One of the questions that was left over from AMD’s Computex reveal of the new Ryzen 3000 family was why a 16-core version of the dual-chiplet Matisse design was not announced. Today, AMD is announcing its first 16 core CPU into the Ryzen 9 family. AMD stated that they’re not interested in the back and forth with its competition about slowly moving the leading edge in consumer computing – they want to launch the best they have to offer as soon as possible, and the 16-core is part of that strategy.

The new Ryzen 9 3950X will top the stack of new Zen 2 based AMD consumer processors, and is built for the AM4 socket along with the range of X570 motherboards. It will have 16 cores with simultaneous multi-threading, enabling 32 threads, with a base frequency of 3.5 GHz and a turbo frequency of 4.7 GHz. All of this will be provided in a 105W TDP.

AMD 'Matisse' Ryzen 3000 Series CPUs
AnandTech Cores
Threads
Base
Freq
Boost
Freq
L2
Cache
L3
Cache
PCIe
4.0
DDR4 TDP Price
(SEP)
Ryzen 9 3950X 16C 32T 3.5 4.7 8 MB 64 MB 16+4+4 ? 105W $749
Ryzen 9 3900X 12C 24T 3.8 4.6 6 MB 64 MB 16+4+4 ? 105W $499
Ryzen 7 3800X 8C 16T 3.9 4.5 4 MB 32 MB 16+4+4 ? 105W $399
Ryzen 7 3700X 8C 16T 3.6 4.4 4 MB 32 MB 16+4+4 ? 65W $329
Ryzen 5 3600X 6C 12T 3.8 4.4 3 MB 32 MB 16+4+4 ? 95W $249
Ryzen 5 3600 6C 12T 3.6 4.2 3 MB 32 MB 16+4+4 ? 65W $199

AMD has said that the processor will be coming in September 2019, about two months after the initial Ryzen 3rd Gen processors, due to extra validation requirements. The chip uses two of the Zen 2 eight-core chiplets, paired with an IO die that provides 24 total PCIe 4.0 lanes. By using the AM4 socket, AMD recommends pairing the Ryzen 9 3950X with one of the new X570 motherboards launched at Computex.

With regards to performance, AMD is promoting it as a clear single-thread and multi-thread improvement over other 16-core products in the market, particularly those from Intel (namely the 7960X).

There are several questions surrounding this new product, such as reasons for the delay between the initial Ryzen 3000 launch to the 3950X launch, the power distribution of the chiplets based on the frequency and how the clocks will respond to the 105W TDP, how the core-to-core communications will work going across chiplets, and how gaming performance might be affected by the latency differences going to the IO die and then moving off to main memory. All these questions are expected to be answered in due course.

Pricing is set to be announced by AMD at its event at E3 today. We’ll be updating this news post when we know the intended pricing.

Update: $749

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  • Byte - Tuesday, June 11, 2019 - link

    how...how did AMD pull this out of their pants and into intels uranus? Reply
  • Gondalf - Tuesday, June 11, 2019 - link

    You know....right now 8 core Ryzens are rated 105W but draw 145W under load.
    So these are marketing numbers. Bet this 16 core thing will be 180W under heavy tasks.
    Reply
  • behrouz - Tuesday, June 11, 2019 - link

    That's thermal design power.If Ryzen is rated 105w , doesn't mean this consumes 105w.rather this means if you buy CPU Cooler rated at 95w, then Ryzen will throttle. Reply
  • FMinus - Tuesday, June 11, 2019 - link

    Do they? At stock? I doubt. Reply
  • Irata - Tuesday, June 11, 2019 - link

    At least not according to Anandtech's (or Tom's) Ryzen 2700x review.

    Tom had 104.7 W total package power consumption for the 2700x in their torture loops (vs. 159.5 for the i7-8700k).

    Anand had 106.38W for the 2700x (vs. 122.29 for the i7-8700) total package power consumption under load.

    Both sites may measure this differently - not sure how THG does it, but AT use the processors internal registers to estimate power consumption.
    Reply
  • RiCHeeGee - Tuesday, June 11, 2019 - link

    My 2700 (non-x) @ 4.2ghz 1.4v vcore and 1.1v SOC draws 135w total with 120w on CPU and 15w on SOC. This is probably higher than usual due to it being a lower binned chip that requires more voltage to operate at these clocks. Reply
  • Oxford Guy - Tuesday, June 11, 2019 - link

    The Stilt said better binning typically means lower leakage which means, counterintuitively, that the chip needs MORE voltage for higher clocks.

    People constantly make the mistake of assuming that good binning (low leakage) translates into less operating voltage needed at higher clocks. No, that would be higher-leakage parts. He said that under air and regular water (non-chilled) conditions it's better to have the lower leakage.
    Reply
  • Oxford Guy - Tuesday, June 11, 2019 - link

    ASUS apparently capitalized on this mistaken assumption in its Crosshair board for AM3+, where it would underreport the amount of voltage being used, making people assume that they got luckier with the silicon lottery and/or that the board is just so much better.

    In reality, you were more likely to degrade your chip by putting more voltage into it than was safe.
    Reply
  • Oxford Guy - Tuesday, June 11, 2019 - link

    Another reason for the assumption is that poorer-quality boards tend to have looser power regulation so they need higher operating voltages to stabilize due to the wilder swings/droop.

    Setting the UD3P 970 board, for example, to Medium LLC, resulted in much more uniform voltage than anything higher or lower. Some boards didn't even have LLC.
    Reply
  • Gastec - Wednesday, June 19, 2019 - link

    I guess that's a normal power draw for a 1.4vcore, 4.2 GHz overclock. Reply

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