Features of Multicore Embedded Systems Development

Multi-core has become a hot topic in recent years. We have now reached a point where multi-core adoption is starting to follow common use cases and framework for understanding how multi-Core can apply to your project.

Performance

Embedded developers are turning to multi-core solutions primarily because of cost. Performance requirements have quickly multiplied, therefore computing power needs to enhance significantly without increasing cost per unit, power consumption and heat production. Multi-core provides the best option for increasing performance, and the ratio of power/performance and cost/performance is significantly improved. Hardware providers are addressing these needs with specific processors with 8, 16 and 32 cores and specialized packet processing acceleration hardware. Software vendors are providing platforms designed to take full advantage of available processing power and specific needs of packet processing devices.

Consolidation

Another common multi-core use case is consolidating complicated multi-device systems into one. Combining multiple systems into a single hardware unit means less cost, less complicated supply chain and easier support and maintenance. For example, running a Real Time Operating System (RTOS) alongside a General Purpose OS (GPOS) like Microsoft Windows or Linux.

Multi-core is not the only enabler for consolidation, however it has removed previous barriers such as performance and power limitations. Developers can now leverage embedded virtualization technology to run multiple operating systems on a single core or multi-core devices to consolidate two or more systems onto a single board. The potential cost savings is significant.

Safety and Security

A third driver for multi-core adoption is safety and security. In highly secure systems, secure and unsecure parts must be physically separate – usually by having multiple individual systems. Modern secure systems are doing more with less by leveraging secure separation with virtualization. For example, a secure military radio system may be required to transmit classified information some of the time depending on its use. Keeping secure and unsecure portions separate is a key security practice.

In safety critical systems it’s important to separate critical and non-critical parts. For example, an industrial control system may need a safety critical control system with a Linux-based user interface. Linux and safety critical parts can both run on the same system, but be separated via virtualization. In addition, safe and secure system partitioning must be guaranteed safe and secure and in some cases, many require certification.

Essentially, developers now have the ability to think about multi-core ahead of time to address both technical and business issues. Developers can evaluate a new multi-core hardware and software platform to see if it provides performance and business advantages (cost, time to market, etc).

Author:

Vradha

Trainee at Xinoe Systems

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