As semiconductor products continue to improve in performance and efficiency, today's mobile devices are rapidly improving their functionality and complexity. In particular, as mobile devices begin to surpass yesterday's PC capabilities and shipments far exceed the latter (greater than 5:1), mobile phones are becoming the next generation of client devices. But this trend has also brought a lot of problems, and market maturity is one of them.
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The maturity of the mobile phone market is causing fierce competition between early market entry and new mobile phone manufacturers. As market growth slows, mobile phone manufacturers are increasingly competing in alternative businesses. As a result, mobile phone manufacturers have only two roads to break through, either to reduce costs or to maintain performance leadership. But in all of these cases, this trend has forced all manufacturers to optimize development and bill of materials (BOM) costs.
For operators, market maturity has led them to pay more attention to the increase in average revenue (ARPU) from each user through additional services. However, due to the lack of clear standards, operators must incur huge costs and resources when trying to promote new services on a range of separate devices. In order to reduce this dispersion, mobile operators are striving to promote the establishment of specifications throughout the industry.
Get rid of the same bondage
As handset manufacturers and mobile operators continue to build and deploy new features and services as a means of expanding their business in increasingly mature and increasingly competitive markets, they find that traditional proprietary development platforms are no longer adequately met. Its development needs. In addition, market pressures are forcing handset manufacturers to focus on value-added services while trying to control and reduce costs.
Traditional proprietary operating systems have inhibited the emergence of personalization, which is both expensive and difficult to provide innovative services, and mobile operators are just looking to improve ARPU with new services.
With Linux, operators saw opportunities that directly impacted the software platform and gained some level of control that they thought would continue to expand.
Linux provides operators with an extended and open platform that can be tailored to meet carrier standards and specifications to avoid fragmentation, while being customizable and personalized.
Other proprietary platforms offer few or even no ability to provide personalized features or standardized services, which leads to a monolithic and decentralized product. Given the scalability of Linux, operators see it as an excellent opportunity to configure a standardized platform in their own network, reducing the amount of testing required to deploy new applications and services, thereby reducing operational expenses.
Mobile phone manufacturers face similar problems when considering introducing the most advanced features to the market. Unlike operating systems with limited functionality (for basic mobile devices with limited resources), Linux is designed with a highly scalable architecture that ranges from watches to supercomputers.
By adopting Linux in their devices, handset manufacturers can offer their users a unique new experience while meeting operator specifications and reducing the overall cost of their development and certification. For this reason, many top handset manufacturers are beginning to see Linux as a versatile solution that can work across a wide range of devices. Linux also allows them to develop a dynamic and highly competitive roadmap for the foreseeable future.
Rich application
With more powerful semiconductor components and operating environments, mobile phone performance is also growing, becoming a smaller but more functional computing device, giving the market an opportunity to offer a variety of advanced applications and gaming features (not It's required). But with the advent of these advanced features, the complexity of the system and the need for enterprise-level development tools are increasing. Fortunately, the Linux ecosystem is well suited to the needs of advanced software development as it grows from the corporate environment. Coupled with a large number of developers, previously large-scale applications, and a variety of powerful development tools for the Linux platform, these add to the selectivity and flexibility of software developers. Specifically, Eclipse-based development tools from multiple merchants have made software development for Linux easier.
Eclipse provides a complete graphical development environment for development and debugging software, and can be easily used in workstations running Linux, Solaris, and Windows operating systems. With Eclipse as the framework, software development tools providers provide a familiar software environment while allowing their resources to focus on adding the most effective features to their products.
Expensive small-volume "smart phones" typically use separate applications and baseband processors, and also include dedicated memory for different processors. Excessive semiconductor devices increase the cost of the design while increasing the power consumption of the product, resulting in a shortened battery life. To make matters worse, the dedicated baseband processor adds to the requirements of the second operating system, which reduces development efficiency and increases costs.
These high-end devices typically have an application-centric operating system and a rigorous real-time operating system to handle the extremely demanding communication response time requirements between the protocol stack and the back-end infrastructure. Failure to meet the response time requirement will cause the phone to drop, and this phenomenon is absolutely unacceptable to the operator because his customer will blame the network instead of the device.
The latest developments in the Linux world have greatly improved response time. These improvements have enabled optimized versions of the platform to deliver rich application, gaming and multimedia performance while meeting the "hard real-time" requirements of baseband processing, all driven by a single processor. Using Linux in a design called a "single chipset" allows handset manufacturers to offer high-end features at a fairly low price.
Because Linux is highly modular and completely open, handset manufacturers can easily layer additional features and functions to create a range of devices with different features to meet diverse market segmentation and device categories. This allows equipment manufacturers to streamline their internal development costs while maintaining the autonomy and flexibility of the architecture.
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