The Lord said： You are worms! AMD 64 Core Ripper 3990X Depth Test

AMD has previously released 24-core and 32-core third-generation thread ripper products, 3960X and 3970X, which have swept all the fever-grade product lines of Intel.

Like the strategy of mainstream consumer products online, after the 12-core R9 3900X, the 16-core R9 3950X was released. AMD seemed to think that it was not enough, so it launched the bloody version of TR3 3990X, with an unprecedented 64-core 128 thread.

Today, I will bring the test report of TR3 3990X, the real king of fever-grade products online.

CPU product specifications:

Ruilong Threadripper 3990X has a 64-core 128-thread specification, a 256MB L3 cache, a basic frequency of 2.9GHz, and a maximum acceleration of 4.3GHz, TDP 280W, which is matched with the motherboard of TRX40 chipset.

This specification has never been used in the civilian level. Even if the products of the server platform are included, Intel must use the top Xeon Platinum 9200 to get closer (glue 56 cores and 112 threads).

However, Intel let motherboard manufacturers make several game motherboards that support W-3175X (only 28 cores and 56 threads), and then it went away. It seems that they gave up.

Product packaging and accessories:

There is nothing special about the packaging of TR3 3990X. Here is a brief description of the packaging and accessories.

The accessories of CPU are also old four, such as special screwdriver, adapter water-cooled fastener, sticker and instruction manual.

TR3 3990X is still a CPU as big as a 2.5-inch SSD, and AMD seems satisfied with this architecture, which will last for a long time.

The back of the CPU is designed as a contact, so be careful of the small capacitor on the back. If you get hurt, you will be in big trouble.

Introduction of test motherboard:

Gigabyte’s motherboard was used in the last test, so let’s feel the ROG Zenith II Extreme Alpha this time, because we still have a ROG Zenith II Extreme, so we can tell the difference between Z2E and Z2EA by the way.

The number of accessories of the motherboard is quite rich. Includes 2-in-1 SATA 6Gb/s cable, 4-in-1 SATA 6Gb/s cable, 3-in-1 thermistor cable, 3-in-1 ROG woven SATA 6Gb/s cable, RGB light bar extension cable (80cm), ROG DIMM.2 fan rack package, 5xM.2 screw package, Q-Connector kit and ROG coaster. ROG large sticker, ASUS 2×2 dual-frequency Wi-Fi mobile antenna, 2-in-1 rubber pad, dual-function screwdriver, ROG thank you card, fan expansion card II, fan expansion card II power cord, fan expansion card II NODE connecting cable, fan expansion card II screw package, and public and driver ∪ Disk, user manual, fan expansion card II user manual.

The more interesting accessory is the ROG fan expansion card, which can expand the fan, temperature measuring point and RGB LED. However, there is a disadvantage that the power interface on the card is special, and the patch cord only supports the graphics card 6PIN, which may cause the power supply line of the graphics card to be tight for multi-card users.

The fan extension body provides 6 x 4-pin chassis fan socket, 3 x 4-pin RGB interface, 3 x 2-pin thermal sensing interface, and data lines to support the linkage control of the motherboard.

A nice detail is that the fan expansion card adopts the standard hole position of 2.5-inch SSD, which can be conveniently fixed in the chassis.

Nowadays, high-end motherboards generally take the armored route, and Z2EA is no exception, including motherboard backplane, CPU power supply and cooling, rear window IO, rear window baffle, audio system, M.2 slot, chipset cooling and VCC power supply and cooling. The motherboard uses three fans to provide active heat dissipation, two for CPU power supply and one for motherboard chipset.

The CPU base is TRX40 specification, which is the same as the previous generation TR4, but the CPU motherboards of the two cannot be mixed.

Since the TRX40 is packaged in LGA, the motherboard base will be covered with pins, so be careful.

The CPU power supply of the motherboard is 16-phase digital power supply, the PWM chip is ASP1405I of ASUS, and the input capacitors are seven nichicon FP10K solid-state capacitors with a capacity of 270 microfarads and a voltage of 16V；; MOS is one DrMOS for each item, the model is Infineon TDA21490, and 90A； can be provided in single phase; The power supply inductance is one enclosed inductance for each item; The output capacitance is 5 polymer capacitors with a capacity of 470 microfarads.

CPU VCC power supply uses 4 phases exaggeratedly, and the input capacitance is 4 polymer capacitors; MOS is one DrMOS for each item, and the model is Infineon TDA21462；; The power supply inductance is one closed inductor for each item.

There is an ICS9VRS4339BL between VCC power supply and CPU, which is a clock chip used to unlock the external frequency adjustment ability of CPU.

The motherboard has eight memory slots with four channels and supports DDR4 memory.

The memory is powered by two phases on each side, the PWM chip is ASP1405I of ASUS, and the input capacitor is a nichicon FP10K solid capacitor with a capacity of 270 microfarads and a voltage of 16V；. MOS is one DrMOS for each item, the model is Infineon TDA21490, and 90A； can be provided in single phase; The power supply inductance is one enclosed inductance for each item; The output capacitor is 31 nichicon FP10K solid-state capacitors with a capacity of 560 microfarads and a voltage of 6.3V.

The motherboard chipset is still TRX40, so there is no need to introduce it too much.

Next to the memory slot, there is a slot with metal foolproof, which is used to expand two additional M.2 SSD, taking the PCI-E channel.

By the edge of the motherboard memory slot, you can see the main power supply interfaces, which are 2*USB 3.1 TYPE-C, motherboard 24PIN power supply, 6+8+8 CPU power supply and CPU FAN+CPU OPT from the left. Asus has provided 6+8+8 22PIN power supply for CPU, which has exceeded the power supply scale of conventional high-end graphics cards.

Near the chipset side, from the left in the figure are the water-cooled flow rate monitoring interface, SYS FAN, 8*SATA 3.0, horizontal USB 3.0 and SYS FAN. Behind SYS FAN on the left is a liquid nitrogen mode switching jumper.

It can be seen that there is an ASM1074 chip on the left, which is used to provide channels for the two USB 3.0 interfaces on the board. There are two ASM1061 chips on the right, which can turn out two SATA 3.0 interfaces respectively.

Next, look at the bottom of the motherboard, next to the chipset. From the left in the figure, there are 2*USB 2.0, 1*USB3.0, NODE (data interface of fan expansion card), several adjustment switches (detailed in the figure below), restart key, on-off key, water cooling temperature interface and chassis panel control interface.

There are many adjustment switches on the motherboard. From the left in the inner row in the figure, there are M2_3 switch, SAFE BOOT button, RETRY button (forced restart self-test), BIOS switch button and fan switch at full speed. The two switches on the outside, the upper one is RSVD switch (for maintenance only) and SLOW MODE switch (for forced low frequency). These can facilitate the debugging of the motherboard to a certain extent, and can also be used for extreme overclocking.

In the diagram near the PCI-E slot of the main board, from the left, the front audio, PCI-E slot auxiliary 4PIN power supply, TPM, 3PIN RGB, 4PIN RGB and SYS FAN are provided respectively.

The graphics card slot of the motherboard is configured as NAX16NAX8X16NAX8. Mainly for dual graphics cards to optimize the swing, and can not support four cards.

There are two onboard M.2 SSD slots between the graphics card slots, and one on the back of the motherboard. This allows Z2EA to install up to 5 M.2 SSD.

PCI-E 4.0 requires very high signal stability, so a large number of PI3DBS16000ZHE chips can be seen on the motherboard for the relay amplification of PCI-e signals. At the same time, due to the high specification of Z2EA, the number of PCI-E channels of TRX40 is not enough, so a large number of P13EQX16 chips are needed for channel switching.

Next, take a look at the rear window of the motherboard. From the left, there are CLEAR CMOS, USB BIOS FLASHBACK, WIFI antenna, 2*USB 3.0+2*USB3.1, Gigabit network port +USB 3.1 A+C, 2*USB 3.0+2*USB3.1, and 10 Gigabit network port+USB 3.1A+USB 3.2 (2×2).

The audio part of the motherboard is the mainstream flagship motherboard audio solution. The main chip is S1220, which is actually a ROG customized version of ALC1220; Because the motherboard chipset does not support HD AUDIO, two ALC 4050H are used to connect the chipset. An additional ESS 9018 chip is also used for the DAC work of the rear window interface. There is also a power amplifier chip for front audio on the back of the motherboard. The whole scheme is not particularly exaggerated, but it still maintains the specifications that the flagship motherboard needs to show.

The network card of the motherboard is configured with Gigabit+10Gigabit, with the Gigabit network card being Intel’s I211AT and the 10Gigabit network card being AQUANTIA AQC107.

The motherboard wireless network card is also a relatively new AX200, which can support WIFI 6.

This time, ASUS introduced the new interface USB 3.2 2X2 in the rear window, so you can see the chip ASM3242 on the motherboard. The ASM1074 next to it provides four USB 3.0 interfaces for the rear window.

Z2EA uses dual BIOS, and the LED on the left in the figure shows which BIOS is being used, which can be switched when it is turned off. The BIOS chip on the right is a USB BIOS FLASHBACK function chip, and the model is AI1315.

Let’s take a brief look at other chips on the motherboard. ASUS’s motherboard TPU will naturally not be absent, and it can be used to help with one-button overclocking and other functions.

The SUPERIO chip of the motherboard is NCT6798D, which is a relatively conventional material.

The RGB control of the motherboard is handled by an AURA chip.

Finally, simply compare the differences between Z2E and Z2EA, in fact, the overall specifications are very close. Mainly due to some adjustments in power supply.

The following pictures are all Z2E, but MOS is different. Z2E is TDA21472, the number of phases on CPU power supply is the same as 16, and PWM is also ASP1405I. Therefore, the theoretical power supply capacity of each phase will be reduced from 90A to 70A.

VCC power supply is the same 4-phase TDA21462 scheme.

There are obvious differences in memory power supply. The Z2E is still an ASP1103+ upper and lower bridge, and the materials used in the scheme are obviously weaker.

So in general, Z2EA is mainly an enhanced version of Z2E, which promotes the power supply of CPU and memory to the strongest state of alternative schemes in the industry. So if people who already have Z2E don’t have to be too entangled, Z2E itself is already very strong.

Introduction of test platform:

Let’s take a look at the test platform.

Now that we have the Ripper, counting boxes has become a very ceremonial thing. This is also the first time that I have encountered that the CPU can’t display the display area diagram after displaying according to the logical thread, only the color block depth and percentage are left to reflect the CPU occupancy.

TR3 3990X is in the baking machine state. If the single baking CPU mode with less load is selected, the whole core frequency is 3.45GHz.While the CPU frequency is only 3GHz when the AVX2 instruction set is called, which corresponds to the result of power consumption test.

It can be maintained at around 4.15GHz under single-core test.

The memory is Kingston’s DDR4 8G*4. The actual operating frequency is 3200C14.

There will be a test with a unique display in the middle, and the graphics card is the water-cooled version of VEGA 64 by Dylan Hengjin.

SSD is three pieces of Intel 535. 240G is used as the system disk, and 480G*2 is mainly used to play test games.

The NVMe SSD test used Intel 750 400G.

The radiator is the SHADOW light shadow 360 of Josboro, and this water-cooling device has no TR4 fastener, so I used a third-party Intel to TR4 fastener.

Silicone grease is CTG-2 from Josberg.

The power supply is the extremely cool V1000.

The test platform is BC1 of Streacom.

Introduction of performance test items:

For children’s shoes interested in further understanding the comparative performance, detailed test data will be provided here. If you don’t want to see it, you can skip to the last summary. The test will be roughly divided into the following parts:-CPU performance test: including system bandwidth, CPU theoretical performance, CPU benchmark test software, CPU rendering test software, 3DMARK physical score-collocation independent display test: including independent display benchmark test software, independent display game test, independent display OpenGL benchmark-power consumption test: power consumption measurement under independent display platform.

Since this test, many test items have been added and some adjustments have been made, as follows:

CPU performance test: added CineBench R15 EXTREME (counting 1CPUXCPU results) and V-RAY NEXT BENCHMARK (counting CPU results).

　With the unique test: added BASEMARK, Neon Noir Benchmark and Extreme Peak. Due to the driver version, fistful of dollars 2 and War Machine 5 cannot join temporarily.

Only for the change of CPU thread performance statistics table (without affecting other comparisons): single thread, adding CineBench R15 EXTREME. Multi-threading, adding Time Spy EX CPU, CineBench R15 EXTREME and V-ray next benchmark; Remove X264 FHD, X265 FHD, winRAR multithreading, 3D MARK SKY CPU, 3D MARK SKY FIRE CPU and 3D MARK SKY Time Spy CPU.

Performance test and analysis of CPU;

According to the system bandwidth test, the memory bandwidth of TR3 3990X is higher than other series products, and slightly higher than the corresponding four-channel platform of Intel. There are actually 8 CPU DIE in TR3 3990X, so the counted cache bandwidth of L1L2L3 is very scary, which can basically be compared by multiples.

The theoretical performance test of CPU is carried out with the built-in tools of AIDA64. The theoretical performance of TR3 3990X is horrible, reaching 11.8 times that of i5-9400F, 7.2 times that of i9-9900K and 3.4 times that of R9 3950X.

CPU performance test mainly tests some commonly used CPU benchmark software, and also includes some application software and CPU test items in the game. This link will involve testing in different load environments, which is also the closest to the daily use environment. In this link, TR3 3990X can still surpass all other competitors, leading R9 3950X by 30%.

CPU rendering test, which tests the rendering ability of CPU. The test will count the test results of single thread and multi-thread, so this link will generally be the closest to the comprehensive performance comparison of CPU (single core and full core are basically half). On the whole, TR3 3990X is 2.2 times that of R9 3950X and 2.8 times that of i9-9900K.

The 3D physical performance test tests the physical scores in the 3DMARK test, which are mainly related to the CPU and have a small impact on the game performance. The performance of the four-channel platform in this link is generally not good. TR3 3990X will be lower than R9 3950X, but the same is true for Intel. The 14-core i9-10940X can’t beat the 8-core i9-9900K.

CPU performance test section comparison section:

According to the comprehensive statistics of CPU,The younger brother TR3 3960X can already seal the door, and TR3 3990X is used by AMD to brush the data.

The single thread and multi-thread of CPU are also decomposed here.

Single thread: Since the single-core frequency can reach 4.3GHz, the single-core performance of TR3 3990X is not very virtual, and it belongs to high-end CPU.

Multi-threading: Multi-threading performance TR3 3990X began to brush data casually, which is multiple of the following products.

With a stand-alone test:

The graphics card is VEGA 64, and AMD CPU will still have an advantage in running points. This project will be obviously stronger than i9-10940X.

According to the 3D game test, the game performance of TR3 3990X is relatively weak, but the weakness is not serious, which is roughly equivalent to the level of R7 2700X.

Decomposed into different generations, TR3 3990X performed slightly better under DX9, but slightly weaker under DX11 and DX12. But they are all within the acceptable range.

According to the test of different resolutions, the performance of TR3 3990X is relatively average.

OpenGL benchmark test alone, the OpenGL part is based on SPEC viewperf 12.1 and LuxMark. This test is a professional computing test for graphics cards, and the gap is more related to CPU delay and single-thread performance. Therefore, TR3 3990X will be slightly lower than i9-9900K.

With a separate test section:

Judging from the test results,TR3 3990X basically solves the problem of single display collocation, which can give consideration to high performance and both ends of the game.

Disk performance test:

The disk test part uses CrystalDiskMark 6, and the data file of 1G runs 9 times, which can basically eliminate the test error. The tested SSDs are 535 480G and 750 400G, both of which are hung from the disk. Simply explain the concept in this test, SATA interface and PCI-E channel can be drawn from CPU or chipset (see how CPU manufacturers design). In principle, we will test SATA and PCI-E from the chipset, but Z2EA only has PCI-E slots from the CPU, so we use the slots directly connected to the CPU.

In terms of disk performance, the performance of TR3 3990X is relatively general, and there is nothing outstanding.

Platform power consumption test:

The power consumption test is only carried out on the platform with a single display, and the overall power consumption of TR3 3990X is still relatively high. According to the test results, Z2EA has obvious power consumption limit in FPU test, and other test power consumption is relatively normal. In PM95, the power consumption of TR3 3990X can be 100W higher than that of TR3 3960X.

Detailed statistics:

Test summary:

The comparison groups in this test are i9-9900K, i9-10940X, R9 3950X and TR3 3960X. Compared with 100%, the benchmark is still i5-9400F, because the space relationship is not put in the table.

As far as the comprehensive performance of CPU is concerned, being the younger brother of TR3 series is enough to settle the following products, and TR3 3990X is just raising the bar further. Even with a large number of applications and single-threaded tests, the performance of TR3 3990X can reach 2.9 times that of i5-9400F, while that of Intel’s i9-10980XE is only about 70%.

With the unique part, TR3 3990X can also ensure that the game performance is in a good range (equivalent to 98.15% of i5-9400F). Because of the high score of running performance, the final score can be slightly higher than i5-9400F.

In terms of power consumption, the power consumption of TR3 series CPU is still relatively high.Due to the low standby and low load power consumption of TR3990X, the current of TR3990X is limited when the motherboard runs FPU test, so the power consumption of TR3990X is not particularly high in the final result. With reference to the test of PM95, the full-load power consumption of TR3 3990X can be about 100W higher than that of TR3 3960X.

Finally, the last CPU ladder diagram is for your reference. The performance part only compares the test items related to CPU, and does not include the results of the game performance test.

Since 2017, the system, driver and BIOS have great influence on CPU performance, so this table is only for directional reference.

Simple summary:

About CPU performance:

In terms of CPU performance, TR3 3990X is almost a data brush, which makes Invincible even more lonely.

About collocation alone:

In terms of game performance, TR3 3990X continues the performance of other two products in TR3 series, which ensures that the related software and games with unique display can run well.

About power consumption:

The power consumption of TR3 3990X is really high, but 360 water cooling can ensure the basic use is not a problem. Of course, it is more worthy of this CPU to customize a set of water cooling conditionally.

Generally speaking, TR3 3990X, like R9 3950X, is a product used by AMD to show muscles, in order to open an insurmountable gap with Intel. At present, the performance gap between Intel’s fever-grade products and TR3 3990X is many times, which completely loses its comparative value. 、

It can even be said that TR3 3990X doesn’t need to make a comparison, and TR3 3990X doesn’t care, because you are bugs.