Part II brings you a retail version of the Ryzen 7700 test, as well as a simple overclocking tutorial to make it easier for everyone to use Ryzen's powerful capabilities.
Ruilong AMD Ryzen 7 1700 processor 8-core AM4 interface 3.0GHz boxed 2499 yuan The most cost-effective, energy-efficient 8C16T CPU Jingdong direct link Unpacking I have to say that the stack of psoriasis stickers on the top of the box is particularly ugly...
CPU in addition to the surface outside the nominal and 1800X, but the sticker is the Chinese version, the texture is not to force ah ...
The ghost Spire fan is inside this box, better than the old ghost package.
A total of two components are included: the heat sink and the RGB line. If the motherboard does not support the RGB function, it can be directly connected.
Radiator line is also very delicate nylon envelope, conscience is higher than the toothpaste factory does not know where to go!
RGB line interface is very careful to install a rubber plug, this time AMD's original radiator really conscience + meticulous ah.
RGB line, in fact, is the standard light bar connection line, heat sink through this connection with the motherboard, identified as light bar, in addition to the radiator on the AMD LOGO is also a separate bright, white.
Unlike ghosts, Spire did not use snap-fitting but replaced them with screws. It was strange to remove the plastic clips during installation.
At the bottom of this radiator, I couldn't help but think about the RX480 public version of the heat sink... However, the size of this heat sink is bigger than 480, and 480 can be suppressed. Such a large one is nominally 95W. The early P4 radiator was only a lot of fans.
Cable length, RGB line is about 1.5 times the length of the PWM line, easy to trace.
OK, replaced 1800X, replaced with a younger brother 1700 ~ In fact, originally intended to use this Diablo Gaming5, but I can not bear to look at the broken car rollover, there is no reliable BIOS, the pig teammates ... so Or use a stable C6H as a platform.
Install Spire need to remove the original plastic buckle, here you can see the C6H provides Am3 hole position, why AM3 and 4 incompatibility gap is so small ...
This time basically all AM4 motherboards provide RGB interfaces, and the C6H's fan interface and RGB interface are close together, apparently optimized for Spire.
All installed, ready to power again! The effect is very harmonious!
First look at the CPUZ, compared to the 1800X, 1700 basic frequency dropped significantly from 3.6G to 3.0G, acceleration frequency is only a single core 3.7G/8 core 3.2G, but TDP power consumption has also dropped significantly to 65W, provided at 65W The 3GHz frequency is currently the lowest power 8-core 16-thread processor, no one!
Since the single-core CPU is not low, the single-core CPUZ test is not much lower than the 1800X (the 1800X has been upgraded to more than 2,200 after updating the official 5704 BIOS), but the multi-core is about 10% lower. Slightly smaller than the frequency difference.
The memory performance is still as good as ever. At present, various motherboards have memory incompatibility in different degrees. It is necessary to wait for the BIOS update to be resolved. It is recommended that you immediately update the BIOS after getting your hands.
Fritz is also about 10% lower, but I have always felt that this score is very strange, especially after watching the 7700K can run almost points later...
Try 12 threads, sure enough! Only less than 10%, it seems that the so-called Mod version of Fritz support 16 threads is not complete, so it is completely inexhaustible, and future tests no longer have Fritz as a valid result.
Disk performance, even higher than the 1800X platform, error, error...
CB R11.5, After the new bios was brushed, the single-core performance was finally normal. The gap between 1800X and 1800X is still not small, but it is still stronger than the 5960X.
CB R15, 1800X multi-core is 1600 points, 1700 is 1400, the gap is still there.
This is probably the overall performance, 1700 with about 60% of the price obtained about 1800X about 90% of the performance, which is only the default level, overclocking how? Give it a try!
Currently Ryzen has three overclocking methods: BIOS overclocking, official overclocking software Ryzen Master overclocking, ASUS Ai Suite motherboard overclocking, this time the focus of the first two, Ai Suite overclocking the full range of motherboards are the same...
This time I brushed the latest official 5704 Beta BIOS on the official website. First adjust the Ai Overclock Tuner on the Extreme Tweaker page. Selecting the DOCP Standard will open the XMP data on the memory. As for the bottom several DOCPs, according to the instructions are corresponding to different frequencies of memory. , After the adjustment, the FSB will change, but which one will be used to roll over... Use Standard is the safest.
After the DOCP is set, the memory will jump to the XMP frequency. Since 3000 is not a multiple frequency, it will be taken down 2933. The memory test of the previous 1800X is based on this frequency.
In addition, you can directly read several configurations built into C6H. Since you don't know the configuration, and it is a Beta version of the BIOS, you shouldn't rush to try it.
Voltage adjustment, because the 1700's default voltage is really not clear, the software basically can not detect, the motherboard display is also non-stop, so the most appropriate offset mode. The Ryzen Master later learned that the default voltage of the 1700 was only 1.1875. Many people thought it was very high and rushed to high voltage (such as me), causing the power consumption to soar.
Here you can see the Spire BIOS status is very low speed, only 1600 rpm, resulting in high temperature within the BIOS, after all, is the original fan of the 65W processor, the configuration is still muted as the goal.
Finally, it is suggested that if the 4G is to be impacted, it is still necessary to open this anti-rolling option to at least three gears, otherwise it will be unstable.
After trying, my CPU can enter the system with a 4GHz eight core, 2933MHz memory frequency at a voltage of 1.45V, but! but! but! When I ran any test on the second hand, it was down to 3.8 GHz to complete the test. At the beginning, I could not understand that my thunderbolt constitution was reoccurring. I didn't inadvertently take a look at the temperature monitor to discover the problem:
Under 3.8GHz 1.45V voltage, the Spire radiator with the maximum speed of 2800 can't hold down the heat completely. It takes tens of seconds to rush to 90+ degrees. At the same time, when the power meter is used, the input power is already as much as 220W. The CPU's power consumption is around 170-180W - nearly three times the nominal 65W! No wonder seconds hang!
What is the full default situation? Full load for 5 minutes is only 65 degrees! The fan is only about 70% speed! 120W input power, CPU power consumption is about 60-70W (software detection is only 56W), basically in line with the nominal, simply called cold and static.
Finally, after numerous attempts, it was found that under the Spire radiator, 1700 is the most up to the level of overclocking to the full-core 3.7G, 1.3V voltage. This is not a 1800X without a single-core Boost... due to the current The BIOS is still incomplete, and only 8 core frequencies can be adjusted, and single-core frequencies cannot be adjusted. Therefore, the performance is not as good as 1800X at this level. Spire really can only suppress 95W TDP, AMD does not bully me ah!
Since Ryzen uses a 14nm FinFET LPP process similar to Polaris, the power consumption curve is similar to the RX480: low-frequency, low-power power consumption is excellent, but as the frequency and voltage increase, power consumption soars, while the frequency ceiling Very low. A few days ago it was rumored that the difference between the 1800X, the 1700X, and the 1700 was that they could make 1800X at less than 95W at 1800X, almost 1700X at the 1800X frequency, and even worse at 1700 - anyway, their low-voltage performance was similar. , from the actual measurement is likely!
Simply collate a voltage-power relationship table:
It looks as if it is not very steep, but in fact the frequency has only increased by 20%, and the power consumption has increased by nearly 200%. It is totally worth the candle. It is recommended that the 1700 go beyond the level of 3.5-3.7 GHz in the current BIOS. Yes, it's not worth the trouble.
Another way is through software overclocking, the advantage of software overclocking is not easy to roll over, restart to resume, there will not be half a day can not open the machine. AMD's own Ryzen Master software is a Beta version, and the interface is rather cool like Wattman:
However, if you want to use it, you must first turn on the HPET option. However, if the opening is not complicated but the guidance given is currently in English, there are some obstacles:
Can be used after opening, the default is C configuration is Current configuration, can only see can not adjust, to switch to the back of the digital configuration can be, but a lot of software problems, can only adjust the memory frequency and CPU voltage, frequency, and the rest It's either 0 or it's not good at all. After adjusting once, you want to change it to be reset. Only because several options are all 0, it's illegal for the software to be improved. Currently, it's only barely available.
From the R7 1700 overclocking situation, only a few simple steps can reach the flagship 1800X frequency, the price is undoubtedly high. And the 1700's excellent default power consumption ratio is also a big bright spot. However, the BIOS and supporting software of various manufacturers can not help but wonder if it is not too long without AMD motherboard technology is rusty, C6H is currently relatively high degree of completion, stability has no problem, but many brands even Normal boot is difficult, for example, I overturned a certain brand of high-end motherboard... At present, the default use of Ryzen is no big problem, but I want to play Ryzen, but also need to wait for motherboard manufacturers to polish the BIOS. .
Finally, the end of the cool Aura platform effect, Spire radiator can be controlled directly with ASUS Aura software, adjust the effect after the group pull:
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