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SoC HW/SW verification and validation

机译：SoC硬件/软件验证和确认

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In modern SoC design flow, verification and validation are key components to reduce time-to-market and enhance product quality. To avoid trade-offs between timing accuracy and simulation speed in RTL simulation and C++/SystemC virtual prototyping, FPGA prototyping has become a better choice in the design flow. However, the time-consuming bring-up procedure and insufficient debugging visibility has impaired its potential strengths in verification and validation. In this paper, we present the technology from InPA Systems in which four different modes of operations, RTL-FPGA co-simulation, SystemC-FPGA co-emulation, vector prototyping, and in-circuit prototyping, are supported. With these different modes of FPGA operations, users can develop and verify their SoCs in different stages of the design flow with different abstraction levels. This methodology efficiently and robustly completes the SoC HW/SW verification and validation flow.

机译：在现代SoC设计流程中，验证和确认是缩短产品上市时间并提高产品质量的关键组成部分。为了避免在RTL仿真和C ++ / SystemC虚拟原型设计中在时序精度和仿真速度之间进行权衡，FPGA原型设计已成为设计流程中的更好选择。但是，耗时的启动过程和不足的调试可见性削弱了其在验证和确认中的潜在优势。在本文中，我们介绍了InPA Systems的技术，其中支持四种不同的操作模式：RTL-FPGA协同仿真，SystemC-FPGA协同仿真，矢量原型设计和在线原型设计。通过这些不同的FPGA操作模式，用户可以在设计流程的不同阶段以不同的抽象级别开发和验证其SoC。这种方法有效而稳健地完成了SoC硬件/软件验证和确认流程。

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《2011 16th Asia and South Pacific Design Automation Conference 》|2011年|p.297-300|共4页
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Chung-Yang Huang; Yu-Fan Yin; Chih-Jen Hsu; Huang T.B.; Ting-Mao Chang;
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SoC HW/SW verification and validation

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