摘要
现场可编程门阵列(Field-Programmable Gate Array,FPGA),也被称为FPGA芯片,在通信、安防、工业等领域有着举足轻重的作用。随着FPGA芯片的规模不断扩大、性能不断提升,其模块数量、电路网表规模、连接复杂度也随之增加。在此趋势下,如何有效地提升大规模FPGA电路的验证效率与验证完备性变得更为重要。一个完整的、有针对性的、结构性的验证流程方法,能更全面地对电路设计情况进行覆盖性检查,确保FPGA芯片功能的正确性。详细叙述从底层到顶层(模块级、子系统级、全芯片级)的FPGA芯片验证方式,包括它们各自的验证方法、流程与侧重等细节,探讨了这种方式是如何帮助FPGA验证工作进行的。
The field-programmable gate array(FPGA)is also known as the FPGA chip,and it plays a crucial role in fields such as communications,security and industry.As the scale of FPGA chips continues to expand and their performance continues to improve,their number of modules,size of circuit netlists and connection complexity also increase.In this trend,how to effectively improve the verification efficiency and completeness of large-scale FPGA circuits has become more important.A complete,targeted and structured verification process method can comprehensively check the coverage of circuit design and ensure the correctness of the function of FPGA chips.This paper detailedly describes the verification method of FPGA chips from the bottom layer to the top layer(module-level,subsystem-level,full chip-level),including details such as their respective verification methods,processes and emphases,and explores how this method helps FPGA verification work.
作者
张勇
陈逸韬
ZHANG Yong;CHEN Yitao(Shenzhen State Microelectronics Co.,Ltd.,Shenzhen,Guangdong Province,518000 China)
出处
《科技资讯》
2024年第4期20-22,共3页
Science & Technology Information
关键词
FPGA芯片
验证效率
验证流程方法
全芯片级验证
FPGA chip
Validation efficiency
Validation process method
Full chip-level validation