VE4071 Hardware Software Co-Design Syllabus:

VE4071 Hardware Software Co-Design Syllabus – Anna University PG Syllabus Regulation 2021

COURSE OBJECTIVES:

 To acquire the knowledge about system specification and modelling
 To learn the formulation of partitioning
 To study the different technical aspects about prototyping and emulation

UNIT I SYSTEM SPECIFICATION AND MODELLING

Embedded Systems, Hardware/Software Co-Design, Co-Design for System Specification And Modeling, Co-Design for Heterogeneous Implementation – Processor Synthesis, Single-Processor Architectures With One ASIC, Single-Processor Architectures With Many ASICs, Multi-Processor Architectures, Comparison of Co-Design Approaches, Models of Computation, Requirements for Embedded System Specification.

UNIT II HARDWARE/SOFTWARE PARTITIONING

The Hardware/Software Partitioning Problem, Hardware-Software Cost Estimation, Generation of the Partitioning Graph, Formulation of the HW/SW Partitioning Problem, Optimization, HW/SW Partitioning Based On Heuristic Scheduling, HW/SW Partitioning Based On Genetic Algorithms.

UNIT III HARDWARE/SOFTWARE CO-SYNTHESIS

The Co-Synthesis Problem, State-Transition Graph, Refinement and Controller Generation, Distributed System Co-Synthesis Hardware software synthesis algorithms: hardware – software partitioning, distributed system co-synthesis.

UNIT IV PROTOTYPING AND EMULATION

Introduction, Prototyping And Emulation Techniques, Prototyping and Emulation Environments, Future Developments In Emulation and Prototyping, Target Architecture, Architecture Specialization Techniques, System Communication Infrastructure, Target Architectures and Application System Classes, Architectures for Control-Dominated Systems, Architectures for Data-Dominated Systems, Mixed Systems and Less Specialized Systems.

UNIT V DESIGN SPECIFICATION AND VERIFICATION

Concurrency, Coordinating Concurrent Computations, Interfacing Components, Verification, Languages for System-Level Specification and Design System-Level Specification, Design Representation for System Level Synthesis, System Level Specification Languages, Heterogeneous Specification and Multi-Language Co-Simulation

COURSE OUTCOMES:

At the end of this course, the students should will be able to:
CO1: describe the broad range of system architectures and design methodologies that currently exist and define their fundamental attributes.
CO2: discuss the dataflow models as a state-of-the-art methodology to solve co-design problems and to optimize the balance between software and hardware.
CO3: understand in translating between software and hardware descriptions through co-design methodologies.
CO4: understand the state-of-the-art practices in developing co-design solutions to problems using modern hardware/software tools for building prototypes.
CO5: understand the concurrent specification from an algorithm, analyze its behavior and partition the specification into software (C code) and hardware (HDL) components

TOTAL:45 PERIODS

REFERENCES

1. Patrick Schaumont, “a Practical Introduction To Hardware/Software Codesign”, Springer,2010.
2. Ralf Niemann, “Hardware/Software Co-Design for Data Flow Dominated Embedded Systems”, Kluwer Academic Publisher, 1998.
3. Jorgen Staunstrup, Wayne Wolf, “Hardware/Software Co-Design: Principles And Practice”, Kluwer Academic Publisher,1997.
4. Giovanni De Micheli, Rolf Ernst Morgon, “Reading In Hardware/Software Co-Design”, Kaufmann Publisher,2001.