Imperas, a member of the ARM Connected Community, has released new models of the ARM Cortex-A and Cortex-M series of cores, available from Open Virtual Platforms (OVP). Example virtual platforms incorporating the cores and support for the cores are available in Imperas' advanced software development tools.
Models of the ARM Cortex-A8, Cortex-A9 and Cortex-M4 processor cores, as well as models of the other ARM processors including the ARM7, ARM9, ARM10, ARM11 and Cortex-M3 families, work with the Imperas and OVP simulators, and have shown exceptionally fast simulation performance of hundreds of millions of instructions per second. The OVP Fast Processor Models include support for both the 32- and 16-bit instructions, as well as the MMU, MPU, TCM, VFP and NEON features.
The OVP Fast Processor Models accelerate the development cycle and make debug easier for software engineers. Imperas M*SDK tools provide additional capabilities needed for hardware-dependent software development on state of the art SoCs.
All OVP processor models enable embedded software developers, especially those building hardware-dependent software such as firmware and bare metal applications, to have a development environment available early to accelerate the software development cycle. OVP processor models employ a state of the art, just-in-time code morphing engine to achieve the simulation speed. Virtual platforms utilizing these OVP processor models can be created with the OVP peripheral and platform models, or the processor models can be integrated into SystemC/TLM-2.0-based virtual platforms using the native TLM-2.0 interface available with all OVP models. The native TLM-2.0 interface enables multiple instantiations of the processor models in a single virtual platform, just as any other component would be instantiated. The OVP simulator can also be encapsulated within the Eclipse IDE, enabling easy use for software developers.
In addition to working with the OVP simulator OVPsim, the OVP Fast Processor Models work with the Imperas Multiprocessor/Multicore/Multithread Software Development Kit (M*SDK) for multicore software verification and analysis, which includes key tools for software development on virtual platforms such as OS and CPU-aware tracing (instruction, function, task, event), hot spot profiling, code coverage and memory and cache analysis. The Verification, Analysis and Profiling (M*VAP) tools utilize the Imperas SlipStreamer binary interception technology. SlipStreamer enables these analytical tools to operate without any modification or instrumentation of the software source code.
Imperas is making the new OVP Fast Processor Models of the ARM Cortex-A and Cortex-M4 series available now from the OVP website. Processor core models for the ARM Cortex-A9MP cores will be available within the next 10 weeks. OVP already offers ARM developers access to models of other ARM processors, including the Cortex-M3 and processors which utilize the v4, v5 and v6 ARM instruction sets.
OVP also has reference virtual platforms incorporating the ARM cores, including bare metal platforms, a virtual platform of an Atmel AT91sam7 processor (based on an ARM7 core), and a virtual platform of the ARM IntegratorCP development board using the ARM926EJ-S or Cortex-A9. This IntegratorCP virtual platform enables users to boot Linux in under 10 seconds on a 2GHz laptop using OVPsim. Reference platforms are available as source code, and are easily modified to add or change the memory and peripheral co! mponents to customize the platform as required for software development.
The following specific models are available as open source from OVP: ARM7TDMI, ARM720T, ARM7EJ-S ARM920T, ARM922T, ARM926EJ-S, ARM940T, ARM946E, ARM966E-S, ARM968E-S ARM1020E, ARM1022E, ARM1026EJ-S ARM1136J-S, ARM1156T2-S Cortex-A8, Cortex-A9 Cortex-M3, and Cortex-M4.
The OVP Fast Processor Models and example platforms are available from the Open Virtual Platforms website, www.OVPworld.org/ARM.
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