Conceptual Model of Hardware Software Co-design for Multicore Systems on Chip

机译：多核片上系统硬件和软件协同设计的概念模型

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

The paper suggests co-design of hardware and software of multicore microprocessing structures (MCMPS) for the cyber-physical systems (CPSs) including Internet of Things (IoT) in a single key and complex, closely interacting tools. The development task is performed by using set-theoretic analysis of all internal algorithms with the goal of open up in a step of the compilation independent of equivalence classes in type of clusters. As a result we solve the task of open up the set of all possible cluster structures defines the analysis of explicit parallelism and for choosing the MCMPS in order to design strategy for implementation in a CPS. The suggested co-design is based on formalization of one of the type models of knowledge - frames for design of expert system on technical parameters. In experimental example is analysis. The authors propose a sample using such methodology for analysis of algorithms for monitoring natural and anthropogenic emergencies or forest-fire monitoring, description of the expert system user interface and intellectual telecommunications structures on the base of the MC 127.05 module, which is a heterogeneous multiprocessor system based on K1879BM8Y chip.

机译：该论文建议在一个关键，复杂，紧密交互的工具中为包括物联网（IoT）在内的网络物理系统（CPS）进行多核微处理结构（MCMPS）的硬件和软件的协同设计。开发任务是通过对所有内部算法进行集理论分析来执行的，目的是在独立于簇类型中的等价类的编译步骤中进行开放。结果，我们解决了打开所有可能的集群结构的集合的任务，该集合定义了显式并行性的分析并选择了MCMPS，以便设计在CPS中实施的策略。建议的协同设计基于一种知识类型模型的形式化-用于技术参数专家系统设计的框架。在实验示例中是分析。作者提出了一种使用这种方法的样本，用于分析用于监视自然和人为紧急情况或森林火灾的算法，基于MC 127.05模块的专家系统用户界面描述和智能电信结构，MC 127.05模块是异构多处理器系统。基于K1879BM8Y芯片。

著录项

来源
《Mediterranean Conference on Embedded Computing》|2020年|1-4|共4页
会议地点
作者
Vladimir Ruchkin; Grigory Soldatov; Alexei Koryachko; Boris Kostrov; Ekaterina Ruchkina;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类
关键词
eo-design; hardware; software; equivalence classes; clusters; multicore microprocessing structures; cyber-physical system; forest-fire monitoring; microcomputer module MC 127.05; intellectual telecommunications structure;

机译：eo-design;硬件;软件;等效性类;集群;多核微处理结构;网络物理系统;林火监测;微计算机模块MC 127.05;智能电信结构;

相似文献

外文文献
中文文献
专利

1. From systems to networks on chip: A promising research area in the Hardware/Software co-design [J] . Gómez-Pulido J.A. Journal of systems architecture . 2010,第7期

机译：从系统到片上网络：硬件/软件协同设计中一个有前途的研究领域
2. Hardware Software Co-design of H.264 Baseline Encoder on Coarse-Grained Dynamically Reconfigurable Computing System-on-Chip [J] . Hung K. NGUYEN, Peng CAO, Xue-Xiang WANG, IEICE transactions on information and systems . 2013,第3期

机译：粗粒度动态可重构片上系统上H.264基线编码器的硬件软件协同设计
3. Hardware Software Co-design of H.264 Baseline Encoder on Coarse-Grained Dynamically Reconfigurable Computing System-on-Chip [J] . Hung K. NGUYEN, Peng CAO, Xue-Xiang WANG, IEICE Transactions on Information and Systems . 2013,第3期

机译：粗粒度动态可重配置片上系统的H.264基线编码器硬件软件协同设计
4. Operating system support to an online hardware-software co-design scheduler for heterogeneous multicore architectures [C] . Bueno Maikon A.F., de Holanda Jose A.M., Pereira Erinaldo, IEEE International Conference on Embedded and Real-Time Computing Systems and Applications . 2014

机译：对异构多核体系结构的在线硬件-软件协同设计调度程序的操作系统支持
5. Layout conscious approach and bus architecture synthesis for hardware-software co-design of systems on chip optimized for speed and power. [D] . Thepayasuwan, Nattawut. 2004

机译：布局意识的方法和总线体系结构综合，用于片上系统的硬件-软件协同设计，已针对速度和功耗进行了优化。
6. Hardware/Software Co-Design of Fractal Features Based Fall Detection System [O] . Ahsen Tahir, Gordon Morison, Dawn A. Skelton, 2020

机译：基于分形特征的跌倒检测系统软硬件协同设计
7. Operating system support to an online hardware-software co-design scheduler for heterogeneous multicore architectures [O] . Bueno Maikon Adiles Fernandez, Holanda Jose Arnaldo Mascagni de, Pereira Erinaldo da Silva, 2014

机译：对异构多核体系结构的在线硬件-软件协同设计调度程序的操作系统支持

Conceptual Model of Hardware Software Co-design for Multicore Systems on Chip

摘要

著录项

相似文献

相关主题

期刊订阅