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embedded world 2021 DIGITAL (Ended)
eSOL participated as a PREMIUM exhibitor in embedded world 2021 DIGITAL which has been held as a virtual event this year (March 1-5, 2021).
eSOL materials which had been displayed at embedded world 2021 DIGITAL are available for download here:
eSOL showcased its unique software products and innovative technology solutions targeting the automotive and industrial embedded markets:
High-Performance Multi-Core Real-Time Platform for Edge Computing With Safety and Security
RTOS | Multi / Many-Core | Software Defined Systems | Virtualization | Mixed Criticality | Functional Safety | ROS / ROS 2
eSOL presented its eMCOS multikernel solution for embedded edge computing at the Exhibitor's Forum of embedded world 2021 DIGITAL.
Also, eSOL held four round-table sessions regarding OS Evolution, Embedded Software Defined Systems (SDS), Hypervisor, and Autoware, during embedded world 2021 DIGITAL.
Please feel free to contact us for more detailed information or a personal product introduction/demonstration.
Speech information
Date/Time | March 1st, 11:50-12:10 (CET) |
Title | eMCOS - a high-performance RTOS for embedded multicore applications with mixed criticality |
Abstract | eSOL presents its high-performance RTOS, eMCOS. With the help of the multikernel architecture, higher performance can be achieved than with conventional RTOS systems, especially on multi-core hardware for software-defined architectures (SDA). In addition, the functional freedom from interference (FFI) is increased and thus the functional safety of applications with mixed criticality. |
Speaker | Michael Grabowski, eSOL Europe |
Round-tables
Date/Time | Title | Abstract |
March 2nd, 11:00-11:30 (CET) | OS Evolution - Monolithic to Microkernel to Multikernel | We give you a very brief overview of the evolution of operating systems with a focus on embedded applications. By showing you the biggest challenge with multi-core hardware, we will explain why you will never see a big speedup with common RTOSes on multi-core SoCs. But we will also introduce you to the only currently available commercial solution to this problem. And after this revelation, you can ask the experts your most pressing questions. After this session, you will have understood the most pressing problem in embedded applications and know a solution. |
March 3rd, 11:00-11:30 (CET) | The Dawn of Embedded Software Defined Systems (SDS) and How to Overcome Their Challenges | Using the example of modern automotive E/E architectures, we show you how the challenges for embedded systems have changed. We show you what is important in the design of highly networked embedded systems and what you have to pay attention to. You can ask the experts your most pressing questions. After this session, you can transfer this knowledge to other embedded segments like Industrial IoT and Medical. |
March 4th, 11:00-11:30 (CET) | Hypervisor in the Embedded World for Applications With Mixed Criticality | We will describe the trend of the current aggregation phase in the embedded segment: SW application integration on an unprecedented level. Using modern automotive E/E architectures as an example, we will show you what challenges a software integrator faces today. With the help of hypervisors, many applications with mixed criticality are now required to run on one hardware. We will show you what is important with current hypervisors and what to look out for. You can ask the experts your most pressing questions. After this session, you will be able to transfer this knowledge to other embedded segments such as Industrial IoT and Medical. |
March 5th, 11:00-11:30 (CET) | Do You Know Autoware? | We will give you a brief overview of the open source Autoware software and how this framework supports your development of autonomous driving vehicles for mass production. Based on a safety-certified RTOS, you can reuse your pre-development on Linux to bring it to the functional safety level you need. You can ask the experts your most pressing questions. After this session, you will understand the SW architecture consisting of an RTOS, a hypervisor, the ROS / ROS 2 framework and the highest software level Autoware. |