RUNTIMES FOR 5G/LTE TEST AND MEASUREMENT EQUIPMENT

We are providing some of the largest telecom test and measurement equipment manufacturers with reliable and high performance runtimes for their 5G and LTE-A test and measurement products. Our runtimes are for example used in RF generators and analyzers, network emulation, protocol testing and end-to-end application testing equipment.

PERFORMANCE FOR HIGH-SPEED DATA PROCESSING

Our real-time executive have been developed and optimized for the highest possible data processing performance, needed in telecom test equipment. It is designed for use on many- and multicore devices, providing linear multicore scalability that allows processing performance to scale while maintaining the same high determinism and real-time performance, also for a very large number of cores.

Ultra-low latency and high bandwidth makes it possible for applications to process large data streams and complex control algorithms in real-time on the device.

FLEXIBILITY TO SUPPORT EVOLVING 5G/LTE STANDARDS AND TEST CASES

Our operating system solutions provide runtimes that allows adaption of test equipment following the evolution of mobile networks and telecom standards, from LTE through LTE-A, to 5G.
Decoupling functionality from hardware the design by using our high performance real-time executive on standard hardware adds flexibility through the means of software programming. Reconfigurations and adaptations to evolving standards will be quicker and easier.

How ENEA Can Make A Difference - Benefits

  • Fulfill the needs for data processing power, low latency and large bandwidth required by high-end telecom test equipment
  • Linear scalability with maintained ultra-low latency and jitter for SMP applications on many- and multicore devices
  • Reduce dependency on ASIC and FPGA solutions with software enabled high performance computing for early and frequent releases
  • Support equipment evolution with a flexible software defined platform, decoupled from the hardware
  • Use general purpose multi-core processors, with no vendor lock-in and high portability between hardware platforms
  • High scalability makes it possible to support various applications simultaneously
  • Long-term support and maintenance for evolving product platforms

BENEFIT FROM THE SAME HIGH PERFORMANCE RUNTIMES AS THE LEADING TIER 1 TEMS DO

Enea has been providing the leading tier 1 TEMs with runtimes for their access network and baseband processing solutions from 2G systems to early 5G implementations. With our runtimes the computing intense and time critical L1 and L2 baseband processing is implemented in a flexible software defined solution.

Our runtime platforms have evolved together with the telecom industry and especially with the evolution of radio access networks (RAN). They are optimized for intense processing with very strict real-time requirements.

Explore our Solutions FOR LTE/5G TESTING

 

Real-Time Accelerated Linux

High-performance, scalable and flexible real-time on Linux platforms.

Read more

Enea OSE

Fully deterministic and high performance real-time that scales on multi- and many core devices.

Read more

ENEA Linux

Purpose built commercial embedded Linux with real-time and virtualization profiles.

Read more

Enea OSEck

Enea OSEck is a compact version of Enea OSE, optimized to provide high performance and determinism on DSP clusters.

Read more

Related Resources

 

Choosing Your Runtime

Technical Paper

There are many aspects to consider when choosing and designing runtimes for embedded systems, especially when there are performance and real-time requirements.

Read the paper

Enabling Real-time in Linux

White paper

Linux was not designed for real-time, but there are different ways to improve the characteristics and overcome its limitations. This white paper shows how.

Read the white paper

The Multicore Challenge

White Paper

The Multicore Challange to Real-Time Embedded Operating Systems: How to Scale With Maintained Performance and Determinism.

Read the white paper

Why Hybrid AMP/SMP Scales on Multicore

Learn how a hybrid SMP/AMP operating system scales on multicore processors.