ZTE President Xu Ziyang: Build Stronger Core Competence, Achieve High-Quality Growth Together
To cope with technology challenges,
Challenges brought by business uncertainties refer to a series of problems that are not clearly understood, for example, the large-scale expansion, monetization, and business models of industry applications.
Facing uncertainties in market expansion,
Here comes the original speech as follows:
Hello, everyone. Many people may know that there is a fast-growing plant called Giant
The year 2020 was certainly extraordinary. The strike of COVID-19 and the ever-changing global environment seemed to disrupt 5G deployment, but in fact,
Digital and Intelligent Transformation in Full Swing
After two years of commercial practices, 5G is still in its fledgling stage, and digital and intelligent transformation has already gathered full momentum. We maintain the judgement that development in this stage will encounter both technology challenges and business uncertainties. Technology challenges include: to constantly reduce costs and increase efficiency for 5G infrastructures, and to meet higher performance requirements for different industry applications. Challenges brought by business uncertainties refer to a series of problems that are not clearly understood, for example, the large-scale expansion, monetization, and business models of industry applications.
For Technology Challenges, Build Stronger Core Competence and Pursue Excellence
To cope with technology challenges, we build stronger core competence and pursue excellence.
First of all, let's take a look at the evolution of cloud-network capability based on market progress. Phase 1 refers to the first 1–3 years when 5G networks are deployed. The focus of this phase is fusion for higher efficiency. For example, multi-frequency/RAT sites, large bandwidth, high efficiency, and DSS are applied to optimize resource utilization; new materials, new processes, and AI are employed to reduce energy consumption; and enhanced uplink, edge deployment, and multi-cloud synergy are developed to facilitate market expansion. The focus of Phase 2 is intelligence and openness. As the 5G traffic load increases, ubiquitous AI, open and decoupled architecture, and edge cloud and industry applications will further promote cloud-network integration, as well as uRLLC and millimeter wave technology. In Phase 3, the popularization of 5G industry applications will raise higher requirements for cloud-network integration and stimulate continuous evolution of technologies. For example, ultra large antenna, Terahertz (THz), multi-dimensional connectivity, and AI-Native networks will emerge.
To cope with the technology challenges, we make continuous innovations and breakthroughs for the ultimate user experience. For both consumer and business markets, the key to success is to create a brand-new experience for customers and users.
For consumers, we increase the high-rise coverage by 30% in complex scenarios with the Massive MIMO SSB 1+X beam broadcasting solution, improve 5G indoor coverage experience with cost-effective solutions by using eDAS that enables UL/DL multi-stream transmission through software implementation , apply Doppler-Shift Compensation to ensure good user experience in high-speed rail and air transport scenarios, and provide immersive experience of sports events and concerts through new home videos.
For vertical industry applications, we offer better access technology, like enhanced uplink of 5G networks and low-latency connectivity of PON. In the meantime, with E2E guarantee and enhanced network slicing, larger bandwidth, lower latency, and higher reliability, we can facilitate the expansion of industry applications, especially those in the OT field.
Moreover, we constantly pursue ultimate efficiency, including the highest spectral, power, and network operational efficiency. These are vital for operators to reduce costs, improve efficiency, and achieve sustainable development. For example, we provide MU-MIMO with higher capacity, Cloud Radio with lower interference, SuperDSS that allows dynamic spectrum sharing among 2/3/4/5G, higher-spectral-efficiency 800 Gbps OTN with single-wavelength, AIVO to improve efficiency by incorporating AI into different network building stages, PowerPilot precision power saving to reduce power consumption by 20% at site level through big data and AI, and, when 5G traffic load increases, in-depth coordination between frequencies and RATs to optimize energy efficiency while ensuring excellent user experience, by real-time service identification and energy efficiency analysis.
Ultimate Core Competence
Core competence is the cornerstone of ultimate experience and ultimate efficiency. In terms of chipset, advanced manufacturing technology, packaging, and joint software/hardware design can help overcome the bottleneck of Moore's Law. With rich experience in IPs and the digital IC DevOps COT design platform, we can safeguard our core competitiveness in chipset development. Algorithms are the essence of software and also the key to higher software quality and efficiency. We will focus on high cohesion at the physical layer, ultimate performance at the network layer, and feature optimization at the service layer, and continue to improve the AI algorithm library. This will bring about continuous improvement on chipsets and algorithms, and revolutionary progress in architecture. In terms of architecture, we will keep enhancing decoupling, promote microservice architecture, and achieve data-driven evolution to AI-Native architecture.
Facing the uncertainties in market expansion, we strengthen "agile" capabilities to promote the digital and intelligent transformation of vertical industries, thus lowering startup costs, making quick trials and iterations, and promoting successful models. Meanwhile, we welcome deep and open cooperation with our partners in vertical industries and the ecosystem, to achieve high-quality growth together.
Focus on Value Creation and Scenario-Based Services Make things EASIER
When facing the challenge of business uncertainties in vertical industries, we advocate being value-driven and scenario-based to make things "EASIER".
The first "E" stands for "Elastic", indicating the elasticity of applications, agnostic migration, and flexible scale-in/out brought by single-source heterogeneity and cloud native software. "A" is short for "Agile", meaning the computing power on demand, agile innovation, and rapid iteration and replication supported by lightweight software and hardware design. "S" indicates "Secure", referring to higher security guaranteed by zero trust through intrinsic security. "I" means "Intelligent", indicating the data-driven evolution and continuous algorithm iteration empowered by ubiquitous AI. The second "E" is short for "Easy", meaning that customers can easily use the network through simple and fast deployment and maintenance. "R" stands for "Reliable", indicating the reliable performance in latency and resources guaranteed by the TSN and finer-granularity hard-slicing technologies.
Strengthen Agility, Succeed in Edge
Agility makes success. With lightweight and flexibility as its basis, agility is key to addressing uncertainties. As vertical industry applications extend to the OT field, the edge will become the major field for innovation incubation and application. As for deployment of agile edge:
In terms of hardware, on-premises gateways, embedded boards, all-in-one cabinets, and the resource pool of all-series servers can enjoy lightweight startup and expansion on demand.
Regarding software, the
Fast Iteration, High-Quality Growth
To tackle uncertainties, we need comprehensive enhancement and coordination in all fields to achieve "full decoupling", "dual circulations", and "deep optimization".
"Full decoupling" indicates a further decoupled architecture based on cloud infrastructure. We employ finer-granularity components horizontally, and build a thinner PaaS layer to enable vertical decoupling of both technical service layer and general service layer.
Besides, such an architecture enables dual circulations. Cycle optimization between the technical service layer and the infrastructure layer improves the infrastructure resource utilization efficiency and the coordination efficiency of applications, safeguarding edge application scenarios despite limited resources. Moreover, the general service layer and scenario-based applications are mutually supportive. Specifically, the former enables the service development on the upper application layer through its low-code architecture. At the same time, it also accumulates public logic and algorithms from the application layer, resolving the conflict between customization and scale to some extent.
Deep optimization lowers non-efficient redundancy expenses through multimode fusion, and ensures the best infrastructure efficiency in different applications through customized off-the-shelf hardware.
Digital and Intelligent Ecosystem of Shared Success
Rainforests are the most stable and robust ecosystems on this planet. Striving for stronger core competence and high-quality growth in the 5G era,
The industry and ecosystem require more professional coordination when facing up to business uncertainties.
2021 marks the year of the Ox, which symbolizes resilience and perseverance in Chinese culture. It is exactly the spirit that
Tel: +86 755 26775189
View original content to download multimedia:http://www.prnewswire.com/news-releases/zte-president-xu-ziyang-build-stronger-core-competence-achieve-high-quality-growth-together-301233280.html