Over the last several decades, MediaTek has indeed been viewed as the “other” SoC provider in the mobile phone industry, now with majority of media and customer focus focused on Apple, Qualcomm, Samsung, and HiSilicon’s flagship SoC offerings.
Actually, MediaTek’s initial attempt at a real flagship SoC has been with the Helio X20 and X30 several years ago, ultimately failing miserably in the marketplace and focused on the immediate post and “luxury” markets.
Today, MediaTek is attempting to shift its viewpoint. Following its recent market achievement, particularly in 2020 and 2021, when the Taiwanese vendor was eligible to claim the top spot with 40% market dominance, and also an increasing 28% 5G SoC share of the market, the business is now going to aim for acknowledgement and governance in the market leader SoC market – here’s where the new Dimensity 9000 tends to come in.
The Dimensity 9000 is MediaTek’s latest attempt at making another no flagship SoC.
Only with designers trying to throw everything except the home plunge at it in comparison to its competitors, including another Armv9 SoC with Cortex-X2, A710, and A510 CPUs, an innovative Mali-G710 GPU, the first LPDDR5X interoperable SoC, absolutely staggering camera ISP claims, and the firm’s first out and out announced publicly TSMC N4 polycrystalline configuration.
The list of features and functionality is long, and statement is unquestionably MediaTek’s most significant endeavor in decades and years.
Beginning with the communicator, MediaTek has a first inside the market with the Dimensity 9000, which is the first TSMC N4 chip inside the globe. People have become acclimated to Apple or HiSilicon being perhaps the first clients on TSMC’s newest going to lead terminals in recent years.
The N4 node from TSMC is intended to have a shorter optically shrinkage than the N5 node, culminating in 6% higher density and common goals performance and productivity improvements.
TSMC had previously stated that hazard production for N4 would begin in 3Q21, and with the Dimensity 9000 supposed to reach commercialization products in 1Q22, the chip will most likely be the processing datatype flagship offering.
New MediaTek Flagship SoC 2022
|1x Cortex-X2 @ 3.05GHz 1x1024KB pL2, 3x Cortex-A710 @ 2.85GHz 3x512KB pL2, 4x Cortex-A510 @ 1.80GHz 4x256KB pL2, 8MB sL3
|4x 16-bit CH @ 3200MHz LPDDR5/51.2GB/s, @ 3750MHz LPDDR5X /60.0GB/s, 6MB System Cache
|Imagiq790 New-gen Triple 18-bit ISP, 9GPix/s processing throughput, Single Sensor up to 320MP,
Triple Sensor 32+32+32MP
|5th Gen 4+2 core APU
|8K30 & 4K120 encode & 8K60 decode, H.265/HEVC, H.264, VP9, 8K30 AV1 Decode
|(LTE Category 24/18), (5G NR Sub-6)
No- Compromise CPU Setup
Because it’s an Armv9 SoC, the business is updating all of the CPU IPs, using Arm’s latest Cortex-X2, Cortex-A710, and Cortex-A510 IPs.
The Dimensity 9000 has a 1+3+4 CPU configuration, which has gained prominence in the industry when Qualcomm first used it in the Snapdragon 855. MediaTek includes the new Cortex-X2 processors for the performing cores, which have a full 1MB of L2 cache and can run at up to 3.05GHz.
The clock rate is much higher than what people are seeing currently on X1 cores in designs like the Snapdragon 888 and Exynos 2100, which run at 2.86 and 2.9GHz, correspondingly, but then those competitive SoCs have also been built on a weaker Samsung 5LPE production scale.
Humans do not really understand whether the next Snapdragon and Exynos processors would wind up when it comes of clock speeds, but Highly doubt they’ll advance faster than 3GHz, leaving the current Dimensity 9000 with such a probable bandwidth edge, and hence a probable chosen performance lead amongst Android SoC makers.
MediaTek claims a +35 percent efficiency boost against latest Android Flagship CPUs, which many presume will be a Snapdragon 888, but also claims a +37 percent improvement in production.
This means that maximum power and authority consumption for the MediaTek 9000’s X2 cores will be close to what people are seeing currently from the X1 cores in a Snapdragon 888, which is a nice place to have been in and the statistics match what researchers predict from of the IPC and manufacturing nodes variances between both the devices.
The efficiency increase in further recollection tasks is substantially bigger than some of the more core-local applications, according to MediaTek, with SPECint2006 seeing a +35 percent boost over the competitors, but GeekBench 5 only seeing a +10.5 percent rise.
This is consistent with current knowledge of the Cortex-X2, indicating to poor IPC increases in something that does not reap the benefits of the CPU protoplanetary increased buffers.
The Dimensity 9000’s center cores are 3x Cortex-A710 cores with 512KB L2 cache and a clock speed of 2.85GHz. In this aspect, MediaTek’s methodology is more comparable with that of the Exynos 2100 in that it uses very high frequency mid-cores, as opposed to Qualcomm’s lower 2.4GHz design standpoint.
Humans can see the newest Cortex-A510 small cores with the intermediate cores, and MediaTek is doing things in a different way here than in previous incarnations of the IP. Instead of using Arm’s new “merged-core” strategy, in which a Cortex-A510 complex can now have two cores wanting to share a SIMD/FP workflow and a shared L2, MediaTek totally disregards this form .
Function of the IP and rather than uses just one core per complicated, each with its own SIMD/FP piping system and private L2 cache. The cache size is 256KB, and that is quite substantial but falls short of the 512KB limit. In essence, MediaTek has set up a configuration.
The multi-core efficiency of the Dimensity 9000 is promoted as much outperforming the latest Android competitors, and coming in line with what Apple accomplishes on the A15, thanks to the robustly designed intermediate cores and quite well tiny cavities.
MediaTek additionally supplies the DSU with 8MB of L3 at the clustered level — this is most likely the new version DSU-110 too though.
On the CPU side, the Dimensity 9000 is set up in even the most ideal way possible – MediaTek went everything in terms of speeds and caching, and it’s hard to envision a much more standards compliant arrangement than where the chip has now, at least from the perspective of Arm Cortex CPU IP.
First LPDDR5X, Large System Cache
Another global first with the Dimensity 9000 is that this was the first chip to be declared as LPDDR5X compliant. The specification was really only released by JEDEC in July of this year, thus the reality that perhaps the chip currently implements.
It indicates that MediaTek was developing from a draught and therefore should be completely compatible with current specification. While the complete standard supports up to 8533Mbps, the chip present only supports 7500Mbps, implying a 17 percent increase in throughput over prevailing LPDDR5-6400 solutions.
Still, Really wasn’t expecting LP5X SoCs till late next year, so this came as a shock. The microcontroller, of course, continues to handle LPDDR5 at up to 6400MHz.
GPU: Mali G710MP10
The MediaTek Dimensity 9000 is also the first SoC to incorporate the new Mali-G710 GPU. Given HiSilicon’s problems and Samsung’s deployment of AMD RDNA GPUs, MediaTek has been the only surviving vendor projected to ship a SoC with a bigger Mali GPU version when humans talked about just the IP previously this year.
The Dimensity 9000 has a 10-core arrangement. Humans must keep in mind that one new G710 core is about similar to two G78 cores in regards of per-core efficiency, therefore the current chip’s GPU is essentially equivalent to the Google Tensor G78MP20 GPU in terms of volume and achievement, with perhaps a 20% performance improvement.
Low Power Leadership Claims
MediaTek claims that the new TSMC N4 node, and also the smart power administration that the SoC and platform are developed with, have enabled them to achieve low power dominance. The measurements provided seem to be of total platform energy, eliminating power source to the touchscreen display.
This implies people are looking at a performance assessment of the SoC, DRAM, PMICs, cellular RF, and Wi-Fi subsystems – essentially the “framework” technologies that SoC suppliers are usually sensitive to and package with competitive products.
The media playback and storage statistics are noteworthy, with the Dimensity 9000 claiming to consume far less power than the competitors. Gaming performance is also stated to be decreased, which is to be considered alongside the GPU’s effectiveness and promises of lower energy consumption.
The household idle consumption is the single data point that interests me the most. One of the most difficult things to make in a semiconductor design will do nothing in an efficient and effective way; this accounts for a significant portion of power consumption and influences the device’s baseline power, as well as the day-to-day battery life.
Getting a -20% edge over the competition is extremely impressive.