SOURCE : Kickedface
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Qualcomm has announced the latest additions to the Snapdragon processor line. These will be the Snapdragon 808 and 810, which Qualcomm is touting as being "The Ultimate Connected Computing." Similar to what we've seen from the Snapdragon 800 tier up until this point, the 808 an 810 will be for high-performance.
The highlights for the Snapdragon 808 and 810 include them being 64-bit enabled and with integrated Cat 6 LTE advanced. Some of the other points shared across both of these include support for the Qualcomm RF360 Front End solution, and support for 3x20MHz Carrier Aggregation, which enabled speeds up to 300Mbps. They are also both designed using the 20nm technology node.
But perhaps the best news for some -- Qualcomm is pushing how these have been "tightly integrated and optimized for exceptionally low power consumption that does not sacrifice performance." Sitting below are some highlights for each of these;
Snapdragon 808
Designed for WQXGA (2560 x 1600) displays
Setup with a pair of ARM Cortex-A57 cores and a quad Cortex A-53 CPU
Will include Adreno 418GPU with support for OpenGL ES 3.1hardware tessellation, geometry shaders, programmable blending
LPDDR3 memory
Frame buffer compression and external 4K display support using HDMI 1.4
12-bit dual Image Signal Processors
Snapdragon 810
Will combine 64-bit quad-core ARM Cortex-A57 CPUs and Cortex-A53 CPUs
Will use Adreno 430 GPU and have been designed for 4K displays
LPDDR4 memory
4K display support using HDMI1.4
Will be the first mobile platform to use Qualcomm VIVE 2-stream 802.11ac with multi-user MIMI (for WiFi efficiency)
Support for Bluetooth 4.1, USB 3.0, NFC and Qualcomm IZat (location core for improved accuracy on location services)
Qualcomm mentioned the Snapdragon 808 and 810 will "begin sampling in the second half of 2014." And then from that point, they are expected to arrive in devices "by the first half of 2015."
****.. the S5 I preordered is obsolete already...
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Arrives in a few hours after the official presentation, the first image that depicts the new Samsung Galaxy Nexus . The image is accompanied by full specifications and all this comes from Asia where the Japanese operator NTT DOCOMO has confirmed the availability to November 20.
Specifications of Samsung Galaxy Nexus
Model: GT-I9250, GT-I9250T, GT-I9250M, SC-04D, SCH-I515
dimensions (length x width x thickness): 136.0 × 68.0 × 8.8 fine piece - 11.5 thickest part
Weight: Approximately 135.0 (g)
OS: Google Android version 4.0 Ice Cream Sandwich
Chipset: Texas Instruments Omap4460 CPU: ARM Cortex-A9 MP Core SMP (Dual-Core) CPU operating frequency: 1.2 GHz
GPU Image Technologies PowerVR SGX 540
Communication Systems (GT-I9250/GT-I9250M/GT-I9250M/SC-04D): W-CDMA, GSM phone (SCH-I515): LTE, CDMA2000 Packet (GT-I9250/GT-I9250M / GT-I9250M/SC -04D): HSPA, EDGE, GPRS (SCH-I515): LTE, EV-DO Rev.
Display: AMOLED HD: 4.65 inches Resolution 720 x1280. Maximum number of simultaneous colors Main Display: 16,777,216 color touch screen: capacitive (multi-touch),
Main camera: 5 megapixel CMOS camera with LED flash Video recording 1080pHD (1920 * 1080)
Front camera: 1.3 million pixels CMOS
GPS
NFC
Micro USB 2.0
Communications Bluetooth 3.0 + HS
Wireless LAN Communication: IEEE 802.11 a / b / g / n (2.4 GHz Dual-Band 5.xGHz)
Tethering
Wi-Fi Direct
RAM: 1GB
ROM: 16/32GB
Battery Capacity: 1750mAh
Notification LED
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While the Xperia ™ S has a Qualcomm processor S3, the Xperia ™ P ™ U Xperia and Xperia ™ single have a U8500 processor NovaThor ™ ST-Ericsson. The NovaThor ™ U8500 is the first to be compatible with OpenGL ES 2.0 and integrates a multi-core GPU that provides 2D and 3D acceleration with scalable performance up to 1080p resolution.
The NovaThor ™ U8500 is based on a dual core processor DB8500 ARM ® Cortex ™-A9 SoC (System on Chip) with a GPU ARM ® Mali ™ 400MP and an integrated modem HSPA + / 4G with support for 14 Mbps and the responsible for the audio chip, USB, power and functions of the SIM card.
The platform integrates NovaThor ™ U8500 single chip and a dual core processor at 1GHz, the first smartphone platform to integrate dual-core technology with symmetric multi-processing graphics accelerator with high performance 3D.
A platform to enable symmetric multi-processing (SMP) as the NovaThor ™ U8500, allows different processes on different processors divided according to certain performance requirements and energy. A great advantage of SMP for mobile applications is a more energy efficient, it will be really visible by the end user.
The multi-process NovaThor ™ U8500 processor uses lower voltages and allow users to perform many more tasks with a single battery charge. Instead of having a single processor at full capacity to execute a task, several processors can work at half speed, while controlling the temperature of the terminal.
So NovaThor ™ U8500 platform can provide the same performance as a single core CPU faster, but using much less energy.
CUBOT recently launched its first fingerprint phone -- Cubot S600. It is Cubot's first product with fingerprint recognition technology.
Cubot S600 Main Features:
- Operating System: Android 5.1 OS
- Camera: 8.0MP front camera + 16.0MP back camera
- Screen: 5.0 inch Screen, 1280*720 pixels display
- CPU: MTK6735A, 1.3GHz 64Bit Quad Core
- Storage: 2GB RAM + 16GB ROM
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Cubot S600 Appearance
Recent products with mellow feeling are becoming more and more popular among current market. Cubot S600 with a more founder shape is sure to bring some unusual feeling on the appearance design. This model has a more masculine feeling at the first sight. The arc design at the top / bottom is more chic. And on the S600 model, we also see the popular ID rimless design and relatively thin thickness. Cubot S600 thickness is about 7.5mm, and owns black, white and gold colors for choosing.
The difference of the S600 in appearance from the previous model is in the back, such as the Cubot X17, and Cubot X15 mobiles. S600 has a square upper area on the back, this is where the S600's fingerprint sensor points. It is said that Cubot S600 can quickly identify by 0.3s.
Cubot S600 Camera
The camera specifications of this modek is also equally prominent. S600 uses using a 16 million pixel Samsung CMOS primary camera for the first time, and joined the PDAF phase focusing technology to enhance focus speed, combined with dual LED lights, front caera even up to 8 million pixels. In addition, it is equipped with MTK MT6735 quad-core processor, adopts a 5-inch HD screen, builds in 2G RAM + 16G ROM memory, owns a 2700mAh large battery and installed with the latest Android 5.1 system, support FDD / WCDMA / GSM networks and dual sim card dual standby.
As per Huawei the Kirin 980 is the world's first commercial mobile phone SoC chipset made with TSMC's 7 nm process, integrating 6.9 billion transistors to improve both performance and energy efficiency. It is the first of its kind developed based on ARM Cortex-A76, with a dominant frequency of up to 2.6 GHz. The design of the Kirin CPU subsystem and intelligent flex-scheduling mechanism are ideal for achieving optimal energy efficiency while providing excellent performance.
The Kirin 980 is also the world's first commercial SoC chipset that uses the innovative Mali-G76 GPU. With its optimization technology and guaranteed battery life, the Mali-G76 GPU allows users to play massively multiplayer online games (MMOGs) smoothly. The Kirin 980 supports the world's fastest LPDDR4X with the rate up to 2133MHz, 14% faster than the industry average and is the first to integrate dual NPUs. This provides the most powerful AI computing capability available in the industry and offers increased support for AI applications, bringing mobile phones into the smart era.
The Kirin 980 is the first to support LTE Cat.21 in the world, which achieves stable and fast mobile communication connections in various complex communication scenarios, with an industry best peak download rate of 1.4 Gbit/s. The Kirin 980 uses Huawei-developed ISP 4.0, improving the pixel throughput by 46%, supporting more cameras, and greatly enhancing the noise reduction and color reproduction capabilities. These features allow mobile users to enjoy clear pictures and good video experiences. A more powerful and open HiAI ecosystem provides improved AI development capabilities and a convenient development environment for developers.
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What the key features of Kirin 980?
1. World's First 7 nm Commercial Mobile Phone SoC Chipset Kirin 980 Again Leads Industry Trends
2. Innovative Kirin CPU Subsystem and First Commercial Application of Mali-G76 GPU Achieve Top Energy Efficiency Ratio
3. Fourth-Generation Self-Developed ISP Upgraded for a More Beautiful World
4. Premium Smart Experience Enables Kirin 980 to Lead Mobile Phones into the Smart Era
5. Fastest 1.4 Gbit/s Peak Download Rate in the Industry and Best Communication Experience for All Scenarios
6. Fastest 1.4 Gbit/s Peak Download Rate in the Industry and Best Communication Experience for All Scenarios
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Can someone explain to me, how is possible note 4 have much higher score than note 20 ultra? My note 4 have single score 1076 and multi score 3489. When Note 20 ultra have Single about 800 and Multi 2700. What's wrong?
Thanks in advance.
What OS is the N4 running on?
What about the N20U?
Is all power management disabled on the N20?
You have run the CPU-benchmark on 2 devices which have different chipset hardware
Samsung Galaxy Note 4
Qualcomm APQ8084 Snapdragon 805 (28 nm)
Exynos 5433
Samsung Galaxy Note 20 Ultra
Qualcomm SM8250 Snapdragon 865+ (7 nm+) - USA
Exynos 990 (7 nm+) - Global
Like other CPU benchmarks, GeekBench 5 runs a series of tests on a CPU and times how long the CPU takes to complete the tasks. The quicker the CPU completes the tests, the higher the GeekBench score.
The tests are divided into three subsections:
Crypto Crypto workloads measure the cryptographic instruction performance of your computer by performing tasks that make heavy use of crypto instructions. While not all software uses crypto instructions, the software that does can benefit enormously from it.
Integer Integer workloads measure the integer instruction performance of your computer by performing processor-intensive tasks that make heavy use of integer instructions. All software makes heavy use of integer instructions, meaning a high integer score indicates good overall performance.
Floating Point Floating point workloads measure floating point performance by performing a variety of processor-intensive tasks that make heavy use of floating-point operations. While almost all software makes use of floating point instructions, floating point performance is especially important in video games, digital content creation, and high-performance computing applications.
OK...I will be more specific...
This is N20U geek bench...
https://www.gsmarena.com/samsung_ga...os_chipset_passes_by_geekbench-news-44532.php
https://unite4buy.com/media/geekbench/geekbench_general_912_4212.png
And this is my N4 geekbench...
It suppose 990 exynos would be much faster ...but I can't see that...right?
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And this is the geekbench iphone 12 pro max...
https://unite4buy.com/media/geekbench/geekbench_general_1592_4206.png
My exynos 5433 have almost the same perfomance with Apple A14 Bionic?
A bit crazy?