IP Cores Design from Specifications to Production Modeling, Verification, Optimization, and Protection / [electronic resource] :
by Khaled Salah Mohamed.
- IX, 154 p. 153 illus., 115 illus. in color. online resource.
- Analog Circuits and Signal Processing, 1872-082X .
- Analog Circuits and Signal Processing, .
1. Introduction -- 2. IP Cores Design from Specifications to Production: Modeling, Verification, Optimization, and Protection -- 3. Analyzing the Trade-off between Different Memory Cores and Controllers -- 4. SOC BUSES AND PERIPHERALS: FEATURES AND ARCHITECTURES -- 5. Verilog for Implementation and Verification -- 6. New Trends in SoC Verification: UVM, Bug Localization, Scan-Chain-Based Methodology, GA-Based Test Generation -- 7. Conclusions.
This book describes the life cycle process of IP cores, from specification to production, including IP modeling, verification, optimization, and protection. Various trade-offs in the design process are discussed, including those associated with many of the most common memory cores, controller IPs and system-on-chip (SoC) buses. Readers will also benefit from the author's practical coverage of new verification methodologies. such as bug localization, UVM, and scan-chain. A SoC case study is presented to compare traditional verification with the new verification methodologies. � Discusses the entire life cycle process of IP cores, from specification to production, including IP modeling, verification, optimization, and protection; � Introduce a deep introduction for Verilog for both implementation and verification point of view. � Demonstrates how to use IP in applications such as memory controllers and SoC buses. � Describes a new verification methodology called bug localization; � Presents a novel scan-chain methodology for RTL debugging; � Enables readers to employ UVM methodology in straightforward, practical terms.
9783319220352
10.1007/978-3-319-22035-2 doi
Engineering. Microprocessors. Electronics. Microelectronics. Electronic circuits. Engineering. Circuits and Systems. Processor Architectures. Electronics and Microelectronics, Instrumentation.