Rechercher dans ce blog

Saturday, August 29, 2020

Intel Core i9-10850K CPU Benchmarks: Cheaper, but Nearly Identical to 10900K - Tom's Hardware

proc.indah.link

The 10-core 20-thread Core i9-10850K has landed in our lab, bringing with it nearly identical specifications as Intel's halo Core i9-10900K that holds the crown as the world's fastest gaming processor (albeit by a slim margin). We're sharing the results of our most relevant tests now, like gaming, application performance, and power testing, as they tell the pretty simple story behind the chip. We'll post the full review with a bit more testing in the coming days.  

In many respects, the Core i9-10850K feels like a price cut that comes disguised as a new product. A scant 100 MHz of frequency separates it from the $488 Core i9-10900K, but the 10850K's recommended price of $453 represents a 7% savings. Given the price gouging we've seen on the 10900K due to its spotty availability, we expect the price deltas to be even larger at retail. That makes the 10850K a contender for our list of Best Gaming CPUs.

As you'll see below, the Core i9-10850K offers nearly the same level of performance as the 10900K in the majority of our tests and even ekes out a few wins throughout our benchmarks.

The slight difference between the two chips raises the question: Why did Intel release the 10850K three months after the Comet Lake-S launch?

There are a few possibilities, but they're interrelated. Despite the 10900K's impressive performance in gaming, it brings along some baggage in the form of intense power consumption and heat generation that require a bevy of high-priced accommodations, like a premium motherboard, cooler and power supply. That magnifies the 10900K's high up-front pricing. Those factors make AMD's ultra-competitive Ryzen 9 3900X, which retails for $100 less and doesn't require such extravagant accommodations, a better value if you aren't looking to pay a hefty premium to eke out the very last few fps of gaming performance. The Ryzen 9 3900X also excels in threaded workloads, making it more attractive for the productivity-minded.

The 10900K is a high-priced and high-performing product with a limited target market, but Intel has had problems filling that niche. The Core i9-10900K has suffered from spotty availability in the US. It is also consistently out of stock overseas, which has led to price gouging from retailers and exacerbates the already-high pricing. 

It's rational to assume the availability issues stem from the 10900K's position at the top of the Comet Lake-S binning chart – it's a premium-binned chip and there simply might not be enough chips coming out of that fabs that land on the higher end of the binning distribution, making it hard to satisfy demand. The resulting price gouging only serves to widen the pricing gap between Intel's halo model and AMD's competing chips that already hold several key advantages.

Conversely, the 10850K obviously falls into a slightly lower position on the binning chart, which could boost Intel's production capacity and help address the obvious demand for the unlocked Core i9 chips. We imagine that would take some pressure off of the 10900K and result in better pricing and availability all around.

The end result for you? A chip that will largely provide identical performance to the Core i9-10900K, but at a discount. Let's take a quick look at the Core i9-10850K at stock settings and with the power limits removed, which equates to a simple form of quasi-overclocking. We'll post more in-depth overclocking testing in our full review, which you'll see in the coming days. 

Core i9-10850K Pricing, Specifications and Availability

The Comet Lake architecture, which comes with the 14nm++ process, is yet another Skylake derivative, meaning most performance gains come from added features and clock rate improvements. We've covered the finer details here, but like the Core i9-10900K, the 10850K has an unlocked multiplier that enables easy overclocking, solder TIM to boost overclocking capabilities, and doesn't come with a bundled cooler. As before, be sure to price in a Z-series motherboard and a capable cooling solution, preferably liquid, if you're off to the overclocking races. 

High End Mainstream MSRP/Retail Cores / Threads Base / Boost GHz L3 Cache TDP PCIe Memory Graphics
Ryzen 9 3950X $749 / $739 16 / 32 3.5 / 4.7 64 105W 24 Gen4 Dual DDR4-3200 N/A
Ryzen 9 3900X $499 / $434 12 / 24 3.8 / 4.6 64 105W 24 Gen4 Dual DDR4-3200 N/A
Core i9-10900K / KF $488 (K) / $472 (KF) 10 / 20 3.7 / 5.3 20 125W 16 Gen3 Dual DDR4-2933 UHD 630 - 1.2 GHz (non-F only)
Core i9-10850K $453 / 10 / 20 3.6 / 5.2 20 95W 16 Gen3 Dual DDR4-2933 UHD 630 - 1.2 GHz
Core i9-10900 / F $439 / $422 (F) 10 / 20 3.7 / 5.2 20 65W 16 Gen3 Dual DDR4-2933 UHD 630 - 1.2 GHz (non-F only)
Core i9-9900K / F $488 / $524 8 / 16 3.6 / 5.0 16 95W 16 Gen3 Dual DDR4-2666 UHD 630 - 1.2 GHz (non-F only)
Core i9-9900 $449 8 / 16 3.1 / 5.0 16 65w 16 Gen3 Dual DDR4-2666 UHD 630 - 1.2 GHz

There isn't much to chew over here. Compared to the Core i9-10900K, the i9-10850K comes with an across-the-board 100 MHz reduction in the base and boost frequencies. The ten-core 20-thread chip runs at a 3.6 GHz base frequency, peaks at 5.2 GHz, and retains all of Intel's normal boost mechanisms (like Turbo Boost 2.0, 3.0, and Thermal Velocity Boost). 

Intel hasn't announced or listed a graphics-less Core i9-10850KF model, so it's unclear if it will bring a reduced-cost version of the 10850K to market. As you can see, the 10850K already encroaches upon the locked Core i9-10900's pricing territory. The 10900 isn't overclockable and is only $14 less, with the only advantage being a 100 MHz higher base frequency. As a result, the 10850K is the better buy for most of us. 

Intel lists the Core i9-10850K with a 95W TDP, meaning it falls into a lower TDP bracket than the Core i9-10900K. That's largely an inconsequential metric because Intel's TDP rating doesn't have a direct correlation to power consumption, and it only applies to performance at the base frequency when the processor isn't under full load. 

We turn to Intel's power level ratings for a more accurate look at power consumption. At stock settings, the 10850K has the same 125W PL1 (power level 1 - at base frequency) and 250W PL2 (power level 2 - at all-core boost frequency) rating as the Core i9-10900K. Motherboard vendors can, and do, ignore those limits, so motherboard quality and BIOS settings will have an impact on performance. 

Test Setup and Overclocking

We're using the same test systems that we used for our recent string of Comet Lake-S and AMD Ryzen XT reviews (listed at the bottom of the page). We're sticking to current-gen chips for this round of testing, as the generational performance deltas for both series of chips are already well known. 

We've tested the Core I9-10850K at the stock settings on the Gigabyte Aorus Z490 Master, but be aware that all motherboard makers tune their boards based on the capabilities of the power delivery subsystem. This involves adjusting power limits and Turbo Boost duration, among other optimizations hidden in the lines of the BIOS code. Intel gives motherboard makers wide latitude to modify 'stock' performance, so your mileage may vary. For stock testing, we disabled the Multi-Core Enhancement (MCE) feature (it's essentially overclocking). 

We're working on full manual overclocking testing, but our initial assessment is that the 10850K is very similar on the overclocking front to the Core i9-10900K - peak frequencies are going to be exceptionally similar. You're still playing the silicon lottery, though, so capabilities will vary from chip to chip. 

We'll provide deeper overclocking analysis in our upcoming review, but we went ahead and tested a quasi-overclocked 10850K configuration by removing all power and Turbo Boost limits on the Gigabyte Z490. This quick and dirty technique allows the chip to run at its maximum turbo frequencies and exceed the typical boost duration while consuming as much power as it can handle. This certainly isn't as efficient (especially in terms of power and efficiency) as manual overclocking, but it gives us a taste of the 10850K's unrestrained performance. We listed that configuration as "Core i9-10850K Unlimited" in the charts. All other overclocking details can be found in the reviews of the chips in our test pool. 

Intel Core i9-10850K Gaming Performance

Image 1 of 14

(Image credit: Tom's Hardware)
Image 2 of 14

(Image credit: Tom's Hardware)
Image 3 of 14

(Image credit: Tom's Hardware)
Image 4 of 14

(Image credit: Tom's Hardware)
Image 5 of 14

(Image credit: Tom's Hardware)
Image 6 of 14

(Image credit: Tom's Hardware)
Image 7 of 14

(Image credit: Tom's Hardware)
Image 8 of 14

(Image credit: Tom's Hardware)
Image 9 of 14

(Image credit: Tom's Hardware)
Image 10 of 14

(Image credit: Tom's Hardware)
Image 11 of 14

(Image credit: Tom's Hardware)
Image 12 of 14

(Image credit: Tom's Hardware)
Image 13 of 14

(Image credit: Tom's Hardware)
Image 14 of 14

(Image credit: Tom's Hardware)

The first chart in our album sums the situation up nicely: The stock Core i9-10850K and Core i9-10900K offer the same performance when calculated as an overall measure (geometric mean) of our gaming test suite. Our test suite is, admittedly, geared more for exposing CPU performance deltas than you would see in a graphics card review, but these trends should persist in most titles. The Core i5-10850K also provides identical 99th-percentile performance, meaning it runs games just as smoothly as its more-expensive counterpart.

Comparing the two optimized configurations, the Core i9-10900K does hold a 5% advantage in average framerates and an 8% advantage in 99th-percentiles, but you should be mindful that the Core i9-10900K is manually overclocked on all cores, while the Core i9-10850K is merely operating in an unrestricted mode that doesn't have a locked frequency on all cores. We expect these results to have a similarly meaningless delta when we dial the 10850K into its manual overclock. Stay tuned for more on that in our review. 

Flipping through the album of gaming results shows some back and forth between the 10900K and 10850K in the various titles, but we can chalk most of these deltas up to run-to-run variation. There are a few exceptions - the 10850K scores a decent win in Final Fantasy XV, while the 10900K excels in Ashes of the Singularity and Hitman 2. However, the general trend is undeniable - these chips are shockingly similar in terms of real-world gaming performance.

Intel Core i9-10850K Rendering Performance

Image 1 of 8

(Image credit: Tom's Hardware)
Image 2 of 8

(Image credit: Tom's Hardware)
Image 3 of 8

(Image credit: Tom's Hardware)
Image 4 of 8

(Image credit: Tom's Hardware)
Image 5 of 8

(Image credit: Tom's Hardware)
Image 6 of 8

(Image credit: Tom's Hardware)
Image 7 of 8

(Image credit: Tom's Hardware)
Image 8 of 8

(Image credit: Tom's Hardware)

We see more pronounced differences in our spate of threaded application workloads, but as you'll see in the overall measurement at the end of the article, the trends are largely the same as we saw in gaming. 

The Core i9-10900K has a slightly higher boost frequency that is more impactful as the workload spreads across more cores and benefits from parallelization in multi-threaded Cinebench and POV-ray tests, and the higher single-core boost also helps in the single-threaded iteration of those tests.  

Interestingly, the Core i9-10850K pulls off an impressive win in the Corona ray-tracing benchmark, and the result was repeatable through multiple retests. We could chalk this up to several possibilities, like BIOS tuning. As we know from our previous tests, Intel's Core i9-10900K runs right at the limit of the attached cooler, often throttling even at stock settings, and we observed much of the same tendency from the 10850K in our stress tests. That means that even though we used the same Corsair H115i cooler for these tests, ambient temperatures and cooler mounting can have a larger-than-normal impact on performance.  

It could also boil down to the 10850K's lower frequencies and power consumption. Intel's turbo boost mechanisms engage based on a Tau value that determines how long the chip can remain at the boost frequency. In turn, Tau is governed by an exponentially-weighted moving average (EWMA) variable that essentially assigns a power budget the chip can draw from to sustain its boost power levels. The Core i9-10850K runs at a lower voltage and clock frequency than the 10900K, granting it a more efficient position on the voltage/frequency curve. As a result, it consumes less total power to complete some workloads (this trend seems prevalent in AVX-heavy tests). That superior power efficiency allows the chip to remain within its EWMA budget for longer, thus letting it boost for longer and giving it a lead in a few multi-core scenarios. 

Intel Core i9-10850K Encoding, Compilation and AVX

Image 1 of 13

(Image credit: Tom's Hardware)
Image 2 of 13

(Image credit: Tom's Hardware)
Image 3 of 13

(Image credit: Tom's Hardware)
Image 4 of 13

(Image credit: Tom's Hardware)
Image 5 of 13

(Image credit: Tom's Hardware)
Image 6 of 13

(Image credit: Tom's Hardware)
Image 7 of 13

(Image credit: Tom's Hardware)
Image 8 of 13

(Image credit: Tom's Hardware)
Image 9 of 13

(Image credit: Tom's Hardware)
Image 10 of 13

(Image credit: Tom's Hardware)
Image 11 of 13

(Image credit: Tom's Hardware)
Image 12 of 13

(Image credit: Tom's Hardware)
Image 13 of 13

(Image credit: Tom's Hardware)

We notice some back and forth between the Core i9-10900K and 10850K in some workloads. The 7zip compression and decompression workloads serve as a good example of the most extreme variance. In this case, the chips trade swap positions based on whether we're running a compression or decompression workload.

Given the slim differences between the two chips, the remainder of the tests perform within our expectations.

Core i9-10850K Web and Office 

Image 1 of 18

(Image credit: Tom's Hardware)
Image 2 of 18

(Image credit: Tom's Hardware)
Image 3 of 18

(Image credit: Tom's Hardware)
Image 4 of 18

(Image credit: Tom's Hardware)
Image 5 of 18

(Image credit: Tom's Hardware)
Image 6 of 18

(Image credit: Tom's Hardware)
Image 7 of 18

(Image credit: Tom's Hardware)
Image 8 of 18

(Image credit: Tom's Hardware)
Image 9 of 18

(Image credit: Tom's Hardware)
Image 10 of 18

(Image credit: Tom's Hardware)
Image 11 of 18

(Image credit: Tom's Hardware)
Image 12 of 18

(Image credit: Tom's Hardware)
Image 13 of 18

(Image credit: Tom's Hardware)
Image 14 of 18

(Image credit: Tom's Hardware)
Image 15 of 18

(Image credit: Tom's Hardware)
Image 16 of 18

(Image credit: Tom's Hardware)
Image 17 of 18

(Image credit: Tom's Hardware)
Image 18 of 18

(Image credit: Tom's Hardware)

Turning to a suite of tests that largely respond to better per-core performance (a mixture of frequency and IPC), we can see the Core i9-10900K's 100 MHz boost advantage come into play a bit more.

The 10900K's higher boost grants it the lead in most of these tests, but we should keep that in perspective. In most cases, the deltas are slim and often fall either in, or right outside of, the expected run-to-run variance. 

Core i9-10850K Power and Thermals

Just like the Core i9-10900K, the Core i9-10850K will run right at the limit of your cooling solution if it doesn't have enough available thermal headroom. We used the 280mm Corsair H115i water cooler with the fans cranked to full blast for testing, and just like with the 10900K, the 10850K pushed up to 100C during any type of AVX stress test. That results in thermal throttling that reduces performance over long-run benchmarks. As such, more capable coolers, like 360mm AIOs and custom loops, could expose yet more performance - and power consumption. 

Stress tests often don't correlate to real-world heat output, though, and we recorded a peak of 91C during an extended multi-threaded y-cruncher workload (AVX heavy). 

You'll need to bring your A-game in terms of cooling, motherboard, and power supply if you want to unlock the utmost performance from the Core i9-10850K at stock settings, not to mention if you plan on any meaningful overclocking. 

Image 1 of 10

(Image credit: Tom's Hardware)
Image 2 of 10

(Image credit: Tom's Hardware)
Image 3 of 10

(Image credit: Tom's Hardware)
Image 4 of 10

(Image credit: Tom's Hardware)
Image 5 of 10

(Image credit: Tom's Hardware)
Image 6 of 10

(Image credit: Tom's Hardware)
Image 7 of 10

(Image credit: Tom's Hardware)
Image 8 of 10

(Image credit: Tom's Hardware)
Image 9 of 10

(Image credit: Tom's Hardware)
Image 10 of 10

(Image credit: Tom's Hardware)

As expected, the 10850K pulls less power than the 10900K under full load, but we're looking at a roughly ~3% decrease in power consumption during the threaded AVX-heavy y-cruncher and HandBrake benchmarks. 

You'll also notice that the "10850K Unlimited" configuration, which we achieved by removing all power limitations in the BIOS, draws more power than the Core i9-10900K all-core overclock. This implies that allowing the chip to use its own internal mechanisms to run without power limitations isn't as efficient as dialing in a manually-tuned overclock, but that really isn't too much of a surprise: Even though overclocking headroom has diminished with Intel's latest round of chips, manual overclocking still has benefits. 

That also carries over to our efficiency metrics. We expect what is essentially the same chip to be more efficient when if it's dialed back on the Voltage/Frequency curve, and that's exactly what we see. The stock Core i9-10850K is more power efficient than the 10900K in both average and cumulative power measurements during our tests. But again, the deltas are slim.

If you're after better power efficiency, and thus a cooler and quieter machine that still has plenty of performance, turn to AMD's Ryzen line of chips. As you can see in our final two scatter charts, which measure the cumulative amount of energy required to perform an x264 and x265 HandBrake workload, respectively, AMD still holds the unequivocal lead.  

Core i9-10850K First Impressions - Nearly No Perceivable Difference

The below series of charts show a geometric mean of performance in our multi- and single-threaded workloads, along with the totals from our gaming testing. At stock settings, there really isn't enough of a performance gain in multi-threaded workloads to justify the 10900K's premium pricing over the 10850K. However, the gains are slightly more pronounced in inherently lightly-threaded applications. 

Image 1 of 4

(Image credit: Tom's Hardware)
Image 2 of 4

(Image credit: Tom's Hardware)
Image 3 of 4

(Image credit: Tom's Hardware)
Image 4 of 4

(Image credit: Tom's Hardware)

In our opinion, AMD's recent Ryzen XT lineup didn't change the performance calculus much. Outside of a few exceptions in professional workloads, those chips offer a negligible performance increase in most real-world applications, but at an increased price point. As such, we still recommend that standard X-series models for the best value. 

Intel takes the opposite approach with the Core i9-10850K. The 10850K comes with negligible reduction in performance that often falls into the imperceptible range, but the chip comes with a $30 price reduction compared to the 10900K. If Intel can actually keep the 10850K in stock, we could see that pricing delta widen at retail. As such, out initial takeaway is that the Core i9-10850K is a better value than the 10900K for most enthusiasts, and is definitely a better value for casual users that aren't interested in overclocking.

Of course, the other caveats of the 10900K still apply. The Ryzen 9 3900X still offers the best all-around value and currently retails for ~$75 less than the Core i9-10850K. Considering the 10850K's still-excessive power consumption, heat generation, requirement for pricey supporting components, and lack of PCIe 4.0, most enthusiasts are better served with less exotic alternatives.

The story changes a bit for performance fanatics. If you're dead set on the best single-threaded and gaming performance available, regardless of power consumption, heat, and cost, the Core i9-10850K is a worthy alternative to the i9-10900K. 

And you might actually be able to buy it. 

Intel Socket 1200 (Z490) Core i9-10900K, 10850K, i7-10700K, i7-10700F, Core i5-10600K
Gigabyte Aorus Z490 Master
2x 8GB G.Skill FlareX DDR4-3200 - Stock: DDR4-2933, OC: DDR4-3600
AMD Socket AM4 (X570) AMD Ryzen 9 3950X, Ryzen 9 3900XT, 3900X, Ryzen 7 3800XT

MSI MEG X570 Godlike
2x 8GB G.Skill FlareX DDR4-3200 - Stock: DDR4-3200, OC: DDR4-3600
All Systems Nvidia GeForce RTX 2080 Ti

2TB Intel DC4510 SSD

EVGA Supernova 1600 T2, 1600W
Open Benchtable

Windows 10 Pro (1903 - All Updates)
Cooling Corsair H115i, Custom Loop, Noctua NH-D15S
The Link Lonk


August 30, 2020 at 01:31AM
https://ift.tt/34KtJ93

Intel Core i9-10850K CPU Benchmarks: Cheaper, but Nearly Identical to 10900K - Tom's Hardware

https://ift.tt/2YXg8Ic
Intel

No comments:

Post a Comment

Featured Post

Intel Falls on Latest Server Chip Delay; Rival AMD Gains - Yahoo Finance

proc.indah.link (Bloomberg) -- Intel Corp. fell after saying a new version of its Xeon server chip line will go into production in 2022, r...

Popular Posts