12 min read

Single Root I/O Virtualization (SR-IOV) -Pt 2- LynxOS-178 10G network benchmarkS

By Tim Loveless | Principal Solutions Architect on Mar 16, 2021 12:33:11 PM

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Single Root I/O Virtualization (SR-IOV) virtualizes network interface cards (NICs) to allow a single NIC to present itself as dozens of virtual NICs to a hypervisor. It is a hardware standard, part of the PCI-SIG (Peripheral Component Interconnect - Special Interest Group) and is heavily used in data centers. It is a key software defined networking (SDN) component that allows data centers to efficiently host internet servers as virtual machines (VMs). SR-IOV provides a pool of hardware virtualized NICs that a cloud computing platform such as OpenStack dynamically assigns to VMs as they are launched. This infrastructure uses Linux orchestration platforms and mainly Linux based enterprise guest OSs.

In our first blog post on the topic (Part I), we saw that the Intel® Atom® C3858 (Denverton) Processor has 4 built-in X550 NICs that present 256 virtual NICs. LynxSecure was used to build a system with 5 Buildroot Linux guests, 4 of which used virtual SR-IOV NICS. This article (Part II), takes the next step and illustrates how to build a system with 3 LynxOS-178 RTOS guests and a Buildroot Linux. LynxSecure is used to assign 14 SR-IOV NICs to the guests before we run benchmarks to measure the overhead of SR-IOV virtual networking. These are high performance 10G bit/sec NICs, so the benchmarks are also an interesting comparison of Linux vs LynxOS-178 networking performance for UDP and TCP at various packet sizes.

Topics: Multicore Safety MCP embedded systems hardware development Single-root IO Virtualization hypervisors virtualization software certifications Virtual Machines 10G Benchmark
10 min read

Who Needs a Hypervisor?

By Tim Loveless | Principal Solutions Architect on Feb 25, 2021 12:59:58 PM

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The standard benefits of a hypervisor are well known and often touted. Every RTOS has its hypervisor and they do genuinely help embedded designers to:

  1. Partition multicore processors into virtual machines; an elegant way to consolidate OSs
  2. Isolate guests; to improve security and safety
  3. Oversubscribe high performance multicore processors; use time slicing to host more OSes than cores
Topics: Multicore Safety CAST-32A Certification MCP embedded systems hardware development hardware interference software certifications DO-178
14 min read

Edge Computing is Here. What's Next?

By Lynx Software Technologies on Feb 7, 2021 9:33:37 AM

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Industry 4.0? Edge computing? Call it what you will, the fact remains that our industry moves slowly. Obstacles must be overcome before we can claim that edge computing has evolved from theories and experiments to true industrial deployment. The resolution of the mismatched and (potentially insecure) interface between the worlds of Informational and Operational Technologies (IT and OT) is key to the application of edge computing on a wider scale.

Topics: embedded systems development software
11 min read

What is Cache Coloring and How Does it Work?

By Tim Loveless | Principal Solutions Architect on Feb 5, 2021 11:52:40 AM

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There are substantial challenges in building secure and safe systems on multicore processors (MCPs). Last level cache contention is undoubtedly the largest source of multicore interference, and a significant challenge for real-time systems. Here we discuss a proposed solution, called cache coloring. Opinions on cache coloring are mixed, sometimes extreme, and the implementation can be difficult and risky. This article aims to demystify cache coloring by clarifying exactly how it works. We hope that the example using a real Intel processor and accurate diagrams allows you to grasp cache coloring without getting lost in lines, sets and ways.

Topics: Multicore Safety TC-16/51 CAST-32A Certification MCP embedded systems hardware development hardware interference software certifications DO-178
25 min read

Challenges Building Safe Multicore Systems

By Tim Loveless | Principal Solutions Architect on Jun 15, 2020 8:12:09 AM

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Topics: Multicore Safety TC-16/51 CAST-32A Certification MCP embedded systems hardware development hardware interference software certifications DO-178