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Asus has launched TUF Gaming Alliance, which aims to make hardware parts consistent by delivering different parts from multiple manufacturers in the same format and color as the TUF Gaming category. The rest of this concert comes from the recent arrival of Team Vulcan TUF Edition, at a frequency of 2400 to 3600 MHz, and in our case today the frequencies of 3200 MHz.
You can now get a complete computer with the TUF Alliance logo, which we have never seen before. What products can you get and wear this logo ?! You will find below some companies offering products in this category.
Antec, Apacer, Ballistix, Master Cooler, Corsair, Deepcool, Enermax, G.Skill, Geil, Victory, Scythian, SilverStone, Team Group
All of these companies offer products in the category of TUF alliance in order to be able to obtain a complete computer consisting of products belonging to the TUF Alliance category, Review of the ASUS TUF Gaming M5 Earlier, as well as an examination ADATA XPG D41 TUF Edition
The fleet of products under the banner of TUF Alliance has expanded to include many products. It has been reported that a number of online shopping sites are now available and sell several products. this category. Attached together is grouped To provide you with the price and at the same time make sure you have a compatible computer between them.
If you continue to follow us, you have probably seen the next paragraph over and over again. You may want to skip this part of the exam … but it is a necessary evil because it shows the user that these terms may not be familiar to him and that he will not be familiar with it. they affect performance. Direct
After the generation of 3G DDR memory has reached the point of evolution, the need to launch a new generation to increase the frequency and offer users a new level of performance has increased. High frequencies can increase performance, which is reflected directly in the performance of your computer. The first generation of Rizen, which clearly showed the difference in performance with increasing frequency … The neural network within the first generation Raysen processors
This difference between successive generations was obvious, especially in the process of speed reduction, it is now natural to reach frequencies of more than 3600 MHz in the most expensive memories. What was in previous generations a way of imagination, and we will experience the break Speed up the memory to see the maximum frequency that you can reach.
What does TIMINGS mean?
Suppose that the central processor reads the data of a cell in memory and that it consumes a certain time. We can measure this time and connect it to the number of pulses, and then classify this process into several commands consuming a number of pulses per run.
These are the hours, or we can call it the delay time, the number of impulses consumed by the memory to execute a certain order of reading and writing. There are now dozens of timings associated with the goods, but we will mention the four main timings associated with the name of the memories, just like the pieces we have, dating from 15-17-17-35 at the right timing, will ensure a good performance but the Faisal is up to par We will see later at the chosen time to determine whether we are going or not during the break.
The four main times are tCAS, tRCD, tRP and tRAS, but we always find the tCAS or tCL base time associated with the memory name and become a key specification with its frequency and size, such as the memories we have with the Team Delta RGB CL15, where the first time is the most important synchronization.
Well, what do these moments mean? Remember that it is the delay times for some commands and that we will measure this time by the operating pulses of the memories. In addition, do not forget that memories are in the form of matrices composed of columns and lines.
The tCAS or tCL expresses the number of pulses consumed by the memory to execute the command (read as an example) of a particular cell in the column when the line in which it is active is activated.
If we consider that the memory is a matrix of four rows and four columns, the read command comes from the processor to the microcontroller, which activates the first line where the cell to be executed is located, and then the controller activates the column where it is located. the cell. This process consumes a set of pulses to activate the column in which the cell is located after the activation of the first line. When this happens, you have too much time to respond to the read order of the cell and send it to the processor: it is tCAS time, which is estimated, as we mentioned in the number of pulses in which the memories operate.
tRCD Indicates the number of pulses consumed by the memory between the activation of the line and the column in which the cell is to be executed. We mentioned that activating the cell just activates the line in which you exist and activate the column. Delay Time After activating the row and column, it is the time tRCD and, of course, the number of pulses in which the memory works during the delay time.
tRP The number of impulses consumed by the memories when activating a new line after the execution of a command in an old line. If something is ordered in a cell, it is in a particular row. If a new command arrives in a cell located in another line, the memory must take some time before activating it: it is the TPR time, which corresponds to the number of hours. pulses that the memories work during this period.
tRAS represents the number of pulses consumed by the memory so that you can activate a new line after already activating a given line. Once the memory controller has activated a specific line, the memory must take a long time to be able to activate a new line: it is the time tRAS, which corresponds to the number of pulses used by the memories during this period, like the rest of the time. If we look at it in an obvious way, the time tRAS should be equal to or greater than the time of tCAS & tRCD because it expresses the response time of the command after the activation of the line in which the cell must be executed.
Once we know the timing, we see its importance in the performance curve of the memories, of course, the operating frequency of the memories is important and the performance of the memories will increase, but the timing is also important because it reflects the delay in the implementation of orders. Less memory takes time, i.e. The shorter the delay time, the higher the higher timers are performing if the operating frequencies are equal to them.
There are also several sub-synchronizations that represent a difference in performance but do not significantly affect performance. In the past, the most important synchronizations directly affected the performance.
The pads come in a traditional package with a clear plastic bag containing the labels, a certificate of guarantee and a sticker bearing the logo of the team.
The memory is dominated by the yellow color of the TUF gaming equipment, which makes your hardware compatible with each other and distinguishes it from ordinary material.
The memories are low on the surface of the motherboard, which guarantees that they do not interfere with the dispersion that you could install.
The memory comes at a reference frequency of 3200 MHz and 16-18-18-38
We have updated the test platform to fit the Core-i7 8700K processor, leading generation 8 performance, featuring Multi Core Enhancement technology, to run the processor at 4 , 7 GHz on the MSI MPG Z390 EDGE motherboard with the next-generation ASUS Strix RTX 2080 graphics card. Of course, we will not be able to rely on the old results to compare them to the current results in memory. As a result, the figures we have today are just the Team Vulcan TUF edition and the rest will be added successively to compare performance to current memories.
The memory will be tested in the following scenarios:
- With video editing software and content creators
- With compression and decompression software for RAR files
- With programs to measure read and write speeds of bandwidth memories
The goal is to test performance differences between test-fault bits with application scenarios and to measure read and write speeds strictly with the XMP configuration file. It also indicates how fast the memory can be broken, which indicates the quality of the memory chip used and its ability to reduce the transmission speed to higher frequencies than those provided in the XMP file.
We review the entire test platform and then the test results:
Central processor: i7 8700K at 4.7 GHz
Motherboard: MSI MPG Z390 EDGE
Souvenirs: Team Vulcan TUF Edition 3200 MHZ
Graphics card: ASUS Strix RTX 2080
Central processor cooler: Noctua D15s
Although no other memory has been tested on the same platform, the current memory gives very poor performance on the reference frequency of 3200 MHz using the pre-installed file XMP in applications that use a lot of memory.
For the price that comes with the memory of $ 160, gave a very good performance, especially if we look at the ability to break the speed and quality of the incoming segments, I was able to reach the frequency of 4200 MHz with a voltage of 1.45 volts, a very big increase in frequency and this memory is the best memory which broke its speed at all.
Speed reduction represented an increase in performance ranging from 7 to 20% in applications and applications mainly based on memory.
Memories are available on the Newegg.com website and you can buy them via The following link.
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