of eight cores, split into two quad-core ‘Core Complexes’ (known as a CCX). Each CCX has four cores and 8MB of L3 cache, but are still part of the same silicon die and connected by the new Infinity Fabric. For a quad core design, four of those cores (and their L3 caches) are disabled, however it is never guaranteed which ones. Users could end up with 4+0, 1+3 or 2+2 cores active per CCX, which gives a slightly skewed latency response when having to pull memory from other caches. Because the L3 cache is an exclusive victim cache, this won’t happen as often as perhaps an inclusive cache might, but as a result it is expected that the reduce frequency might be to compensate for the different CCX configurations that might exist.
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zangheiv - Thursday, March 2, 2017 - link
Hard to believe how a company like intel that repeatedly and knowingly engaged in illegal acts and other tactics to monopolize the market and cheat the consumers into high-prices, can still have dumb happy consumers after Ryzenlmcd - Thursday, March 2, 2017 - link
Some people like 256-bit vector ops I guess :-/ who would've guessed?Ratman6161 - Thursday, March 2, 2017 - link
Have to agree. To me, the i7-7700K seems like the better bargain right now. Then again, I'm looking at a $329 I7-6700K motherboard and CPU bundle and the 7700K isn't really all that much of an upgrade from the 6700K. But in the final analysis, after all this reading, I'm still not seeing anything that makes me want to rush out and replace my trusty old i7-2600K.Meteor2 - Friday, March 3, 2017 - link
+1. Maybe, as Rarson says above, a 4C/8T Zen might clock fast enough to challenge the 7700K. But in the workloads run at home, the 1800X does not challenge the (cheaper) 7700K.HPC and data centre are completely different and here Zen looks like it has real promise.
Meteor2 - Friday, March 3, 2017 - link
...Sadly the R5s are clocked equally low.https://www.google.co.uk/amp/wccftech.com/amd-ryze...
Limited by process, I guess.
Cooe - Sunday, February 28, 2021 - link
Again. You're an absolute idiot for thinking that the only "workloads done at home" are 1080p gaming & browsing the web.... You are so out of touch with the desktop PC market, it's almost unbelievable. Here's hoping you were able to aquire some common sense over the past 4 years.cmdrdredd - Saturday, March 4, 2017 - link
" I'm still not seeing anything that makes me want to rush out and replace my trusty old i7-2600K."I agree with you. I have an overclocked 3570k and I don't see anything that makes me feel like it's too old. I'm mostly gaming on my system when I use it heavily, otherwise it's just general internet putzing around
Jimster480 - Thursday, March 2, 2017 - link
Sorry but this is not the case.This is competing against Intel's HEDT line and not against the 7700k.
2011v3 offers more PCI-E lanes only if you buy the top end CPU (which ofc isn't noted in most places) a cheaper chip like the 5820k for example only offers like 24 lanes TOTAL. Meaning that in price comparison there is no actual comparison.
Ratman6161 - Thursday, March 2, 2017 - link
Well, whomever is trying to compete against, I7-7700K is about the top of the price range I am willing to spend. So Intel's 2011V3 lineup isn't in the cards for me either. AMD really isn't offering anything much for the mid range or regular desktop user either. In web browsing, office tasks, etc, their $499 CPU is often beaten by an i3. Now, the i3 is just as good as an i7-6900K too and in at least one test the i3 7350K is top of the charts. Why does this matter? Well, where does AMD go from here? If the i3 out performs the 1800x for office tasks, what will happen when they cut it to 4 cores to make a cheaper variant? Seems like they are set up for very expensive CPU's and for CPU's they have to sell for next to nothing. Where will their mid range come from?silverblue - Thursday, March 2, 2017 - link
Something tells me that if I decide to work on something complicated in Excel, that i3 isn't going to come anywhere near an R7. Besides, the 4- and 6-core variants may end up clocked higher, we don't know for sure yet.