Friday, August 31, 2018

Huawei Kirin 980 is worlds first commercial 7nm chipset


Huawei has finally launched the Kirin 980 processor, which is the world’s first commercial System-on-Chip (SoC) manufactured with Taiwan Semiconductor Manufacturing Company’s (TSMC) 7nm process. The company says the chipset combines best-in-class performance, efficiency, connectivity features, and Dual NPU AI processing power. 

During the event, the company compared the SoC with Qualcomm Snapdragon 845 and claimed that the Kirin 980 has 37 percent better performance and is 32 percent more power efficient. “Last year, we showed the world the potential of On-Device AI with the Kirin 970, and this year, we’ve designed an all-round powerhouse that not only features outstanding AI capabilities, but also brings cutting-edge raw performance to consumers. 

Equipped with all-new CPU, GPU and Dual NPU, the Kirin 980 is the ultimate engine to power the next-generation productivity and entertainment applications,” Richard Yu, Huawei Consumer Business Group CEO, said during his keynote at IFA, 2018. 

The TSMC 7nm process technology enables Kirin 980 to pack 6.9 billion transistors within a centimetre square die size, which is up by 1.6 times from the previous generation. Compared to the 10nm process, the comapny says that the 7nm process delivers 20 percent improved SoC performance and 40 percent improved efficiency. It added that the Kirin 980 is also the first SoC to use the Cortex-A76 cores, which are said to be 75 percent more powerful and 58 percent more efficient compared to their previous generation. 

In an octa-core configuration, the CPU in Kirin 980 is comprised of two high-performance Cortex-A76 cores; two high-efficiency Cortex-A76 cores; and four extreme efficiency Cortex-A55 cores. To take full advantage of this unique configuration, Huawei said it has developed a Kirin CPU subsystem with Flex-Scheduling technology that flexibly allocates the right cores to the right tasks. “This solution designates the large high-performance cores to handle immediate, intensive workloads; the large, high-efficiency cores to provide sustained performance; and ultra-efficiency cores to tackle every day, light activities with extreme power efficiency. Running at higher clock speeds compared to the prior generation, Kirin 980 enables quicker app launch times, better multi-tasking and a generally smoother user experience,” the tech giant added. Huawei has integrated the Mali-G76 GPU into the Kirin 980 which is said to offer 46 percent greater graphics processing power at 178 percent improved power efficiency over the previous generation. Mali-G76 also features a clock boosting technology that utilises AI to intelligently identify gaming workloads and adjust resource allocation for optimal gaming performance. 

The Kirin 980 SoC has a Dual-Neural Processing Unit (NPU) which, the company claims, elevates the ‘On-Device AI’ experience with greater processing power and intelligence. According to the Chinese conglomerate, the synergy between the Dual-NPU results in an image recognition capability that is greater than the sum of two—the Kirin 980 can recognize up to 4,600 images per minute, up 120 percent compared to Kirin 970. 

Huawei also integrated its proprietary fourth-generation ISP into the SoC that provides a 46 percent increase in data throughput compared to its predecessor and better support for multi-camera configurations, as well as an all-new HDR colour reproduction technology that can manipulate picture contrast to highlight objects on various parts of an image, Huawei says.   “In addition, Kirin 980 utilises the Multi-pass noise reduction solution that removes artifacts without scrubbing away image details, resulting in better quality on images taken in low-light scenarios. 

ISP also improves motion tracking and when a user attempts to snap a photo of a moving person, the ISP can recognise the subject with 97.4 percent accuracy, so any user can capture fleeting moments with ease,” the company said in a statement. In the connectivity space, Huawei integrated a modem supporting LTE Cat.21 with a peak download speed of 1.4Gbps.

Facebook Twitter Google+ WhatsApp StumbleUpon Pinterest Addthis

MAXIT INTERNET

BLOGGER

CD DVD RW

DELL

DOWNLOAD

FTP Server Linux

HACK

HARD DRIVE

HOW TO WORKIN

HARDWAER

INTERNET

INTERNET CAFE

LAPTOP

LENOVO

LINUX

Additional configuration for Samba Server (Part 2)  

BSNL/Airtel/Idea using Huawei E156G 3g Wireless USB Linux 5   

Basic File Extensions    CHANGING AN ACCOUNT EXPIRATION DATE   

Configure Linux as a Router   

Configure SAMBA Server (Part-1)   

Configure VNC server   

Configure Yum Server (Part-1)   

Configure yum server for Client machine (Part 3)   

Configuring Samba as a Standalone Server (Part 3)  

Connecting ftp Server with Anonymous User Part 5  

Create ftp account with Shared directory Part 3  

DHCP Server Configuration Part 2  

DHCP Server Configuration Part-1  

DHCP Server Configuration Part-3  

Enabling FTP Services in Yum Server (Part 5)  

FTP Server Configuration Part 1  

FTP Server How to Change In Primary DNS Server Part 2  

HTTP Client side configuration (Part 4)  

How to Vsftpd conf files Parameter Part 6   

LINUX FILE SYSTEM STRUCTURE  

Linux User Administrtion  

Linux as a Router configuration for Client Machine   

Linux client machine FileZilla FTP Client Part 4  

Local Yum Server (Part 2)  

Modifying Existing User Information  

Primary DNS Server Configuration Part-1  

Primary DNS Server Configuration Part-2    

Primary DNS Server Configuration Part-3  

Remove Linux From Your Pc Safely and restoring your MBR  

Sharing & Accessing Samba Share (Part 4)   

Speeding up your internet connection under Linux and Windows   

THE ROOT FILE SYSTEM   

VNC Server Configuration

LINUX LAB

Linux as a Router

MOTHERBOARD

Mobile

NETWORKING

REDHAT 5

REGISTRY EDTOR

RESET BIOS PASSWORD

SAMBA Server Linux

SERVER

SERVER CONFIG

SOFTWAER

VNC server Linux

Window 10

Window XP

Follow by Email

MAX-IT INTERNET

MAX-IT INTERNET
TIPS AND TRICKS