Ines Viskic scite author profile

Abstract. This paper presents SW synthesis using Embedded System Environment (ESE), a tool set for design of multi-core embedded systems. We follow a design process that starts with an application model consisting of C processes communicating via abstract message passing channels. The application model is mapped to a platform net-list of SW and HW cores, buses and buffers. A high speed transaction level model (TLM) is generated to validate abstract communication between processes mapped to different cores. The TLM is further refined into a Pin-Cycle Accurate Model (PCAM) for board implementation. The PCAM includes C code for all the communication layers including routing, packeting, synchronization and bus transfer. The generated embedded SW provides a library of application level services to the C processes on individual SW cores. Therefore, the application developer does not need to write low level SW for board implementation. Synthesis results for an multi-core MP3 decoder design, using ESE, show that the embedded SW is generated in order of seconds, compared to hours of manual coding. The quality of synthesized code is comparable to manually written code in terms of performance and code size.

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Hardware-dependent Software synthesis for many-core embedded systems

Abdi

Schirner

Viskic

et al. 2009

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Abstract-This paper presents synthesis of Hardware Dependent Software (HdS) for multicore and many-core designs using Embedded System Environment (ESE). ESE is a tool set, developed at UC Irvine, for transaction level design of multicore embedded systems. HdS synthesis is a key component of ESE backend design flow. We follow a design process that starts with an application model consisting of C processes communicating via abstract message passing channels. The application model is mapped to a platform net-list of SW and HW cores, buses and buffers. A high speed transaction level model (TLM) is generated to validate abstract communication between processes mapped to different cores. The TLM is further refined into a Pin-Cycle Accurate Model (PCAM) for board implementation. The PCAM includes C code for all the HdS layers including routing, packeting, synchronization and bus transfer. The generated HdS methods provide a library of application level services to the C processes on individual SW cores. Therefore, the application developer does not need to write low level HdS for board implementation. Synthesis results for an multi-core MP3 decoder design, using ESE, show that the HdS is generated in order of seconds, compared to hours of manual coding. The quality of synthesized code is comparable to manually written code in terms of performance and code size.

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Ines Viskic

Embedded system environment: A framework for TLM-based design and prototyping

A Flexible, Syntax Independent Representation (SIR) for System Level Design Models

Automatic generation of embedded communication SW for heterogeneous MPSoC platforms

Model Based Synthesis of Embedded Software

Hardware-dependent Software synthesis for many-core embedded systems

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