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OverviewWith the rapid advances in technology, the conventional academic and research departments of Electronics engineering, Electrical Engineering, Computer Science, Instrumentation Engineering over the globe are forced to come together and update their curriculum with few common interdisciplinary courses in order to come out with the engineers and researchers with muli-dimensional capabilities. The gr- ing perception of the ‘Hardware becoming Soft’ and ‘Software becoming Hard’ with the emergence of the FPGAs has made its impact on both the hardware and software professionals to change their mindset of working in narrow domains. An interdisciplinary field where ‘Hardware meets the Software’ for undertaking se- ingly unfeasible tasks is System on Chip (SoC) which has become the basic pl- form of modern electronic appliances. If it wasn’t for SoCs, we wouldn’t be driving our car with foresight of the traffic congestion before hand using GPS. Without the omnipresence of the SoCs in our every walks of life, the society is wouldn’t have evidenced the rich benefits of the convergence of the technologies such as audio, video, mobile, IPTV just to name a few. The growing expectations of the consumers have placed the field of SoC design at the heart of at variance trends. On one hand there are challenges owing to design complexities with the emergence of the new processors, RTOS, software protocol stacks, buses, while the brutal forces of deep submicron effects such as crosstalk, electromigration, timing closures are challe- ing the design metrics. Full Product DetailsAuthor: Rajanish K. Kamat , Santosh A. Shinde , Vinod G ShelakePublisher: Springer Imprint: Springer Edition: Softcover reprint of hardcover 1st ed. 2009 Dimensions: Width: 15.50cm , Height: 1.00cm , Length: 23.50cm Weight: 0.454kg ISBN: 9789048181117ISBN 10: 9048181119 Pages: 174 Publication Date: 19 October 2010 Audience: Professional and scholarly , Professional & Vocational Format: Paperback Publisher's Status: Active Availability: In Print This item will be ordered in for you from one of our suppliers. Upon receipt, we will promptly dispatch it out to you. For in store availability, please contact us. Table of ContentsChapter 1: Introduction. 1.1 Prologue. 1.2 Exceptional Attributes of the SoC Technology. 1.3 Classical taxonomy: a holistic perspective extended towards Integrated Circuits Classification. 1.4 System on Chip (SoC) Term and Scope. 1.5 Constituents of SoC. 1.6 Sprawling Growth of SoC market. 1.7 Choosing the platform, ASIC Vs FPGAs. 1.8 FPGA based Programmable SoC. 1.9 Orientation of the Book. Chapter 2: Familiarizing with Handel C. 2.1 EDA Tools i.e. Computer Aids for VLSI Design. 2.2 Background of Hardware Description Languages. 2.3 Expressing abstraction at higher levels. 2.4 Where C stands amidst the well established HDLs? 2.5 Introducing Handel C. 2.6 Top Down or Bottom up? 2.7 Handel C: A boon for Software Professionals. 2.8 Handel C Vs ANSI C. 2.9 Handel C Design Flow. Chapter 3: Sequential logic Design. 3.1 Design Philosophy of Sequential Logic. 3.2 D flip-flop. 3.3 Latch. 3.4 Realization of JK Flip-Flop. 3.5 Cell of Hex counter for Counter Applications. 3.6 Realization of Shift Register for SoC. 3.7 LFSR Core for Security Applications in SoC. 3.8 Clock Scaling and Delay Generation in SoC. 3.9 SoC Data Queuing using FIFO. 3.10 Implementation of Stack though LIFO. 3.11 Soft IP core for Hamming Code. Chapter 4: Combinational Logic Design. 4.1 Introduction. 4.2 Design Metrics for the Combinational Logic Circuits: SoC Perspective. 4.3 Core of “2 to 4 decoder”. 4.4 “3 to 8 decoder” using hierarchical approach. 4.5 Priority Encoder 4 to 2. 4.6 Soft IP Core of “7 to 3 encoder” Implementation. 4.7 IP core of ‘Parity generator’ for Communication Applications. 4.8 IP Core for Parity checker and error detection for Internet Protocol. 4.9 BCD TO Seven Segment converter. 4.10 Core of Binary to Gray Converter and Applications. 4.11 Realization of IP Core of Gray to Binary Converter. 4.12 Designing Barrel Shifters and their applications. Chapter 5: Arithmetic core design and Design Reuseof Soft IP Cores. 5.1 Design Reuse Philosophy. 5.2 Advantages of on chip arithmetic. 5.3 Designing Half adder in Handel C. 5.4 Designing Full Adder as a Reusable Core. 5.5 Ripple Carry Adder on Chip. 5.6 Realization of Booth Algorithm using FPGA. 5.7 Building 8 bit ALU. 5.7 Third Party Tool Interface with Handel C. 5.8 Xilinx EDK Interface with Cores developed through Handel C. Chapter 6: Rapid Prototyping of the Soft IP cores on FPGA. 6.1 Prototyping Philosophy. 6.2 Design and Prototyping of a Fuzzy Controller. 6.3 TCP/IP Packet Splitter Implementation Using Mixed Design Flow. 6.4. Linear Congruential Random Number Generator. 6.5 Implementation of Reusable Soft IP core of Blowfish Cipher. Chapter 7: Soft Processor Core for Accelerated Embedded Design. 7.1 Building SoC for temperature control application using Picoblaze. 7.2 Hardware Software Codesign of SoC with built in Position Algorithm. References. Index of Tables. Index of Figures. Index of Programs.ReviewsAuthor InformationTab Content 6Author Website:Countries AvailableAll regions |