Identifying controlling features of engineering design iteration
Management Science
An ASIP design methodology for embedded systems
CODES '99 Proceedings of the seventh international workshop on Hardware/software codesign
Hardware/Software CO-Design: Principles and Practice
Hardware/Software CO-Design: Principles and Practice
The Hierarchical Concurrent Flow Graph Approach for Modeling and Analysis of Design Processes
VLSID '01 Proceedings of the The 14th International Conference on VLSI Design (VLSID '01)
Image compression preprocessor design with task partitioning using coarse grained approach
ACOS'06 Proceedings of the 5th WSEAS international conference on Applied computer science
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With device counts on modern-day ASICs crossing the 10 million mark, careful planning of an ASIC design project is necessary to meet time deadlines. Two problems arise in this context. The first is the estimation of man-months for a project, with the knowledge of the ASIC design flow that will be followed for project execution. The second problem is that of making incremental changes to the design flow in order to reduce the time to complete a project. We consider these two problems in a theoretical framework. Starting from a textual description of the design flow, a model known as the "hierarchical concurrent flow graph" (HCFG) model is constructed to capture the concurrency in the execution of an ASIC design flow and the inherent hierarchy in such a flow. The HCFG model allows us to (a) quickly estimate the project execution time and (b) analyze the effect of introducing AND and OR concurrency in the flow to improve the execution time. We illustrate the use of the powerful estimation technique through two examples. The first example shows the use of AND concurrency in a back-end flow and the second example shows the use of OR concurrency in a software design flow.